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CHANG, TAIHYUN (장태현)
Div of Advanced Materials Science(첨단재료과학부)
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POLYSTYRENE:39||ANIONICPOLYMERIZATION:34||GRADIENT INTERACTION CHROMATOGRAPHY:31||SEPARATION:27||BEHAVIOR:24||LIQUIDCHROMATOGRAPHY:22||POLYMERS:22||SIZEEXCLUSION CHROMATOGRAPHY:19||BLOCKCOPOLYMERS:17||DIBLOCK COPOLYMERS:17||THINFILMS:16||POLYISOPRENE:14||HPLC:13||SYNTHETICPOLYMERS:12||PERFORMANCE LIQUIDCHROMATOGRAPHY:11||DIBLOCK COPOLYMER:11||MOLECULARWEIGHT DISTRIBUTION:10||MACROMOLECULES:10||BLOCKCOPOLYMER:10||REVERSEDPHASE:10||RETENTION BEHAVIOR:10||MORPHOLOGY:9||MOLECULARWEIGHT:9||MELTS:9||AROMATIC POLYIMIDES:8||XRAYSCATTERING:8||polystyrene:8||MIXTURES:7||block copolymer:7||SURFACES:7||DEPENDENCE:7||COPOLYMERS:7||POLYMERIZATION:7||AIR/WATER INTERFACE:7||DEFINED BRUSH POLYIMIDE:6||TEMPERATURE:6||FULLY RODLIKE BACKBONE:6||MONOLAYERS:6||POLYIMIDES:6||CHAIN:6||COMPLEX POLYMERS:6||MOLECULARREORIENTATION:6||temperature gradient interaction chromatography:6||POLYMERFILMS:6||GELPERMEATION CHROMATOGRAPHY:6||ELUTION:6||ORDERDISORDER TRANSITION:6||SURFACEMORPHOLOGY:6||ORIENTATION:6||SYSTEMS:6||CRITICAL ADSORPTION POINT:6||LIGHTSCATTERING:5||PROBE DIFFUSION:5||POLYDISPERSITY:5||AIRWATERINTERFACE:5||MICROPHASE SEPARATION:5||GLASSTRANSITION:5||BLENDS:5||FILMS:5||ADSORPTION CHROMATOGRAPHY:5||MECHANISM:5||CO2:5||ETHYLENEOXIDE:5||ALIGNMENT:5||COMPLEXES:5||FRACTIONATION:5||MISCIBILITY:5||POLYMER CHARACTERIZATION:5||HEXAGONALLY PERFORATED LAYER:5||TRANSITION:5||FLIGHT MASSSPECTROMETRY:5||ARCHITECTURE:5||POLY(METHYL METHACRYLATE):5||ALTERNATING COPOLYMERIZATION:4||THICKNESS:4||THERMODYNAMICS:4||CRITICAL RANGE:4||ULTRATHIN POLYMERFILMS:4||DYNAMICS:4||CLIMATECHANGE:4||PHASE:4||GLASSTRANSITION TEMPERATURE:4||EPOXIDE:4||selfassembly:4||SPECTROSCOPY:4||SELFDIFFUSION:4||SCATTERING:4||OPTICALPROPERTIES:4||CATALYSTS:4||CHEMISTRY:4||SOLARCELLS:4||polyimides:4||polypyromellitimides:4||SEGMENTAL REORIENTATIONS:4||ADSORPTION:4||INTERFACE:4||POLYMERSOLUTIONS:4||TRACER DIFFUSION:4||OXIDE) DIBLOCK COPOLYMER:4||POLYSTYRENEBPOLY(METHYL METHACRYLATE):4||POLYMER BLENDS:4||SIMULATION:4||CHAIN ORIENTATION:4||STYRENE:4||TOF MASSSPECTROMETRY:4||WATER:4||DISPLAYS:4||OLIGOMERS:4||PEPTIDES:4||CYCLIC POLYSTYRENE:4||LATTICE CLUSTER THEORY:4||2NDHARMONIC GENERATION:4||LIQUIDCRYSTAL ALIGNMENT:4||MONTECARLO:4||LangmuirBlodgett film:3||ASSEMBLIES:3||chromatography:3||HOLOGRAPHIC RELAXATION SPECTROSCOPY:3||MULTIPLE MORPHOLOGIES:3||INTERACTION CHROMATOGRAPHY:3||NORMALPHASE:3||DIFFUSION:3||BRANCHED POLYSTYRENE:3||NANOPARTICLES:3||LITHOGRAPHY:3||POLYMER:3||LASERLIGHTSCATTERING:3||HIGH MOLECULARWEIGHT:3||CUBIC PHASE:3||AMPHIPHILIC BLOCKCOPOLYMERS:3||AQUEOUSSOLUTION:3||MODEL:3||FORCED RAYLEIGHSCATTERING:3||HYDRODYNAMIC PROPERTIES:3||4MIKTOARM STAR COPOLYMER:3||SYSTEM:3||PHASEBEHAVIOR:3||AQUEOUSSOLUTIONS:3||RHEOLOGY:3||LB film:3||2DIMENSIONAL LIQUIDCHROMATOGRAPHY:3||VISCOSITY:3||DIBLOCK COPOLYMER MELTS:3||ORDERORDER TRANSITION:3||GYROID PHASE:3||BINDING:3||BLOCK POLYELECTROLYTES:3||DERIVATIVES:3||MELT:3||PHASE LIQUIDCHROMATOGRAPHY:3||high temperature:3||ELEVATEDTEMPERATURE:3||RETENTION:3||MICELLE FORMATION:3||ELECTRONMICROSCOPY:3||Electrospray ionization:2||FRACTIONS:2||nalkanes:2||ISOCRATIC SEPARATION:2||ASSOCIATION:2||POLY(METHYL METHACRYLATE)S:2||2D correlation spectroscopy:2||CARBONATION:2||GLASSTRANSITION BEHAVIORS:2||MECHANICAL PROPERTIES:2||DIMENSIONS:2||POLYMER MIXTURES:2||ALUMINUM PORPHYRIN:2||LEAD STEARATE:2||FERROCENE:2||POLY(EPSILONCAPROLACTONE):2||DIAGRAM:2||nucleosides:2||Selective recognition by preconcentration:2||Electrochemical impedance spectroscopy:2||DOPAMINE:2||Silica:2||Silyl Ester:2||DIETHYL ESTER) PRECURSORS:2||SURFACE CHARACTERIZATION:2||MICROSTRUCTURE:2||polystyreneblockpolyisoprene:2||MICROPHASESEPARATED STRUCTURES:2||IMPEDANCE MEASUREMENTS:2||HEMEPROTEINS:2||SOLID SUBSTRATE:2||MOISTURE ABSORPTION:2||aromatic polyimide:2||INDUCED MORPHOLOGICALCHANGES:2||STABILITY:2||LC alignment layers:2||POLYPYROMELLITIMIDES:2||Ion mobility:2||Chiral polymer:2||OLIGOSACCHARIDES:2||OXIDE:2||SIDECHAIN:2||RETARDATION:2||functionality:2||temperature effects:2||phase transition:2||glass transition temperature:2||spincoated film:2||ESTER) PRECURSORS:2||PRECURSOR BLEND:2||Xray reflectivity:2||SIGMABONDS:2||aluminum porphyrin catalysts:2||METALLOPORPHYRIN:2||SILICON:2||MASSSPECTROMETRY ANALYSIS:2||STAR POLYMERS:2||SIZE DISTRIBUTIONS:2||GIANT VESICLES:2||POLY(3ALKYLTHIOPHENES):2||ADHESION:2||LIGHT:2||POLYSTYRENEBPOLYISOPRENE:2||HPLC fractionation:2||SILVER ELECTRODES:2||ENHANCED RESONANCE RAMAN:2||SEQUENCE:2||POLYELECTROLYTE/NONELECTROLYTE SHELLS:2||polyimide:2||liquid crystal alignment layer:2||SOLUBLE POLYIMIDES:2||POLYBUTADIENECOATED ZIRCONIA:2||PRETILT ANGLES:2||CROSSSECTIONS:2||IMSMS:2||POLYISOPRENE COPOLYMERS:2||POLYIMIDE THINFILMS:2||POLYMER SURFACES:2||RAMAN:2||STEREOREGULAR PMMA:2||poly(tertbutyl methacrylate) (PtBMA):2||TIME:2||POLYIMIDE COMPOSITE:2||CARBOXYLATO COMPLEXES:2||AGOSTIC INTERACTIONS:2||MOLECULARSTRUCTURE:2||ALKENE:2||TRANSISTOR MEMORY:2||DEVICES:2||ORTHOGONALITY:2||molecular characterization:2||ORGANOSILICATE DIELECTRIC FILMS:2||AMPHIPHILES:2||Serotonin:2||Anodic stripping differential pulse voltammetry:2||transmission electron microtomography:2||LIQUIDCHROMATOGRAPHY ANALYSIS:2||PHASEDIAGRAM:2||CARBON NANOTUBES:2||TRANSFER MECHANISM:2||BINARY MIXTURES:2||REFLECTOMETRY:2||ROD:2||DROPS:2||CONSTANT:2||TRIBLOCK COPOLYMER:2||POLYMER VESICLES:2||CLICK CHEMISTRY:2||ARRAYS:2||COMPOSITES:2||MALDITOF MS:2||POLYMER THINFILMS:2||HYDROPHOBIC INTERACTION CHROMATOGRAPHY:2||retention mechanism:2||GRAZINGINCIDENCE:2||NANOPOROSITY:2||soluble poly(amic esteraltimide)s:2||DIFFERENTIAL SCANNING CALORIMETRY:2||RESIDUALSTRESS:2||CHEMICALCOMPOSITION:2||POLY(AMIC DIETHYL ESTER) PRECURSOR:2||POLY(DIMETHYL SILOXANES):2||MASS POLYSTYRENES:2||cyclic propylene carbonate:2||propylene oxide:2||ACETATE) TOLUENE SOLUTIONS:2||TRANSIENT GRATING METHOD:2||MASS DIFFUSION:2||MICROPHASE SEPARATION TRANSITION:2||POLYSTYRENES:2||POLYSILANE:2||CARBOHYDRATEBASED PHOSPHOLIPIDS:2||HELICAL STRANDS:2||FLUORESCENCE DETECTION:2||SENSITIVE DETERMINATION:2||COMPOSITE FILMS:2||microphase:2||3MERCAPTOPROPIONIC ACID:2||BUTADIENE BLOCK COPOLYMER:2||HYBRID POLYMERIC MICELLES:2||AQUEOUSMEDIA:2||CONTACTANGLE:2||TRANSISTORCIRCUITS:2||ABTYPE POLY(ETHERIMIDE)S:2||CORRELATION SPECTROSCOPY:2||GASPHASE CONFORMATIONS:2||DECANE:2||INFRAREDSPECTROSCOPY:2||MICELLIZATION:2||ENERGIES:2||ACID) PRECURSORS:2||PHOTOALIGNMENT:2||polymers:2||SUBSTRATE:2||carbon dioxide:2||oligomeric propylene carbonate:2||THERMALDIFFUSION:2||CRYSTAL:2||PHASETRANSITION:2||REFLECTIVITY:2||ANALOGS:2||supramolecular chemistry:2||LYSOPHOSPHATIDIC ACID:2||PHOSPHOCHOLINE:2||POLY(3HEXYLTHIOPHENE):2||Receptor:2||MODIFIED GOLD ELECTRODES:2||ASCORBICACID:2||HUMAN URINE:2||Hybrid Nanocomposite:2||Dielectric Constant:2||AU(111) ELECTRODES:2||NANOFILMS:2||HYDROPHOBIC CORES:2||DRIVEN:2||FLEXIBLE SIDECHAINS:2||MESOGEN:2||size exclusion chromatography:2||ORGANIZATION:2||POLY(LACTIC ACID):2||MOLECULAR ARCHITECTURE:2||COUPLER:2||POLYSTYRENE COPOLYMER:2||diffusion coefficient:2||XRAY REFLECTIVITY:2||temperature gradient interaction chromatography polystyryllithium:2||VISCOELASTIC PROPERTIES:2||polyisoprene:2||CRYSTALSTRUCTURES:2||POLYCARBONATE:2||MULTILAYERS:2||DEPOSITION:2||FULL ADSORPTION MECHANISMS:2||QUANTUM DOTS:2||CRITICAL ORDERING TRANSITION:2||CORE:2||PARACRYSTALLINE DISTORTION:2||PERFORATED LAYER PHASE:2||liposomes:2||phospholipids:2||UNILAMELLAR VESICLES:2||VOLTAMMETRIC DETERMINATION:2||Polyimide:2||FOURIERTRANSFORM:2||SURFACE:2||SIZE EXCLUSION CHROMATOGRAPHY:2||NEUTRON REFLECTIVITY:2||ORDERED STRUCTURE:2||RIGID ROD POLYMERS:2||DISPLACEMENT POLYMERIZATION:2||PHOTOSENSITIVE POLYIMIDE:2||EFFICIENCY:2||films:2||Polylactide:2||CHROMATOGRAPHIC CRITICAL CONDITION:2||RETENTION MECHANISM:2||COPPER PHTHALOCYANINE:2||C60:2||COPOLYMER:2||micelle:2||LINEAR POLYETHYLENE:2||LIQUIDS:2||ARMS:2||HIGHPERFORMANCE LIQUID:2||alternating copolyimides:2||PHASE SEPARATION:2||POLYMERCHAINS:2||STYRYLPYRIDINIUM:2||ANGLES:2||MOBILITY:2||PROBE:2||ACIDS:2||BLUE:2||POSITIONS:2||CYCLOPENTADIENYL:2||HIGHMOLECULARWEIGHT:2||FUELCELLS:2||TIN OXIDE:2||NANOCRYSTALS:2||SURFACE MICELLE FORMATION:2||DISORDER TRANSITION:2||BIREFRINGENCE:2||LIPIDCOMPOSITION:2||CONJUGATED POLYMERS:2||GLASSYCARBON ELECTRODE:2||ELECTROCHEMICAL DETECTION:2||MULTIPLE DETECTION:2||aromatic polyimides:2||MOLECULARWEIGHT HOMOPOLYMERS:2||BINARYMIXTURE:2||PATTERNS:2||photoluminescent polyimide:2||photosensitive polyimide:2||DEPENDENT MICELLIZATION:2||SPEED:2||synthesis:2||COIL BLOCKCOPOLYMERS:2||LIQUIDCRYSTALLINE ASSEMBLIES:2||OXIDE):2||molecular weight distribution:2||CONJUGATED POLYMER:2||polymer characterization:2||NONIONIC SURFACTANTS:2||STEREOREGULAR POLY(METHYL METHACRYLATE):2||structure:2||RODLIKE POLYIMIDE:2||FLEXIBLE POLYIMIDE:2||THERMAL IMIDIZATION:2||IN SITU RODCHAIN FORMATION:2||PHASESEPARATION:2||VINYL ETHER):2||EQUILIBRIUM:2||STRESS:2||STRUCTURAL RELAXATION:2||LIVING POLYMERIZATION:2||CONTAIN:2||SALT:2||WAVEGUIDE:2||XRAY DIFFRACTION:2||WALLED CARBON NANOTUBES:2||SILICON NANOWIRES:2||IR:2||DIELECTRIC THINFILMS:2||Selfassembled monolayer:2||PARAMETERS:2||Temperature gradient interaction chromatography:2||SOLIDSURFACES:2||FLOW:2||RATES:2||PRECURSORS:2||FILM BALANCE:2||SIDECHAINS:2||SUPRAMOLECULAR MATERIALS:2||CHAINS:2||POLYSTYRENE:39||ANIONICPOLYMERIZATION:34||GRADIENT INTERACTION CHROMATOGRAPHY:31||SEPARATION:27||BEHAVIOR:24||LIQUIDCHROMATOGRAPHY:22||POLYMERS:22||SIZEEXCLUSION CHROMATOGRAPHY:19||BLOCKCOPOLYMERS:17||DIBLOCK COPOLYMERS:17||THINFILMS:16||POLYISOPRENE:14||HPLC:13||SYNTHETICPOLYMERS:12||PERFORMANCE LIQUIDCHROMATOGRAPHY:11||DIBLOCK COPOLYMER:11||MOLECULARWEIGHT DISTRIBUTION:10||MACROMOLECULES:10||BLOCKCOPOLYMER:10||REVERSEDPHASE:10||RETENTION BEHAVIOR:10||MORPHOLOGY:9||MOLECULARWEIGHT:9||MELTS:9||AROMATIC POLYIMIDES:8||XRAYSCATTERING:8||polystyrene:8||MIXTURES:7||block copolymer:7||SURFACES:7||DEPENDENCE:7||COPOLYMERS:7||POLYMERIZATION:7||AIR/WATER INTERFACE:7||DEFINED BRUSH POLYIMIDE:6||TEMPERATURE:6||FULLY RODLIKE BACKBONE:6||MONOLAYERS:6||POLYIMIDES:6||CHAIN:6||COMPLEX POLYMERS:6||MOLECULARREORIENTATION:6||temperature gradient interaction chromatography:6||POLYMERFILMS:6||GELPERMEATION CHROMATOGRAPHY:6||ELUTION:6||ORDERDISORDER TRANSITION:6||SURFACEMORPHOLOGY:6||ORIENTATION:6||SYSTEMS:6||CRITICAL ADSORPTION POINT:6||LIGHTSCATTERING:5||PROBE DIFFUSION:5||POLYDISPERSITY:5||AIRWATERINTERFACE:5||MICROPHASE SEPARATION:5||GLASSTRANSITION:5||BLENDS:5||FILMS:5||ADSORPTION CHROMATOGRAPHY:5||MECHANISM:5||CO2:5||ETHYLENEOXIDE:5||ALIGNMENT:5||COMPLEXES:5||FRACTIONATION:5||MISCIBILITY:5||POLYMER CHARACTERIZATION:5||HEXAGONALLY PERFORATED LAYER:5||TRANSITION:5||FLIGHT MASSSPECTROMETRY:5||ARCHITECTURE:5||POLY(METHYL METHACRYLATE):5||ALTERNATING COPOLYMERIZATION:4||THICKNESS:4||THERMODYNAMICS:4||CRITICAL RANGE:4||ULTRATHIN POLYMERFILMS:4||DYNAMICS:4||CLIMATECHANGE:4||PHASE:4||GLASSTRANSITION TEMPERATURE:4||EPOXIDE:4||selfassembly:4||SPECTROSCOPY:4||SELFDIFFUSION:4||SCATTERING:4||OPTICALPROPERTIES:4||CATALYSTS:4||CHEMISTRY:4||SOLARCELLS:4||polyimides:4||polypyromellitimides:4||SEGMENTAL REORIENTATIONS:4||ADSORPTION:4||INTERFACE:4||POLYMERSOLUTIONS:4||TRACER DIFFUSION:4||OXIDE) DIBLOCK COPOLYMER:4||POLYSTYRENEBPOLY(METHYL METHACRYLATE):4||POLYMER BLENDS:4||SIMULATION:4||CHAIN ORIENTATION:4||STYRENE:4||TOF MASSSPECTROMETRY:4||WATER:4||DISPLAYS:4||OLIGOMERS:4||PEPTIDES:4||CYCLIC POLYSTYRENE:4||LATTICE CLUSTER THEORY:4||2NDHARMONIC GENERATION:4||LIQUIDCRYSTAL ALIGNMENT:4||MONTECARLO:4||LangmuirBlodgett film:3||ASSEMBLIES:3||chromatography:3||HOLOGRAPHIC RELAXATION SPECTROSCOPY:3||MULTIPLE MORPHOLOGIES:3||INTERACTION CHROMATOGRAPHY:3||NORMALPHASE:3||DIFFUSION:3||BRANCHED POLYSTYRENE:3||NANOPARTICLES:3||LITHOGRAPHY:3||POLYMER:3||LASERLIGHTSCATTERING:3||HIGH MOLECULARWEIGHT:3||CUBIC PHASE:3||AMPHIPHILIC BLOCKCOPOLYMERS:3||AQUEOUSSOLUTION:3||MODEL:3||FORCED RAYLEIGHSCATTERING:3||HYDRODYNAMIC PROPERTIES:3||4MIKTOARM STAR COPOLYMER:3||SYSTEM:3||PHASEBEHAVIOR:3||AQUEOUSSOLUTIONS:3||RHEOLOGY:3||LB film:3||2DIMENSIONAL LIQUIDCHROMATOGRAPHY:3||VISCOSITY:3||DIBLOCK COPOLYMER MELTS:3||ORDERORDER TRANSITION:3||GYROID PHASE:3||BINDING:3||BLOCK POLYELECTROLYTES:3||DERIVATIVES:3||MELT:3||PHASE LIQUIDCHROMATOGRAPHY:3||high temperature:3||ELEVATEDTEMPERATURE:3||RETENTION:3||MICELLE FORMATION:3||ELECTRONMICROSCOPY:3||Electrospray ionization:2||FRACTIONS:2||nalkanes:2||ISOCRATIC SEPARATION:2||ASSOCIATION:2||POLY(METHYL METHACRYLATE)S:2||2D correlation spectroscopy:2||CARBONATION:2||GLASSTRANSITION BEHAVIORS:2||MECHANICAL PROPERTIES:2||DIMENSIONS:2||POLYMER MIXTURES:2||ALUMINUM PORPHYRIN:2||LEAD STEARATE:2||FERROCENE:2||POLY(EPSILONCAPROLACTONE):2||DIAGRAM:2||nucleosides:2||Selective recognition by preconcentration:2||Electrochemical impedance spectroscopy:2||DOPAMINE:2||Silica:2||Silyl Ester:2||DIETHYL ESTER) PRECURSORS:2||SURFACE CHARACTERIZATION:2||MICROSTRUCTURE:2||polystyreneblockpolyisoprene:2||MICROPHASESEPARATED STRUCTURES:2||IMPEDANCE MEASUREMENTS:2||HEMEPROTEINS:2||SOLID SUBSTRATE:2||MOISTURE ABSORPTION:2||aromatic polyimide:2||INDUCED MORPHOLOGICALCHANGES:2||STABILITY:2||LC alignment layers:2||POLYPYROMELLITIMIDES:2||Ion mobility:2||Chiral polymer:2||OLIGOSACCHARIDES:2||OXIDE:2||SIDECHAIN:2||RETARDATION:2||functionality:2||temperature effects:2||phase transition:2||glass transition temperature:2||spincoated film:2||ESTER) PRECURSORS:2||PRECURSOR BLEND:2||Xray reflectivity:2||SIGMABONDS:2||aluminum porphyrin catalysts:2||METALLOPORPHYRIN:2||SILICON:2||MASSSPECTROMETRY ANALYSIS:2||STAR POLYMERS:2||SIZE DISTRIBUTIONS:2||GIANT VESICLES:2||POLY(3ALKYLTHIOPHENES):2||ADHESION:2||LIGHT:2||POLYSTYRENEBPOLYISOPRENE:2||HPLC fractionation:2||SILVER ELECTRODES:2||ENHANCED RESONANCE RAMAN:2||SEQUENCE:2||POLYELECTROLYTE/NONELECTROLYTE SHELLS:2||polyimide:2||liquid crystal alignment layer:2||SOLUBLE POLYIMIDES:2||POLYBUTADIENECOATED ZIRCONIA:2||PRETILT ANGLES:2||CROSSSECTIONS:2||IMSMS:2||POLYISOPRENE COPOLYMERS:2||POLYIMIDE THINFILMS:2||POLYMER SURFACES:2||RAMAN:2||STEREOREGULAR PMMA:2||poly(tertbutyl methacrylate) (PtBMA):2||TIME:2||POLYIMIDE COMPOSITE:2||CARBOXYLATO COMPLEXES:2||AGOSTIC INTERACTIONS:2||MOLECULARSTRUCTURE:2||ALKENE:2||TRANSISTOR MEMORY:2||DEVICES:2||ORTHOGONALITY:2||molecular characterization:2||ORGANOSILICATE DIELECTRIC FILMS:2||AMPHIPHILES:2||Serotonin:2||Anodic stripping differential pulse voltammetry:2||transmission electron microtomography:2||LIQUIDCHROMATOGRAPHY ANALYSIS:2||PHASEDIAGRAM:2||CARBON NANOTUBES:2||TRANSFER MECHANISM:2||BINARY MIXTURES:2||REFLECTOMETRY:2||ROD:2||DROPS:2||CONSTANT:2||TRIBLOCK COPOLYMER:2||POLYMER VESICLES:2||CLICK CHEMISTRY:2||ARRAYS:2||COMPOSITES:2||MALDITOF MS:2||POLYMER THINFILMS:2||HYDROPHOBIC INTERACTION CHROMATOGRAPHY:2||retention mechanism:2||GRAZINGINCIDENCE:2||NANOPOROSITY:2||soluble poly(amic esteraltimide)s:2||DIFFERENTIAL SCANNING CALORIMETRY:2||RESIDUALSTRESS:2||CHEMICALCOMPOSITION:2||POLY(AMIC DIETHYL ESTER) PRECURSOR:2||POLY(DIMETHYL SILOXANES):2||MASS POLYSTYRENES:2||cyclic propylene carbonate:2||propylene oxide:2||ACETATE) TOLUENE SOLUTIONS:2||TRANSIENT GRATING METHOD:2||MASS DIFFUSION:2||MICROPHASE SEPARATION TRANSITION:2||POLYSTYRENES:2||POLYSILANE:2||CARBOHYDRATEBASED PHOSPHOLIPIDS:2||HELICAL STRANDS:2||FLUORESCENCE DETECTION:2||SENSITIVE DETERMINATION:2||COMPOSITE FILMS:2||microphase:2||3MERCAPTOPROPIONIC ACID:2||BUTADIENE BLOCK COPOLYMER:2||HYBRID POLYMERIC MICELLES:2||AQUEOUSMEDIA:2||CONTACTANGLE:2||TRANSISTORCIRCUITS:2||ABTYPE POLY(ETHERIMIDE)S:2||CORRELATION SPECTROSCOPY:2||GASPHASE CONFORMATIONS:2||DECANE:2||INFRAREDSPECTROSCOPY:2||MICELLIZATION:2||ENERGIES:2||ACID) PRECURSORS:2||PHOTOALIGNMENT:2||polymers:2||SUBSTRATE:2||carbon dioxide:2||oligomeric propylene carbonate:2||THERMALDIFFUSION:2||CRYSTAL:2||PHASETRANSITION:2||REFLECTIVITY:2||ANALOGS:2||supramolecular chemistry:2||LYSOPHOSPHATIDIC ACID:2||PHOSPHOCHOLINE:2||POLY(3HEXYLTHIOPHENE):2||Receptor:2||MODIFIED GOLD ELECTRODES:2||ASCORBICACID:2||HUMAN URINE:2||Hybrid Nanocomposite:2||Dielectric Constant:2||AU(111) ELECTRODES:2||NANOFILMS:2||HYDROPHOBIC CORES:2||DRIVEN:2||FLEXIBLE SIDECHAINS:2||MESOGEN:2||size exclusion chromatography:2||ORGANIZATION:2||POLY(LACTIC ACID):2||MOLECULAR ARCHITECTURE:2||COUPLER:2||POLYSTYRENE COPOLYMER:2||diffusion coefficient:2||XRAY REFLECTIVITY:2||temperature gradient interaction chromatography polystyryllithium:2||VISCOELASTIC PROPERTIES:2||polyisoprene:2||CRYSTALSTRUCTURES:2||POLYCARBONATE:2||MULTILAYERS:2||DEPOSITION:2||FULL ADSORPTION MECHANISMS:2||QUANTUM DOTS:2||CRITICAL ORDERING TRANSITION:2||CORE:2||PARACRYSTALLINE DISTORTION:2||PERFORATED LAYER PHASE:2||liposomes:2||phospholipids:2||UNILAMELLAR VESICLES:2||VOLTAMMETRIC DETERMINATION:2||Polyimide:2||FOURIERTRANSFORM:2||SURFACE:2||SIZE EXCLUSION CHROMATOGRAPHY:2||NEUTRON REFLECTIVITY:2||ORDERED STRUCTURE:2||RIGID ROD POLYMERS:2||DISPLACEMENT POLYMERIZATION:2||PHOTOSENSITIVE POLYIMIDE:2||EFFICIENCY:2||films:2||Polylactide:2||CHROMATOGRAPHIC CRITICAL CONDITION:2||RETENTION MECHANISM:2||COPPER PHTHALOCYANINE:2||C60:2||COPOLYMER:2||micelle:2||LINEAR POLYETHYLENE:2||LIQUIDS:2||ARMS:2||HIGHPERFORMANCE LIQUID:2||alternating copolyimides:2||PHASE SEPARATION:2||POLYMERCHAINS:2||STYRYLPYRIDINIUM:2||ANGLES:2||MOBILITY:2||PROBE:2||ACIDS:2||BLUE:2||POSITIONS:2||CYCLOPENTADIENYL:2||HIGHMOLECULARWEIGHT:2||FUELCELLS:2||TIN OXIDE:2||NANOCRYSTALS:2||SURFACE MICELLE FORMATION:2||DISORDER TRANSITION:2||BIREFRINGENCE:2||LIPIDCOMPOSITION:2||CONJUGATED POLYMERS:2||GLASSYCARBON ELECTRODE:2||ELECTROCHEMICAL DETECTION:2||MULTIPLE DETECTION:2||aromatic polyimides:2||MOLECULARWEIGHT HOMOPOLYMERS:2||BINARYMIXTURE:2||PATTERNS:2||photoluminescent polyimide:2||photosensitive polyimide:2||DEPENDENT MICELLIZATION:2||SPEED:2||synthesis:2||COIL BLOCKCOPOLYMERS:2||LIQUIDCRYSTALLINE ASSEMBLIES:2||OXIDE):2||molecular weight distribution:2||CONJUGATED POLYMER:2||polymer characterization:2||NONIONIC SURFACTANTS:2||STEREOREGULAR POLY(METHYL METHACRYLATE):2||structure:2||RODLIKE POLYIMIDE:2||FLEXIBLE POLYIMIDE:2||THERMAL IMIDIZATION:2||IN SITU RODCHAIN FORMATION:2||PHASESEPARATION:2||VINYL ETHER):2||EQUILIBRIUM:2||STRESS:2||STRUCTURAL RELAXATION:2||LIVING POLYMERIZATION:2||CONTAIN:2||SALT:2||WAVEGUIDE:2||XRAY DIFFRACTION:2||WALLED CARBON NANOTUBES:2||SILICON NANOWIRES:2||IR:2||DIELECTRIC THINFILMS:2||Selfassembled monolayer:2||PARAMETERS:2||Temperature gradient interaction chromatography:2||SOLIDSURFACES:2||FLOW:2||RATES:2||PRECURSORS:2||FILM BALANCE:2||SIDECHAINS:2||SUPRAMOLECULAR MATERIALS:2||CHAINS:2||POLYSTYRENE:39||ANIONICPOLYMERIZATION:34||GRADIENT INTERACTION CHROMATOGRAPHY:31||SEPARATION:27||BEHAVIOR:24||LIQUIDCHROMATOGRAPHY:22||POLYMERS:22||SIZEEXCLUSION CHROMATOGRAPHY:19||BLOCKCOPOLYMERS:17||DIBLOCK COPOLYMERS:17||THINFILMS:16||POLYISOPRENE:14||HPLC:13||SYNTHETICPOLYMERS:12||PERFORMANCE LIQUIDCHROMATOGRAPHY:11||DIBLOCK COPOLYMER:11||MOLECULARWEIGHT DISTRIBUTION:10||MACROMOLECULES:10||BLOCKCOPOLYMER:10||REVERSEDPHASE:10||RETENTION BEHAVIOR:10||MORPHOLOGY:9||MOLECULARWEIGHT:9||MELTS:9||AROMATIC POLYIMIDES:8||XRAYSCATTERING:8||polystyrene:8||MIXTURES:7||block copolymer:7||SURFACES:7||DEPENDENCE:7||COPOLYMERS:7||POLYMERIZATION:7||AIR/WATER INTERFACE:7||DEFINED BRUSH POLYIMIDE:6||TEMPERATURE:6||FULLY RODLIKE BACKBONE:6||MONOLAYERS:6||POLYIMIDES:6||CHAIN:6||COMPLEX POLYMERS:6||MOLECULARREORIENTATION:6||temperature gradient interaction chromatography:6||POLYMERFILMS:6||GELPERMEATION CHROMATOGRAPHY:6||ELUTION:6||ORDERDISORDER TRANSITION:6||SURFACEMORPHOLOGY:6||ORIENTATION:6||SYSTEMS:6||CRITICAL ADSORPTION POINT:6||LIGHTSCATTERING:5||PROBE DIFFUSION:5||POLYDISPERSITY:5||AIRWATERINTERFACE:5||MICROPHASE SEPARATION:5||GLASSTRANSITION:5||BLENDS:5||FILMS:5||ADSORPTION CHROMATOGRAPHY:5||MECHANISM:5||CO2:5||ETHYLENEOXIDE:5||ALIGNMENT:5||COMPLEXES:5||FRACTIONATION:5||MISCIBILITY:5||POLYMER CHARACTERIZATION:5||HEXAGONALLY PERFORATED LAYER:5||TRANSITION:5||FLIGHT MASSSPECTROMETRY:5||ARCHITECTURE:5||POLY(METHYL METHACRYLATE):5||ALTERNATING COPOLYMERIZATION:4||THICKNESS:4||THERMODYNAMICS:4||CRITICAL RANGE:4||ULTRATHIN POLYMERFILMS:4||DYNAMICS:4||CLIMATECHANGE:4||PHASE:4||GLASSTRANSITION TEMPERATURE:4||EPOXIDE:4||selfassembly:4||SPECTROSCOPY:4||SELFDIFFUSION:4||SCATTERING:4||OPTICALPROPERTIES:4||CATALYSTS:4||CHEMISTRY:4||SOLARCELLS:4||polyimides:4||polypyromellitimides:4||SEGMENTAL REORIENTATIONS:4||ADSORPTION:4||INTERFACE:4||POLYMERSOLUTIONS:4||TRACER DIFFUSION:4||OXIDE) DIBLOCK COPOLYMER:4||POLYSTYRENEBPOLY(METHYL METHACRYLATE):4||POLYMER BLENDS:4||SIMULATION:4||CHAIN ORIENTATION:4||STYRENE:4||TOF MASSSPECTROMETRY:4||WATER:4||DISPLAYS:4||OLIGOMERS:4||PEPTIDES:4||CYCLIC POLYSTYRENE:4||LATTICE CLUSTER THEORY:4||2NDHARMONIC GENERATION:4||LIQUIDCRYSTAL ALIGNMENT:4||MONTECARLO:4||LangmuirBlodgett film:3||ASSEMBLIES:3||chromatography:3||HOLOGRAPHIC RELAXATION SPECTROSCOPY:3||MULTIPLE MORPHOLOGIES:3||INTERACTION CHROMATOGRAPHY:3||NORMALPHASE:3||DIFFUSION:3||BRANCHED POLYSTYRENE:3||NANOPARTICLES:3||LITHOGRAPHY:3||POLYMER:3||LASERLIGHTSCATTERING:3||HIGH MOLECULARWEIGHT:3||CUBIC PHASE:3||AMPHIPHILIC BLOCKCOPOLYMERS:3||AQUEOUSSOLUTION:3||MODEL:3||FORCED RAYLEIGHSCATTERING:3||HYDRODYNAMIC PROPERTIES:3||4MIKTOARM STAR COPOLYMER:3||SYSTEM:3||PHASEBEHAVIOR:3||AQUEOUSSOLUTIONS:3||RHEOLOGY:3||LB film:3||2DIMENSIONAL LIQUIDCHROMATOGRAPHY:3||VISCOSITY:3||DIBLOCK COPOLYMER MELTS:3||ORDERORDER TRANSITION:3||GYROID PHASE:3||BINDING:3||BLOCK POLYELECTROLYTES:3||DERIVATIVES:3||MELT:3||PHASE LIQUIDCHROMATOGRAPHY:3||high temperature:3||ELEVATEDTEMPERATURE:3||RETENTION:3||MICELLE FORMATION:3||ELECTRONMICROSCOPY:3||Electrospray ionization:2||FRACTIONS:2||nalkanes:2||ISOCRATIC SEPARATION:2||ASSOCIATION:2||POLY(METHYL METHACRYLATE)S:2||2D correlation spectroscopy:2||CARBONATION:2||GLASSTRANSITION BEHAVIORS:2||MECHANICAL PROPERTIES:2||DIMENSIONS:2||POLYMER MIXTURES:2||ALUMINUM PORPHYRIN:2||LEAD STEARATE:2||FERROCENE:2||POLY(EPSILONCAPROLACTONE):2||DIAGRAM:2||nucleosides:2||Selective recognition by preconcentration:2||Electrochemical impedance spectroscopy:2||DOPAMINE:2||Silica:2||Silyl Ester:2||DIETHYL ESTER) PRECURSORS:2||SURFACE CHARACTERIZATION:2||MICROSTRUCTURE:2||polystyreneblockpolyisoprene:2||MICROPHASESEPARATED STRUCTURES:2||IMPEDANCE MEASUREMENTS:2||HEMEPROTEINS:2||SOLID SUBSTRATE:2||MOISTURE ABSORPTION:2||aromatic polyimide:2||INDUCED MORPHOLOGICALCHANGES:2||STABILITY:2||LC alignment layers:2||POLYPYROMELLITIMIDES:2||Ion mobility:2||Chiral polymer:2||OLIGOSACCHARIDES:2||OXIDE:2||SIDECHAIN:2||RETARDATION:2||functionality:2||temperature effects:2||phase transition:2||glass transition temperature:2||spincoated film:2||ESTER) PRECURSORS:2||PRECURSOR BLEND:2||Xray reflectivity:2||SIGMABONDS:2||aluminum porphyrin catalysts:2||METALLOPORPHYRIN:2||SILICON:2||MASSSPECTROMETRY ANALYSIS:2||STAR POLYMERS:2||SIZE DISTRIBUTIONS:2||GIANT VESICLES:2||POLY(3ALKYLTHIOPHENES):2||ADHESION:2||LIGHT:2||POLYSTYRENEBPOLYISOPRENE:2||HPLC fractionation:2||SILVER ELECTRODES:2||ENHANCED RESONANCE RAMAN:2||SEQUENCE:2||POLYELECTROLYTE/NONELECTROLYTE SHELLS:2||polyimide:2||liquid crystal alignment layer:2||SOLUBLE POLYIMIDES:2||POLYBUTADIENECOATED ZIRCONIA:2||PRETILT ANGLES:2||CROSSSECTIONS:2||IMSMS:2||POLYISOPRENE COPOLYMERS:2||POLYIMIDE THINFILMS:2||POLYMER SURFACES:2||RAMAN:2||STEREOREGULAR PMMA:2||poly(tertbutyl methacrylate) (PtBMA):2||TIME:2||POLYIMIDE COMPOSITE:2||CARBOXYLATO COMPLEXES:2||AGOSTIC INTERACTIONS:2||MOLECULARSTRUCTURE:2||ALKENE:2||TRANSISTOR MEMORY:2||DEVICES:2||ORTHOGONALITY:2||molecular characterization:2||ORGANOSILICATE DIELECTRIC FILMS:2||AMPHIPHILES:2||Serotonin:2||Anodic stripping differential pulse voltammetry:2||transmission electron microtomography:2||LIQUIDCHROMATOGRAPHY ANALYSIS:2||PHASEDIAGRAM:2||CARBON NANOTUBES:2||TRANSFER MECHANISM:2||BINARY MIXTURES:2||REFLECTOMETRY:2||ROD:2||DROPS:2||CONSTANT:2||TRIBLOCK COPOLYMER:2||POLYMER VESICLES:2||CLICK CHEMISTRY:2||ARRAYS:2||COMPOSITES:2||MALDITOF MS:2||POLYMER THINFILMS:2||HYDROPHOBIC INTERACTION CHROMATOGRAPHY:2||retention mechanism:2||GRAZINGINCIDENCE:2||NANOPOROSITY:2||soluble poly(amic esteraltimide)s:2||DIFFERENTIAL SCANNING CALORIMETRY:2||RESIDUALSTRESS:2||CHEMICALCOMPOSITION:2||POLY(AMIC DIETHYL ESTER) PRECURSOR:2||POLY(DIMETHYL SILOXANES):2||MASS POLYSTYRENES:2||cyclic propylene carbonate:2||propylene oxide:2||ACETATE) TOLUENE SOLUTIONS:2||TRANSIENT GRATING METHOD:2||MASS DIFFUSION:2||MICROPHASE SEPARATION TRANSITION:2||POLYSTYRENES:2||POLYSILANE:2||CARBOHYDRATEBASED PHOSPHOLIPIDS:2||HELICAL STRANDS:2||FLUORESCENCE DETECTION:2||SENSITIVE DETERMINATION:2||COMPOSITE FILMS:2||microphase:2||3MERCAPTOPROPIONIC ACID:2||BUTADIENE BLOCK COPOLYMER:2||HYBRID POLYMERIC MICELLES:2||AQUEOUSMEDIA:2||CONTACTANGLE:2||TRANSISTORCIRCUITS:2||ABTYPE POLY(ETHERIMIDE)S:2||CORRELATION SPECTROSCOPY:2||GASPHASE CONFORMATIONS:2||DECANE:2||INFRAREDSPECTROSCOPY:2||MICELLIZATION:2||ENERGIES:2||ACID) PRECURSORS:2||PHOTOALIGNMENT:2||polymers:2||SUBSTRATE:2||carbon dioxide:2||oligomeric propylene carbonate:2||THERMALDIFFUSION:2||CRYSTAL:2||PHASETRANSITION:2||REFLECTIVITY:2||ANALOGS:2||supramolecular chemistry:2||LYSOPHOSPHATIDIC ACID:2||PHOSPHOCHOLINE:2||POLY(3HEXYLTHIOPHENE):2||Receptor:2||MODIFIED GOLD ELECTRODES:2||ASCORBICACID:2||HUMAN URINE:2||Hybrid Nanocomposite:2||Dielectric Constant:2||AU(111) ELECTRODES:2||NANOFILMS:2||HYDROPHOBIC CORES:2||DRIVEN:2||FLEXIBLE SIDECHAINS:2||MESOGEN:2||size exclusion chromatography:2||ORGANIZATION:2||POLY(LACTIC ACID):2||MOLECULAR ARCHITECTURE:2||COUPLER:2||POLYSTYRENE COPOLYMER:2||diffusion coefficient:2||XRAY REFLECTIVITY:2||temperature gradient interaction chromatography polystyryllithium:2||VISCOELASTIC PROPERTIES:2||polyisoprene:2||CRYSTALSTRUCTURES:2||POLYCARBONATE:2||MULTILAYERS:2||DEPOSITION:2||FULL ADSORPTION MECHANISMS:2||QUANTUM DOTS:2||CRITICAL ORDERING TRANSITION:2||CORE:2||PARACRYSTALLINE DISTORTION:2||PERFORATED LAYER PHASE:2||liposomes:2||phospholipids:2||UNILAMELLAR VESICLES:2||VOLTAMMETRIC DETERMINATION:2||Polyimide:2||FOURIERTRANSFORM:2||SURFACE:2||SIZE EXCLUSION CHROMATOGRAPHY:2||NEUTRON REFLECTIVITY:2||ORDERED STRUCTURE:2||RIGID ROD POLYMERS:2||DISPLACEMENT POLYMERIZATION:2||PHOTOSENSITIVE POLYIMIDE:2||EFFICIENCY:2||films:2||Polylactide:2||CHROMATOGRAPHIC CRITICAL CONDITION:2||RETENTION MECHANISM:2||COPPER PHTHALOCYANINE:2||C60:2||COPOLYMER:2||micelle:2||LINEAR POLYETHYLENE:2||LIQUIDS:2||ARMS:2||HIGHPERFORMANCE LIQUID:2||alternating copolyimides:2||PHASE SEPARATION:2||POLYMERCHAINS:2||STYRYLPYRIDINIUM:2||ANGLES:2||MOBILITY:2||PROBE:2||ACIDS:2||BLUE:2||POSITIONS:2||CYCLOPENTADIENYL:2||HIGHMOLECULARWEIGHT:2||FUELCELLS:2||TIN OXIDE:2||NANOCRYSTALS:2||SURFACE MICELLE FORMATION:2||DISORDER TRANSITION:2||BIREFRINGENCE:2||LIPIDCOMPOSITION:2||CONJUGATED POLYMERS:2||GLASSYCARBON ELECTRODE:2||ELECTROCHEMICAL DETECTION:2||MULTIPLE DETECTION:2||aromatic polyimides:2||MOLECULARWEIGHT HOMOPOLYMERS:2||BINARYMIXTURE:2||PATTERNS:2||photoluminescent polyimide:2||photosensitive polyimide:2||DEPENDENT MICELLIZATION:2||SPEED:2||synthesis:2||COIL BLOCKCOPOLYMERS:2||LIQUIDCRYSTALLINE ASSEMBLIES:2||OXIDE):2||molecular weight distribution:2||CONJUGATED POLYMER:2||polymer characterization:2||NONIONIC SURFACTANTS:2||STEREOREGULAR POLY(METHYL METHACRYLATE):2||structure:2||RODLIKE POLYIMIDE:2||FLEXIBLE POLYIMIDE:2||THERMAL IMIDIZATION:2||IN SITU RODCHAIN FORMATION:2||PHASESEPARATION:2||VINYL ETHER):2||EQUILIBRIUM:2||STRESS:2||STRUCTURAL RELAXATION:2||LIVING POLYMERIZATION:2||CONTAIN:2||SALT:2||WAVEGUIDE:2||XRAY DIFFRACTION:2||WALLED CARBON NANOTUBES:2||SILICON NANOWIRES:2||IR:2||DIELECTRIC THINFILMS:2||Selfassembled monolayer:2||PARAMETERS:2||Temperature gradient interaction chromatography:2||SOLIDSURFACES:2||FLOW:2||RATES:2||PRECURSORS:2||FILM BALANCE:2||SIDECHAINS:2||SUPRAMOLECULAR MATERIALS:2||CHAINS:2||POLYSTYRENE:39||ANIONICPOLYMERIZATION:34||GRADIENT INTERACTION CHROMATOGRAPHY:31||SEPARATION:27||BEHAVIOR:24||LIQUIDCHROMATOGRAPHY:22||POLYMERS:22||SIZEEXCLUSION CHROMATOGRAPHY:19||BLOCKCOPOLYMERS:17||DIBLOCK COPOLYMERS:17||THINFILMS:16||POLYISOPRENE:14||HPLC:13||SYNTHETICPOLYMERS:12||PERFORMANCE LIQUIDCHROMATOGRAPHY:11||DIBLOCK COPOLYMER:11||MOLECULARWEIGHT DISTRIBUTION:10||MACROMOLECULES:10||BLOCKCOPOLYMER:10||REVERSEDPHASE:10||RETENTION BEHAVIOR:10||MORPHOLOGY:9||MOLECULARWEIGHT:9||MELTS:9||AROMATIC POLYIMIDES:8||XRAYSCATTERING:8||polystyrene:8||MIXTURES:7||block copolymer:7||SURFACES:7||DEPENDENCE:7||COPOLYMERS:7||POLYMERIZATION:7||AIR/WATER INTERFACE:7||DEFINED BRUSH POLYIMIDE:6||TEMPERATURE:6||FULLY RODLIKE BACKBONE:6||MONOLAYERS:6||POLYIMIDES:6||CHAIN:6||COMPLEX POLYMERS:6||MOLECULARREORIENTATION:6||temperature gradient interaction chromatography:6||POLYMERFILMS:6||GELPERMEATION CHROMATOGRAPHY:6||ELUTION:6||ORDERDISORDER TRANSITION:6||SURFACEMORPHOLOGY:6||ORIENTATION:6||SYSTEMS:6||CRITICAL ADSORPTION POINT:6||LIGHTSCATTERING:5||PROBE DIFFUSION:5||POLYDISPERSITY:5||AIRWATERINTERFACE:5||MICROPHASE SEPARATION:5||GLASSTRANSITION:5||BLENDS:5||FILMS:5||ADSORPTION CHROMATOGRAPHY:5||MECHANISM:5||CO2:5||ETHYLENEOXIDE:5||ALIGNMENT:5||COMPLEXES:5||FRACTIONATION:5||MISCIBILITY:5||POLYMER CHARACTERIZATION:5||HEXAGONALLY PERFORATED LAYER:5||TRANSITION:5||FLIGHT MASSSPECTROMETRY:5||ARCHITECTURE:5||POLY(METHYL METHACRYLATE):5||ALTERNATING COPOLYMERIZATION:4||THICKNESS:4||THERMODYNAMICS:4||CRITICAL RANGE:4||ULTRATHIN POLYMERFILMS:4||DYNAMICS:4||CLIMATECHANGE:4||PHASE:4||GLASSTRANSITION TEMPERATURE:4||EPOXIDE:4||selfassembly:4||SPECTROSCOPY:4||SELFDIFFUSION:4||SCATTERING:4||OPTICALPROPERTIES:4||CATALYSTS:4||CHEMISTRY:4||SOLARCELLS:4||polyimides:4||polypyromellitimides:4||SEGMENTAL REORIENTATIONS:4||ADSORPTION:4||INTERFACE:4||POLYMERSOLUTIONS:4||TRACER DIFFUSION:4||OXIDE) DIBLOCK COPOLYMER:4||POLYSTYRENEBPOLY(METHYL METHACRYLATE):4||POLYMER BLENDS:4||SIMULATION:4||CHAIN ORIENTATION:4||STYRENE:4||TOF MASSSPECTROMETRY:4||WATER:4||DISPLAYS:4||OLIGOMERS:4||PEPTIDES:4||CYCLIC POLYSTYRENE:4||LATTICE CLUSTER THEORY:4||2NDHARMONIC GENERATION:4||LIQUIDCRYSTAL ALIGNMENT:4||MONTECARLO:4||LangmuirBlodgett film:3||ASSEMBLIES:3||chromatography:3||HOLOGRAPHIC RELAXATION SPECTROSCOPY:3||MULTIPLE MORPHOLOGIES:3||INTERACTION CHROMATOGRAPHY:3||NORMALPHASE:3||DIFFUSION:3||BRANCHED POLYSTYRENE:3||NANOPARTICLES:3||LITHOGRAPHY:3||POLYMER:3||LASERLIGHTSCATTERING:3||HIGH MOLECULARWEIGHT:3||CUBIC PHASE:3||AMPHIPHILIC BLOCKCOPOLYMERS:3||AQUEOUSSOLUTION:3||MODEL:3||FORCED RAYLEIGHSCATTERING:3||HYDRODYNAMIC PROPERTIES:3||4MIKTOARM STAR COPOLYMER:3||SYSTEM:3||PHASEBEHAVIOR:3||AQUEOUSSOLUTIONS:3||RHEOLOGY:3||LB film:3||2DIMENSIONAL LIQUIDCHROMATOGRAPHY:3||VISCOSITY:3||DIBLOCK COPOLYMER MELTS:3||ORDERORDER TRANSITION:3||GYROID PHASE:3||BINDING:3||BLOCK POLYELECTROLYTES:3||DERIVATIVES:3||MELT:3||PHASE LIQUIDCHROMATOGRAPHY:3||high temperature:3||ELEVATEDTEMPERATURE:3||RETENTION:3||MICELLE FORMATION:3||ELECTRONMICROSCOPY:3||Electrospray ionization:2||FRACTIONS:2||nalkanes:2||ISOCRATIC SEPARATION:2||ASSOCIATION:2||POLY(METHYL METHACRYLATE)S:2||2D correlation spectroscopy:2||CARBONATION:2||GLASSTRANSITION BEHAVIORS:2||MECHANICAL PROPERTIES:2||DIMENSIONS:2||POLYMER MIXTURES:2||ALUMINUM PORPHYRIN:2||LEAD STEARATE:2||FERROCENE:2||POLY(EPSILONCAPROLACTONE):2||DIAGRAM:2||nucleosides:2||Selective recognition by preconcentration:2||Electrochemical impedance spectroscopy:2||DOPAMINE:2||Silica:2||Silyl Ester:2||DIETHYL ESTER) PRECURSORS:2||SURFACE CHARACTERIZATION:2||MICROSTRUCTURE:2||polystyreneblockpolyisoprene:2||MICROPHASESEPARATED STRUCTURES:2||IMPEDANCE MEASUREMENTS:2||HEMEPROTEINS:2||SOLID SUBSTRATE:2||MOISTURE ABSORPTION:2||aromatic polyimide:2||INDUCED MORPHOLOGICALCHANGES:2||STABILITY:2||LC alignment layers:2||POLYPYROMELLITIMIDES:2||Ion mobility:2||Chiral polymer:2||OLIGOSACCHARIDES:2||OXIDE:2||SIDECHAIN:2||RETARDATION:2||functionality:2||temperature effects:2||phase transition:2||glass transition temperature:2||spincoated film:2||ESTER) PRECURSORS:2||PRECURSOR BLEND:2||Xray reflectivity:2||SIGMABONDS:2||aluminum porphyrin catalysts:2||METALLOPORPHYRIN:2||SILICON:2||MASSSPECTROMETRY ANALYSIS:2||STAR POLYMERS:2||SIZE DISTRIBUTIONS:2||GIANT VESICLES:2||POLY(3ALKYLTHIOPHENES):2||ADHESION:2||LIGHT:2||POLYSTYRENEBPOLYISOPRENE:2||HPLC fractionation:2||SILVER ELECTRODES:2||ENHANCED RESONANCE RAMAN:2||SEQUENCE:2||POLYELECTROLYTE/NONELECTROLYTE SHELLS:2||polyimide:2||liquid crystal alignment layer:2||SOLUBLE POLYIMIDES:2||POLYBUTADIENECOATED ZIRCONIA:2||PRETILT ANGLES:2||CROSSSECTIONS:2||IMSMS:2||POLYISOPRENE COPOLYMERS:2||POLYIMIDE THINFILMS:2||POLYMER SURFACES:2||RAMAN:2||STEREOREGULAR PMMA:2||poly(tertbutyl methacrylate) (PtBMA):2||TIME:2||POLYIMIDE COMPOSITE:2||CARBOXYLATO COMPLEXES:2||AGOSTIC INTERACTIONS:2||MOLECULARSTRUCTURE:2||ALKENE:2||TRANSISTOR MEMORY:2||DEVICES:2||ORTHOGONALITY:2||molecular characterization:2||ORGANOSILICATE DIELECTRIC FILMS:2||AMPHIPHILES:2||Serotonin:2||Anodic stripping differential pulse voltammetry:2||transmission electron microtomography:2||LIQUIDCHROMATOGRAPHY ANALYSIS:2||PHASEDIAGRAM:2||CARBON NANOTUBES:2||TRANSFER MECHANISM:2||BINARY MIXTURES:2||REFLECTOMETRY:2||ROD:2||DROPS:2||CONSTANT:2||TRIBLOCK COPOLYMER:2||POLYMER VESICLES:2||CLICK CHEMISTRY:2||ARRAYS:2||COMPOSITES:2||MALDITOF MS:2||POLYMER THINFILMS:2||HYDROPHOBIC INTERACTION CHROMATOGRAPHY:2||retention mechanism:2||GRAZINGINCIDENCE:2||NANOPOROSITY:2||soluble poly(amic esteraltimide)s:2||DIFFERENTIAL SCANNING CALORIMETRY:2||RESIDUALSTRESS:2||CHEMICALCOMPOSITION:2||POLY(AMIC DIETHYL ESTER) PRECURSOR:2||POLY(DIMETHYL SILOXANES):2||MASS POLYSTYRENES:2||cyclic propylene carbonate:2||propylene oxide:2||ACETATE) TOLUENE SOLUTIONS:2||TRANSIENT GRATING METHOD:2||MASS DIFFUSION:2||MICROPHASE SEPARATION TRANSITION:2||POLYSTYRENES:2||POLYSILANE:2||CARBOHYDRATEBASED PHOSPHOLIPIDS:2||HELICAL STRANDS:2||FLUORESCENCE DETECTION:2||SENSITIVE DETERMINATION:2||COMPOSITE FILMS:2||microphase:2||3MERCAPTOPROPIONIC ACID:2||BUTADIENE BLOCK COPOLYMER:2||HYBRID POLYMERIC MICELLES:2||AQUEOUSMEDIA:2||CONTACTANGLE:2||TRANSISTORCIRCUITS:2||ABTYPE POLY(ETHERIMIDE)S:2||CORRELATION SPECTROSCOPY:2||GASPHASE CONFORMATIONS:2||DECANE:2||INFRAREDSPECTROSCOPY:2||MICELLIZATION:2||ENERGIES:2||ACID) PRECURSORS:2||PHOTOALIGNMENT:2||polymers:2||SUBSTRATE:2||carbon dioxide:2||oligomeric propylene carbonate:2||THERMALDIFFUSION:2||CRYSTAL:2||PHASETRANSITION:2||REFLECTIVITY:2||ANALOGS:2||supramolecular chemistry:2||LYSOPHOSPHATIDIC ACID:2||PHOSPHOCHOLINE:2||POLY(3HEXYLTHIOPHENE):2||Receptor:2||MODIFIED GOLD ELECTRODES:2||ASCORBICACID:2||HUMAN URINE:2||Hybrid Nanocomposite:2||Dielectric Constant:2||AU(111) ELECTRODES:2||NANOFILMS:2||HYDROPHOBIC CORES:2||DRIVEN:2||FLEXIBLE SIDECHAINS:2||MESOGEN:2||size exclusion chromatography:2||ORGANIZATION:2||POLY(LACTIC ACID):2||MOLECULAR ARCHITECTURE:2||COUPLER:2||POLYSTYRENE COPOLYMER:2||diffusion coefficient:2||XRAY REFLECTIVITY:2||temperature gradient interaction chromatography polystyryllithium:2||VISCOELASTIC PROPERTIES:2||polyisoprene:2||CRYSTALSTRUCTURES:2||POLYCARBONATE:2||MULTILAYERS:2||DEPOSITION:2||FULL ADSORPTION MECHANISMS:2||QUANTUM DOTS:2||CRITICAL ORDERING TRANSITION:2||CORE:2||PARACRYSTALLINE DISTORTION:2||PERFORATED LAYER PHASE:2||liposomes:2||phospholipids:2||UNILAMELLAR VESICLES:2||VOLTAMMETRIC DETERMINATION:2||Polyimide:2||FOURIERTRANSFORM:2||SURFACE:2||SIZE EXCLUSION CHROMATOGRAPHY:2||NEUTRON REFLECTIVITY:2||ORDERED STRUCTURE:2||RIGID ROD POLYMERS:2||DISPLACEMENT POLYMERIZATION:2||PHOTOSENSITIVE POLYIMIDE:2||EFFICIENCY:2||films:2||Polylactide:2||CHROMATOGRAPHIC CRITICAL CONDITION:2||RETENTION MECHANISM:2||COPPER PHTHALOCYANINE:2||C60:2||COPOLYMER:2||micelle:2||LINEAR POLYETHYLENE:2||LIQUIDS:2||ARMS:2||HIGHPERFORMANCE LIQUID:2||alternating copolyimides:2||PHASE SEPARATION:2||POLYMERCHAINS:2||STYRYLPYRIDINIUM:2||ANGLES:2||MOBILITY:2||PROBE:2||ACIDS:2||BLUE:2||POSITIONS:2||CYCLOPENTADIENYL:2||HIGHMOLECULARWEIGHT:2||FUELCELLS:2||TIN OXIDE:2||NANOCRYSTALS:2||SURFACE MICELLE FORMATION:2||DISORDER TRANSITION:2||BIREFRINGENCE:2||LIPIDCOMPOSITION:2||CONJUGATED POLYMERS:2||GLASSYCARBON ELECTRODE:2||ELECTROCHEMICAL DETECTION:2||MULTIPLE DETECTION:2||aromatic polyimides:2||MOLECULARWEIGHT HOMOPOLYMERS:2||BINARYMIXTURE:2||PATTERNS:2||photoluminescent polyimide:2||photosensitive polyimide:2||DEPENDENT MICELLIZATION:2||SPEED:2||synthesis:2||COIL BLOCKCOPOLYMERS:2||LIQUIDCRYSTALLINE ASSEMBLIES:2||OXIDE):2||molecular weight distribution:2||CONJUGATED POLYMER:2||polymer characterization:2||NONIONIC SURFACTANTS:2||STEREOREGULAR POLY(METHYL METHACRYLATE):2||structure:2||RODLIKE POLYIMIDE:2||FLEXIBLE POLYIMIDE:2||THERMAL IMIDIZATION:2||IN SITU RODCHAIN FORMATION:2||PHASESEPARATION:2||VINYL ETHER):2||EQUILIBRIUM:2||STRESS:2||STRUCTURAL RELAXATION:2||LIVING POLYMERIZATION:2||CONTAIN:2||SALT:2||WAVEGUIDE:2||XRAY DIFFRACTION:2||WALLED CARBON NANOTUBES:2||SILICON NANOWIRES:2||IR:2||DIELECTRIC THINFILMS:2||Selfassembled monolayer:2||PARAMETERS:2||Temperature gradient interaction chromatography:2||SOLIDSURFACES:2||FLOW:2||RATES:2||PRECURSORS:2||FILM BALANCE:2||SIDECHAINS:2||SUPRAMOLECULAR MATERIALS:2||CHAINS:2||POLYSTYRENE:39||ANIONICPOLYMERIZATION:34||GRADIENT INTERACTION CHROMATOGRAPHY:31||SEPARATION:27||BEHAVIOR:24||LIQUIDCHROMATOGRAPHY:22||POLYMERS:22||SIZEEXCLUSION CHROMATOGRAPHY:19||BLOCKCOPOLYMERS:17||DIBLOCK COPOLYMERS:17||THINFILMS:16||POLYISOPRENE:14||HPLC:13||SYNTHETICPOLYMERS:12||PERFORMANCE LIQUIDCHROMATOGRAPHY:11||DIBLOCK COPOLYMER:11||MOLECULARWEIGHT DISTRIBUTION:10||MACROMOLECULES:10||BLOCKCOPOLYMER:10||REVERSEDPHASE:10||RETENTION BEHAVIOR:10||MORPHOLOGY:9||MOLECULARWEIGHT:9||MELTS:9||AROMATIC POLYIMIDES:8||XRAYSCATTERING:8||polystyrene:8||MIXTURES:7||block copolymer:7||SURFACES:7||DEPENDENCE:7||COPOLYMERS:7||POLYMERIZATION:7||AIR/WATER INTERFACE:7||DEFINED BRUSH POLYIMIDE:6||TEMPERATURE:6||FULLY RODLIKE BACKBONE:6||MONOLAYERS:6||POLYIMIDES:6||CHAIN:6||COMPLEX POLYMERS:6||MOLECULARREORIENTATION:6||temperature gradient interaction chromatography:6||POLYMERFILMS:6||GELPERMEATION CHROMATOGRAPHY:6||ELUTION:6||ORDERDISORDER TRANSITION:6||SURFACEMORPHOLOGY:6||ORIENTATION:6||SYSTEMS:6||CRITICAL ADSORPTION POINT:6||LIGHTSCATTERING:5||PROBE DIFFUSION:5||POLYDISPERSITY:5||AIRWATERINTERFACE:5||MICROPHASE SEPARATION:5||GLASSTRANSITION:5||BLENDS:5||FILMS:5||ADSORPTION CHROMATOGRAPHY:5||MECHANISM:5||CO2:5||ETHYLENEOXIDE:5||ALIGNMENT:5||COMPLEXES:5||FRACTIONATION:5||MISCIBILITY:5||POLYMER CHARACTERIZATION:5||HEXAGONALLY PERFORATED LAYER:5||TRANSITION:5||FLIGHT MASSSPECTROMETRY:5||ARCHITECTURE:5||POLY(METHYL METHACRYLATE):5||ALTERNATING COPOLYMERIZATION:4||THICKNESS:4||THERMODYNAMICS:4||CRITICAL RANGE:4||ULTRATHIN POLYMERFILMS:4||DYNAMICS:4||CLIMATECHANGE:4||PHASE:4||GLASSTRANSITION TEMPERATURE:4||EPOXIDE:4||selfassembly:4||SPECTROSCOPY:4||SELFDIFFUSION:4||SCATTERING:4||OPTICALPROPERTIES:4||CATALYSTS:4||CHEMISTRY:4||SOLARCELLS:4||polyimides:4||polypyromellitimides:4||SEGMENTAL REORIENTATIONS:4||ADSORPTION:4||INTERFACE:4||POLYMERSOLUTIONS:4||TRACER DIFFUSION:4||OXIDE) DIBLOCK COPOLYMER:4||POLYSTYRENEBPOLY(METHYL METHACRYLATE):4||POLYMER BLENDS:4||SIMULATION:4||CHAIN ORIENTATION:4||STYRENE:4||TOF MASSSPECTROMETRY:4||WATER:4||DISPLAYS:4||OLIGOMERS:4||PEPTIDES:4||CYCLIC POLYSTYRENE:4||LATTICE CLUSTER THEORY:4||2NDHARMONIC GENERATION:4||LIQUIDCRYSTAL ALIGNMENT:4||MONTECARLO:4||LangmuirBlodgett film:3||ASSEMBLIES:3||chromatography:3||HOLOGRAPHIC RELAXATION SPECTROSCOPY:3||MULTIPLE MORPHOLOGIES:3||INTERACTION CHROMATOGRAPHY:3||NORMALPHASE:3||DIFFUSION:3||BRANCHED POLYSTYRENE:3||NANOPARTICLES:3||LITHOGRAPHY:3||POLYMER:3||LASERLIGHTSCATTERING:3||HIGH MOLECULARWEIGHT:3||CUBIC PHASE:3||AMPHIPHILIC BLOCKCOPOLYMERS:3||AQUEOUSSOLUTION:3||MODEL:3||FORCED RAYLEIGHSCATTERING:3||HYDRODYNAMIC PROPERTIES:3||4MIKTOARM STAR COPOLYMER:3||SYSTEM:3||PHASEBEHAVIOR:3||AQUEOUSSOLUTIONS:3||RHEOLOGY:3||LB film:3||2DIMENSIONAL LIQUIDCHROMATOGRAPHY:3||VISCOSITY:3||DIBLOCK COPOLYMER MELTS:3||ORDERORDER TRANSITION:3||GYROID PHASE:3||BINDING:3||BLOCK POLYELECTROLYTES:3||DERIVATIVES:3||MELT:3||PHASE LIQUIDCHROMATOGRAPHY:3||high temperature:3||ELEVATEDTEMPERATURE:3||RETENTION:3||MICELLE FORMATION:3||ELECTRONMICROSCOPY:3||Electrospray ionization:2||FRACTIONS:2||nalkanes:2||ISOCRATIC SEPARATION:2||ASSOCIATION:2||POLY(METHYL METHACRYLATE)S:2||2D correlation spectroscopy:2||CARBONATION:2||GLASSTRANSITION BEHAVIORS:2||MECHANICAL PROPERTIES:2||DIMENSIONS:2||POLYMER MIXTURES:2||ALUMINUM PORPHYRIN:2||LEAD STEARATE:2||FERROCENE:2||POLY(EPSILONCAPROLACTONE):2||DIAGRAM:2||nucleosides:2||Selective recognition by preconcentration:2||Electrochemical impedance spectroscopy:2||DOPAMINE:2||Silica:2||Silyl Ester:2||DIETHYL ESTER) PRECURSORS:2||SURFACE CHARACTERIZATION:2||MICROSTRUCTURE:2||polystyreneblockpolyisoprene:2||MICROPHASESEPARATED STRUCTURES:2||IMPEDANCE MEASUREMENTS:2||HEMEPROTEINS:2||SOLID SUBSTRATE:2||MOISTURE ABSORPTION:2||aromatic polyimide:2||INDUCED MORPHOLOGICALCHANGES:2||STABILITY:2||LC alignment layers:2||POLYPYROMELLITIMIDES:2||Ion mobility:2||Chiral polymer:2||OLIGOSACCHARIDES:2||OXIDE:2||SIDECHAIN:2||RETARDATION:2||functionality:2||temperature effects:2||phase transition:2||glass transition temperature:2||spincoated film:2||ESTER) PRECURSORS:2||PRECURSOR BLEND:2||Xray reflectivity:2||SIGMABONDS:2||aluminum porphyrin catalysts:2||METALLOPORPHYRIN:2||SILICON:2||MASSSPECTROMETRY ANALYSIS:2||STAR POLYMERS:2||SIZE DISTRIBUTIONS:2||GIANT VESICLES:2||POLY(3ALKYLTHIOPHENES):2||ADHESION:2||LIGHT:2||POLYSTYRENEBPOLYISOPRENE:2||HPLC fractionation:2||SILVER ELECTRODES:2||ENHANCED RESONANCE RAMAN:2||SEQUENCE:2||POLYELECTROLYTE/NONELECTROLYTE SHELLS:2||polyimide:2||liquid crystal alignment layer:2||SOLUBLE POLYIMIDES:2||POLYBUTADIENECOATED ZIRCONIA:2||PRETILT ANGLES:2||CROSSSECTIONS:2||IMSMS:2||POLYISOPRENE COPOLYMERS:2||POLYIMIDE THINFILMS:2||POLYMER SURFACES:2||RAMAN:2||STEREOREGULAR PMMA:2||poly(tertbutyl methacrylate) (PtBMA):2||TIME:2||POLYIMIDE COMPOSITE:2||CARBOXYLATO COMPLEXES:2||AGOSTIC INTERACTIONS:2||MOLECULARSTRUCTURE:2||ALKENE:2||TRANSISTOR MEMORY:2||DEVICES:2||ORTHOGONALITY:2||molecular characterization:2||ORGANOSILICATE DIELECTRIC FILMS:2||AMPHIPHILES:2||Serotonin:2||Anodic stripping differential pulse voltammetry:2||transmission electron microtomography:2||LIQUIDCHROMATOGRAPHY ANALYSIS:2||PHASEDIAGRAM:2||CARBON NANOTUBES:2||TRANSFER MECHANISM:2||BINARY MIXTURES:2||REFLECTOMETRY:2||ROD:2||DROPS:2||CONSTANT:2||TRIBLOCK COPOLYMER:2||POLYMER VESICLES:2||CLICK CHEMISTRY:2||ARRAYS:2||COMPOSITES:2||MALDITOF MS:2||POLYMER THINFILMS:2||HYDROPHOBIC INTERACTION CHROMATOGRAPHY:2||retention mechanism:2||GRAZINGINCIDENCE:2||NANOPOROSITY:2||soluble poly(amic esteraltimide)s:2||DIFFERENTIAL SCANNING CALORIMETRY:2||RESIDUALSTRESS:2||CHEMICALCOMPOSITION:2||POLY(AMIC DIETHYL ESTER) PRECURSOR:2||POLY(DIMETHYL SILOXANES):2||MASS POLYSTYRENES:2||cyclic propylene carbonate:2||propylene oxide:2||ACETATE) TOLUENE SOLUTIONS:2||TRANSIENT GRATING METHOD:2||MASS DIFFUSION:2||MICROPHASE SEPARATION TRANSITION:2||POLYSTYRENES:2||POLYSILANE:2||CARBOHYDRATEBASED PHOSPHOLIPIDS:2||HELICAL STRANDS:2||FLUORESCENCE DETECTION:2||SENSITIVE DETERMINATION:2||COMPOSITE FILMS:2||microphase:2||3MERCAPTOPROPIONIC ACID:2||BUTADIENE BLOCK COPOLYMER:2||HYBRID POLYMERIC MICELLES:2||AQUEOUSMEDIA:2||CONTACTANGLE:2||TRANSISTORCIRCUITS:2||ABTYPE POLY(ETHERIMIDE)S:2||CORRELATION SPECTROSCOPY:2||GASPHASE CONFORMATIONS:2||DECANE:2||INFRAREDSPECTROSCOPY:2||MICELLIZATION:2||ENERGIES:2||ACID) PRECURSORS:2||PHOTOALIGNMENT:2||polymers:2||SUBSTRATE:2||carbon dioxide:2||oligomeric propylene carbonate:2||THERMALDIFFUSION:2||CRYSTAL:2||PHASETRANSITION:2||REFLECTIVITY:2||ANALOGS:2||supramolecular chemistry:2||LYSOPHOSPHATIDIC ACID:2||PHOSPHOCHOLINE:2||POLY(3HEXYLTHIOPHENE):2||Receptor:2||MODIFIED GOLD ELECTRODES:2||ASCORBICACID:2||HUMAN URINE:2||Hybrid Nanocomposite:2||Dielectric Constant:2||AU(111) ELECTRODES:2||NANOFILMS:2||HYDROPHOBIC CORES:2||DRIVEN:2||FLEXIBLE SIDECHAINS:2||MESOGEN:2||size exclusion chromatography:2||ORGANIZATION:2||POLY(LACTIC ACID):2||MOLECULAR ARCHITECTURE:2||COUPLER:2||POLYSTYRENE COPOLYMER:2||diffusion coefficient:2||XRAY REFLECTIVITY:2||temperature gradient interaction chromatography polystyryllithium:2||VISCOELASTIC PROPERTIES:2||polyisoprene:2||CRYSTALSTRUCTURES:2||POLYCARBONATE:2||MULTILAYERS:2||DEPOSITION:2||FULL ADSORPTION MECHANISMS:2||QUANTUM DOTS:2||CRITICAL ORDERING TRANSITION:2||CORE:2||PARACRYSTALLINE DISTORTION:2||PERFORATED LAYER PHASE:2||liposomes:2||phospholipids:2||UNILAMELLAR VESICLES:2||VOLTAMMETRIC DETERMINATION:2||Polyimide:2||FOURIERTRANSFORM:2||SURFACE:2||SIZE EXCLUSION CHROMATOGRAPHY:2||NEUTRON REFLECTIVITY:2||ORDERED STRUCTURE:2||RIGID ROD POLYMERS:2||DISPLACEMENT POLYMERIZATION:2||PHOTOSENSITIVE POLYIMIDE:2||EFFICIENCY:2||films:2||Polylactide:2||CHROMATOGRAPHIC CRITICAL CONDITION:2||RETENTION MECHANISM:2||COPPER PHTHALOCYANINE:2||C60:2||COPOLYMER:2||micelle:2||LINEAR POLYETHYLENE:2||LIQUIDS:2||ARMS:2||HIGHPERFORMANCE LIQUID:2||alternating copolyimides:2||PHASE SEPARATION:2||POLYMERCHAINS:2||STYRYLPYRIDINIUM:2||ANGLES:2||MOBILITY:2||PROBE:2||ACIDS:2||BLUE:2||POSITIONS:2||CYCLOPENTADIENYL:2||HIGHMOLECULARWEIGHT:2||FUELCELLS:2||TIN OXIDE:2||NANOCRYSTALS:2||SURFACE MICELLE FORMATION:2||DISORDER TRANSITION:2||BIREFRINGENCE:2||LIPIDCOMPOSITION:2||CONJUGATED POLYMERS:2||GLASSYCARBON ELECTRODE:2||ELECTROCHEMICAL DETECTION:2||MULTIPLE DETECTION:2||aromatic polyimides:2||MOLECULARWEIGHT HOMOPOLYMERS:2||BINARYMIXTURE:2||PATTERNS:2||photoluminescent polyimide:2||photosensitive polyimide:2||DEPENDENT MICELLIZATION:2||SPEED:2||synthesis:2||COIL BLOCKCOPOLYMERS:2||LIQUIDCRYSTALLINE ASSEMBLIES:2||OXIDE):2||molecular weight distribution:2||CONJUGATED POLYMER:2||polymer characterization:2||NONIONIC SURFACTANTS:2||STEREOREGULAR POLY(METHYL METHACRYLATE):2||structure:2||RODLIKE POLYIMIDE:2||FLEXIBLE POLYIMIDE:2||THERMAL IMIDIZATION:2||IN SITU RODCHAIN FORMATION:2||PHASESEPARATION:2||VINYL ETHER):2||EQUILIBRIUM:2||STRESS:2||STRUCTURAL RELAXATION:2||LIVING POLYMERIZATION:2||CONTAIN:2||SALT:2||WAVEGUIDE:2||XRAY DIFFRACTION:2||WALLED CARBON NANOTUBES:2||SILICON NANOWIRES:2||IR:2||DIELECTRIC THINFILMS:2||Selfassembled monolayer:2||PARAMETERS:2||Temperature gradient interaction chromatography:2||SOLIDSURFACES:2||FLOW:2||RATES:2||PRECURSORS:2||FILM BALANCE:2||SIDECHAINS:2||SUPRAMOLECULAR MATERIALS:2||CHAINS:2||POLYSTYRENE:39||ANIONICPOLYMERIZATION:34||GRADIENT INTERACTION CHROMATOGRAPHY:31||SEPARATION:27||BEHAVIOR:24||LIQUIDCHROMATOGRAPHY:22||POLYMERS:22||SIZEEXCLUSION CHROMATOGRAPHY:19||BLOCKCOPOLYMERS:17||DIBLOCK COPOLYMERS:17||THINFILMS:16||POLYISOPRENE:14||HPLC:13||SYNTHETICPOLYMERS:12||PERFORMANCE LIQUIDCHROMATOGRAPHY:11||DIBLOCK COPOLYMER:11||MOLECULARWEIGHT DISTRIBUTION:10||MACROMOLECULES:10||BLOCKCOPOLYMER:10||REVERSEDPHASE:10||RETENTION BEHAVIOR:10||MORPHOLOGY:9||MOLECULARWEIGHT:9||MELTS:9||AROMATIC POLYIMIDES:8||XRAYSCATTERING:8||polystyrene:8||MIXTURES:7||block copolymer:7||SURFACES:7||DEPENDENCE:7||COPOLYMERS:7||POLYMERIZATION:7||AIR/WATER INTERFACE:7||DEFINED BRUSH POLYIMIDE:6||TEMPERATURE:6||FULLY RODLIKE BACKBONE:6||MONOLAYERS:6||POLYIMIDES:6||CHAIN:6||COMPLEX POLYMERS:6||MOLECULARREORIENTATION:6||temperature gradient interaction chromatography:6||POLYMERFILMS:6||GELPERMEATION CHROMATOGRAPHY:6||ELUTION:6||ORDERDISORDER TRANSITION:6||SURFACEMORPHOLOGY:6||ORIENTATION:6||SYSTEMS:6||CRITICAL ADSORPTION POINT:6||LIGHTSCATTERING:5||PROBE DIFFUSION:5||POLYDISPERSITY:5||AIRWATERINTERFACE:5||MICROPHASE SEPARATION:5||GLASSTRANSITION:5||BLENDS:5||FILMS:5||ADSORPTION CHROMATOGRAPHY:5||MECHANISM:5||CO2:5||ETHYLENEOXIDE:5||ALIGNMENT:5||COMPLEXES:5||FRACTIONATION:5||MISCIBILITY:5||POLYMER CHARACTERIZATION:5||HEXAGONALLY PERFORATED LAYER:5||TRANSITION:5||FLIGHT MASSSPECTROMETRY:5||ARCHITECTURE:5||POLY(METHYL METHACRYLATE):5||ALTERNATING COPOLYMERIZATION:4||THICKNESS:4||THERMODYNAMICS:4||CRITICAL RANGE:4||ULTRATHIN POLYMERFILMS:4||DYNAMICS:4||CLIMATECHANGE:4||PHASE:4||GLASSTRANSITION TEMPERATURE:4||EPOXIDE:4||selfassembly:4||SPECTROSCOPY:4||SELFDIFFUSION:4||SCATTERING:4||OPTICALPROPERTIES:4||CATALYSTS:4||CHEMISTRY:4||SOLARCELLS:4||polyimides:4||polypyromellitimides:4||SEGMENTAL REORIENTATIONS:4||ADSORPTION:4||INTERFACE:4||POLYMERSOLUTIONS:4||TRACER DIFFUSION:4||OXIDE) DIBLOCK COPOLYMER:4||POLYSTYRENEBPOLY(METHYL METHACRYLATE):4||POLYMER BLENDS:4||SIMULATION:4||CHAIN ORIENTATION:4||STYRENE:4||TOF MASSSPECTROMETRY:4||WATER:4||DISPLAYS:4||OLIGOMERS:4||PEPTIDES:4||CYCLIC POLYSTYRENE:4||LATTICE CLUSTER THEORY:4||2NDHARMONIC GENERATION:4||LIQUIDCRYSTAL ALIGNMENT:4||MONTECARLO:4||LangmuirBlodgett film:3||ASSEMBLIES:3||chromatography:3||HOLOGRAPHIC RELAXATION SPECTROSCOPY:3||MULTIPLE MORPHOLOGIES:3||INTERACTION CHROMATOGRAPHY:3||NORMALPHASE:3||DIFFUSION:3||BRANCHED POLYSTYRENE:3||NANOPARTICLES:3||LITHOGRAPHY:3||POLYMER:3||LASERLIGHTSCATTERING:3||HIGH MOLECULARWEIGHT:3||CUBIC PHASE:3||AMPHIPHILIC BLOCKCOPOLYMERS:3||AQUEOUSSOLUTION:3||MODEL:3||FORCED RAYLEIGHSCATTERING:3||HYDRODYNAMIC PROPERTIES:3||4MIKTOARM STAR COPOLYMER:3||SYSTEM:3||PHASEBEHAVIOR:3||AQUEOUSSOLUTIONS:3||RHEOLOGY:3||LB film:3||2DIMENSIONAL LIQUIDCHROMATOGRAPHY:3||VISCOSITY:3||DIBLOCK COPOLYMER MELTS:3||ORDERORDER TRANSITION:3||GYROID PHASE:3||BINDING:3||BLOCK POLYELECTROLYTES:3||DERIVATIVES:3||MELT:3||PHASE LIQUIDCHROMATOGRAPHY:3||high temperature:3||ELEVATEDTEMPERATURE:3||RETENTION:3||MICELLE FORMATION:3||ELECTRONMICROSCOPY:3||Electrospray ionization:2||FRACTIONS:2||nalkanes:2||ISOCRATIC SEPARATION:2||ASSOCIATION:2||POLY(METHYL METHACRYLATE)S:2||2D correlation spectroscopy:2||CARBONATION:2||GLASSTRANSITION BEHAVIORS:2||MECHANICAL PROPERTIES:2||DIMENSIONS:2||POLYMER MIXTURES:2||ALUMINUM PORPHYRIN:2||LEAD STEARATE:2||FERROCENE:2||POLY(EPSILONCAPROLACTONE):2||DIAGRAM:2||nucleosides:2||Selective recognition by preconcentration:2||Electrochemical impedance spectroscopy:2||DOPAMINE:2||Silica:2||Silyl Ester:2||DIETHYL ESTER) PRECURSORS:2||SURFACE CHARACTERIZATION:2||MICROSTRUCTURE:2||polystyreneblockpolyisoprene:2||MICROPHASESEPARATED STRUCTURES:2||IMPEDANCE MEASUREMENTS:2||HEMEPROTEINS:2||SOLID SUBSTRATE:2||MOISTURE ABSORPTION:2||aromatic polyimide:2||INDUCED MORPHOLOGICALCHANGES:2||STABILITY:2||LC alignment layers:2||POLYPYROMELLITIMIDES:2||Ion mobility:2||Chiral polymer:2||OLIGOSACCHARIDES:2||OXIDE:2||SIDECHAIN:2||RETARDATION:2||functionality:2||temperature effects:2||phase transition:2||glass transition temperature:2||spincoated film:2||ESTER) PRECURSORS:2||PRECURSOR BLEND:2||Xray reflectivity:2||SIGMABONDS:2||aluminum porphyrin catalysts:2||METALLOPORPHYRIN:2||SILICON:2||MASSSPECTROMETRY ANALYSIS:2||STAR POLYMERS:2||SIZE DISTRIBUTIONS:2||GIANT VESICLES:2||POLY(3ALKYLTHIOPHENES):2||ADHESION:2||LIGHT:2||POLYSTYRENEBPOLYISOPRENE:2||HPLC fractionation:2||SILVER ELECTRODES:2||ENHANCED RESONANCE RAMAN:2||SEQUENCE:2||POLYELECTROLYTE/NONELECTROLYTE SHELLS:2||polyimide:2||liquid crystal alignment layer:2||SOLUBLE POLYIMIDES:2||POLYBUTADIENECOATED ZIRCONIA:2||PRETILT ANGLES:2||CROSSSECTIONS:2||IMSMS:2||POLYISOPRENE COPOLYMERS:2||POLYIMIDE THINFILMS:2||POLYMER SURFACES:2||RAMAN:2||STEREOREGULAR PMMA:2||poly(tertbutyl methacrylate) (PtBMA):2||TIME:2||POLYIMIDE COMPOSITE:2||CARBOXYLATO COMPLEXES:2||AGOSTIC INTERACTIONS:2||MOLECULARSTRUCTURE:2||ALKENE:2||TRANSISTOR MEMORY:2||DEVICES:2||ORTHOGONALITY:2||molecular characterization:2||ORGANOSILICATE DIELECTRIC FILMS:2||AMPHIPHILES:2||Serotonin:2||Anodic stripping differential pulse voltammetry:2||transmission electron microtomography:2||LIQUIDCHROMATOGRAPHY ANALYSIS:2||PHASEDIAGRAM:2||CARBON NANOTUBES:2||TRANSFER MECHANISM:2||BINARY MIXTURES:2||REFLECTOMETRY:2||ROD:2||DROPS:2||CONSTANT:2||TRIBLOCK COPOLYMER:2||POLYMER VESICLES:2||CLICK CHEMISTRY:2||ARRAYS:2||COMPOSITES:2||MALDITOF MS:2||POLYMER THINFILMS:2||HYDROPHOBIC INTERACTION CHROMATOGRAPHY:2||retention mechanism:2||GRAZINGINCIDENCE:2||NANOPOROSITY:2||soluble poly(amic esteraltimide)s:2||DIFFERENTIAL SCANNING CALORIMETRY:2||RESIDUALSTRESS:2||CHEMICALCOMPOSITION:2||POLY(AMIC DIETHYL ESTER) PRECURSOR:2||POLY(DIMETHYL SILOXANES):2||MASS POLYSTYRENES:2||cyclic propylene carbonate:2||propylene oxide:2||ACETATE) TOLUENE SOLUTIONS:2||TRANSIENT GRATING METHOD:2||MASS DIFFUSION:2||MICROPHASE SEPARATION TRANSITION:2||POLYSTYRENES:2||POLYSILANE:2||CARBOHYDRATEBASED PHOSPHOLIPIDS:2||HELICAL STRANDS:2||FLUORESCENCE DETECTION:2||SENSITIVE DETERMINATION:2||COMPOSITE FILMS:2||microphase:2||3MERCAPTOPROPIONIC ACID:2||BUTADIENE BLOCK COPOLYMER:2||HYBRID POLYMERIC MICELLES:2||AQUEOUSMEDIA:2||CONTACTANGLE:2||TRANSISTORCIRCUITS:2||ABTYPE POLY(ETHERIMIDE)S:2||CORRELATION SPECTROSCOPY:2||GASPHASE CONFORMATIONS:2||DECANE:2||INFRAREDSPECTROSCOPY:2||MICELLIZATION:2||ENERGIES:2||ACID) PRECURSORS:2||PHOTOALIGNMENT:2||polymers:2||SUBSTRATE:2||carbon dioxide:2||oligomeric propylene carbonate:2||THERMALDIFFUSION:2||CRYSTAL:2||PHASETRANSITION:2||REFLECTIVITY:2||ANALOGS:2||supramolecular chemistry:2||LYSOPHOSPHATIDIC ACID:2||PHOSPHOCHOLINE:2||POLY(3HEXYLTHIOPHENE):2||Receptor:2||MODIFIED GOLD ELECTRODES:2||ASCORBICACID:2||HUMAN URINE:2||Hybrid Nanocomposite:2||Dielectric Constant:2||AU(111) ELECTRODES:2||NANOFILMS:2||HYDROPHOBIC CORES:2||DRIVEN:2||FLEXIBLE SIDECHAINS:2||MESOGEN:2||size exclusion chromatography:2||ORGANIZATION:2||POLY(LACTIC ACID):2||MOLECULAR ARCHITECTURE:2||COUPLER:2||POLYSTYRENE COPOLYMER:2||diffusion coefficient:2||XRAY REFLECTIVITY:2||temperature gradient interaction chromatography polystyryllithium:2||VISCOELASTIC PROPERTIES:2||polyisoprene:2||CRYSTALSTRUCTURES:2||POLYCARBONATE:2||MULTILAYERS:2||DEPOSITION:2||FULL ADSORPTION MECHANISMS:2||QUANTUM DOTS:2||CRITICAL ORDERING TRANSITION:2||CORE:2||PARACRYSTALLINE DISTORTION:2||PERFORATED LAYER PHASE:2||liposomes:2||phospholipids:2||UNILAMELLAR VESICLES:2||VOLTAMMETRIC DETERMINATION:2||Polyimide:2||FOURIERTRANSFORM:2||SURFACE:2||SIZE EXCLUSION CHROMATOGRAPHY:2||NEUTRON REFLECTIVITY:2||ORDERED STRUCTURE:2||RIGID ROD POLYMERS:2||DISPLACEMENT POLYMERIZATION:2||PHOTOSENSITIVE POLYIMIDE:2||EFFICIENCY:2||films:2||Polylactide:2||CHROMATOGRAPHIC CRITICAL CONDITION:2||RETENTION MECHANISM:2||COPPER PHTHALOCYANINE:2||C60:2||COPOLYMER:2||micelle:2||LINEAR POLYETHYLENE:2||LIQUIDS:2||ARMS:2||HIGHPERFORMANCE LIQUID:2||alternating copolyimides:2||PHASE SEPARATION:2||POLYMERCHAINS:2||STYRYLPYRIDINIUM:2||ANGLES:2||MOBILITY:2||PROBE:2||ACIDS:2||BLUE:2||POSITIONS:2||CYCLOPENTADIENYL:2||HIGHMOLECULARWEIGHT:2||FUELCELLS:2||TIN OXIDE:2||NANOCRYSTALS:2||SURFACE MICELLE FORMATION:2||DISORDER TRANSITION:2||BIREFRINGENCE:2||LIPIDCOMPOSITION:2||CONJUGATED POLYMERS:2||GLASSYCARBON ELECTRODE:2||ELECTROCHEMICAL DETECTION:2||MULTIPLE DETECTION:2||aromatic polyimides:2||MOLECULARWEIGHT HOMOPOLYMERS:2||BINARYMIXTURE:2||PATTERNS:2||photoluminescent polyimide:2||photosensitive polyimide:2||DEPENDENT MICELLIZATION:2||SPEED:2||synthesis:2||COIL BLOCKCOPOLYMERS:2||LIQUIDCRYSTALLINE ASSEMBLIES:2||OXIDE):2||molecular weight distribution:2||CONJUGATED POLYMER:2||polymer characterization:2||NONIONIC SURFACTANTS:2||STEREOREGULAR POLY(METHYL METHACRYLATE):2||structure:2||RODLIKE POLYIMIDE:2||FLEXIBLE POLYIMIDE:2||THERMAL IMIDIZATION:2||IN SITU RODCHAIN FORMATION:2||PHASESEPARATION:2||VINYL ETHER):2||EQUILIBRIUM:2||STRESS:2||STRUCTURAL RELAXATION:2||LIVING POLYMERIZATION:2||CONTAIN:2||SALT:2||WAVEGUIDE:2||XRAY DIFFRACTION:2||WALLED CARBON NANOTUBES:2||SILICON NANOWIRES:2||IR:2||DIELECTRIC THINFILMS:2||Selfassembled monolayer:2||PARAMETERS:2||Temperature gradient interaction chromatography:2||SOLIDSURFACES:2||FLOW:2||RATES:2||PRECURSORS:2||FILM BALANCE:2||SIDECHAINS:2||SUPRAMOLECULAR MATERIALS:2||CHAINS:2||POLYSTYRENE:39||ANIONICPOLYMERIZATION:34||GRADIENT INTERACTION CHROMATOGRAPHY:31||SEPARATION:27||BEHAVIOR:24||LIQUIDCHROMATOGRAPHY:22||POLYMERS:22||SIZEEXCLUSION CHROMATOGRAPHY:19||BLOCKCOPOLYMERS:17||DIBLOCK COPOLYMERS:17||THINFILMS:16||POLYISOPRENE:14||HPLC:13||SYNTHETICPOLYMERS:12||PERFORMANCE LIQUIDCHROMATOGRAPHY:11||DIBLOCK COPOLYMER:11||MOLECULARWEIGHT DISTRIBUTION:10||MACROMOLECULES:10||BLOCKCOPOLYMER:10||REVERSEDPHASE:10||RETENTION BEHAVIOR:10||MORPHOLOGY:9||MOLECULARWEIGHT:9||MELTS:9||AROMATIC POLYIMIDES:8||XRAYSCATTERING:8||polystyrene:8||MIXTURES:7||block copolymer:7||SURFACES:7||DEPENDENCE:7||COPOLYMERS:7||POLYMERIZATION:7||AIR/WATER INTERFACE:7||DEFINED BRUSH POLYIMIDE:6||TEMPERATURE:6||FULLY RODLIKE BACKBONE:6||MONOLAYERS:6||POLYIMIDES:6||CHAIN:6||COMPLEX POLYMERS:6||MOLECULARREORIENTATION:6||temperature gradient interaction chromatography:6||POLYMERFILMS:6||GELPERMEATION CHROMATOGRAPHY:6||ELUTION:6||ORDERDISORDER TRANSITION:6||SURFACEMORPHOLOGY:6||ORIENTATION:6||SYSTEMS:6||CRITICAL ADSORPTION POINT:6||LIGHTSCATTERING:5||PROBE DIFFUSION:5||POLYDISPERSITY:5||AIRWATERINTERFACE:5||MICROPHASE SEPARATION:5||GLASSTRANSITION:5||BLENDS:5||FILMS:5||ADSORPTION CHROMATOGRAPHY:5||MECHANISM:5||CO2:5||ETHYLENEOXIDE:5||ALIGNMENT:5||COMPLEXES:5||FRACTIONATION:5||MISCIBILITY:5||POLYMER CHARACTERIZATION:5||HEXAGONALLY PERFORATED LAYER:5||TRANSITION:5||FLIGHT MASSSPECTROMETRY:5||ARCHITECTURE:5||POLY(METHYL METHACRYLATE):5||ALTERNATING COPOLYMERIZATION:4||THICKNESS:4||THERMODYNAMICS:4||CRITICAL RANGE:4||ULTRATHIN POLYMERFILMS:4||DYNAMICS:4||CLIMATECHANGE:4||PHASE:4||GLASSTRANSITION TEMPERATURE:4||EPOXIDE:4||selfassembly:4||SPECTROSCOPY:4||SELFDIFFUSION:4||SCATTERING:4||OPTICALPROPERTIES:4||CATALYSTS:4||CHEMISTRY:4||SOLARCELLS:4||polyimides:4||polypyromellitimides:4||SEGMENTAL REORIENTATIONS:4||ADSORPTION:4||INTERFACE:4||POLYMERSOLUTIONS:4||TRACER DIFFUSION:4||OXIDE) DIBLOCK COPOLYMER:4||POLYSTYRENEBPOLY(METHYL METHACRYLATE):4||POLYMER BLENDS:4||SIMULATION:4||CHAIN ORIENTATION:4||STYRENE:4||TOF MASSSPECTROMETRY:4||WATER:4||DISPLAYS:4||OLIGOMERS:4||PEPTIDES:4||CYCLIC POLYSTYRENE:4||LATTICE CLUSTER THEORY:4||2NDHARMONIC GENERATION:4||LIQUIDCRYSTAL ALIGNMENT:4||MONTECARLO:4||LangmuirBlodgett film:3||ASSEMBLIES:3||chromatography:3||HOLOGRAPHIC RELAXATION SPECTROSCOPY:3||MULTIPLE MORPHOLOGIES:3||INTERACTION CHROMATOGRAPHY:3||NORMALPHASE:3||DIFFUSION:3||BRANCHED POLYSTYRENE:3||NANOPARTICLES:3||LITHOGRAPHY:3||POLYMER:3||LASERLIGHTSCATTERING:3||HIGH MOLECULARWEIGHT:3||CUBIC PHASE:3||AMPHIPHILIC BLOCKCOPOLYMERS:3||AQUEOUSSOLUTION:3||MODEL:3||FORCED RAYLEIGHSCATTERING:3||HYDRODYNAMIC PROPERTIES:3||4MIKTOARM STAR COPOLYMER:3||SYSTEM:3||PHASEBEHAVIOR:3||AQUEOUSSOLUTIONS:3||RHEOLOGY:3||LB film:3||2DIMENSIONAL LIQUIDCHROMATOGRAPHY:3||VISCOSITY:3||DIBLOCK COPOLYMER MELTS:3||ORDERORDER TRANSITION:3||GYROID PHASE:3||BINDING:3||BLOCK POLYELECTROLYTES:3||DERIVATIVES:3||MELT:3||PHASE LIQUIDCHROMATOGRAPHY:3||high temperature:3||ELEVATEDTEMPERATURE:3||RETENTION:3||MICELLE FORMATION:3||ELECTRONMICROSCOPY:3||Electrospray ionization:2||FRACTIONS:2||nalkanes:2||ISOCRATIC SEPARATION:2||ASSOCIATION:2||POLY(METHYL METHACRYLATE)S:2||2D correlation spectroscopy:2||CARBONATION:2||GLASSTRANSITION BEHAVIORS:2||MECHANICAL PROPERTIES:2||DIMENSIONS:2||POLYMER MIXTURES:2||ALUMINUM PORPHYRIN:2||LEAD STEARATE:2||FERROCENE:2||POLY(EPSILONCAPROLACTONE):2||DIAGRAM:2||nucleosides:2||Selective recognition by preconcentration:2||Electrochemical impedance spectroscopy:2||DOPAMINE:2||Silica:2||Silyl Ester:2||DIETHYL ESTER) PRECURSORS:2||SURFACE CHARACTERIZATION:2||MICROSTRUCTURE:2||polystyreneblockpolyisoprene:2||MICROPHASESEPARATED STRUCTURES:2||IMPEDANCE MEASUREMENTS:2||HEMEPROTEINS:2||SOLID SUBSTRATE:2||MOISTURE ABSORPTION:2||aromatic polyimide:2||INDUCED MORPHOLOGICALCHANGES:2||STABILITY:2||LC alignment layers:2||POLYPYROMELLITIMIDES:2||Ion mobility:2||Chiral polymer:2||OLIGOSACCHARIDES:2||OXIDE:2||SIDECHAIN:2||RETARDATION:2||functionality:2||temperature effects:2||phase transition:2||glass transition temperature:2||spincoated film:2||ESTER) PRECURSORS:2||PRECURSOR BLEND:2||Xray reflectivity:2||SIGMABONDS:2||aluminum porphyrin catalysts:2||METALLOPORPHYRIN:2||SILICON:2||MASSSPECTROMETRY ANALYSIS:2||STAR POLYMERS:2||SIZE DISTRIBUTIONS:2||GIANT VESICLES:2||POLY(3ALKYLTHIOPHENES):2||ADHESION:2||LIGHT:2||POLYSTYRENEBPOLYISOPRENE:2||HPLC fractionation:2||SILVER ELECTRODES:2||ENHANCED RESONANCE RAMAN:2||SEQUENCE:2||POLYELECTROLYTE/NONELECTROLYTE SHELLS:2||polyimide:2||liquid crystal alignment layer:2||SOLUBLE POLYIMIDES:2||POLYBUTADIENECOATED ZIRCONIA:2||PRETILT ANGLES:2||CROSSSECTIONS:2||IMSMS:2||POLYISOPRENE COPOLYMERS:2||POLYIMIDE THINFILMS:2||POLYMER SURFACES:2||RAMAN:2||STEREOREGULAR PMMA:2||poly(tertbutyl methacrylate) (PtBMA):2||TIME:2||POLYIMIDE COMPOSITE:2||CARBOXYLATO COMPLEXES:2||AGOSTIC INTERACTIONS:2||MOLECULARSTRUCTURE:2||ALKENE:2||TRANSISTOR MEMORY:2||DEVICES:2||ORTHOGONALITY:2||molecular characterization:2||ORGANOSILICATE DIELECTRIC FILMS:2||AMPHIPHILES:2||Serotonin:2||Anodic stripping differential pulse voltammetry:2||transmission electron microtomography:2||LIQUIDCHROMATOGRAPHY ANALYSIS:2||PHASEDIAGRAM:2||CARBON NANOTUBES:2||TRANSFER MECHANISM:2||BINARY MIXTURES:2||REFLECTOMETRY:2||ROD:2||DROPS:2||CONSTANT:2||TRIBLOCK COPOLYMER:2||POLYMER VESICLES:2||CLICK CHEMISTRY:2||ARRAYS:2||COMPOSITES:2||MALDITOF MS:2||POLYMER THINFILMS:2||HYDROPHOBIC INTERACTION CHROMATOGRAPHY:2||retention mechanism:2||GRAZINGINCIDENCE:2||NANOPOROSITY:2||soluble poly(amic esteraltimide)s:2||DIFFERENTIAL SCANNING CALORIMETRY:2||RESIDUALSTRESS:2||CHEMICALCOMPOSITION:2||POLY(AMIC DIETHYL ESTER) PRECURSOR:2||POLY(DIMETHYL SILOXANES):2||MASS POLYSTYRENES:2||cyclic propylene carbonate:2||propylene oxide:2||ACETATE) TOLUENE SOLUTIONS:2||TRANSIENT GRATING METHOD:2||MASS DIFFUSION:2||MICROPHASE SEPARATION TRANSITION:2||POLYSTYRENES:2||POLYSILANE:2||CARBOHYDRATEBASED PHOSPHOLIPIDS:2||HELICAL STRANDS:2||FLUORESCENCE DETECTION:2||SENSITIVE DETERMINATION:2||COMPOSITE FILMS:2||microphase:2||3MERCAPTOPROPIONIC ACID:2||BUTADIENE BLOCK COPOLYMER:2||HYBRID POLYMERIC MICELLES:2||AQUEOUSMEDIA:2||CONTACTANGLE:2||TRANSISTORCIRCUITS:2||ABTYPE POLY(ETHERIMIDE)S:2||CORRELATION SPECTROSCOPY:2||GASPHASE CONFORMATIONS:2||DECANE:2||INFRAREDSPECTROSCOPY:2||MICELLIZATION:2||ENERGIES:2||ACID) PRECURSORS:2||PHOTOALIGNMENT:2||polymers:2||SUBSTRATE:2||carbon dioxide:2||oligomeric propylene carbonate:2||THERMALDIFFUSION:2||CRYSTAL:2||PHASETRANSITION:2||REFLECTIVITY:2||ANALOGS:2||supramolecular chemistry:2||LYSOPHOSPHATIDIC ACID:2||PHOSPHOCHOLINE:2||POLY(3HEXYLTHIOPHENE):2||Receptor:2||MODIFIED GOLD ELECTRODES:2||ASCORBICACID:2||HUMAN URINE:2||Hybrid Nanocomposite:2||Dielectric Constant:2||AU(111) ELECTRODES:2||NANOFILMS:2||HYDROPHOBIC CORES:2||DRIVEN:2||FLEXIBLE SIDECHAINS:2||MESOGEN:2||size exclusion chromatography:2||ORGANIZATION:2||POLY(LACTIC ACID):2||MOLECULAR ARCHITECTURE:2||COUPLER:2||POLYSTYRENE COPOLYMER:2||diffusion coefficient:2||XRAY REFLECTIVITY:2||temperature gradient interaction chromatography polystyryllithium:2||VISCOELASTIC PROPERTIES:2||polyisoprene:2||CRYSTALSTRUCTURES:2||POLYCARBONATE:2||MULTILAYERS:2||DEPOSITION:2||FULL ADSORPTION MECHANISMS:2||QUANTUM DOTS:2||CRITICAL ORDERING TRANSITION:2||CORE:2||PARACRYSTALLINE DISTORTION:2||PERFORATED LAYER PHASE:2||liposomes:2||phospholipids:2||UNILAMELLAR VESICLES:2||VOLTAMMETRIC DETERMINATION:2||Polyimide:2||FOURIERTRANSFORM:2||SURFACE:2||SIZE EXCLUSION CHROMATOGRAPHY:2||NEUTRON REFLECTIVITY:2||ORDERED STRUCTURE:2||RIGID ROD POLYMERS:2||DISPLACEMENT POLYMERIZATION:2||PHOTOSENSITIVE POLYIMIDE:2||EFFICIENCY:2||films:2||Polylactide:2||CHROMATOGRAPHIC CRITICAL CONDITION:2||RETENTION MECHANISM:2||COPPER PHTHALOCYANINE:2||C60:2||COPOLYMER:2||micelle:2||LINEAR POLYETHYLENE:2||LIQUIDS:2||ARMS:2||HIGHPERFORMANCE LIQUID:2||alternating copolyimides:2||PHASE SEPARATION:2||POLYMERCHAINS:2||STYRYLPYRIDINIUM:2||ANGLES:2||MOBILITY:2||PROBE:2||ACIDS:2||BLUE:2||POSITIONS:2||CYCLOPENTADIENYL:2||HIGHMOLECULARWEIGHT:2||FUELCELLS:2||TIN OXIDE:2||NANOCRYSTALS:2||SURFACE MICELLE FORMATION:2||DISORDER TRANSITION:2||BIREFRINGENCE:2||LIPIDCOMPOSITION:2||CONJUGATED POLYMERS:2||GLASSYCARBON ELECTRODE:2||ELECTROCHEMICAL DETECTION:2||MULTIPLE DETECTION:2||aromatic polyimides:2||MOLECULARWEIGHT HOMOPOLYMERS:2||BINARYMIXTURE:2||PATTERNS:2||photoluminescent polyimide:2||photosensitive polyimide:2||DEPENDENT MICELLIZATION:2||SPEED:2||synthesis:2||COIL BLOCKCOPOLYMERS:2||LIQUIDCRYSTALLINE ASSEMBLIES:2||OXIDE):2||molecular weight distribution:2||CONJUGATED POLYMER:2||polymer characterization:2||NONIONIC SURFACTANTS:2||STEREOREGULAR POLY(METHYL METHACRYLATE):2||structure:2||RODLIKE POLYIMIDE:2||FLEXIBLE POLYIMIDE:2||THERMAL IMIDIZATION:2||IN SITU RODCHAIN FORMATION:2||PHASESEPARATION:2||VINYL ETHER):2||EQUILIBRIUM:2||STRESS:2||STRUCTURAL RELAXATION:2||LIVING POLYMERIZATION:2||CONTAIN:2||SALT:2||WAVEGUIDE:2||XRAY DIFFRACTION:2||WALLED CARBON NANOTUBES:2||SILICON NANOWIRES:2||IR:2||DIELECTRIC THINFILMS:2||Selfassembled monolayer:2||PARAMETERS:2||Temperature gradient interaction chromatography:2||SOLIDSURFACES:2||FLOW:2||RATES:2||PRECURSORS:2||FILM BALANCE:2||SIDECHAINS:2||SUPRAMOLECULAR MATERIALS:2||CHAINS:2||POLYSTYRENE:39||ANIONICPOLYMERIZATION:34||GRADIENT INTERACTION CHROMATOGRAPHY:31||SEPARATION:27||BEHAVIOR:24||LIQUIDCHROMATOGRAPHY:22||POLYMERS:22||SIZEEXCLUSION CHROMATOGRAPHY:19||BLOCKCOPOLYMERS:17||DIBLOCK COPOLYMERS:17||THINFILMS:16||POLYISOPRENE:14||HPLC:13||SYNTHETICPOLYMERS:12||PERFORMANCE LIQUIDCHROMATOGRAPHY:11||DIBLOCK COPOLYMER:11||MOLECULARWEIGHT DISTRIBUTION:10||MACROMOLECULES:10||BLOCKCOPOLYMER:10||REVERSEDPHASE:10||RETENTION BEHAVIOR:10||MORPHOLOGY:9||MOLECULARWEIGHT:9||MELTS:9||AROMATIC POLYIMIDES:8||XRAYSCATTERING:8||polystyrene:8||MIXTURES:7||block copolymer:7||SURFACES:7||DEPENDENCE:7||COPOLYMERS:7||POLYMERIZATION:7||AIR/WATER INTERFACE:7||DEFINED BRUSH POLYIMIDE:6||TEMPERATURE:6||FULLY RODLIKE BACKBONE:6||MONOLAYERS:6||POLYIMIDES:6||CHAIN:6||COMPLEX POLYMERS:6||MOLECULARREORIENTATION:6||temperature gradient interaction chromatography:6||POLYMERFILMS:6||GELPERMEATION CHROMATOGRAPHY:6||ELUTION:6||ORDERDISORDER TRANSITION:6||SURFACEMORPHOLOGY:6||ORIENTATION:6||SYSTEMS:6||CRITICAL ADSORPTION POINT:6||LIGHTSCATTERING:5||PROBE DIFFUSION:5||POLYDISPERSITY:5||AIRWATERINTERFACE:5||MICROPHASE SEPARATION:5||GLASSTRANSITION:5||BLENDS:5||FILMS:5||ADSORPTION CHROMATOGRAPHY:5||MECHANISM:5||CO2:5||ETHYLENEOXIDE:5||ALIGNMENT:5||COMPLEXES:5||FRACTIONATION:5||MISCIBILITY:5||POLYMER CHARACTERIZATION:5||HEXAGONALLY PERFORATED LAYER:5||TRANSITION:5||FLIGHT MASSSPECTROMETRY:5||ARCHITECTURE:5||POLY(METHYL METHACRYLATE):5||ALTERNATING COPOLYMERIZATION:4||THICKNESS:4||THERMODYNAMICS:4||CRITICAL RANGE:4||ULTRATHIN POLYMERFILMS:4||DYNAMICS:4||CLIMATECHANGE:4||PHASE:4||GLASSTRANSITION TEMPERATURE:4||EPOXIDE:4||selfassembly:4||SPECTROSCOPY:4||SELFDIFFUSION:4||SCATTERING:4||OPTICALPROPERTIES:4||CATALYSTS:4||CHEMISTRY:4||SOLARCELLS:4||polyimides:4||polypyromellitimides:4||SEGMENTAL REORIENTATIONS:4||ADSORPTION:4||INTERFACE:4||POLYMERSOLUTIONS:4||TRACER DIFFUSION:4||OXIDE) DIBLOCK COPOLYMER:4||POLYSTYRENEBPOLY(METHYL METHACRYLATE):4||POLYMER BLENDS:4||SIMULATION:4||CHAIN ORIENTATION:4||STYRENE:4||TOF MASSSPECTROMETRY:4||WATER:4||DISPLAYS:4||OLIGOMERS:4||PEPTIDES:4||CYCLIC POLYSTYRENE:4||LATTICE CLUSTER THEORY:4||2NDHARMONIC GENERATION:4||LIQUIDCRYSTAL ALIGNMENT:4||MONTECARLO:4||LangmuirBlodgett film:3||ASSEMBLIES:3||chromatography:3||HOLOGRAPHIC RELAXATION SPECTROSCOPY:3||MULTIPLE MORPHOLOGIES:3||INTERACTION CHROMATOGRAPHY:3||NORMALPHASE:3||DIFFUSION:3||BRANCHED POLYSTYRENE:3||NANOPARTICLES:3||LITHOGRAPHY:3||POLYMER:3||LASERLIGHTSCATTERING:3||HIGH MOLECULARWEIGHT:3||CUBIC PHASE:3||AMPHIPHILIC BLOCKCOPOLYMERS:3||AQUEOUSSOLUTION:3||MODEL:3||FORCED RAYLEIGHSCATTERING:3||HYDRODYNAMIC PROPERTIES:3||4MIKTOARM STAR COPOLYMER:3||SYSTEM:3||PHASEBEHAVIOR:3||AQUEOUSSOLUTIONS:3||RHEOLOGY:3||LB film:3||2DIMENSIONAL LIQUIDCHROMATOGRAPHY:3||VISCOSITY:3||DIBLOCK COPOLYMER MELTS:3||ORDERORDER TRANSITION:3||GYROID PHASE:3||BINDING:3||BLOCK POLYELECTROLYTES:3||DERIVATIVES:3||MELT:3||PHASE LIQUIDCHROMATOGRAPHY:3||high temperature:3||ELEVATEDTEMPERATURE:3||RETENTION:3||MICELLE FORMATION:3||ELECTRONMICROSCOPY:3||Electrospray ionization:2||FRACTIONS:2||nalkanes:2||ISOCRATIC SEPARATION:2||ASSOCIATION:2||POLY(METHYL METHACRYLATE)S:2||2D correlation spectroscopy:2||CARBONATION:2||GLASSTRANSITION BEHAVIORS:2||MECHANICAL PROPERTIES:2||DIMENSIONS:2||POLYMER MIXTURES:2||ALUMINUM PORPHYRIN:2||LEAD STEARATE:2||FERROCENE:2||POLY(EPSILONCAPROLACTONE):2||DIAGRAM:2||nucleosides:2||Selective recognition by preconcentration:2||Electrochemical impedance spectroscopy:2||DOPAMINE:2||Silica:2||Silyl Ester:2||DIETHYL ESTER) PRECURSORS:2||SURFACE CHARACTERIZATION:2||MICROSTRUCTURE:2||polystyreneblockpolyisoprene:2||MICROPHASESEPARATED STRUCTURES:2||IMPEDANCE MEASUREMENTS:2||HEMEPROTEINS:2||SOLID SUBSTRATE:2||MOISTURE ABSORPTION:2||aromatic polyimide:2||INDUCED MORPHOLOGICALCHANGES:2||STABILITY:2||LC alignment layers:2||POLYPYROMELLITIMIDES:2||Ion mobility:2||Chiral polymer:2||OLIGOSACCHARIDES:2||OXIDE:2||SIDECHAIN:2||RETARDATION:2||functionality:2||temperature effects:2||phase transition:2||glass transition temperature:2||spincoated film:2||ESTER) PRECURSORS:2||PRECURSOR BLEND:2||Xray reflectivity:2||SIGMABONDS:2||aluminum porphyrin catalysts:2||METALLOPORPHYRIN:2||SILICON:2||MASSSPECTROMETRY ANALYSIS:2||STAR POLYMERS:2||SIZE DISTRIBUTIONS:2||GIANT VESICLES:2||POLY(3ALKYLTHIOPHENES):2||ADHESION:2||LIGHT:2||POLYSTYRENEBPOLYISOPRENE:2||HPLC fractionation:2||SILVER ELECTRODES:2||ENHANCED RESONANCE RAMAN:2||SEQUENCE:2||POLYELECTROLYTE/NONELECTROLYTE SHELLS:2||polyimide:2||liquid crystal alignment layer:2||SOLUBLE POLYIMIDES:2||POLYBUTADIENECOATED ZIRCONIA:2||PRETILT ANGLES:2||CROSSSECTIONS:2||IMSMS:2||POLYISOPRENE COPOLYMERS:2||POLYIMIDE THINFILMS:2||POLYMER SURFACES:2||RAMAN:2||STEREOREGULAR PMMA:2||poly(tertbutyl methacrylate) (PtBMA):2||TIME:2||POLYIMIDE COMPOSITE:2||CARBOXYLATO COMPLEXES:2||AGOSTIC INTERACTIONS:2||MOLECULARSTRUCTURE:2||ALKENE:2||TRANSISTOR MEMORY:2||DEVICES:2||ORTHOGONALITY:2||molecular characterization:2||ORGANOSILICATE DIELECTRIC FILMS:2||AMPHIPHILES:2||Serotonin:2||Anodic stripping differential pulse voltammetry:2||transmission electron microtomography:2||LIQUIDCHROMATOGRAPHY ANALYSIS:2||PHASEDIAGRAM:2||CARBON NANOTUBES:2||TRANSFER MECHANISM:2||BINARY MIXTURES:2||REFLECTOMETRY:2||ROD:2||DROPS:2||CONSTANT:2||TRIBLOCK COPOLYMER:2||POLYMER VESICLES:2||CLICK CHEMISTRY:2||ARRAYS:2||COMPOSITES:2||MALDITOF MS:2||POLYMER THINFILMS:2||HYDROPHOBIC INTERACTION CHROMATOGRAPHY:2||retention mechanism:2||GRAZINGINCIDENCE:2||NANOPOROSITY:2||soluble poly(amic esteraltimide)s:2||DIFFERENTIAL SCANNING CALORIMETRY:2||RESIDUALSTRESS:2||CHEMICALCOMPOSITION:2||POLY(AMIC DIETHYL ESTER) PRECURSOR:2||POLY(DIMETHYL SILOXANES):2||MASS POLYSTYRENES:2||cyclic propylene carbonate:2||propylene oxide:2||ACETATE) TOLUENE SOLUTIONS:2||TRANSIENT GRATING METHOD:2||MASS DIFFUSION:2||MICROPHASE SEPARATION TRANSITION:2||POLYSTYRENES:2||POLYSILANE:2||CARBOHYDRATEBASED PHOSPHOLIPIDS:2||HELICAL STRANDS:2||FLUORESCENCE DETECTION:2||SENSITIVE DETERMINATION:2||COMPOSITE FILMS:2||microphase:2||3MERCAPTOPROPIONIC ACID:2||BUTADIENE BLOCK COPOLYMER:2||HYBRID POLYMERIC MICELLES:2||AQUEOUSMEDIA:2||CONTACTANGLE:2||TRANSISTORCIRCUITS:2||ABTYPE POLY(ETHERIMIDE)S:2||CORRELATION SPECTROSCOPY:2||GASPHASE CONFORMATIONS:2||DECANE:2||INFRAREDSPECTROSCOPY:2||MICELLIZATION:2||ENERGIES:2||ACID) PRECURSORS:2||PHOTOALIGNMENT:2||polymers:2||SUBSTRATE:2||carbon dioxide:2||oligomeric propylene carbonate:2||THERMALDIFFUSION:2||CRYSTAL:2||PHASETRANSITION:2||REFLECTIVITY:2||ANALOGS:2||supramolecular chemistry:2||LYSOPHOSPHATIDIC ACID:2||PHOSPHOCHOLINE:2||POLY(3HEXYLTHIOPHENE):2||Receptor:2||MODIFIED GOLD ELECTRODES:2||ASCORBICACID:2||HUMAN URINE:2||Hybrid Nanocomposite:2||Dielectric Constant:2||AU(111) ELECTRODES:2||NANOFILMS:2||HYDROPHOBIC CORES:2||DRIVEN:2||FLEXIBLE SIDECHAINS:2||MESOGEN:2||size exclusion chromatography:2||ORGANIZATION:2||POLY(LACTIC ACID):2||MOLECULAR ARCHITECTURE:2||COUPLER:2||POLYSTYRENE COPOLYMER:2||diffusion coefficient:2||XRAY REFLECTIVITY:2||temperature gradient interaction chromatography polystyryllithium:2||VISCOELASTIC PROPERTIES:2||polyisoprene:2||CRYSTALSTRUCTURES:2||POLYCARBONATE:2||MULTILAYERS:2||DEPOSITION:2||FULL ADSORPTION MECHANISMS:2||QUANTUM DOTS:2||CRITICAL ORDERING TRANSITION:2||CORE:2||PARACRYSTALLINE DISTORTION:2||PERFORATED LAYER PHASE:2||liposomes:2||phospholipids:2||UNILAMELLAR VESICLES:2||VOLTAMMETRIC DETERMINATION:2||Polyimide:2||FOURIERTRANSFORM:2||SURFACE:2||SIZE EXCLUSION CHROMATOGRAPHY:2||NEUTRON REFLECTIVITY:2||ORDERED STRUCTURE:2||RIGID ROD POLYMERS:2||DISPLACEMENT POLYMERIZATION:2||PHOTOSENSITIVE POLYIMIDE:2||EFFICIENCY:2||films:2||Polylactide:2||CHROMATOGRAPHIC CRITICAL CONDITION:2||RETENTION MECHANISM:2||COPPER PHTHALOCYANINE:2||C60:2||COPOLYMER:2||micelle:2||LINEAR POLYETHYLENE:2||LIQUIDS:2||ARMS:2||HIGHPERFORMANCE LIQUID:2||alternating copolyimides:2||PHASE SEPARATION:2||POLYMERCHAINS:2||STYRYLPYRIDINIUM:2||ANGLES:2||MOBILITY:2||PROBE:2||ACIDS:2||BLUE:2||POSITIONS:2||CYCLOPENTADIENYL:2||HIGHMOLECULARWEIGHT:2||FUELCELLS:2||TIN OXIDE:2||NANOCRYSTALS:2||SURFACE MICELLE FORMATION:2||DISORDER TRANSITION:2||BIREFRINGENCE:2||LIPIDCOMPOSITION:2||CONJUGATED POLYMERS:2||GLASSYCARBON ELECTRODE:2||ELECTROCHEMICAL DETECTION:2||MULTIPLE DETECTION:2||aromatic polyimides:2||MOLECULARWEIGHT HOMOPOLYMERS:2||BINARYMIXTURE:2||PATTERNS:2||photoluminescent polyimide:2||photosensitive polyimide:2||DEPENDENT MICELLIZATION:2||SPEED:2||synthesis:2||COIL BLOCKCOPOLYMERS:2||LIQUIDCRYSTALLINE ASSEMBLIES:2||OXIDE):2||molecular weight distribution:2||CONJUGATED POLYMER:2||polymer characterization:2||NONIONIC SURFACTANTS:2||STEREOREGULAR POLY(METHYL METHACRYLATE):2||structure:2||RODLIKE POLYIMIDE:2||FLEXIBLE POLYIMIDE:2||THERMAL IMIDIZATION:2||IN SITU RODCHAIN FORMATION:2||PHASESEPARATION:2||VINYL ETHER):2||EQUILIBRIUM:2||STRESS:2||STRUCTURAL RELAXATION:2||LIVING POLYMERIZATION:2||CONTAIN:2||SALT:2||WAVEGUIDE:2||XRAY DIFFRACTION:2||WALLED CARBON NANOTUBES:2||SILICON NANOWIRES:2||IR:2||DIELECTRIC THINFILMS:2||Selfassembled monolayer:2||PARAMETERS:2||Temperature gradient interaction chromatography:2||SOLIDSURFACES:2||FLOW:2||RATES:2||PRECURSORS:2||FILM BALANCE:2||SIDECHAINS:2||SUPRAMOLECULAR MATERIALS:2||CHAINS:2||POLYSTYRENE:39||ANIONICPOLYMERIZATION:34||GRADIENT INTERACTION CHROMATOGRAPHY:31||SEPARATION:27||BEHAVIOR:24||LIQUIDCHROMATOGRAPHY:22||POLYMERS:22||SIZEEXCLUSION CHROMATOGRAPHY:19||BLOCKCOPOLYMERS:17||DIBLOCK COPOLYMERS:17||THINFILMS:16||POLYISOPRENE:14||HPLC:13||SYNTHETICPOLYMERS:12||PERFORMANCE LIQUIDCHROMATOGRAPHY:11||DIBLOCK COPOLYMER:11||MOLECULARWEIGHT DISTRIBUTION:10||MACROMOLECULES:10||BLOCKCOPOLYMER:10||REVERSEDPHASE:10||RETENTION BEHAVIOR:10||MORPHOLOGY:9||MOLECULARWEIGHT:9||MELTS:9||AROMATIC POLYIMIDES:8||XRAYSCATTERING:8||polystyrene:8||MIXTURES:7||block copolymer:7||SURFACES:7||DEPENDENCE:7||COPOLYMERS:7||POLYMERIZATION:7||AIR/WATER INTERFACE:7||DEFINED BRUSH POLYIMIDE:6||TEMPERATURE:6||FULLY RODLIKE BACKBONE:6||MONOLAYERS:6||POLYIMIDES:6||CHAIN:6||COMPLEX POLYMERS:6||MOLECULARREORIENTATION:6||temperature gradient interaction chromatography:6||POLYMERFILMS:6||GELPERMEATION CHROMATOGRAPHY:6||ELUTION:6||ORDERDISORDER TRANSITION:6||SURFACEMORPHOLOGY:6||ORIENTATION:6||SYSTEMS:6||CRITICAL ADSORPTION POINT:6||LIGHTSCATTERING:5||PROBE DIFFUSION:5||POLYDISPERSITY:5||AIRWATERINTERFACE:5||MICROPHASE SEPARATION:5||GLASSTRANSITION:5||BLENDS:5||FILMS:5||ADSORPTION CHROMATOGRAPHY:5||MECHANISM:5||CO2:5||ETHYLENEOXIDE:5||ALIGNMENT:5||COMPLEXES:5||FRACTIONATION:5||MISCIBILITY:5||POLYMER CHARACTERIZATION:5||HEXAGONALLY PERFORATED LAYER:5||TRANSITION:5||FLIGHT MASSSPECTROMETRY:5||ARCHITECTURE:5||POLY(METHYL METHACRYLATE):5||ALTERNATING COPOLYMERIZATION:4||THICKNESS:4||THERMODYNAMICS:4||CRITICAL RANGE:4||ULTRATHIN POLYMERFILMS:4||DYNAMICS:4||CLIMATECHANGE:4||PHASE:4||GLASSTRANSITION TEMPERATURE:4||EPOXIDE:4||selfassembly:4||SPECTROSCOPY:4||SELFDIFFUSION:4||SCATTERING:4||OPTICALPROPERTIES:4||CATALYSTS:4||CHEMISTRY:4||SOLARCELLS:4||polyimides:4||polypyromellitimides:4||SEGMENTAL REORIENTATIONS:4||ADSORPTION:4||INTERFACE:4||POLYMERSOLUTIONS:4||TRACER DIFFUSION:4||OXIDE) DIBLOCK COPOLYMER:4||POLYSTYRENEBPOLY(METHYL METHACRYLATE):4||POLYMER BLENDS:4||SIMULATION:4||CHAIN ORIENTATION:4||STYRENE:4||TOF MASSSPECTROMETRY:4||WATER:4||DISPLAYS:4||OLIGOMERS:4||PEPTIDES:4||CYCLIC POLYSTYRENE:4||LATTICE CLUSTER THEORY:4||2NDHARMONIC GENERATION:4||LIQUIDCRYSTAL ALIGNMENT:4||MONTECARLO:4||LangmuirBlodgett film:3||ASSEMBLIES:3||chromatography:3||HOLOGRAPHIC RELAXATION SPECTROSCOPY:3||MULTIPLE MORPHOLOGIES:3||INTERACTION CHROMATOGRAPHY:3||NORMALPHASE:3||DIFFUSION:3||BRANCHED POLYSTYRENE:3||NANOPARTICLES:3||LITHOGRAPHY:3||POLYMER:3||LASERLIGHTSCATTERING:3||HIGH MOLECULARWEIGHT:3||CUBIC PHASE:3||AMPHIPHILIC BLOCKCOPOLYMERS:3||AQUEOUSSOLUTION:3||MODEL:3||FORCED RAYLEIGHSCATTERING:3||HYDRODYNAMIC PROPERTIES:3||4MIKTOARM STAR COPOLYMER:3||SYSTEM:3||PHASEBEHAVIOR:3||AQUEOUSSOLUTIONS:3||RHEOLOGY:3||LB film:3||2DIMENSIONAL LIQUIDCHROMATOGRAPHY:3||VISCOSITY:3||DIBLOCK COPOLYMER MELTS:3||ORDERORDER TRANSITION:3||GYROID PHASE:3||BINDING:3||BLOCK POLYELECTROLYTES:3||DERIVATIVES:3||MELT:3||PHASE LIQUIDCHROMATOGRAPHY:3||high temperature:3||ELEVATEDTEMPERATURE:3||RETENTION:3||MICELLE FORMATION:3||ELECTRONMICROSCOPY:3||Electrospray ionization:2||FRACTIONS:2||nalkanes:2||ISOCRATIC SEPARATION:2||ASSOCIATION:2||POLY(METHYL METHACRYLATE)S:2||2D correlation spectroscopy:2||CARBONATION:2||GLASSTRANSITION BEHAVIORS:2||MECHANICAL PROPERTIES:2||DIMENSIONS:2||POLYMER MIXTURES:2||ALUMINUM PORPHYRIN:2||LEAD STEARATE:2||FERROCENE:2||POLY(EPSILONCAPROLACTONE):2||DIAGRAM:2||nucleosides:2||Selective recognition by preconcentration:2||Electrochemical impedance spectroscopy:2||DOPAMINE:2||Silica:2||Silyl Ester:2||DIETHYL ESTER) PRECURSORS:2||SURFACE CHARACTERIZATION:2||MICROSTRUCTURE:2||polystyreneblockpolyisoprene:2||MICROPHASESEPARATED STRUCTURES:2||IMPEDANCE MEASUREMENTS:2||HEMEPROTEINS:2||SOLID SUBSTRATE:2||MOISTURE ABSORPTION:2||aromatic polyimide:2||INDUCED MORPHOLOGICALCHANGES:2||STABILITY:2||LC alignment layers:2||POLYPYROMELLITIMIDES:2||Ion mobility:2||Chiral polymer:2||OLIGOSACCHARIDES:2||OXIDE:2||SIDECHAIN:2||RETARDATION:2||functionality:2||temperature effects:2||phase transition:2||glass transition temperature:2||spincoated film:2||ESTER) PRECURSORS:2||PRECURSOR BLEND:2||Xray reflectivity:2||SIGMABONDS:2||aluminum porphyrin catalysts:2||METALLOPORPHYRIN:2||SILICON:2||MASSSPECTROMETRY ANALYSIS:2||STAR POLYMERS:2||SIZE DISTRIBUTIONS:2||GIANT VESICLES:2||POLY(3ALKYLTHIOPHENES):2||ADHESION:2||LIGHT:2||POLYSTYRENEBPOLYISOPRENE:2||HPLC fractionation:2||SILVER ELECTRODES:2||ENHANCED RESONANCE RAMAN:2||SEQUENCE:2||POLYELECTROLYTE/NONELECTROLYTE SHELLS:2||polyimide:2||liquid crystal alignment layer:2||SOLUBLE POLYIMIDES:2||POLYBUTADIENECOATED ZIRCONIA:2||PRETILT ANGLES:2||CROSSSECTIONS:2||IMSMS:2||POLYISOPRENE COPOLYMERS:2||POLYIMIDE THINFILMS:2||POLYMER SURFACES:2||RAMAN:2||STEREOREGULAR PMMA:2||poly(tertbutyl methacrylate) (PtBMA):2||TIME:2||POLYIMIDE COMPOSITE:2||CARBOXYLATO COMPLEXES:2||AGOSTIC INTERACTIONS:2||MOLECULARSTRUCTURE:2||ALKENE:2||TRANSISTOR MEMORY:2||DEVICES:2||ORTHOGONALITY:2||molecular characterization:2||ORGANOSILICATE DIELECTRIC FILMS:2||AMPHIPHILES:2||Serotonin:2||Anodic stripping differential pulse voltammetry:2||transmission electron microtomography:2||LIQUIDCHROMATOGRAPHY ANALYSIS:2||PHASEDIAGRAM:2||CARBON NANOTUBES:2||TRANSFER MECHANISM:2||BINARY MIXTURES:2||REFLECTOMETRY:2||ROD:2||DROPS:2||CONSTANT:2||TRIBLOCK COPOLYMER:2||POLYMER VESICLES:2||CLICK CHEMISTRY:2||ARRAYS:2||COMPOSITES:2||MALDITOF MS:2||POLYMER THINFILMS:2||HYDROPHOBIC INTERACTION CHROMATOGRAPHY:2||retention mechanism:2||GRAZINGINCIDENCE:2||NANOPOROSITY:2||soluble poly(amic esteraltimide)s:2||DIFFERENTIAL SCANNING CALORIMETRY:2||RESIDUALSTRESS:2||CHEMICALCOMPOSITION:2||POLY(AMIC DIETHYL ESTER) PRECURSOR:2||POLY(DIMETHYL SILOXANES):2||MASS POLYSTYRENES:2||cyclic propylene carbonate:2||propylene oxide:2||ACETATE) TOLUENE SOLUTIONS:2||TRANSIENT GRATING METHOD:2||MASS DIFFUSION:2||MICROPHASE SEPARATION TRANSITION:2||POLYSTYRENES:2||POLYSILANE:2||CARBOHYDRATEBASED PHOSPHOLIPIDS:2||HELICAL STRANDS:2||FLUORESCENCE DETECTION:2||SENSITIVE DETERMINATION:2||COMPOSITE FILMS:2||microphase:2||3MERCAPTOPROPIONIC ACID:2||BUTADIENE BLOCK COPOLYMER:2||HYBRID POLYMERIC MICELLES:2||AQUEOUSMEDIA:2||CONTACTANGLE:2||TRANSISTORCIRCUITS:2||ABTYPE POLY(ETHERIMIDE)S:2||CORRELATION SPECTROSCOPY:2||GASPHASE CONFORMATIONS:2||DECANE:2||INFRAREDSPECTROSCOPY:2||MICELLIZATION:2||ENERGIES:2||ACID) PRECURSORS:2||PHOTOALIGNMENT:2||polymers:2||SUBSTRATE:2||carbon dioxide:2||oligomeric propylene carbonate:2||THERMALDIFFUSION:2||CRYSTAL:2||PHASETRANSITION:2||REFLECTIVITY:2||ANALOGS:2||supramolecular chemistry:2||LYSOPHOSPHATIDIC ACID:2||PHOSPHOCHOLINE:2||POLY(3HEXYLTHIOPHENE):2||Receptor:2||MODIFIED GOLD ELECTRODES:2||ASCORBICACID:2||HUMAN URINE:2||Hybrid Nanocomposite:2||Dielectric Constant:2||AU(111) ELECTRODES:2||NANOFILMS:2||HYDROPHOBIC CORES:2||DRIVEN:2||FLEXIBLE SIDECHAINS:2||MESOGEN:2||size exclusion chromatography:2||ORGANIZATION:2||POLY(LACTIC ACID):2||MOLECULAR ARCHITECTURE:2||COUPLER:2||POLYSTYRENE COPOLYMER:2||diffusion coefficient:2||XRAY REFLECTIVITY:2||temperature gradient interaction chromatography polystyryllithium:2||VISCOELASTIC PROPERTIES:2||polyisoprene:2||CRYSTALSTRUCTURES:2||POLYCARBONATE:2||MULTILAYERS:2||DEPOSITION:2||FULL ADSORPTION MECHANISMS:2||QUANTUM DOTS:2||CRITICAL ORDERING TRANSITION:2||CORE:2||PARACRYSTALLINE DISTORTION:2||PERFORATED LAYER PHASE:2||liposomes:2||phospholipids:2||UNILAMELLAR VESICLES:2||VOLTAMMETRIC DETERMINATION:2||Polyimide:2||FOURIERTRANSFORM:2||SURFACE:2||SIZE EXCLUSION CHROMATOGRAPHY:2||NEUTRON REFLECTIVITY:2||ORDERED STRUCTURE:2||RIGID ROD POLYMERS:2||DISPLACEMENT POLYMERIZATION:2||PHOTOSENSITIVE POLYIMIDE:2||EFFICIENCY:2||films:2||Polylactide:2||CHROMATOGRAPHIC CRITICAL CONDITION:2||RETENTION MECHANISM:2||COPPER PHTHALOCYANINE:2||C60:2||COPOLYMER:2||micelle:2||LINEAR POLYETHYLENE:2||LIQUIDS:2||ARMS:2||HIGHPERFORMANCE LIQUID:2||alternating copolyimides:2||PHASE SEPARATION:2||POLYMERCHAINS:2||STYRYLPYRIDINIUM:2||ANGLES:2||MOBILITY:2||PROBE:2||ACIDS:2||BLUE:2||POSITIONS:2||CYCLOPENTADIENYL:2||HIGHMOLECULARWEIGHT:2||FUELCELLS:2||TIN OXIDE:2||NANOCRYSTALS:2||SURFACE MICELLE FORMATION:2||DISORDER TRANSITION:2||BIREFRINGENCE:2||LIPIDCOMPOSITION:2||CONJUGATED POLYMERS:2||GLASSYCARBON ELECTRODE:2||ELECTROCHEMICAL DETECTION:2||MULTIPLE DETECTION:2||aromatic polyimides:2||MOLECULARWEIGHT HOMOPOLYMERS:2||BINARYMIXTURE:2||PATTERNS:2||photoluminescent polyimide:2||photosensitive polyimide:2||DEPENDENT MICELLIZATION:2||SPEED:2||synthesis:2||COIL BLOCKCOPOLYMERS:2||LIQUIDCRYSTALLINE ASSEMBLIES:2||OXIDE):2||molecular weight distribution:2||CONJUGATED POLYMER:2||polymer characterization:2||NONIONIC SURFACTANTS:2||STEREOREGULAR POLY(METHYL METHACRYLATE):2||structure:2||RODLIKE POLYIMIDE:2||FLEXIBLE POLYIMIDE:2||THERMAL IMIDIZATION:2||IN SITU RODCHAIN FORMATION:2||PHASESEPARATION:2||VINYL ETHER):2||EQUILIBRIUM:2||STRESS:2||STRUCTURAL RELAXATION:2||LIVING POLYMERIZATION:2||CONTAIN:2||SALT:2||WAVEGUIDE:2||XRAY DIFFRACTION:2||WALLED CARBON NANOTUBES:2||SILICON NANOWIRES:2||IR:2||DIELECTRIC THINFILMS:2||Selfassembled monolayer:2||PARAMETERS:2||Temperature gradient interaction chromatography:2||SOLIDSURFACES:2||FLOW:2||RATES:2||PRECURSORS:2||FILM BALANCE:2||SIDECHAINS:2||SUPRAMOLECULAR MATERIALS:2||CHAINS:2||POLYSTYRENE:39||ANIONICPOLYMERIZATION:34||GRADIENT INTERACTION CHROMATOGRAPHY:31||SEPARATION:27||BEHAVIOR:24||LIQUIDCHROMATOGRAPHY:22||POLYMERS:22||SIZEEXCLUSION CHROMATOGRAPHY:19||BLOCKCOPOLYMERS:17||DIBLOCK COPOLYMERS:17||THINFILMS:16||POLYISOPRENE:14||HPLC:13||SYNTHETICPOLYMERS:12||PERFORMANCE LIQUIDCHROMATOGRAPHY:11||DIBLOCK COPOLYMER:11||MOLECULARWEIGHT DISTRIBUTION:10||MACROMOLECULES:10||BLOCKCOPOLYMER:10||REVERSEDPHASE:10||RETENTION BEHAVIOR:10||MORPHOLOGY:9||MOLECULARWEIGHT:9||MELTS:9||AROMATIC POLYIMIDES:8||XRAYSCATTERING:8||polystyrene:8||MIXTURES:7||block copolymer:7||SURFACES:7||DEPENDENCE:7||COPOLYMERS:7||POLYMERIZATION:7||AIR/WATER INTERFACE:7||DEFINED BRUSH POLYIMIDE:6||TEMPERATURE:6||FULLY RODLIKE BACKBONE:6||MONOLAYERS:6||POLYIMIDES:6||CHAIN:6||COMPLEX POLYMERS:6||MOLECULARREORIENTATION:6||temperature gradient interaction chromatography:6||POLYMERFILMS:6||GELPERMEATION CHROMATOGRAPHY:6||ELUTION:6||ORDERDISORDER TRANSITION:6||SURFACEMORPHOLOGY:6||ORIENTATION:6||SYSTEMS:6||CRITICAL ADSORPTION POINT:6||LIGHTSCATTERING:5||PROBE DIFFUSION:5||POLYDISPERSITY:5||AIRWATERINTERFACE:5||MICROPHASE SEPARATION:5||GLASSTRANSITION:5||BLENDS:5||FILMS:5||ADSORPTION CHROMATOGRAPHY:5||MECHANISM:5||CO2:5||ETHYLENEOXIDE:5||ALIGNMENT:5||COMPLEXES:5||FRACTIONATION:5||MISCIBILITY:5||POLYMER CHARACTERIZATION:5||HEXAGONALLY PERFORATED LAYER:5||TRANSITION:5||FLIGHT MASSSPECTROMETRY:5||ARCHITECTURE:5||POLY(METHYL METHACRYLATE):5||ALTERNATING COPOLYMERIZATION:4||THICKNESS:4||THERMODYNAMICS:4||CRITICAL RANGE:4||ULTRATHIN POLYMERFILMS:4||DYNAMICS:4||CLIMATECHANGE:4||PHASE:4||GLASSTRANSITION TEMPERATURE:4||EPOXIDE:4||selfassembly:4||SPECTROSCOPY:4||SELFDIFFUSION:4||SCATTERING:4||OPTICALPROPERTIES:4||CATALYSTS:4||CHEMISTRY:4||SOLARCELLS:4||polyimides:4||polypyromellitimides:4||SEGMENTAL REORIENTATIONS:4||ADSORPTION:4||INTERFACE:4||POLYMERSOLUTIONS:4||TRACER DIFFUSION:4||OXIDE) DIBLOCK COPOLYMER:4||POLYSTYRENEBPOLY(METHYL METHACRYLATE):4||POLYMER BLENDS:4||SIMULATION:4||CHAIN ORIENTATION:4||STYRENE:4||TOF MASSSPECTROMETRY:4||WATER:4||DISPLAYS:4||OLIGOMERS:4||PEPTIDES:4||CYCLIC POLYSTYRENE:4||LATTICE CLUSTER THEORY:4||2NDHARMONIC GENERATION:4||LIQUIDCRYSTAL ALIGNMENT:4||MONTECARLO:4||LangmuirBlodgett film:3||ASSEMBLIES:3||chromatography:3||HOLOGRAPHIC RELAXATION SPECTROSCOPY:3||MULTIPLE MORPHOLOGIES:3||INTERACTION CHROMATOGRAPHY:3||NORMALPHASE:3||DIFFUSION:3||BRANCHED POLYSTYRENE:3||NANOPARTICLES:3||LITHOGRAPHY:3||POLYMER:3||LASERLIGHTSCATTERING:3||HIGH MOLECULARWEIGHT:3||CUBIC PHASE:3||AMPHIPHILIC BLOCKCOPOLYMERS:3||AQUEOUSSOLUTION:3||MODEL:3||FORCED RAYLEIGHSCATTERING:3||HYDRODYNAMIC PROPERTIES:3||4MIKTOARM STAR COPOLYMER:3||SYSTEM:3||PHASEBEHAVIOR:3||AQUEOUSSOLUTIONS:3||RHEOLOGY:3||LB film:3||2DIMENSIONAL LIQUIDCHROMATOGRAPHY:3||VISCOSITY:3||DIBLOCK COPOLYMER MELTS:3||ORDERORDER TRANSITION:3||GYROID PHASE:3||BINDING:3||BLOCK POLYELECTROLYTES:3||DERIVATIVES:3||MELT:3||PHASE LIQUIDCHROMATOGRAPHY:3||high temperature:3||ELEVATEDTEMPERATURE:3||RETENTION:3||MICELLE FORMATION:3||ELECTRONMICROSCOPY:3||Electrospray ionization:2||FRACTIONS:2||nalkanes:2||ISOCRATIC SEPARATION:2||ASSOCIATION:2||POLY(METHYL METHACRYLATE)S:2||2D correlation spectroscopy:2||CARBONATION:2||GLASSTRANSITION BEHAVIORS:2||MECHANICAL PROPERTIES:2||DIMENSIONS:2||POLYMER MIXTURES:2||ALUMINUM PORPHYRIN:2||LEAD STEARATE:2||FERROCENE:2||POLY(EPSILONCAPROLACTONE):2||DIAGRAM:2||nucleosides:2||Selective recognition by preconcentration:2||Electrochemical impedance spectroscopy:2||DOPAMINE:2||Silica:2||Silyl Ester:2||DIETHYL ESTER) PRECURSORS:2||SURFACE CHARACTERIZATION:2||MICROSTRUCTURE:2||polystyreneblockpolyisoprene:2||MICROPHASESEPARATED STRUCTURES:2||IMPEDANCE MEASUREMENTS:2||HEMEPROTEINS:2||SOLID SUBSTRATE:2||MOISTURE ABSORPTION:2||aromatic polyimide:2||INDUCED MORPHOLOGICALCHANGES:2||STABILITY:2||LC alignment layers:2||POLYPYROMELLITIMIDES:2||Ion mobility:2||Chiral polymer:2||OLIGOSACCHARIDES:2||OXIDE:2||SIDECHAIN:2||RETARDATION:2||functionality:2||temperature effects:2||phase transition:2||glass transition temperature:2||spincoated film:2||ESTER) PRECURSORS:2||PRECURSOR BLEND:2||Xray reflectivity:2||SIGMABONDS:2||aluminum porphyrin catalysts:2||METALLOPORPHYRIN:2||SILICON:2||MASSSPECTROMETRY ANALYSIS:2||STAR POLYMERS:2||SIZE DISTRIBUTIONS:2||GIANT VESICLES:2||POLY(3ALKYLTHIOPHENES):2||ADHESION:2||LIGHT:2||POLYSTYRENEBPOLYISOPRENE:2||HPLC fractionation:2||SILVER ELECTRODES:2||ENHANCED RESONANCE RAMAN:2||SEQUENCE:2||POLYELECTROLYTE/NONELECTROLYTE SHELLS:2||polyimide:2||liquid crystal alignment layer:2||SOLUBLE POLYIMIDES:2||POLYBUTADIENECOATED ZIRCONIA:2||PRETILT ANGLES:2||CROSSSECTIONS:2||IMSMS:2||POLYISOPRENE COPOLYMERS:2||POLYIMIDE THINFILMS:2||POLYMER SURFACES:2||RAMAN:2||STEREOREGULAR PMMA:2||poly(tertbutyl methacrylate) (PtBMA):2||TIME:2||POLYIMIDE COMPOSITE:2||CARBOXYLATO COMPLEXES:2||AGOSTIC INTERACTIONS:2||MOLECULARSTRUCTURE:2||ALKENE:2||TRANSISTOR MEMORY:2||DEVICES:2||ORTHOGONALITY:2||molecular characterization:2||ORGANOSILICATE DIELECTRIC FILMS:2||AMPHIPHILES:2||Serotonin:2||Anodic stripping differential pulse voltammetry:2||transmission electron microtomography:2||LIQUIDCHROMATOGRAPHY ANALYSIS:2||PHASEDIAGRAM:2||CARBON NANOTUBES:2||TRANSFER MECHANISM:2||BINARY MIXTURES:2||REFLECTOMETRY:2||ROD:2||DROPS:2||CONSTANT:2||TRIBLOCK COPOLYMER:2||POLYMER VESICLES:2||CLICK CHEMISTRY:2||ARRAYS:2||COMPOSITES:2||MALDITOF MS:2||POLYMER THINFILMS:2||HYDROPHOBIC INTERACTION CHROMATOGRAPHY:2||retention mechanism:2||GRAZINGINCIDENCE:2||NANOPOROSITY:2||soluble poly(amic esteraltimide)s:2||DIFFERENTIAL SCANNING CALORIMETRY:2||RESIDUALSTRESS:2||CHEMICALCOMPOSITION:2||POLY(AMIC DIETHYL ESTER) PRECURSOR:2||POLY(DIMETHYL SILOXANES):2||MASS POLYSTYRENES:2||cyclic propylene carbonate:2||propylene oxide:2||ACETATE) TOLUENE SOLUTIONS:2||TRANSIENT GRATING METHOD:2||MASS DIFFUSION:2||MICROPHASE SEPARATION TRANSITION:2||POLYSTYRENES:2||POLYSILANE:2||CARBOHYDRATEBASED PHOSPHOLIPIDS:2||HELICAL STRANDS:2||FLUORESCENCE DETECTION:2||SENSITIVE DETERMINATION:2||COMPOSITE FILMS:2||microphase:2||3MERCAPTOPROPIONIC ACID:2||BUTADIENE BLOCK COPOLYMER:2||HYBRID POLYMERIC MICELLES:2||AQUEOUSMEDIA:2||CONTACTANGLE:2||TRANSISTORCIRCUITS:2||ABTYPE POLY(ETHERIMIDE)S:2||CORRELATION SPECTROSCOPY:2||GASPHASE CONFORMATIONS:2||DECANE:2||INFRAREDSPECTROSCOPY:2||MICELLIZATION:2||ENERGIES:2||ACID) PRECURSORS:2||PHOTOALIGNMENT:2||polymers:2||SUBSTRATE:2||carbon dioxide:2||oligomeric propylene carbonate:2||THERMALDIFFUSION:2||CRYSTAL:2||PHASETRANSITION:2||REFLECTIVITY:2||ANALOGS:2||supramolecular chemistry:2||LYSOPHOSPHATIDIC ACID:2||PHOSPHOCHOLINE:2||POLY(3HEXYLTHIOPHENE):2||Receptor:2||MODIFIED GOLD ELECTRODES:2||ASCORBICACID:2||HUMAN URINE:2||Hybrid Nanocomposite:2||Dielectric Constant:2||AU(111) ELECTRODES:2||NANOFILMS:2||HYDROPHOBIC CORES:2||DRIVEN:2||FLEXIBLE SIDECHAINS:2||MESOGEN:2||size exclusion chromatography:2||ORGANIZATION:2||POLY(LACTIC ACID):2||MOLECULAR ARCHITECTURE:2||COUPLER:2||POLYSTYRENE COPOLYMER:2||diffusion coefficient:2||XRAY REFLECTIVITY:2||temperature gradient interaction chromatography polystyryllithium:2||VISCOELASTIC PROPERTIES:2||polyisoprene:2||CRYSTALSTRUCTURES:2||POLYCARBONATE:2||MULTILAYERS:2||DEPOSITION:2||FULL ADSORPTION MECHANISMS:2||QUANTUM DOTS:2||CRITICAL ORDERING TRANSITION:2||CORE:2||PARACRYSTALLINE DISTORTION:2||PERFORATED LAYER PHASE:2||liposomes:2||phospholipids:2||UNILAMELLAR VESICLES:2||VOLTAMMETRIC DETERMINATION:2||Polyimide:2||FOURIERTRANSFORM:2||SURFACE:2||SIZE EXCLUSION CHROMATOGRAPHY:2||NEUTRON REFLECTIVITY:2||ORDERED STRUCTURE:2||RIGID ROD POLYMERS:2||DISPLACEMENT POLYMERIZATION:2||PHOTOSENSITIVE POLYIMIDE:2||EFFICIENCY:2||films:2||Polylactide:2||CHROMATOGRAPHIC CRITICAL CONDITION:2||RETENTION MECHANISM:2||COPPER PHTHALOCYANINE:2||C60:2||COPOLYMER:2||micelle:2||LINEAR POLYETHYLENE:2||LIQUIDS:2||ARMS:2||HIGHPERFORMANCE LIQUID:2||alternating copolyimides:2||PHASE SEPARATION:2||POLYMERCHAINS:2||STYRYLPYRIDINIUM:2||ANGLES:2||MOBILITY:2||PROBE:2||ACIDS:2||BLUE:2||POSITIONS:2||CYCLOPENTADIENYL:2||HIGHMOLECULARWEIGHT:2||FUELCELLS:2||TIN OXIDE:2||NANOCRYSTALS:2||SURFACE MICELLE FORMATION:2||DISORDER TRANSITION:2||BIREFRINGENCE:2||LIPIDCOMPOSITION:2||CONJUGATED POLYMERS:2||GLASSYCARBON ELECTRODE:2||ELECTROCHEMICAL DETECTION:2||MULTIPLE DETECTION:2||aromatic polyimides:2||MOLECULARWEIGHT HOMOPOLYMERS:2||BINARYMIXTURE:2||PATTERNS:2||photoluminescent polyimide:2||photosensitive polyimide:2||DEPENDENT MICELLIZATION:2||SPEED:2||synthesis:2||COIL BLOCKCOPOLYMERS:2||LIQUIDCRYSTALLINE ASSEMBLIES:2||OXIDE):2||molecular weight distribution:2||CONJUGATED POLYMER:2||polymer characterization:2||NONIONIC SURFACTANTS:2||STEREOREGULAR POLY(METHYL METHACRYLATE):2||structure:2||RODLIKE POLYIMIDE:2||FLEXIBLE POLYIMIDE:2||THERMAL IMIDIZATION:2||IN SITU RODCHAIN FORMATION:2||PHASESEPARATION:2||VINYL ETHER):2||EQUILIBRIUM:2||STRESS:2||STRUCTURAL RELAXATION:2||LIVING POLYMERIZATION:2||CONTAIN:2||SALT:2||WAVEGUIDE:2||XRAY DIFFRACTION:2||WALLED CARBON NANOTUBES:2||SILICON NANOWIRES:2||IR:2||DIELECTRIC THINFILMS:2||Selfassembled monolayer:2||PARAMETERS:2||Temperature gradient interaction chromatography:2||SOLIDSURFACES:2||FLOW:2||RATES:2||PRECURSORS:2||FILM BALANCE:2||SIDECHAINS:2||SUPRAMOLECULAR MATERIALS:2||CHAINS:2||POLYSTYRENE:39||ANIONICPOLYMERIZATION:34||GRADIENT INTERACTION CHROMATOGRAPHY:31||SEPARATION:27||BEHAVIOR:24||LIQUIDCHROMATOGRAPHY:22||POLYMERS:22||SIZEEXCLUSION CHROMATOGRAPHY:19||BLOCKCOPOLYMERS:17||DIBLOCK COPOLYMERS:17||THINFILMS:16||POLYISOPRENE:14||HPLC:13||SYNTHETICPOLYMERS:12||PERFORMANCE LIQUIDCHROMATOGRAPHY:11||DIBLOCK COPOLYMER:11||MOLECULARWEIGHT DISTRIBUTION:10||MACROMOLECULES:10||BLOCKCOPOLYMER:10||REVERSEDPHASE:10||RETENTION BEHAVIOR:10||MORPHOLOGY:9||MOLECULARWEIGHT:9||MELTS:9||AROMATIC POLYIMIDES:8||XRAYSCATTERING:8||polystyrene:8||MIXTURES:7||block copolymer:7||SURFACES:7||DEPENDENCE:7||COPOLYMERS:7||POLYMERIZATION:7||AIR/WATER INTERFACE:7||DEFINED BRUSH POLYIMIDE:6||TEMPERATURE:6||FULLY RODLIKE BACKBONE:6||MONOLAYERS:6||POLYIMIDES:6||CHAIN:6||COMPLEX POLYMERS:6||MOLECULARREORIENTATION:6||temperature gradient interaction chromatography:6||POLYMERFILMS:6||GELPERMEATION CHROMATOGRAPHY:6||ELUTION:6||ORDERDISORDER TRANSITION:6||SURFACEMORPHOLOGY:6||ORIENTATION:6||SYSTEMS:6||CRITICAL ADSORPTION POINT:6||LIGHTSCATTERING:5||PROBE DIFFUSION:5||POLYDISPERSITY:5||AIRWATERINTERFACE:5||MICROPHASE SEPARATION:5||GLASSTRANSITION:5||BLENDS:5||FILMS:5||ADSORPTION CHROMATOGRAPHY:5||MECHANISM:5||CO2:5||ETHYLENEOXIDE:5||ALIGNMENT:5||COMPLEXES:5||FRACTIONATION:5||MISCIBILITY:5||POLYMER CHARACTERIZATION:5||HEXAGONALLY PERFORATED LAYER:5||TRANSITION:5||FLIGHT MASSSPECTROMETRY:5||ARCHITECTURE:5||POLY(METHYL METHACRYLATE):5||ALTERNATING COPOLYMERIZATION:4||THICKNESS:4||THERMODYNAMICS:4||CRITICAL RANGE:4||ULTRATHIN POLYMERFILMS:4||DYNAMICS:4||CLIMATECHANGE:4||PHASE:4||GLASSTRANSITION TEMPERATURE:4||EPOXIDE:4||selfassembly:4||SPECTROSCOPY:4||SELFDIFFUSION:4||SCATTERING:4||OPTICALPROPERTIES:4||CATALYSTS:4||CHEMISTRY:4||SOLARCELLS:4||polyimides:4||polypyromellitimides:4||SEGMENTAL REORIENTATIONS:4||ADSORPTION:4||INTERFACE:4||POLYMERSOLUTIONS:4||TRACER DIFFUSION:4||OXIDE) DIBLOCK COPOLYMER:4||POLYSTYRENEBPOLY(METHYL METHACRYLATE):4||POLYMER BLENDS:4||SIMULATION:4||CHAIN ORIENTATION:4||STYRENE:4||TOF MASSSPECTROMETRY:4||WATER:4||DISPLAYS:4||OLIGOMERS:4||PEPTIDES:4||CYCLIC POLYSTYRENE:4||LATTICE CLUSTER THEORY:4||2NDHARMONIC GENERATION:4||LIQUIDCRYSTAL ALIGNMENT:4||MONTECARLO:4||LangmuirBlodgett film:3||ASSEMBLIES:3||chromatography:3||HOLOGRAPHIC RELAXATION SPECTROSCOPY:3||MULTIPLE MORPHOLOGIES:3||INTERACTION CHROMATOGRAPHY:3||NORMALPHASE:3||DIFFUSION:3||BRANCHED POLYSTYRENE:3||NANOPARTICLES:3||LITHOGRAPHY:3||POLYMER:3||LASERLIGHTSCATTERING:3||HIGH MOLECULARWEIGHT:3||CUBIC PHASE:3||AMPHIPHILIC BLOCKCOPOLYMERS:3||AQUEOUSSOLUTION:3||MODEL:3||FORCED RAYLEIGHSCATTERING:3||HYDRODYNAMIC PROPERTIES:3||4MIKTOARM STAR COPOLYMER:3||SYSTEM:3||PHASEBEHAVIOR:3||AQUEOUSSOLUTIONS:3||RHEOLOGY:3||LB film:3||2DIMENSIONAL LIQUIDCHROMATOGRAPHY:3||VISCOSITY:3||DIBLOCK COPOLYMER MELTS:3||ORDERORDER TRANSITION:3||GYROID PHASE:3||BINDING:3||BLOCK POLYELECTROLYTES:3||DERIVATIVES:3||MELT:3||PHASE LIQUIDCHROMATOGRAPHY:3||high temperature:3||ELEVATEDTEMPERATURE:3||RETENTION:3||MICELLE FORMATION:3||ELECTRONMICROSCOPY:3||Electrospray ionization:2||FRACTIONS:2||nalkanes:2||ISOCRATIC SEPARATION:2||ASSOCIATION:2||POLY(METHYL METHACRYLATE)S:2||2D correlation spectroscopy:2||CARBONATION:2||GLASSTRANSITION BEHAVIORS:2||MECHANICAL PROPERTIES:2||DIMENSIONS:2||POLYMER MIXTURES:2||ALUMINUM PORPHYRIN:2||LEAD STEARATE:2||FERROCENE:2||POLY(EPSILONCAPROLACTONE):2||DIAGRAM:2||nucleosides:2||Selective recognition by preconcentration:2||Electrochemical impedance spectroscopy:2||DOPAMINE:2||Silica:2||Silyl Ester:2||DIETHYL ESTER) PRECURSORS:2||SURFACE CHARACTERIZATION:2||MICROSTRUCTURE:2||polystyreneblockpolyisoprene:2||MICROPHASESEPARATED STRUCTURES:2||IMPEDANCE MEASUREMENTS:2||HEMEPROTEINS:2||SOLID SUBSTRATE:2||MOISTURE ABSORPTION:2||aromatic polyimide:2||INDUCED MORPHOLOGICALCHANGES:2||STABILITY:2||LC alignment layers:2||POLYPYROMELLITIMIDES:2||Ion mobility:2||Chiral polymer:2||OLIGOSACCHARIDES:2||OXIDE:2||SIDECHAIN:2||RETARDATION:2||functionality:2||temperature effects:2||phase transition:2||glass transition temperature:2||spincoated film:2||ESTER) PRECURSORS:2||PRECURSOR BLEND:2||Xray reflectivity:2||SIGMABONDS:2||aluminum porphyrin catalysts:2||METALLOPORPHYRIN:2||SILICON:2||MASSSPECTROMETRY ANALYSIS:2||STAR POLYMERS:2||SIZE DISTRIBUTIONS:2||GIANT VESICLES:2||POLY(3ALKYLTHIOPHENES):2||ADHESION:2||LIGHT:2||POLYSTYRENEBPOLYISOPRENE:2||HPLC fractionation:2||SILVER ELECTRODES:2||ENHANCED RESONANCE RAMAN:2||SEQUENCE:2||POLYELECTROLYTE/NONELECTROLYTE SHELLS:2||polyimide:2||liquid crystal alignment layer:2||SOLUBLE POLYIMIDES:2||POLYBUTADIENECOATED ZIRCONIA:2||PRETILT ANGLES:2||CROSSSECTIONS:2||IMSMS:2||POLYISOPRENE COPOLYMERS:2||POLYIMIDE THINFILMS:2||POLYMER SURFACES:2||RAMAN:2||STEREOREGULAR PMMA:2||poly(tertbutyl methacrylate) (PtBMA):2||TIME:2||POLYIMIDE COMPOSITE:2||CARBOXYLATO COMPLEXES:2||AGOSTIC INTERACTIONS:2||MOLECULARSTRUCTURE:2||ALKENE:2||TRANSISTOR MEMORY:2||DEVICES:2||ORTHOGONALITY:2||molecular characterization:2||ORGANOSILICATE DIELECTRIC FILMS:2||AMPHIPHILES:2||Serotonin:2||Anodic stripping differential pulse voltammetry:2||transmission electron microtomography:2||LIQUIDCHROMATOGRAPHY ANALYSIS:2||PHASEDIAGRAM:2||CARBON NANOTUBES:2||TRANSFER MECHANISM:2||BINARY MIXTURES:2||REFLECTOMETRY:2||ROD:2||DROPS:2||CONSTANT:2||TRIBLOCK COPOLYMER:2||POLYMER VESICLES:2||CLICK CHEMISTRY:2||ARRAYS:2||COMPOSITES:2||MALDITOF MS:2||POLYMER THINFILMS:2||HYDROPHOBIC INTERACTION CHROMATOGRAPHY:2||retention mechanism:2||GRAZINGINCIDENCE:2||NANOPOROSITY:2||soluble poly(amic esteraltimide)s:2||DIFFERENTIAL SCANNING CALORIMETRY:2||RESIDUALSTRESS:2||CHEMICALCOMPOSITION:2||POLY(AMIC DIETHYL ESTER) PRECURSOR:2||POLY(DIMETHYL SILOXANES):2||MASS POLYSTYRENES:2||cyclic propylene carbonate:2||propylene oxide:2||ACETATE) TOLUENE SOLUTIONS:2||TRANSIENT GRATING METHOD:2||MASS DIFFUSION:2||MICROPHASE SEPARATION TRANSITION:2||POLYSTYRENES:2||POLYSILANE:2||CARBOHYDRATEBASED PHOSPHOLIPIDS:2||HELICAL STRANDS:2||FLUORESCENCE DETECTION:2||SENSITIVE DETERMINATION:2||COMPOSITE FILMS:2||microphase:2||3MERCAPTOPROPIONIC ACID:2||BUTADIENE BLOCK COPOLYMER:2||HYBRID POLYMERIC MICELLES:2||AQUEOUSMEDIA:2||CONTACTANGLE:2||TRANSISTORCIRCUITS:2||ABTYPE POLY(ETHERIMIDE)S:2||CORRELATION SPECTROSCOPY:2||GASPHASE CONFORMATIONS:2||DECANE:2||INFRAREDSPECTROSCOPY:2||MICELLIZATION:2||ENERGIES:2||ACID) PRECURSORS:2||PHOTOALIGNMENT:2||polymers:2||SUBSTRATE:2||carbon dioxide:2||oligomeric propylene carbonate:2||THERMALDIFFUSION:2||CRYSTAL:2||PHASETRANSITION:2||REFLECTIVITY:2||ANALOGS:2||supramolecular chemistry:2||LYSOPHOSPHATIDIC ACID:2||PHOSPHOCHOLINE:2||POLY(3HEXYLTHIOPHENE):2||Receptor:2||MODIFIED GOLD ELECTRODES:2||ASCORBICACID:2||HUMAN URINE:2||Hybrid Nanocomposite:2||Dielectric Constant:2||AU(111) ELECTRODES:2||NANOFILMS:2||HYDROPHOBIC CORES:2||DRIVEN:2||FLEXIBLE SIDECHAINS:2||MESOGEN:2||size exclusion chromatography:2||ORGANIZATION:2||POLY(LACTIC ACID):2||MOLECULAR ARCHITECTURE:2||COUPLER:2||POLYSTYRENE COPOLYMER:2||diffusion coefficient:2||XRAY REFLECTIVITY:2||temperature gradient interaction chromatography polystyryllithium:2||VISCOELASTIC PROPERTIES:2||polyisoprene:2||CRYSTALSTRUCTURES:2||POLYCARBONATE:2||MULTILAYERS:2||DEPOSITION:2||FULL ADSORPTION MECHANISMS:2||QUANTUM DOTS:2||CRITICAL ORDERING TRANSITION:2||CORE:2||PARACRYSTALLINE DISTORTION:2||PERFORATED LAYER PHASE:2||liposomes:2||phospholipids:2||UNILAMELLAR VESICLES:2||VOLTAMMETRIC DETERMINATION:2||Polyimide:2||FOURIERTRANSFORM:2||SURFACE:2||SIZE EXCLUSION CHROMATOGRAPHY:2||NEUTRON REFLECTIVITY:2||ORDERED STRUCTURE:2||RIGID ROD POLYMERS:2||DISPLACEMENT POLYMERIZATION:2||PHOTOSENSITIVE POLYIMIDE:2||EFFICIENCY:2||films:2||Polylactide:2||CHROMATOGRAPHIC CRITICAL CONDITION:2||RETENTION MECHANISM:2||COPPER PHTHALOCYANINE:2||C60:2||COPOLYMER:2||micelle:2||LINEAR POLYETHYLENE:2||LIQUIDS:2||ARMS:2||HIGHPERFORMANCE LIQUID:2||alternating copolyimides:2||PHASE SEPARATION:2||POLYMERCHAINS:2||STYRYLPYRIDINIUM:2||ANGLES:2||MOBILITY:2||PROBE:2||ACIDS:2||BLUE:2||POSITIONS:2||CYCLOPENTADIENYL:2||HIGHMOLECULARWEIGHT:2||FUELCELLS:2||TIN OXIDE:2||NANOCRYSTALS:2||SURFACE MICELLE FORMATION:2||DISORDER TRANSITION:2||BIREFRINGENCE:2||LIPIDCOMPOSITION:2||CONJUGATED POLYMERS:2||GLASSYCARBON ELECTRODE:2||ELECTROCHEMICAL DETECTION:2||MULTIPLE DETECTION:2||aromatic polyimides:2||MOLECULARWEIGHT HOMOPOLYMERS:2||BINARYMIXTURE:2||PATTERNS:2||photoluminescent polyimide:2||photosensitive polyimide:2||DEPENDENT MICELLIZATION:2||SPEED:2||synthesis:2||COIL BLOCKCOPOLYMERS:2||LIQUIDCRYSTALLINE ASSEMBLIES:2||OXIDE):2||molecular weight distribution:2||CONJUGATED POLYMER:2||polymer characterization:2||NONIONIC SURFACTANTS:2||STEREOREGULAR POLY(METHYL METHACRYLATE):2||structure:2||RODLIKE POLYIMIDE:2||FLEXIBLE POLYIMIDE:2||THERMAL IMIDIZATION:2||IN SITU RODCHAIN FORMATION:2||PHASESEPARATION:2||VINYL ETHER):2||EQUILIBRIUM:2||STRESS:2||STRUCTURAL RELAXATION:2||LIVING POLYMERIZATION:2||CONTAIN:2||SALT:2||WAVEGUIDE:2||XRAY DIFFRACTION:2||WALLED CARBON NANOTUBES:2||SILICON NANOWIRES:2||IR:2||DIELECTRIC THINFILMS:2||Selfassembled monolayer:2||PARAMETERS:2||Temperature gradient interaction chromatography:2||SOLIDSURFACES:2||FLOW:2||RATES:2||PRECURSORS:2||FILM BALANCE:2||SIDECHAINS:2||SUPRAMOLECULAR MATERIALS:2||CHAINS:2||POLYSTYRENE:39||ANIONICPOLYMERIZATION:34||GRADIENT INTERACTION CHROMATOGRAPHY:31||SEPARATION:27||BEHAVIOR:24||LIQUIDCHROMATOGRAPHY:22||POLYMERS:22||SIZEEXCLUSION CHROMATOGRAPHY:19||BLOCKCOPOLYMERS:17||DIBLOCK COPOLYMERS:17||THINFILMS:16||POLYISOPRENE:14||HPLC:13||SYNTHETICPOLYMERS:12||PERFORMANCE LIQUIDCHROMATOGRAPHY:11||DIBLOCK COPOLYMER:11||MOLECULARWEIGHT DISTRIBUTION:10||MACROMOLECULES:10||BLOCKCOPOLYMER:10||REVERSEDPHASE:10||RETENTION BEHAVIOR:10||MORPHOLOGY:9||MOLECULARWEIGHT:9||MELTS:9||AROMATIC POLYIMIDES:8||XRAYSCATTERING:8||polystyrene:8||MIXTURES:7||block copolymer:7||SURFACES:7||DEPENDENCE:7||COPOLYMERS:7||POLYMERIZATION:7||AIR/WATER INTERFACE:7||DEFINED BRUSH POLYIMIDE:6||TEMPERATURE:6||FULLY RODLIKE BACKBONE:6||MONOLAYERS:6||POLYIMIDES:6||CHAIN:6||COMPLEX POLYMERS:6||MOLECULARREORIENTATION:6||temperature gradient interaction chromatography:6||POLYMERFILMS:6||GELPERMEATION CHROMATOGRAPHY:6||ELUTION:6||ORDERDISORDER TRANSITION:6||SURFACEMORPHOLOGY:6||ORIENTATION:6||SYSTEMS:6||CRITICAL ADSORPTION POINT:6||LIGHTSCATTERING:5||PROBE DIFFUSION:5||POLYDISPERSITY:5||AIRWATERINTERFACE:5||MICROPHASE SEPARATION:5||GLASSTRANSITION:5||BLENDS:5||FILMS:5||ADSORPTION CHROMATOGRAPHY:5||MECHANISM:5||CO2:5||ETHYLENEOXIDE:5||ALIGNMENT:5||COMPLEXES:5||FRACTIONATION:5||MISCIBILITY:5||POLYMER CHARACTERIZATION:5||HEXAGONALLY PERFORATED LAYER:5||TRANSITION:5||FLIGHT MASSSPECTROMETRY:5||ARCHITECTURE:5||POLY(METHYL METHACRYLATE):5||ALTERNATING COPOLYMERIZATION:4||THICKNESS:4||THERMODYNAMICS:4||CRITICAL RANGE:4||ULTRATHIN POLYMERFILMS:4||DYNAMICS:4||CLIMATECHANGE:4||PHASE:4||GLASSTRANSITION TEMPERATURE:4||EPOXIDE:4||selfassembly:4||SPECTROSCOPY:4||SELFDIFFUSION:4||SCATTERING:4||OPTICALPROPERTIES:4||CATALYSTS:4||CHEMISTRY:4||SOLARCELLS:4||polyimides:4||polypyromellitimides:4||SEGMENTAL REORIENTATIONS:4||ADSORPTION:4||INTERFACE:4||POLYMERSOLUTIONS:4||TRACER DIFFUSION:4||OXIDE) DIBLOCK COPOLYMER:4||POLYSTYRENEBPOLY(METHYL METHACRYLATE):4||POLYMER BLENDS:4||SIMULATION:4||CHAIN ORIENTATION:4||STYRENE:4||TOF MASSSPECTROMETRY:4||WATER:4||DISPLAYS:4||OLIGOMERS:4||PEPTIDES:4||CYCLIC POLYSTYRENE:4||LATTICE CLUSTER THEORY:4||2NDHARMONIC GENERATION:4||LIQUIDCRYSTAL ALIGNMENT:4||MONTECARLO:4||LangmuirBlodgett film:3||ASSEMBLIES:3||chromatography:3||HOLOGRAPHIC RELAXATION SPECTROSCOPY:3||MULTIPLE MORPHOLOGIES:3||INTERACTION CHROMATOGRAPHY:3||NORMALPHASE:3||DIFFUSION:3||BRANCHED POLYSTYRENE:3||NANOPARTICLES:3||LITHOGRAPHY:3||POLYMER:3||LASERLIGHTSCATTERING:3||HIGH MOLECULARWEIGHT:3||CUBIC PHASE:3||AMPHIPHILIC BLOCKCOPOLYMERS:3||AQUEOUSSOLUTION:3||MODEL:3||FORCED RAYLEIGHSCATTERING:3||HYDRODYNAMIC PROPERTIES:3||4MIKTOARM STAR COPOLYMER:3||SYSTEM:3||PHASEBEHAVIOR:3||AQUEOUSSOLUTIONS:3||RHEOLOGY:3||LB film:3||2DIMENSIONAL LIQUIDCHROMATOGRAPHY:3||VISCOSITY:3||DIBLOCK COPOLYMER MELTS:3||ORDERORDER TRANSITION:3||GYROID PHASE:3||BINDING:3||BLOCK POLYELECTROLYTES:3||DERIVATIVES:3||MELT:3||PHASE LIQUIDCHROMATOGRAPHY:3||high temperature:3||ELEVATEDTEMPERATURE:3||RETENTION:3||MICELLE FORMATION:3||ELECTRONMICROSCOPY:3||Electrospray ionization:2||FRACTIONS:2||nalkanes:2||ISOCRATIC SEPARATION:2||ASSOCIATION:2||POLY(METHYL METHACRYLATE)S:2||2D correlation spectroscopy:2||CARBONATION:2||GLASSTRANSITION BEHAVIORS:2||MECHANICAL PROPERTIES:2||DIMENSIONS:2||POLYMER MIXTURES:2||ALUMINUM PORPHYRIN:2||LEAD STEARATE:2||FERROCENE:2||POLY(EPSILONCAPROLACTONE):2||DIAGRAM:2||nucleosides:2||Selective recognition by preconcentration:2||Electrochemical impedance spectroscopy:2||DOPAMINE:2||Silica:2||Silyl Ester:2||DIETHYL ESTER) PRECURSORS:2||SURFACE CHARACTERIZATION:2||MICROSTRUCTURE:2||polystyreneblockpolyisoprene:2||MICROPHASESEPARATED STRUCTURES:2||IMPEDANCE MEASUREMENTS:2||HEMEPROTEINS:2||SOLID SUBSTRATE:2||MOISTURE ABSORPTION:2||aromatic polyimide:2||INDUCED MORPHOLOGICALCHANGES:2||STABILITY:2||LC alignment layers:2||POLYPYROMELLITIMIDES:2||Ion mobility:2||Chiral polymer:2||OLIGOSACCHARIDES:2||OXIDE:2||SIDECHAIN:2||RETARDATION:2||functionality:2||temperature effects:2||phase transition:2||glass transition temperature:2||spincoated film:2||ESTER) PRECURSORS:2||PRECURSOR BLEND:2||Xray reflectivity:2||SIGMABONDS:2||aluminum porphyrin catalysts:2||METALLOPORPHYRIN:2||SILICON:2||MASSSPECTROMETRY ANALYSIS:2||STAR POLYMERS:2||SIZE DISTRIBUTIONS:2||GIANT VESICLES:2||POLY(3ALKYLTHIOPHENES):2||ADHESION:2||LIGHT:2||POLYSTYRENEBPOLYISOPRENE:2||HPLC fractionation:2||SILVER ELECTRODES:2||ENHANCED RESONANCE RAMAN:2||SEQUENCE:2||POLYELECTROLYTE/NONELECTROLYTE SHELLS:2||polyimide:2||liquid crystal alignment layer:2||SOLUBLE POLYIMIDES:2||POLYBUTADIENECOATED ZIRCONIA:2||PRETILT ANGLES:2||CROSSSECTIONS:2||IMSMS:2||POLYISOPRENE COPOLYMERS:2||POLYIMIDE THINFILMS:2||POLYMER SURFACES:2||RAMAN:2||STEREOREGULAR PMMA:2||poly(tertbutyl methacrylate) (PtBMA):2||TIME:2||POLYIMIDE COMPOSITE:2||CARBOXYLATO COMPLEXES:2||AGOSTIC INTERACTIONS:2||MOLECULARSTRUCTURE:2||ALKENE:2||TRANSISTOR MEMORY:2||DEVICES:2||ORTHOGONALITY:2||molecular characterization:2||ORGANOSILICATE DIELECTRIC FILMS:2||AMPHIPHILES:2||Serotonin:2||Anodic stripping differential pulse voltammetry:2||transmission electron microtomography:2||LIQUIDCHROMATOGRAPHY ANALYSIS:2||PHASEDIAGRAM:2||CARBON NANOTUBES:2||TRANSFER MECHANISM:2||BINARY MIXTURES:2||REFLECTOMETRY:2||ROD:2||DROPS:2||CONSTANT:2||TRIBLOCK COPOLYMER:2||POLYMER VESICLES:2||CLICK CHEMISTRY:2||ARRAYS:2||COMPOSITES:2||MALDITOF MS:2||POLYMER THINFILMS:2||HYDROPHOBIC INTERACTION CHROMATOGRAPHY:2||retention mechanism:2||GRAZINGINCIDENCE:2||NANOPOROSITY:2||soluble poly(amic esteraltimide)s:2||DIFFERENTIAL SCANNING CALORIMETRY:2||RESIDUALSTRESS:2||CHEMICALCOMPOSITION:2||POLY(AMIC DIETHYL ESTER) PRECURSOR:2||POLY(DIMETHYL SILOXANES):2||MASS POLYSTYRENES:2||cyclic propylene carbonate:2||propylene oxide:2||ACETATE) TOLUENE SOLUTIONS:2||TRANSIENT GRATING METHOD:2||MASS DIFFUSION:2||MICROPHASE SEPARATION TRANSITION:2||POLYSTYRENES:2||POLYSILANE:2||CARBOHYDRATEBASED PHOSPHOLIPIDS:2||HELICAL STRANDS:2||FLUORESCENCE DETECTION:2||SENSITIVE DETERMINATION:2||COMPOSITE FILMS:2||microphase:2||3MERCAPTOPROPIONIC ACID:2||BUTADIENE BLOCK COPOLYMER:2||HYBRID POLYMERIC MICELLES:2||AQUEOUSMEDIA:2||CONTACTANGLE:2||TRANSISTORCIRCUITS:2||ABTYPE POLY(ETHERIMIDE)S:2||CORRELATION SPECTROSCOPY:2||GASPHASE CONFORMATIONS:2||DECANE:2||INFRAREDSPECTROSCOPY:2||MICELLIZATION:2||ENERGIES:2||ACID) PRECURSORS:2||PHOTOALIGNMENT:2||polymers:2||SUBSTRATE:2||carbon dioxide:2||oligomeric propylene carbonate:2||THERMALDIFFUSION:2||CRYSTAL:2||PHASETRANSITION:2||REFLECTIVITY:2||ANALOGS:2||supramolecular chemistry:2||LYSOPHOSPHATIDIC ACID:2||PHOSPHOCHOLINE:2||POLY(3HEXYLTHIOPHENE):2||Receptor:2||MODIFIED GOLD ELECTRODES:2||ASCORBICACID:2||HUMAN URINE:2||Hybrid Nanocomposite:2||Dielectric Constant:2||AU(111) ELECTRODES:2||NANOFILMS:2||HYDROPHOBIC CORES:2||DRIVEN:2||FLEXIBLE SIDECHAINS:2||MESOGEN:2||size exclusion chromatography:2||ORGANIZATION:2||POLY(LACTIC ACID):2||MOLECULAR ARCHITECTURE:2||COUPLER:2||POLYSTYRENE COPOLYMER:2||diffusion coefficient:2||XRAY REFLECTIVITY:2||temperature gradient interaction chromatography polystyryllithium:2||VISCOELASTIC PROPERTIES:2||polyisoprene:2||CRYSTALSTRUCTURES:2||POLYCARBONATE:2||MULTILAYERS:2||DEPOSITION:2||FULL ADSORPTION MECHANISMS:2||QUANTUM DOTS:2||CRITICAL ORDERING TRANSITION:2||CORE:2||PARACRYSTALLINE DISTORTION:2||PERFORATED LAYER PHASE:2||liposomes:2||phospholipids:2||UNILAMELLAR VESICLES:2||VOLTAMMETRIC DETERMINATION:2||Polyimide:2||FOURIERTRANSFORM:2||SURFACE:2||SIZE EXCLUSION CHROMATOGRAPHY:2||NEUTRON REFLECTIVITY:2||ORDERED STRUCTURE:2||RIGID ROD POLYMERS:2||DISPLACEMENT POLYMERIZATION:2||PHOTOSENSITIVE POLYIMIDE:2||EFFICIENCY:2||films:2||Polylactide:2||CHROMATOGRAPHIC CRITICAL CONDITION:2||RETENTION MECHANISM:2||COPPER PHTHALOCYANINE:2||C60:2||COPOLYMER:2||micelle:2||LINEAR POLYETHYLENE:2||LIQUIDS:2||ARMS:2||HIGHPERFORMANCE LIQUID:2||alternating copolyimides:2||PHASE SEPARATION:2||POLYMERCHAINS:2||STYRYLPYRIDINIUM:2||ANGLES:2||MOBILITY:2||PROBE:2||ACIDS:2||BLUE:2||POSITIONS:2||CYCLOPENTADIENYL:2||HIGHMOLECULARWEIGHT:2||FUELCELLS:2||TIN OXIDE:2||NANOCRYSTALS:2||SURFACE MICELLE FORMATION:2||DISORDER TRANSITION:2||BIREFRINGENCE:2||LIPIDCOMPOSITION:2||CONJUGATED POLYMERS:2||GLASSYCARBON ELECTRODE:2||ELECTROCHEMICAL DETECTION:2||MULTIPLE DETECTION:2||aromatic polyimides:2||MOLECULARWEIGHT HOMOPOLYMERS:2||BINARYMIXTURE:2||PATTERNS:2||photoluminescent polyimide:2||photosensitive polyimide:2||DEPENDENT MICELLIZATION:2||SPEED:2||synthesis:2||COIL BLOCKCOPOLYMERS:2||LIQUIDCRYSTALLINE ASSEMBLIES:2||OXIDE):2||molecular weight distribution:2||CONJUGATED POLYMER:2||polymer characterization:2||NONIONIC SURFACTANTS:2||STEREOREGULAR POLY(METHYL METHACRYLATE):2||structure:2||RODLIKE POLYIMIDE:2||FLEXIBLE POLYIMIDE:2||THERMAL IMIDIZATION:2||IN SITU RODCHAIN FORMATION:2||PHASESEPARATION:2||VINYL ETHER):2||EQUILIBRIUM:2||STRESS:2||STRUCTURAL RELAXATION:2||LIVING POLYMERIZATION:2||CONTAIN:2||SALT:2||WAVEGUIDE:2||XRAY DIFFRACTION:2||WALLED CARBON NANOTUBES:2||SILICON NANOWIRES:2||IR:2||DIELECTRIC THINFILMS:2||Selfassembled monolayer:2||PARAMETERS:2||Temperature gradient interaction chromatography:2||SOLIDSURFACES:2||FLOW:2||RATES:2||PRECURSORS:2||FILM BALANCE:2||SIDECHAINS:2||SUPRAMOLECULAR MATERIALS:2||CHAINS:2||POLYSTYRENE:39||ANIONICPOLYMERIZATION:34||GRADIENT INTERACTION CHROMATOGRAPHY:31||SEPARATION:27||BEHAVIOR:24||LIQUIDCHROMATOGRAPHY:22||POLYMERS:22||SIZEEXCLUSION CHROMATOGRAPHY:19||BLOCKCOPOLYMERS:17||DIBLOCK COPOLYMERS:17||THINFILMS:16||POLYISOPRENE:14||HPLC:13||SYNTHETICPOLYMERS:12||PERFORMANCE LIQUIDCHROMATOGRAPHY:11||DIBLOCK COPOLYMER:11||MOLECULARWEIGHT DISTRIBUTION:10||MACROMOLECULES:10||BLOCKCOPOLYMER:10||REVERSEDPHASE:10||RETENTION BEHAVIOR:10||MORPHOLOGY:9||MOLECULARWEIGHT:9||MELTS:9||AROMATIC POLYIMIDES:8||XRAYSCATTERING:8||polystyrene:8||MIXTURES:7||block copolymer:7||SURFACES:7||DEPENDENCE:7||COPOLYMERS:7||POLYMERIZATION:7||AIR/WATER INTERFACE:7||DEFINED BRUSH POLYIMIDE:6||TEMPERATURE:6||FULLY RODLIKE BACKBONE:6||MONOLAYERS:6||POLYIMIDES:6||CHAIN:6||COMPLEX POLYMERS:6||MOLECULARREORIENTATION:6||temperature gradient interaction chromatography:6||POLYMERFILMS:6||GELPERMEATION CHROMATOGRAPHY:6||ELUTION:6||ORDERDISORDER TRANSITION:6||SURFACEMORPHOLOGY:6||ORIENTATION:6||SYSTEMS:6||CRITICAL ADSORPTION POINT:6||LIGHTSCATTERING:5||PROBE DIFFUSION:5||POLYDISPERSITY:5||AIRWATERINTERFACE:5||MICROPHASE SEPARATION:5||GLASSTRANSITION:5||BLENDS:5||FILMS:5||ADSORPTION CHROMATOGRAPHY:5||MECHANISM:5||CO2:5||ETHYLENEOXIDE:5||ALIGNMENT:5||COMPLEXES:5||FRACTIONATION:5||MISCIBILITY:5||POLYMER CHARACTERIZATION:5||HEXAGONALLY PERFORATED LAYER:5||TRANSITION:5||FLIGHT MASSSPECTROMETRY:5||ARCHITECTURE:5||POLY(METHYL METHACRYLATE):5||ALTERNATING COPOLYMERIZATION:4||THICKNESS:4||THERMODYNAMICS:4||CRITICAL RANGE:4||ULTRATHIN POLYMERFILMS:4||DYNAMICS:4||CLIMATECHANGE:4||PHASE:4||GLASSTRANSITION TEMPERATURE:4||EPOXIDE:4||selfassembly:4||SPECTROSCOPY:4||SELFDIFFUSION:4||SCATTERING:4||OPTICALPROPERTIES:4||CATALYSTS:4||CHEMISTRY:4||SOLARCELLS:4||polyimides:4||polypyromellitimides:4||SEGMENTAL REORIENTATIONS:4||ADSORPTION:4||INTERFACE:4||POLYMERSOLUTIONS:4||TRACER DIFFUSION:4||OXIDE) DIBLOCK COPOLYMER:4||POLYSTYRENEBPOLY(METHYL METHACRYLATE):4||POLYMER BLENDS:4||SIMULATION:4||CHAIN ORIENTATION:4||STYRENE:4||TOF MASSSPECTROMETRY:4||WATER:4||DISPLAYS:4||OLIGOMERS:4||PEPTIDES:4||CYCLIC POLYSTYRENE:4||LATTICE CLUSTER THEORY:4||2NDHARMONIC GENERATION:4||LIQUIDCRYSTAL ALIGNMENT:4||MONTECARLO:4||LangmuirBlodgett film:3||ASSEMBLIES:3||chromatography:3||HOLOGRAPHIC RELAXATION SPECTROSCOPY:3||MULTIPLE MORPHOLOGIES:3||INTERACTION CHROMATOGRAPHY:3||NORMALPHASE:3||DIFFUSION:3||BRANCHED POLYSTYRENE:3||NANOPARTICLES:3||LITHOGRAPHY:3||POLYMER:3||LASERLIGHTSCATTERING:3||HIGH MOLECULARWEIGHT:3||CUBIC PHASE:3||AMPHIPHILIC BLOCKCOPOLYMERS:3||AQUEOUSSOLUTION:3||MODEL:3||FORCED RAYLEIGHSCATTERING:3||HYDRODYNAMIC PROPERTIES:3||4MIKTOARM STAR COPOLYMER:3||SYSTEM:3||PHASEBEHAVIOR:3||AQUEOUSSOLUTIONS:3||RHEOLOGY:3||LB film:3||2DIMENSIONAL LIQUIDCHROMATOGRAPHY:3||VISCOSITY:3||DIBLOCK COPOLYMER MELTS:3||ORDERORDER TRANSITION:3||GYROID PHASE:3||BINDING:3||BLOCK POLYELECTROLYTES:3||DERIVATIVES:3||MELT:3||PHASE LIQUIDCHROMATOGRAPHY:3||high temperature:3||ELEVATEDTEMPERATURE:3||RETENTION:3||MICELLE FORMATION:3||ELECTRONMICROSCOPY:3||Electrospray ionization:2||FRACTIONS:2||nalkanes:2||ISOCRATIC SEPARATION:2||ASSOCIATION:2||POLY(METHYL METHACRYLATE)S:2||2D correlation spectroscopy:2||CARBONATION:2||GLASSTRANSITION BEHAVIORS:2||MECHANICAL PROPERTIES:2||DIMENSIONS:2||POLYMER MIXTURES:2||ALUMINUM PORPHYRIN:2||LEAD STEARATE:2||FERROCENE:2||POLY(EPSILONCAPROLACTONE):2||DIAGRAM:2||nucleosides:2||Selective recognition by preconcentration:2||Electrochemical impedance spectroscopy:2||DOPAMINE:2||Silica:2||Silyl Ester:2||DIETHYL ESTER) PRECURSORS:2||SURFACE CHARACTERIZATION:2||MICROSTRUCTURE:2||polystyreneblockpolyisoprene:2||MICROPHASESEPARATED STRUCTURES:2||IMPEDANCE MEASUREMENTS:2||HEMEPROTEINS:2||SOLID SUBSTRATE:2||MOISTURE ABSORPTION:2||aromatic polyimide:2||INDUCED MORPHOLOGICALCHANGES:2||STABILITY:2||LC alignment layers:2||POLYPYROMELLITIMIDES:2||Ion mobility:2||Chiral polymer:2||OLIGOSACCHARIDES:2||OXIDE:2||SIDECHAIN:2||RETARDATION:2||functionality:2||temperature effects:2||phase transition:2||glass transition temperature:2||spincoated film:2||ESTER) PRECURSORS:2||PRECURSOR BLEND:2||Xray reflectivity:2||SIGMABONDS:2||aluminum porphyrin catalysts:2||METALLOPORPHYRIN:2||SILICON:2||MASSSPECTROMETRY ANALYSIS:2||STAR POLYMERS:2||SIZE DISTRIBUTIONS:2||GIANT VESICLES:2||POLY(3ALKYLTHIOPHENES):2||ADHESION:2||LIGHT:2||POLYSTYRENEBPOLYISOPRENE:2||HPLC fractionation:2||SILVER ELECTRODES:2||ENHANCED RESONANCE RAMAN:2||SEQUENCE:2||POLYELECTROLYTE/NONELECTROLYTE SHELLS:2||polyimide:2||liquid crystal alignment layer:2||SOLUBLE POLYIMIDES:2||POLYBUTADIENECOATED ZIRCONIA:2||PRETILT ANGLES:2||CROSSSECTIONS:2||IMSMS:2||POLYISOPRENE COPOLYMERS:2||POLYIMIDE THINFILMS:2||POLYMER SURFACES:2||RAMAN:2||STEREOREGULAR PMMA:2||poly(tertbutyl methacrylate) (PtBMA):2||TIME:2||POLYIMIDE COMPOSITE:2||CARBOXYLATO COMPLEXES:2||AGOSTIC INTERACTIONS:2||MOLECULARSTRUCTURE:2||ALKENE:2||TRANSISTOR MEMORY:2||DEVICES:2||ORTHOGONALITY:2||molecular characterization:2||ORGANOSILICATE DIELECTRIC FILMS:2||AMPHIPHILES:2||Serotonin:2||Anodic stripping differential pulse voltammetry:2||transmission electron microtomography:2||LIQUIDCHROMATOGRAPHY ANALYSIS:2||PHASEDIAGRAM:2||CARBON NANOTUBES:2||TRANSFER MECHANISM:2||BINARY MIXTURES:2||REFLECTOMETRY:2||ROD:2||DROPS:2||CONSTANT:2||TRIBLOCK COPOLYMER:2||POLYMER VESICLES:2||CLICK CHEMISTRY:2||ARRAYS:2||COMPOSITES:2||MALDITOF MS:2||POLYMER THINFILMS:2||HYDROPHOBIC INTERACTION CHROMATOGRAPHY:2||retention mechanism:2||GRAZINGINCIDENCE:2||NANOPOROSITY:2||soluble poly(amic esteraltimide)s:2||DIFFERENTIAL SCANNING CALORIMETRY:2||RESIDUALSTRESS:2||CHEMICALCOMPOSITION:2||POLY(AMIC DIETHYL ESTER) PRECURSOR:2||POLY(DIMETHYL SILOXANES):2||MASS POLYSTYRENES:2||cyclic propylene carbonate:2||propylene oxide:2||ACETATE) TOLUENE SOLUTIONS:2||TRANSIENT GRATING METHOD:2||MASS DIFFUSION:2||MICROPHASE SEPARATION TRANSITION:2||POLYSTYRENES:2||POLYSILANE:2||CARBOHYDRATEBASED PHOSPHOLIPIDS:2||HELICAL STRANDS:2||FLUORESCENCE DETECTION:2||SENSITIVE DETERMINATION:2||COMPOSITE FILMS:2||microphase:2||3MERCAPTOPROPIONIC ACID:2||BUTADIENE BLOCK COPOLYMER:2||HYBRID POLYMERIC MICELLES:2||AQUEOUSMEDIA:2||CONTACTANGLE:2||TRANSISTORCIRCUITS:2||ABTYPE POLY(ETHERIMIDE)S:2||CORRELATION SPECTROSCOPY:2||GASPHASE CONFORMATIONS:2||DECANE:2||INFRAREDSPECTROSCOPY:2||MICELLIZATION:2||ENERGIES:2||ACID) PRECURSORS:2||PHOTOALIGNMENT:2||polymers:2||SUBSTRATE:2||carbon dioxide:2||oligomeric propylene carbonate:2||THERMALDIFFUSION:2||CRYSTAL:2||PHASETRANSITION:2||REFLECTIVITY:2||ANALOGS:2||supramolecular chemistry:2||LYSOPHOSPHATIDIC ACID:2||PHOSPHOCHOLINE:2||POLY(3HEXYLTHIOPHENE):2||Receptor:2||MODIFIED GOLD ELECTRODES:2||ASCORBICACID:2||HUMAN URINE:2||Hybrid Nanocomposite:2||Dielectric Constant:2||AU(111) ELECTRODES:2||NANOFILMS:2||HYDROPHOBIC CORES:2||DRIVEN:2||FLEXIBLE SIDECHAINS:2||MESOGEN:2||size exclusion chromatography:2||ORGANIZATION:2||POLY(LACTIC ACID):2||MOLECULAR ARCHITECTURE:2||COUPLER:2||POLYSTYRENE COPOLYMER:2||diffusion coefficient:2||XRAY REFLECTIVITY:2||temperature gradient interaction chromatography polystyryllithium:2||VISCOELASTIC PROPERTIES:2||polyisoprene:2||CRYSTALSTRUCTURES:2||POLYCARBONATE:2||MULTILAYERS:2||DEPOSITION:2||FULL ADSORPTION MECHANISMS:2||QUANTUM DOTS:2||CRITICAL ORDERING TRANSITION:2||CORE:2||PARACRYSTALLINE DISTORTION:2||PERFORATED LAYER PHASE:2||liposomes:2||phospholipids:2||UNILAMELLAR VESICLES:2||VOLTAMMETRIC DETERMINATION:2||Polyimide:2||FOURIERTRANSFORM:2||SURFACE:2||SIZE EXCLUSION CHROMATOGRAPHY:2||NEUTRON REFLECTIVITY:2||ORDERED STRUCTURE:2||RIGID ROD POLYMERS:2||DISPLACEMENT POLYMERIZATION:2||PHOTOSENSITIVE POLYIMIDE:2||EFFICIENCY:2||films:2||Polylactide:2||CHROMATOGRAPHIC CRITICAL CONDITION:2||RETENTION MECHANISM:2||COPPER PHTHALOCYANINE:2||C60:2||COPOLYMER:2||micelle:2||LINEAR POLYETHYLENE:2||LIQUIDS:2||ARMS:2||HIGHPERFORMANCE LIQUID:2||alternating copolyimides:2||PHASE SEPARATION:2||POLYMERCHAINS:2||STYRYLPYRIDINIUM:2||ANGLES:2||MOBILITY:2||PROBE:2||ACIDS:2||BLUE:2||POSITIONS:2||CYCLOPENTADIENYL:2||HIGHMOLECULARWEIGHT:2||FUELCELLS:2||TIN OXIDE:2||NANOCRYSTALS:2||SURFACE MICELLE FORMATION:2||DISORDER TRANSITION:2||BIREFRINGENCE:2||LIPIDCOMPOSITION:2||CONJUGATED POLYMERS:2||GLASSYCARBON ELECTRODE:2||ELECTROCHEMICAL DETECTION:2||MULTIPLE DETECTION:2||aromatic polyimides:2||MOLECULARWEIGHT HOMOPOLYMERS:2||BINARYMIXTURE:2||PATTERNS:2||photoluminescent polyimide:2||photosensitive polyimide:2||DEPENDENT MICELLIZATION:2||SPEED:2||synthesis:2||COIL BLOCKCOPOLYMERS:2||LIQUIDCRYSTALLINE ASSEMBLIES:2||OXIDE):2||molecular weight distribution:2||CONJUGATED POLYMER:2||polymer characterization:2||NONIONIC SURFACTANTS:2||STEREOREGULAR POLY(METHYL METHACRYLATE):2||structure:2||RODLIKE POLYIMIDE:2||FLEXIBLE POLYIMIDE:2||THERMAL IMIDIZATION:2||IN SITU RODCHAIN FORMATION:2||PHASESEPARATION:2||VINYL ETHER):2||EQUILIBRIUM:2||STRESS:2||STRUCTURAL RELAXATION:2||LIVING POLYMERIZATION:2||CONTAIN:2||SALT:2||WAVEGUIDE:2||XRAY DIFFRACTION:2||WALLED CARBON NANOTUBES:2||SILICON NANOWIRES:2||IR:2||DIELECTRIC THINFILMS:2||Selfassembled monolayer:2||PARAMETERS:2||Temperature gradient interaction chromatography:2||SOLIDSURFACES:2||FLOW:2||RATES:2||PRECURSORS:2||FILM BALANCE:2||SIDECHAINS:2||SUPRAMOLECULAR MATERIALS:2||CHAINS:2||POLYSTYRENE:39||ANIONICPOLYMERIZATION:34||GRADIENT INTERACTION CHROMATOGRAPHY:31||SEPARATION:27||BEHAVIOR:24||LIQUIDCHROMATOGRAPHY:22||POLYMERS:22||SIZEEXCLUSION CHROMATOGRAPHY:19||BLOCKCOPOLYMERS:17||DIBLOCK COPOLYMERS:17||THINFILMS:16||POLYISOPRENE:14||HPLC:13||SYNTHETICPOLYMERS:12||PERFORMANCE LIQUIDCHROMATOGRAPHY:11||DIBLOCK COPOLYMER:11||MOLECULARWEIGHT DISTRIBUTION:10||MACROMOLECULES:10||BLOCKCOPOLYMER:10||REVERSEDPHASE:10||RETENTION BEHAVIOR:10||MORPHOLOGY:9||MOLECULARWEIGHT:9||MELTS:9||AROMATIC POLYIMIDES:8||XRAYSCATTERING:8||polystyrene:8||MIXTURES:7||block copolymer:7||SURFACES:7||DEPENDENCE:7||COPOLYMERS:7||POLYMERIZATION:7||AIR/WATER INTERFACE:7||DEFINED BRUSH POLYIMIDE:6||TEMPERATURE:6||FULLY RODLIKE BACKBONE:6||MONOLAYERS:6||POLYIMIDES:6||CHAIN:6||COMPLEX POLYMERS:6||MOLECULARREORIENTATION:6||temperature gradient interaction chromatography:6||POLYMERFILMS:6||GELPERMEATION CHROMATOGRAPHY:6||ELUTION:6||ORDERDISORDER TRANSITION:6||SURFACEMORPHOLOGY:6||ORIENTATION:6||SYSTEMS:6||CRITICAL ADSORPTION POINT:6||LIGHTSCATTERING:5||PROBE DIFFUSION:5||POLYDISPERSITY:5||AIRWATERINTERFACE:5||MICROPHASE SEPARATION:5||GLASSTRANSITION:5||BLENDS:5||FILMS:5||ADSORPTION CHROMATOGRAPHY:5||MECHANISM:5||CO2:5||ETHYLENEOXIDE:5||ALIGNMENT:5||COMPLEXES:5||FRACTIONATION:5||MISCIBILITY:5||POLYMER CHARACTERIZATION:5||HEXAGONALLY PERFORATED LAYER:5||TRANSITION:5||FLIGHT MASSSPECTROMETRY:5||ARCHITECTURE:5||POLY(METHYL METHACRYLATE):5||ALTERNATING COPOLYMERIZATION:4||THICKNESS:4||THERMODYNAMICS:4||CRITICAL RANGE:4||ULTRATHIN POLYMERFILMS:4||DYNAMICS:4||CLIMATECHANGE:4||PHASE:4||GLASSTRANSITION TEMPERATURE:4||EPOXIDE:4||selfassembly:4||SPECTROSCOPY:4||SELFDIFFUSION:4||SCATTERING:4||OPTICALPROPERTIES:4||CATALYSTS:4||CHEMISTRY:4||SOLARCELLS:4||polyimides:4||polypyromellitimides:4||SEGMENTAL REORIENTATIONS:4||ADSORPTION:4||INTERFACE:4||POLYMERSOLUTIONS:4||TRACER DIFFUSION:4||OXIDE) DIBLOCK COPOLYMER:4||POLYSTYRENEBPOLY(METHYL METHACRYLATE):4||POLYMER BLENDS:4||SIMULATION:4||CHAIN ORIENTATION:4||STYRENE:4||TOF MASSSPECTROMETRY:4||WATER:4||DISPLAYS:4||OLIGOMERS:4||PEPTIDES:4||CYCLIC POLYSTYRENE:4||LATTICE CLUSTER THEORY:4||2NDHARMONIC GENERATION:4||LIQUIDCRYSTAL ALIGNMENT:4||MONTECARLO:4||LangmuirBlodgett film:3||ASSEMBLIES:3||chromatography:3||HOLOGRAPHIC RELAXATION SPECTROSCOPY:3||MULTIPLE MORPHOLOGIES:3||INTERACTION CHROMATOGRAPHY:3||NORMALPHASE:3||DIFFUSION:3||BRANCHED POLYSTYRENE:3||NANOPARTICLES:3||LITHOGRAPHY:3||POLYMER:3||LASERLIGHTSCATTERING:3||HIGH MOLECULARWEIGHT:3||CUBIC PHASE:3||AMPHIPHILIC BLOCKCOPOLYMERS:3||AQUEOUSSOLUTION:3||MODEL:3||FORCED RAYLEIGHSCATTERING:3||HYDRODYNAMIC PROPERTIES:3||4MIKTOARM STAR COPOLYMER:3||SYSTEM:3||PHASEBEHAVIOR:3||AQUEOUSSOLUTIONS:3||RHEOLOGY:3||LB film:3||2DIMENSIONAL LIQUIDCHROMATOGRAPHY:3||VISCOSITY:3||DIBLOCK COPOLYMER MELTS:3||ORDERORDER TRANSITION:3||GYROID PHASE:3||BINDING:3||BLOCK POLYELECTROLYTES:3||DERIVATIVES:3||MELT:3||PHASE LIQUIDCHROMATOGRAPHY:3||high temperature:3||ELEVATEDTEMPERATURE:3||RETENTION:3||MICELLE FORMATION:3||ELECTRONMICROSCOPY:3||Electrospray ionization:2||FRACTIONS:2||nalkanes:2||ISOCRATIC SEPARATION:2||ASSOCIATION:2||POLY(METHYL METHACRYLATE)S:2||2D correlation spectroscopy:2||CARBONATION:2||GLASSTRANSITION BEHAVIORS:2||MECHANICAL PROPERTIES:2||DIMENSIONS:2||POLYMER MIXTURES:2||ALUMINUM PORPHYRIN:2||LEAD STEARATE:2||FERROCENE:2||POLY(EPSILONCAPROLACTONE):2||DIAGRAM:2||nucleosides:2||Selective recognition by preconcentration:2||Electrochemical impedance spectroscopy:2||DOPAMINE:2||Silica:2||Silyl Ester:2||DIETHYL ESTER) PRECURSORS:2||SURFACE CHARACTERIZATION:2||MICROSTRUCTURE:2||polystyreneblockpolyisoprene:2||MICROPHASESEPARATED STRUCTURES:2||IMPEDANCE MEASUREMENTS:2||HEMEPROTEINS:2||SOLID SUBSTRATE:2||MOISTURE ABSORPTION:2||aromatic polyimide:2||INDUCED MORPHOLOGICALCHANGES:2||STABILITY:2||LC alignment layers:2||POLYPYROMELLITIMIDES:2||Ion mobility:2||Chiral polymer:2||OLIGOSACCHARIDES:2||OXIDE:2||SIDECHAIN:2||RETARDATION:2||functionality:2||temperature effects:2||phase transition:2||glass transition temperature:2||spincoated film:2||ESTER) PRECURSORS:2||PRECURSOR BLEND:2||Xray reflectivity:2||SIGMABONDS:2||aluminum porphyrin catalysts:2||METALLOPORPHYRIN:2||SILICON:2||MASSSPECTROMETRY ANALYSIS:2||STAR POLYMERS:2||SIZE DISTRIBUTIONS:2||GIANT VESICLES:2||POLY(3ALKYLTHIOPHENES):2||ADHESION:2||LIGHT:2||POLYSTYRENEBPOLYISOPRENE:2||HPLC fractionation:2||SILVER ELECTRODES:2||ENHANCED RESONANCE RAMAN:2||SEQUENCE:2||POLYELECTROLYTE/NONELECTROLYTE SHELLS:2||polyimide:2||liquid crystal alignment layer:2||SOLUBLE POLYIMIDES:2||POLYBUTADIENECOATED ZIRCONIA:2||PRETILT ANGLES:2||CROSSSECTIONS:2||IMSMS:2||POLYISOPRENE COPOLYMERS:2||POLYIMIDE THINFILMS:2||POLYMER SURFACES:2||RAMAN:2||STEREOREGULAR PMMA:2||poly(tertbutyl methacrylate) (PtBMA):2||TIME:2||POLYIMIDE COMPOSITE:2||CARBOXYLATO COMPLEXES:2||AGOSTIC INTERACTIONS:2||MOLECULARSTRUCTURE:2||ALKENE:2||TRANSISTOR MEMORY:2||DEVICES:2||ORTHOGONALITY:2||molecular characterization:2||ORGANOSILICATE DIELECTRIC FILMS:2||AMPHIPHILES:2||Serotonin:2||Anodic stripping differential pulse voltammetry:2||transmission electron microtomography:2||LIQUIDCHROMATOGRAPHY ANALYSIS:2||PHASEDIAGRAM:2||CARBON NANOTUBES:2||TRANSFER MECHANISM:2||BINARY MIXTURES:2||REFLECTOMETRY:2||ROD:2||DROPS:2||CONSTANT:2||TRIBLOCK COPOLYMER:2||POLYMER VESICLES:2||CLICK CHEMISTRY:2||ARRAYS:2||COMPOSITES:2||MALDITOF MS:2||POLYMER THINFILMS:2||HYDROPHOBIC INTERACTION CHROMATOGRAPHY:2||retention mechanism:2||GRAZINGINCIDENCE:2||NANOPOROSITY:2||soluble poly(amic esteraltimide)s:2||DIFFERENTIAL SCANNING CALORIMETRY:2||RESIDUALSTRESS:2||CHEMICALCOMPOSITION:2||POLY(AMIC DIETHYL ESTER) PRECURSOR:2||POLY(DIMETHYL SILOXANES):2||MASS POLYSTYRENES:2||cyclic propylene carbonate:2||propylene oxide:2||ACETATE) TOLUENE SOLUTIONS:2||TRANSIENT GRATING METHOD:2||MASS DIFFUSION:2||MICROPHASE SEPARATION TRANSITION:2||POLYSTYRENES:2||POLYSILANE:2||CARBOHYDRATEBASED PHOSPHOLIPIDS:2||HELICAL STRANDS:2||FLUORESCENCE DETECTION:2||SENSITIVE DETERMINATION:2||COMPOSITE FILMS:2||microphase:2||3MERCAPTOPROPIONIC ACID:2||BUTADIENE BLOCK COPOLYMER:2||HYBRID POLYMERIC MICELLES:2||AQUEOUSMEDIA:2||CONTACTANGLE:2||TRANSISTORCIRCUITS:2||ABTYPE POLY(ETHERIMIDE)S:2||CORRELATION SPECTROSCOPY:2||GASPHASE CONFORMATIONS:2||DECANE:2||INFRAREDSPECTROSCOPY:2||MICELLIZATION:2||ENERGIES:2||ACID) PRECURSORS:2||PHOTOALIGNMENT:2||polymers:2||SUBSTRATE:2||carbon dioxide:2||oligomeric propylene carbonate:2||THERMALDIFFUSION:2||CRYSTAL:2||PHASETRANSITION:2||REFLECTIVITY:2||ANALOGS:2||supramolecular chemistry:2||LYSOPHOSPHATIDIC ACID:2||PHOSPHOCHOLINE:2||POLY(3HEXYLTHIOPHENE):2||Receptor:2||MODIFIED GOLD ELECTRODES:2||ASCORBICACID:2||HUMAN URINE:2||Hybrid Nanocomposite:2||Dielectric Constant:2||AU(111) ELECTRODES:2||NANOFILMS:2||HYDROPHOBIC CORES:2||DRIVEN:2||FLEXIBLE SIDECHAINS:2||MESOGEN:2||size exclusion chromatography:2||ORGANIZATION:2||POLY(LACTIC ACID):2||MOLECULAR ARCHITECTURE:2||COUPLER:2||POLYSTYRENE COPOLYMER:2||diffusion coefficient:2||XRAY REFLECTIVITY:2||temperature gradient interaction chromatography polystyryllithium:2||VISCOELASTIC PROPERTIES:2||polyisoprene:2||CRYSTALSTRUCTURES:2||POLYCARBONATE:2||MULTILAYERS:2||DEPOSITION:2||FULL ADSORPTION MECHANISMS:2||QUANTUM DOTS:2||CRITICAL ORDERING TRANSITION:2||CORE:2||PARACRYSTALLINE DISTORTION:2||PERFORATED LAYER PHASE:2||liposomes:2||phospholipids:2||UNILAMELLAR VESICLES:2||VOLTAMMETRIC DETERMINATION:2||Polyimide:2||FOURIERTRANSFORM:2||SURFACE:2||SIZE EXCLUSION CHROMATOGRAPHY:2||NEUTRON REFLECTIVITY:2||ORDERED STRUCTURE:2||RIGID ROD POLYMERS:2||DISPLACEMENT POLYMERIZATION:2||PHOTOSENSITIVE POLYIMIDE:2||EFFICIENCY:2||films:2||Polylactide:2||CHROMATOGRAPHIC CRITICAL CONDITION:2||RETENTION MECHANISM:2||COPPER PHTHALOCYANINE:2||C60:2||COPOLYMER:2||micelle:2||LINEAR POLYETHYLENE:2||LIQUIDS:2||ARMS:2||HIGHPERFORMANCE LIQUID:2||alternating copolyimides:2||PHASE SEPARATION:2||POLYMERCHAINS:2||STYRYLPYRIDINIUM:2||ANGLES:2||MOBILITY:2||PROBE:2||ACIDS:2||BLUE:2||POSITIONS:2||CYCLOPENTADIENYL:2||HIGHMOLECULARWEIGHT:2||FUELCELLS:2||TIN OXIDE:2||NANOCRYSTALS:2||SURFACE MICELLE FORMATION:2||DISORDER TRANSITION:2||BIREFRINGENCE:2||LIPIDCOMPOSITION:2||CONJUGATED POLYMERS:2||GLASSYCARBON ELECTRODE:2||ELECTROCHEMICAL DETECTION:2||MULTIPLE DETECTION:2||aromatic polyimides:2||MOLECULARWEIGHT HOMOPOLYMERS:2||BINARYMIXTURE:2||PATTERNS:2||photoluminescent polyimide:2||photosensitive polyimide:2||DEPENDENT MICELLIZATION:2||SPEED:2||synthesis:2||COIL BLOCKCOPOLYMERS:2||LIQUIDCRYSTALLINE ASSEMBLIES:2||OXIDE):2||molecular weight distribution:2||CONJUGATED POLYMER:2||polymer characterization:2||NONIONIC SURFACTANTS:2||STEREOREGULAR POLY(METHYL METHACRYLATE):2||structure:2||RODLIKE POLYIMIDE:2||FLEXIBLE POLYIMIDE:2||THERMAL IMIDIZATION:2||IN SITU RODCHAIN FORMATION:2||PHASESEPARATION:2||VINYL ETHER):2||EQUILIBRIUM:2||STRESS:2||STRUCTURAL RELAXATION:2||LIVING POLYMERIZATION:2||CONTAIN:2||SALT:2||WAVEGUIDE:2||XRAY DIFFRACTION:2||WALLED CARBON NANOTUBES:2||SILICON NANOWIRES:2||IR:2||DIELECTRIC THINFILMS:2||Selfassembled monolayer:2||PARAMETERS:2||Temperature gradient interaction chromatography:2||SOLIDSURFACES:2||FLOW:2||RATES:2||PRECURSORS:2||FILM BALANCE:2||SIDECHAINS:2||SUPRAMOLECULAR MATERIALS:2||CHAINS:2||POLYSTYRENE:39||ANIONICPOLYMERIZATION:34||GRADIENT INTERACTION CHROMATOGRAPHY:31||SEPARATION:27||BEHAVIOR:24||LIQUIDCHROMATOGRAPHY:22||POLYMERS:22||SIZEEXCLUSION CHROMATOGRAPHY:19||BLOCKCOPOLYMERS:17||DIBLOCK COPOLYMERS:17||THINFILMS:16||POLYISOPRENE:14||HPLC:13||SYNTHETICPOLYMERS:12||PERFORMANCE LIQUIDCHROMATOGRAPHY:11||DIBLOCK COPOLYMER:11||MOLECULARWEIGHT DISTRIBUTION:10||MACROMOLECULES:10||BLOCKCOPOLYMER:10||REVERSEDPHASE:10||RETENTION BEHAVIOR:10||MORPHOLOGY:9||MOLECULARWEIGHT:9||MELTS:9||AROMATIC POLYIMIDES:8||XRAYSCATTERING:8||polystyrene:8||MIXTURES:7||block copolymer:7||SURFACES:7||DEPENDENCE:7||COPOLYMERS:7||POLYMERIZATION:7||AIR/WATER INTERFACE:7||DEFINED BRUSH POLYIMIDE:6||TEMPERATURE:6||FULLY RODLIKE BACKBONE:6||MONOLAYERS:6||POLYIMIDES:6||CHAIN:6||COMPLEX POLYMERS:6||MOLECULARREORIENTATION:6||temperature gradient interaction chromatography:6||POLYMERFILMS:6||GELPERMEATION CHROMATOGRAPHY:6||ELUTION:6||ORDERDISORDER TRANSITION:6||SURFACEMORPHOLOGY:6||ORIENTATION:6||SYSTEMS:6||CRITICAL ADSORPTION POINT:6||LIGHTSCATTERING:5||PROBE DIFFUSION:5||POLYDISPERSITY:5||AIRWATERINTERFACE:5||MICROPHASE SEPARATION:5||GLASSTRANSITION:5||BLENDS:5||FILMS:5||ADSORPTION CHROMATOGRAPHY:5||MECHANISM:5||CO2:5||ETHYLENEOXIDE:5||ALIGNMENT:5||COMPLEXES:5||FRACTIONATION:5||MISCIBILITY:5||POLYMER CHARACTERIZATION:5||HEXAGONALLY PERFORATED LAYER:5||TRANSITION:5||FLIGHT MASSSPECTROMETRY:5||ARCHITECTURE:5||POLY(METHYL METHACRYLATE):5||ALTERNATING COPOLYMERIZATION:4||THICKNESS:4||THERMODYNAMICS:4||CRITICAL RANGE:4||ULTRATHIN POLYMERFILMS:4||DYNAMICS:4||CLIMATECHANGE:4||PHASE:4||GLASSTRANSITION TEMPERATURE:4||EPOXIDE:4||selfassembly:4||SPECTROSCOPY:4||SELFDIFFUSION:4||SCATTERING:4||OPTICALPROPERTIES:4||CATALYSTS:4||CHEMISTRY:4||SOLARCELLS:4||polyimides:4||polypyromellitimides:4||SEGMENTAL REORIENTATIONS:4||ADSORPTION:4||INTERFACE:4||POLYMERSOLUTIONS:4||TRACER DIFFUSION:4||OXIDE) DIBLOCK COPOLYMER:4||POLYSTYRENEBPOLY(METHYL METHACRYLATE):4||POLYMER BLENDS:4||SIMULATION:4||CHAIN ORIENTATION:4||STYRENE:4||TOF MASSSPECTROMETRY:4||WATER:4||DISPLAYS:4||OLIGOMERS:4||PEPTIDES:4||CYCLIC POLYSTYRENE:4||LATTICE CLUSTER THEORY:4||2NDHARMONIC GENERATION:4||LIQUIDCRYSTAL ALIGNMENT:4||MONTECARLO:4||LangmuirBlodgett film:3||ASSEMBLIES:3||chromatography:3||HOLOGRAPHIC RELAXATION SPECTROSCOPY:3||MULTIPLE MORPHOLOGIES:3||INTERACTION CHROMATOGRAPHY:3||NORMALPHASE:3||DIFFUSION:3||BRANCHED POLYSTYRENE:3||NANOPARTICLES:3||LITHOGRAPHY:3||POLYMER:3||LASERLIGHTSCATTERING:3||HIGH MOLECULARWEIGHT:3||CUBIC PHASE:3||AMPHIPHILIC BLOCKCOPOLYMERS:3||AQUEOUSSOLUTION:3||MODEL:3||FORCED RAYLEIGHSCATTERING:3||HYDRODYNAMIC PROPERTIES:3||4MIKTOARM STAR COPOLYMER:3||SYSTEM:3||PHASEBEHAVIOR:3||AQUEOUSSOLUTIONS:3||RHEOLOGY:3||LB film:3||2DIMENSIONAL LIQUIDCHROMATOGRAPHY:3||VISCOSITY:3||DIBLOCK COPOLYMER MELTS:3||ORDERORDER TRANSITION:3||GYROID PHASE:3||BINDING:3||BLOCK POLYELECTROLYTES:3||DERIVATIVES:3||MELT:3||PHASE LIQUIDCHROMATOGRAPHY:3||high temperature:3||ELEVATEDTEMPERATURE:3||RETENTION:3||MICELLE FORMATION:3||ELECTRONMICROSCOPY:3||Electrospray ionization:2||FRACTIONS:2||nalkanes:2||ISOCRATIC SEPARATION:2||ASSOCIATION:2||POLY(METHYL METHACRYLATE)S:2||2D correlation spectroscopy:2||CARBONATION:2||GLASSTRANSITION BEHAVIORS:2||MECHANICAL PROPERTIES:2||DIMENSIONS:2||POLYMER MIXTURES:2||ALUMINUM PORPHYRIN:2||LEAD STEARATE:2||FERROCENE:2||POLY(EPSILONCAPROLACTONE):2||DIAGRAM:2||nucleosides:2||Selective recognition by preconcentration:2||Electrochemical impedance spectroscopy:2||DOPAMINE:2||Silica:2||Silyl Ester:2||DIETHYL ESTER) PRECURSORS:2||SURFACE CHARACTERIZATION:2||MICROSTRUCTURE:2||polystyreneblockpolyisoprene:2||MICROPHASESEPARATED STRUCTURES:2||IMPEDANCE MEASUREMENTS:2||HEMEPROTEINS:2||SOLID SUBSTRATE:2||MOISTURE ABSORPTION:2||aromatic polyimide:2||INDUCED MORPHOLOGICALCHANGES:2||STABILITY:2||LC alignment layers:2||POLYPYROMELLITIMIDES:2||Ion mobility:2||Chiral polymer:2||OLIGOSACCHARIDES:2||OXIDE:2||SIDECHAIN:2||RETARDATION:2||functionality:2||temperature effects:2||phase transition:2||glass transition temperature:2||spincoated film:2||ESTER) PRECURSORS:2||PRECURSOR BLEND:2||Xray reflectivity:2||SIGMABONDS:2||aluminum porphyrin catalysts:2||METALLOPORPHYRIN:2||SILICON:2||MASSSPECTROMETRY ANALYSIS:2||STAR POLYMERS:2||SIZE DISTRIBUTIONS:2||GIANT VESICLES:2||POLY(3ALKYLTHIOPHENES):2||ADHESION:2||LIGHT:2||POLYSTYRENEBPOLYISOPRENE:2||HPLC fractionation:2||SILVER ELECTRODES:2||ENHANCED RESONANCE RAMAN:2||SEQUENCE:2||POLYELECTROLYTE/NONELECTROLYTE SHELLS:2||polyimide:2||liquid crystal alignment layer:2||SOLUBLE POLYIMIDES:2||POLYBUTADIENECOATED ZIRCONIA:2||PRETILT ANGLES:2||CROSSSECTIONS:2||IMSMS:2||POLYISOPRENE COPOLYMERS:2||POLYIMIDE THINFILMS:2||POLYMER SURFACES:2||RAMAN:2||STEREOREGULAR PMMA:2||poly(tertbutyl methacrylate) (PtBMA):2||TIME:2||POLYIMIDE COMPOSITE:2||CARBOXYLATO COMPLEXES:2||AGOSTIC INTERACTIONS:2||MOLECULARSTRUCTURE:2||ALKENE:2||TRANSISTOR MEMORY:2||DEVICES:2||ORTHOGONALITY:2||molecular characterization:2||ORGANOSILICATE DIELECTRIC FILMS:2||AMPHIPHILES:2||Serotonin:2||Anodic stripping differential pulse voltammetry:2||transmission electron microtomography:2||LIQUIDCHROMATOGRAPHY ANALYSIS:2||PHASEDIAGRAM:2||CARBON NANOTUBES:2||TRANSFER MECHANISM:2||BINARY MIXTURES:2||REFLECTOMETRY:2||ROD:2||DROPS:2||CONSTANT:2||TRIBLOCK COPOLYMER:2||POLYMER VESICLES:2||CLICK CHEMISTRY:2||ARRAYS:2||COMPOSITES:2||MALDITOF MS:2||POLYMER THINFILMS:2||HYDROPHOBIC INTERACTION CHROMATOGRAPHY:2||retention mechanism:2||GRAZINGINCIDENCE:2||NANOPOROSITY:2||soluble poly(amic esteraltimide)s:2||DIFFERENTIAL SCANNING CALORIMETRY:2||RESIDUALSTRESS:2||CHEMICALCOMPOSITION:2||POLY(AMIC DIETHYL ESTER) PRECURSOR:2||POLY(DIMETHYL SILOXANES):2||MASS POLYSTYRENES:2||cyclic propylene carbonate:2||propylene oxide:2||ACETATE) TOLUENE SOLUTIONS:2||TRANSIENT GRATING METHOD:2||MASS DIFFUSION:2||MICROPHASE SEPARATION TRANSITION:2||POLYSTYRENES:2||POLYSILANE:2||CARBOHYDRATEBASED PHOSPHOLIPIDS:2||HELICAL STRANDS:2||FLUORESCENCE DETECTION:2||SENSITIVE DETERMINATION:2||COMPOSITE FILMS:2||microphase:2||3MERCAPTOPROPIONIC ACID:2||BUTADIENE BLOCK COPOLYMER:2||HYBRID POLYMERIC MICELLES:2||AQUEOUSMEDIA:2||CONTACTANGLE:2||TRANSISTORCIRCUITS:2||ABTYPE POLY(ETHERIMIDE)S:2||CORRELATION SPECTROSCOPY:2||GASPHASE CONFORMATIONS:2||DECANE:2||INFRAREDSPECTROSCOPY:2||MICELLIZATION:2||ENERGIES:2||ACID) PRECURSORS:2||PHOTOALIGNMENT:2||polymers:2||SUBSTRATE:2||carbon dioxide:2||oligomeric propylene carbonate:2||THERMALDIFFUSION:2||CRYSTAL:2||PHASETRANSITION:2||REFLECTIVITY:2||ANALOGS:2||supramolecular chemistry:2||LYSOPHOSPHATIDIC ACID:2||PHOSPHOCHOLINE:2||POLY(3HEXYLTHIOPHENE):2||Receptor:2||MODIFIED GOLD ELECTRODES:2||ASCORBICACID:2||HUMAN URINE:2||Hybrid Nanocomposite:2||Dielectric Constant:2||AU(111) ELECTRODES:2||NANOFILMS:2||HYDROPHOBIC CORES:2||DRIVEN:2||FLEXIBLE SIDECHAINS:2||MESOGEN:2||size exclusion chromatography:2||ORGANIZATION:2||POLY(LACTIC ACID):2||MOLECULAR ARCHITECTURE:2||COUPLER:2||POLYSTYRENE COPOLYMER:2||diffusion coefficient:2||XRAY REFLECTIVITY:2||temperature gradient interaction chromatography polystyryllithium:2||VISCOELASTIC PROPERTIES:2||polyisoprene:2||CRYSTALSTRUCTURES:2||POLYCARBONATE:2||MULTILAYERS:2||DEPOSITION:2||FULL ADSORPTION MECHANISMS:2||QUANTUM DOTS:2||CRITICAL ORDERING TRANSITION:2||CORE:2||PARACRYSTALLINE DISTORTION:2||PERFORATED LAYER PHASE:2||liposomes:2||phospholipids:2||UNILAMELLAR VESICLES:2||VOLTAMMETRIC DETERMINATION:2||Polyimide:2||FOURIERTRANSFORM:2||SURFACE:2||SIZE EXCLUSION CHROMATOGRAPHY:2||NEUTRON REFLECTIVITY:2||ORDERED STRUCTURE:2||RIGID ROD POLYMERS:2||DISPLACEMENT POLYMERIZATION:2||PHOTOSENSITIVE POLYIMIDE:2||EFFICIENCY:2||films:2||Polylactide:2||CHROMATOGRAPHIC CRITICAL CONDITION:2||RETENTION MECHANISM:2||COPPER PHTHALOCYANINE:2||C60:2||COPOLYMER:2||micelle:2||LINEAR POLYETHYLENE:2||LIQUIDS:2||ARMS:2||HIGHPERFORMANCE LIQUID:2||alternating copolyimides:2||PHASE SEPARATION:2||POLYMERCHAINS:2||STYRYLPYRIDINIUM:2||ANGLES:2||MOBILITY:2||PROBE:2||ACIDS:2||BLUE:2||POSITIONS:2||CYCLOPENTADIENYL:2||HIGHMOLECULARWEIGHT:2||FUELCELLS:2||TIN OXIDE:2||NANOCRYSTALS:2||SURFACE MICELLE FORMATION:2||DISORDER TRANSITION:2||BIREFRINGENCE:2||LIPIDCOMPOSITION:2||CONJUGATED POLYMERS:2||GLASSYCARBON ELECTRODE:2||ELECTROCHEMICAL DETECTION:2||MULTIPLE DETECTION:2||aromatic polyimides:2||MOLECULARWEIGHT HOMOPOLYMERS:2||BINARYMIXTURE:2||PATTERNS:2||photoluminescent polyimide:2||photosensitive polyimide:2||DEPENDENT MICELLIZATION:2||SPEED:2||synthesis:2||COIL BLOCKCOPOLYMERS:2||LIQUIDCRYSTALLINE ASSEMBLIES:2||OXIDE):2||molecular weight distribution:2||CONJUGATED POLYMER:2||polymer characterization:2||NONIONIC SURFACTANTS:2||STEREOREGULAR POLY(METHYL METHACRYLATE):2||structure:2||RODLIKE POLYIMIDE:2||FLEXIBLE POLYIMIDE:2||THERMAL IMIDIZATION:2||IN SITU RODCHAIN FORMATION:2||PHASESEPARATION:2||VINYL ETHER):2||EQUILIBRIUM:2||STRESS:2||STRUCTURAL RELAXATION:2||LIVING POLYMERIZATION:2||CONTAIN:2||SALT:2||WAVEGUIDE:2||XRAY DIFFRACTION:2||WALLED CARBON NANOTUBES:2||SILICON NANOWIRES:2||IR:2||DIELECTRIC THINFILMS:2||Selfassembled monolayer:2||PARAMETERS:2||Temperature gradient interaction chromatography:2||SOLIDSURFACES:2||FLOW:2||RATES:2||PRECURSORS:2||FILM BALANCE:2||SIDECHAINS:2||SUPRAMOLECULAR MATERIALS:2||CHAINS:2||POLYSTYRENE:39||ANIONICPOLYMERIZATION:34||GRADIENT INTERACTION CHROMATOGRAPHY:31||SEPARATION:27||BEHAVIOR:24||LIQUIDCHROMATOGRAPHY:22||POLYMERS:22||SIZEEXCLUSION CHROMATOGRAPHY:19||BLOCKCOPOLYMERS:17||DIBLOCK COPOLYMERS:17||THINFILMS:16||POLYISOPRENE:14||HPLC:13||SYNTHETICPOLYMERS:12||PERFORMANCE LIQUIDCHROMATOGRAPHY:11||DIBLOCK COPOLYMER:11||MOLECULARWEIGHT DISTRIBUTION:10||MACROMOLECULES:10||BLOCKCOPOLYMER:10||REVERSEDPHASE:10||RETENTION BEHAVIOR:10||MORPHOLOGY:9||MOLECULARWEIGHT:9||MELTS:9||AROMATIC POLYIMIDES:8||XRAYSCATTERING:8||polystyrene:8||MIXTURES:7||block copolymer:7||SURFACES:7||DEPENDENCE:7||COPOLYMERS:7||POLYMERIZATION:7||AIR/WATER INTERFACE:7||DEFINED BRUSH POLYIMIDE:6||TEMPERATURE:6||FULLY RODLIKE BACKBONE:6||MONOLAYERS:6||POLYIMIDES:6||CHAIN:6||COMPLEX POLYMERS:6||MOLECULARREORIENTATION:6||temperature gradient interaction chromatography:6||POLYMERFILMS:6||GELPERMEATION CHROMATOGRAPHY:6||ELUTION:6||ORDERDISORDER TRANSITION:6||SURFACEMORPHOLOGY:6||ORIENTATION:6||SYSTEMS:6||CRITICAL ADSORPTION POINT:6||LIGHTSCATTERING:5||PROBE DIFFUSION:5||POLYDISPERSITY:5||AIRWATERINTERFACE:5||MICROPHASE SEPARATION:5||GLASSTRANSITION:5||BLENDS:5||FILMS:5||ADSORPTION CHROMATOGRAPHY:5||MECHANISM:5||CO2:5||ETHYLENEOXIDE:5||ALIGNMENT:5||COMPLEXES:5||FRACTIONATION:5||MISCIBILITY:5||POLYMER CHARACTERIZATION:5||HEXAGONALLY PERFORATED LAYER:5||TRANSITION:5||FLIGHT MASSSPECTROMETRY:5||ARCHITECTURE:5||POLY(METHYL METHACRYLATE):5||ALTERNATING COPOLYMERIZATION:4||THICKNESS:4||THERMODYNAMICS:4||CRITICAL RANGE:4||ULTRATHIN POLYMERFILMS:4||DYNAMICS:4||CLIMATECHANGE:4||PHASE:4||GLASSTRANSITION TEMPERATURE:4||EPOXIDE:4||selfassembly:4||SPECTROSCOPY:4||SELFDIFFUSION:4||SCATTERING:4||OPTICALPROPERTIES:4||CATALYSTS:4||CHEMISTRY:4||SOLARCELLS:4||polyimides:4||polypyromellitimides:4||SEGMENTAL REORIENTATIONS:4||ADSORPTION:4||INTERFACE:4||POLYMERSOLUTIONS:4||TRACER DIFFUSION:4||OXIDE) DIBLOCK COPOLYMER:4||POLYSTYRENEBPOLY(METHYL METHACRYLATE):4||POLYMER BLENDS:4||SIMULATION:4||CHAIN ORIENTATION:4||STYRENE:4||TOF MASSSPECTROMETRY:4||WATER:4||DISPLAYS:4||OLIGOMERS:4||PEPTIDES:4||CYCLIC POLYSTYRENE:4||LATTICE CLUSTER THEORY:4||2NDHARMONIC GENERATION:4||LIQUIDCRYSTAL ALIGNMENT:4||MONTECARLO:4||LangmuirBlodgett film:3||ASSEMBLIES:3||chromatography:3||HOLOGRAPHIC RELAXATION SPECTROSCOPY:3||MULTIPLE MORPHOLOGIES:3||INTERACTION CHROMATOGRAPHY:3||NORMALPHASE:3||DIFFUSION:3||BRANCHED POLYSTYRENE:3||NANOPARTICLES:3||LITHOGRAPHY:3||POLYMER:3||LASERLIGHTSCATTERING:3||HIGH MOLECULARWEIGHT:3||CUBIC PHASE:3||AMPHIPHILIC BLOCKCOPOLYMERS:3||AQUEOUSSOLUTION:3||MODEL:3||FORCED RAYLEIGHSCATTERING:3||HYDRODYNAMIC PROPERTIES:3||4MIKTOARM STAR COPOLYMER:3||SYSTEM:3||PHASEBEHAVIOR:3||AQUEOUSSOLUTIONS:3||RHEOLOGY:3||LB film:3||2DIMENSIONAL LIQUIDCHROMATOGRAPHY:3||VISCOSITY:3||DIBLOCK COPOLYMER MELTS:3||ORDERORDER TRANSITION:3||GYROID PHASE:3||BINDING:3||BLOCK POLYELECTROLYTES:3||DERIVATIVES:3||MELT:3||PHASE LIQUIDCHROMATOGRAPHY:3||high temperature:3||ELEVATEDTEMPERATURE:3||RETENTION:3||MICELLE FORMATION:3||ELECTRONMICROSCOPY:3||Electrospray ionization:2||FRACTIONS:2||nalkanes:2||ISOCRATIC SEPARATION:2||ASSOCIATION:2||POLY(METHYL METHACRYLATE)S:2||2D correlation spectroscopy:2||CARBONATION:2||GLASSTRANSITION BEHAVIORS:2||MECHANICAL PROPERTIES:2||DIMENSIONS:2||POLYMER MIXTURES:2||ALUMINUM PORPHYRIN:2||LEAD STEARATE:2||FERROCENE:2||POLY(EPSILONCAPROLACTONE):2||DIAGRAM:2||nucleosides:2||Selective recognition by preconcentration:2||Electrochemical impedance spectroscopy:2||DOPAMINE:2||Silica:2||Silyl Ester:2||DIETHYL ESTER) PRECURSORS:2||SURFACE CHARACTERIZATION:2||MICROSTRUCTURE:2||polystyreneblockpolyisoprene:2||MICROPHASESEPARATED STRUCTURES:2||IMPEDANCE MEASUREMENTS:2||HEMEPROTEINS:2||SOLID SUBSTRATE:2||MOISTURE ABSORPTION:2||aromatic polyimide:2||INDUCED MORPHOLOGICALCHANGES:2||STABILITY:2||LC alignment layers:2||POLYPYROMELLITIMIDES:2||Ion mobility:2||Chiral polymer:2||OLIGOSACCHARIDES:2||OXIDE:2||SIDECHAIN:2||RETARDATION:2||functionality:2||temperature effects:2||phase transition:2||glass transition temperature:2||spincoated film:2||ESTER) PRECURSORS:2||PRECURSOR BLEND:2||Xray reflectivity:2||SIGMABONDS:2||aluminum porphyrin catalysts:2||METALLOPORPHYRIN:2||SILICON:2||MASSSPECTROMETRY ANALYSIS:2||STAR POLYMERS:2||SIZE DISTRIBUTIONS:2||GIANT VESICLES:2||POLY(3ALKYLTHIOPHENES):2||ADHESION:2||LIGHT:2||POLYSTYRENEBPOLYISOPRENE:2||HPLC fractionation:2||SILVER ELECTRODES:2||ENHANCED RESONANCE RAMAN:2||SEQUENCE:2||POLYELECTROLYTE/NONELECTROLYTE SHELLS:2||polyimide:2||liquid crystal alignment layer:2||SOLUBLE POLYIMIDES:2||POLYBUTADIENECOATED ZIRCONIA:2||PRETILT ANGLES:2||CROSSSECTIONS:2||IMSMS:2||POLYISOPRENE COPOLYMERS:2||POLYIMIDE THINFILMS:2||POLYMER SURFACES:2||RAMAN:2||STEREOREGULAR PMMA:2||poly(tertbutyl methacrylate) (PtBMA):2||TIME:2||POLYIMIDE COMPOSITE:2||CARBOXYLATO COMPLEXES:2||AGOSTIC INTERACTIONS:2||MOLECULARSTRUCTURE:2||ALKENE:2||TRANSISTOR MEMORY:2||DEVICES:2||ORTHOGONALITY:2||molecular characterization:2||ORGANOSILICATE DIELECTRIC FILMS:2||AMPHIPHILES:2||Serotonin:2||Anodic stripping differential pulse voltammetry:2||transmission electron microtomography:2||LIQUIDCHROMATOGRAPHY ANALYSIS:2||PHASEDIAGRAM:2||CARBON NANOTUBES:2||TRANSFER MECHANISM:2||BINARY MIXTURES:2||REFLECTOMETRY:2||ROD:2||DROPS:2||CONSTANT:2||TRIBLOCK COPOLYMER:2||POLYMER VESICLES:2||CLICK CHEMISTRY:2||ARRAYS:2||COMPOSITES:2||MALDITOF MS:2||POLYMER THINFILMS:2||HYDROPHOBIC INTERACTION CHROMATOGRAPHY:2||retention mechanism:2||GRAZINGINCIDENCE:2||NANOPOROSITY:2||soluble poly(amic esteraltimide)s:2||DIFFERENTIAL SCANNING CALORIMETRY:2||RESIDUALSTRESS:2||CHEMICALCOMPOSITION:2||POLY(AMIC DIETHYL ESTER) PRECURSOR:2||POLY(DIMETHYL SILOXANES):2||MASS POLYSTYRENES:2||cyclic propylene carbonate:2||propylene oxide:2||ACETATE) TOLUENE SOLUTIONS:2||TRANSIENT GRATING METHOD:2||MASS DIFFUSION:2||MICROPHASE SEPARATION TRANSITION:2||POLYSTYRENES:2||POLYSILANE:2||CARBOHYDRATEBASED PHOSPHOLIPIDS:2||HELICAL STRANDS:2||FLUORESCENCE DETECTION:2||SENSITIVE DETERMINATION:2||COMPOSITE FILMS:2||microphase:2||3MERCAPTOPROPIONIC ACID:2||BUTADIENE BLOCK COPOLYMER:2||HYBRID POLYMERIC MICELLES:2||AQUEOUSMEDIA:2||CONTACTANGLE:2||TRANSISTORCIRCUITS:2||ABTYPE POLY(ETHERIMIDE)S:2||CORRELATION SPECTROSCOPY:2||GASPHASE CONFORMATIONS:2||DECANE:2||INFRAREDSPECTROSCOPY:2||MICELLIZATION:2||ENERGIES:2||ACID) PRECURSORS:2||PHOTOALIGNMENT:2||polymers:2||SUBSTRATE:2||carbon dioxide:2||oligomeric propylene carbonate:2||THERMALDIFFUSION:2||CRYSTAL:2||PHASETRANSITION:2||REFLECTIVITY:2||ANALOGS:2||supramolecular chemistry:2||LYSOPHOSPHATIDIC ACID:2||PHOSPHOCHOLINE:2||POLY(3HEXYLTHIOPHENE):2||Receptor:2||MODIFIED GOLD ELECTRODES:2||ASCORBICACID:2||HUMAN URINE:2||Hybrid Nanocomposite:2||Dielectric Constant:2||AU(111) ELECTRODES:2||NANOFILMS:2||HYDROPHOBIC CORES:2||DRIVEN:2||FLEXIBLE SIDECHAINS:2||MESOGEN:2||size exclusion chromatography:2||ORGANIZATION:2||POLY(LACTIC ACID):2||MOLECULAR ARCHITECTURE:2||COUPLER:2||POLYSTYRENE COPOLYMER:2||diffusion coefficient:2||XRAY REFLECTIVITY:2||temperature gradient interaction chromatography polystyryllithium:2||VISCOELASTIC PROPERTIES:2||polyisoprene:2||CRYSTALSTRUCTURES:2||POLYCARBONATE:2||MULTILAYERS:2||DEPOSITION:2||FULL ADSORPTION MECHANISMS:2||QUANTUM DOTS:2||CRITICAL ORDERING TRANSITION:2||CORE:2||PARACRYSTALLINE DISTORTION:2||PERFORATED LAYER PHASE:2||liposomes:2||phospholipids:2||UNILAMELLAR VESICLES:2||VOLTAMMETRIC DETERMINATION:2||Polyimide:2||FOURIERTRANSFORM:2||SURFACE:2||SIZE EXCLUSION CHROMATOGRAPHY:2||NEUTRON REFLECTIVITY:2||ORDERED STRUCTURE:2||RIGID ROD POLYMERS:2||DISPLACEMENT POLYMERIZATION:2||PHOTOSENSITIVE POLYIMIDE:2||EFFICIENCY:2||films:2||Polylactide:2||CHROMATOGRAPHIC CRITICAL CONDITION:2||RETENTION MECHANISM:2||COPPER PHTHALOCYANINE:2||C60:2||COPOLYMER:2||micelle:2||LINEAR POLYETHYLENE:2||LIQUIDS:2||ARMS:2||HIGHPERFORMANCE LIQUID:2||alternating copolyimides:2||PHASE SEPARATION:2||POLYMERCHAINS:2||STYRYLPYRIDINIUM:2||ANGLES:2||MOBILITY:2||PROBE:2||ACIDS:2||BLUE:2||POSITIONS:2||CYCLOPENTADIENYL:2||HIGHMOLECULARWEIGHT:2||FUELCELLS:2||TIN OXIDE:2||NANOCRYSTALS:2||SURFACE MICELLE FORMATION:2||DISORDER TRANSITION:2||BIREFRINGENCE:2||LIPIDCOMPOSITION:2||CONJUGATED POLYMERS:2||GLASSYCARBON ELECTRODE:2||ELECTROCHEMICAL DETECTION:2||MULTIPLE DETECTION:2||aromatic polyimides:2||MOLECULARWEIGHT HOMOPOLYMERS:2||BINARYMIXTURE:2||PATTERNS:2||photoluminescent polyimide:2||photosensitive polyimide:2||DEPENDENT MICELLIZATION:2||SPEED:2||synthesis:2||COIL BLOCKCOPOLYMERS:2||LIQUIDCRYSTALLINE ASSEMBLIES:2||OXIDE):2||molecular weight distribution:2||CONJUGATED POLYMER:2||polymer characterization:2||NONIONIC SURFACTANTS:2||STEREOREGULAR POLY(METHYL METHACRYLATE):2||structure:2||RODLIKE POLYIMIDE:2||FLEXIBLE POLYIMIDE:2||THERMAL IMIDIZATION:2||IN SITU RODCHAIN FORMATION:2||PHASESEPARATION:2||VINYL ETHER):2||EQUILIBRIUM:2||STRESS:2||STRUCTURAL RELAXATION:2||LIVING POLYMERIZATION:2||CONTAIN:2||SALT:2||WAVEGUIDE:2||XRAY DIFFRACTION:2||WALLED CARBON NANOTUBES:2||SILICON NANOWIRES:2||IR:2||DIELECTRIC THINFILMS:2||Selfassembled monolayer:2||PARAMETERS:2||Temperature gradient interaction chromatography:2||SOLIDSURFACES:2||FLOW:2||RATES:2||PRECURSORS:2||FILM BALANCE:2||SIDECHAINS:2||SUPRAMOLECULAR MATERIALS:2||CHAINS:2||POLYSTYRENE:39||ANIONICPOLYMERIZATION:34||GRADIENT INTERACTION CHROMATOGRAPHY:31||SEPARATION:27||BEHAVIOR:24||LIQUIDCHROMATOGRAPHY:22||POLYMERS:22||SIZEEXCLUSION CHROMATOGRAPHY:19||BLOCKCOPOLYMERS:17||DIBLOCK COPOLYMERS:17||THINFILMS:16||POLYISOPRENE:14||HPLC:13||SYNTHETICPOLYMERS:12||PERFORMANCE LIQUIDCHROMATOGRAPHY:11||DIBLOCK COPOLYMER:11||MOLECULARWEIGHT DISTRIBUTION:10||MACROMOLECULES:10||BLOCKCOPOLYMER:10||REVERSEDPHASE:10||RETENTION BEHAVIOR:10||MORPHOLOGY:9||MOLECULARWEIGHT:9||MELTS:9||AROMATIC POLYIMIDES:8||XRAYSCATTERING:8||polystyrene:8||MIXTURES:7||block copolymer:7||SURFACES:7||DEPENDENCE:7||COPOLYMERS:7||POLYMERIZATION:7||AIR/WATER INTERFACE:7||DEFINED BRUSH POLYIMIDE:6||TEMPERATURE:6||FULLY RODLIKE BACKBONE:6||MONOLAYERS:6||POLYIMIDES:6||CHAIN:6||COMPLEX POLYMERS:6||MOLECULARREORIENTATION:6||temperature gradient interaction chromatography:6||POLYMERFILMS:6||GELPERMEATION CHROMATOGRAPHY:6||ELUTION:6||ORDERDISORDER TRANSITION:6||SURFACEMORPHOLOGY:6||ORIENTATION:6||SYSTEMS:6||CRITICAL ADSORPTION POINT:6||LIGHTSCATTERING:5||PROBE DIFFUSION:5||POLYDISPERSITY:5||AIRWATERINTERFACE:5||MICROPHASE SEPARATION:5||GLASSTRANSITION:5||BLENDS:5||FILMS:5||ADSORPTION CHROMATOGRAPHY:5||MECHANISM:5||CO2:5||ETHYLENEOXIDE:5||ALIGNMENT:5||COMPLEXES:5||FRACTIONATION:5||MISCIBILITY:5||POLYMER CHARACTERIZATION:5||HEXAGONALLY PERFORATED LAYER:5||TRANSITION:5||FLIGHT MASSSPECTROMETRY:5||ARCHITECTURE:5||POLY(METHYL METHACRYLATE):5||ALTERNATING COPOLYMERIZATION:4||THICKNESS:4||THERMODYNAMICS:4||CRITICAL RANGE:4||ULTRATHIN POLYMERFILMS:4||DYNAMICS:4||CLIMATECHANGE:4||PHASE:4||GLASSTRANSITION TEMPERATURE:4||EPOXIDE:4||selfassembly:4||SPECTROSCOPY:4||SELFDIFFUSION:4||SCATTERING:4||OPTICALPROPERTIES:4||CATALYSTS:4||CHEMISTRY:4||SOLARCELLS:4||polyimides:4||polypyromellitimides:4||SEGMENTAL REORIENTATIONS:4||ADSORPTION:4||INTERFACE:4||POLYMERSOLUTIONS:4||TRACER DIFFUSION:4||OXIDE) DIBLOCK COPOLYMER:4||POLYSTYRENEBPOLY(METHYL METHACRYLATE):4||POLYMER BLENDS:4||SIMULATION:4||CHAIN ORIENTATION:4||STYRENE:4||TOF MASSSPECTROMETRY:4||WATER:4||DISPLAYS:4||OLIGOMERS:4||PEPTIDES:4||CYCLIC POLYSTYRENE:4||LATTICE CLUSTER THEORY:4||2NDHARMONIC GENERATION:4||LIQUIDCRYSTAL ALIGNMENT:4||MONTECARLO:4||LangmuirBlodgett film:3||ASSEMBLIES:3||chromatography:3||HOLOGRAPHIC RELAXATION SPECTROSCOPY:3||MULTIPLE MORPHOLOGIES:3||INTERACTION CHROMATOGRAPHY:3||NORMALPHASE:3||DIFFUSION:3||BRANCHED POLYSTYRENE:3||NANOPARTICLES:3||LITHOGRAPHY:3||POLYMER:3||LASERLIGHTSCATTERING:3||HIGH MOLECULARWEIGHT:3||CUBIC PHASE:3||AMPHIPHILIC BLOCKCOPOLYMERS:3||AQUEOUSSOLUTION:3||MODEL:3||FORCED RAYLEIGHSCATTERING:3||HYDRODYNAMIC PROPERTIES:3||4MIKTOARM STAR COPOLYMER:3||SYSTEM:3||PHASEBEHAVIOR:3||AQUEOUSSOLUTIONS:3||RHEOLOGY:3||LB film:3||2DIMENSIONAL LIQUIDCHROMATOGRAPHY:3||VISCOSITY:3||DIBLOCK COPOLYMER MELTS:3||ORDERORDER TRANSITION:3||GYROID PHASE:3||BINDING:3||BLOCK POLYELECTROLYTES:3||DERIVATIVES:3||MELT:3||PHASE LIQUIDCHROMATOGRAPHY:3||high temperature:3||ELEVATEDTEMPERATURE:3||RETENTION:3||MICELLE FORMATION:3||ELECTRONMICROSCOPY:3||Electrospray ionization:2||FRACTIONS:2||nalkanes:2||ISOCRATIC SEPARATION:2||ASSOCIATION:2||POLY(METHYL METHACRYLATE)S:2||2D correlation spectroscopy:2||CARBONATION:2||GLASSTRANSITION BEHAVIORS:2||MECHANICAL PROPERTIES:2||DIMENSIONS:2||POLYMER MIXTURES:2||ALUMINUM PORPHYRIN:2||LEAD STEARATE:2||FERROCENE:2||POLY(EPSILONCAPROLACTONE):2||DIAGRAM:2||nucleosides:2||Selective recognition by preconcentration:2||Electrochemical impedance spectroscopy:2||DOPAMINE:2||Silica:2||Silyl Ester:2||DIETHYL ESTER) PRECURSORS:2||SURFACE CHARACTERIZATION:2||MICROSTRUCTURE:2||polystyreneblockpolyisoprene:2||MICROPHASESEPARATED STRUCTURES:2||IMPEDANCE MEASUREMENTS:2||HEMEPROTEINS:2||SOLID SUBSTRATE:2||MOISTURE ABSORPTION:2||aromatic polyimide:2||INDUCED MORPHOLOGICALCHANGES:2||STABILITY:2||LC alignment layers:2||POLYPYROMELLITIMIDES:2||Ion mobility:2||Chiral polymer:2||OLIGOSACCHARIDES:2||OXIDE:2||SIDECHAIN:2||RETARDATION:2||functionality:2||temperature effects:2||phase transition:2||glass transition temperature:2||spincoated film:2||ESTER) PRECURSORS:2||PRECURSOR BLEND:2||Xray reflectivity:2||SIGMABONDS:2||aluminum porphyrin catalysts:2||METALLOPORPHYRIN:2||SILICON:2||MASSSPECTROMETRY ANALYSIS:2||STAR POLYMERS:2||SIZE DISTRIBUTIONS:2||GIANT VESICLES:2||POLY(3ALKYLTHIOPHENES):2||ADHESION:2||LIGHT:2||POLYSTYRENEBPOLYISOPRENE:2||HPLC fractionation:2||SILVER ELECTRODES:2||ENHANCED RESONANCE RAMAN:2||SEQUENCE:2||POLYELECTROLYTE/NONELECTROLYTE SHELLS:2||polyimide:2||liquid crystal alignment layer:2||SOLUBLE POLYIMIDES:2||POLYBUTADIENECOATED ZIRCONIA:2||PRETILT ANGLES:2||CROSSSECTIONS:2||IMSMS:2||POLYISOPRENE COPOLYMERS:2||POLYIMIDE THINFILMS:2||POLYMER SURFACES:2||RAMAN:2||STEREOREGULAR PMMA:2||poly(tertbutyl methacrylate) (PtBMA):2||TIME:2||POLYIMIDE COMPOSITE:2||CARBOXYLATO COMPLEXES:2||AGOSTIC INTERACTIONS:2||MOLECULARSTRUCTURE:2||ALKENE:2||TRANSISTOR MEMORY:2||DEVICES:2||ORTHOGONALITY:2||molecular characterization:2||ORGANOSILICATE DIELECTRIC FILMS:2||AMPHIPHILES:2||Serotonin:2||Anodic stripping differential pulse voltammetry:2||transmission electron microtomography:2||LIQUIDCHROMATOGRAPHY ANALYSIS:2||PHASEDIAGRAM:2||CARBON NANOTUBES:2||TRANSFER MECHANISM:2||BINARY MIXTURES:2||REFLECTOMETRY:2||ROD:2||DROPS:2||CONSTANT:2||TRIBLOCK COPOLYMER:2||POLYMER VESICLES:2||CLICK CHEMISTRY:2||ARRAYS:2||COMPOSITES:2||MALDITOF MS:2||POLYMER THINFILMS:2||HYDROPHOBIC INTERACTION CHROMATOGRAPHY:2||retention mechanism:2||GRAZINGINCIDENCE:2||NANOPOROSITY:2||soluble poly(amic esteraltimide)s:2||DIFFERENTIAL SCANNING CALORIMETRY:2||RESIDUALSTRESS:2||CHEMICALCOMPOSITION:2||POLY(AMIC DIETHYL ESTER) PRECURSOR:2||POLY(DIMETHYL SILOXANES):2||MASS POLYSTYRENES:2||cyclic propylene carbonate:2||propylene oxide:2||ACETATE) TOLUENE SOLUTIONS:2||TRANSIENT GRATING METHOD:2||MASS DIFFUSION:2||MICROPHASE SEPARATION TRANSITION:2||POLYSTYRENES:2||POLYSILANE:2||CARBOHYDRATEBASED PHOSPHOLIPIDS:2||HELICAL STRANDS:2||FLUORESCENCE DETECTION:2||SENSITIVE DETERMINATION:2||COMPOSITE FILMS:2||microphase:2||3MERCAPTOPROPIONIC ACID:2||BUTADIENE BLOCK COPOLYMER:2||HYBRID POLYMERIC MICELLES:2||AQUEOUSMEDIA:2||CONTACTANGLE:2||TRANSISTORCIRCUITS:2||ABTYPE POLY(ETHERIMIDE)S:2||CORRELATION SPECTROSCOPY:2||GASPHASE CONFORMATIONS:2||DECANE:2||INFRAREDSPECTROSCOPY:2||MICELLIZATION:2||ENERGIES:2||ACID) PRECURSORS:2||PHOTOALIGNMENT:2||polymers:2||SUBSTRATE:2||carbon dioxide:2||oligomeric propylene carbonate:2||THERMALDIFFUSION:2||CRYSTAL:2||PHASETRANSITION:2||REFLECTIVITY:2||ANALOGS:2||supramolecular chemistry:2||LYSOPHOSPHATIDIC ACID:2||PHOSPHOCHOLINE:2||POLY(3HEXYLTHIOPHENE):2||Receptor:2||MODIFIED GOLD ELECTRODES:2||ASCORBICACID:2||HUMAN URINE:2||Hybrid Nanocomposite:2||Dielectric Constant:2||AU(111) ELECTRODES:2||NANOFILMS:2||HYDROPHOBIC CORES:2||DRIVEN:2||FLEXIBLE SIDECHAINS:2||MESOGEN:2||size exclusion chromatography:2||ORGANIZATION:2||POLY(LACTIC ACID):2||MOLECULAR ARCHITECTURE:2||COUPLER:2||POLYSTYRENE COPOLYMER:2||diffusion coefficient:2||XRAY REFLECTIVITY:2||temperature gradient interaction chromatography polystyryllithium:2||VISCOELASTIC PROPERTIES:2||polyisoprene:2||CRYSTALSTRUCTURES:2||POLYCARBONATE:2||MULTILAYERS:2||DEPOSITION:2||FULL ADSORPTION MECHANISMS:2||QUANTUM DOTS:2||CRITICAL ORDERING TRANSITION:2||CORE:2||PARACRYSTALLINE DISTORTION:2||PERFORATED LAYER PHASE:2||liposomes:2||phospholipids:2||UNILAMELLAR VESICLES:2||VOLTAMMETRIC DETERMINATION:2||Polyimide:2||FOURIERTRANSFORM:2||SURFACE:2||SIZE EXCLUSION CHROMATOGRAPHY:2||NEUTRON REFLECTIVITY:2||ORDERED STRUCTURE:2||RIGID ROD POLYMERS:2||DISPLACEMENT POLYMERIZATION:2||PHOTOSENSITIVE POLYIMIDE:2||EFFICIENCY:2||films:2||Polylactide:2||CHROMATOGRAPHIC CRITICAL CONDITION:2||RETENTION MECHANISM:2||COPPER PHTHALOCYANINE:2||C60:2||COPOLYMER:2||micelle:2||LINEAR POLYETHYLENE:2||LIQUIDS:2||ARMS:2||HIGHPERFORMANCE LIQUID:2||alternating copolyimides:2||PHASE SEPARATION:2||POLYMERCHAINS:2||STYRYLPYRIDINIUM:2||ANGLES:2||MOBILITY:2||PROBE:2||ACIDS:2||BLUE:2||POSITIONS:2||CYCLOPENTADIENYL:2||HIGHMOLECULARWEIGHT:2||FUELCELLS:2||TIN OXIDE:2||NANOCRYSTALS:2||SURFACE MICELLE FORMATION:2||DISORDER TRANSITION:2||BIREFRINGENCE:2||LIPIDCOMPOSITION:2||CONJUGATED POLYMERS:2||GLASSYCARBON ELECTRODE:2||ELECTROCHEMICAL DETECTION:2||MULTIPLE DETECTION:2||aromatic polyimides:2||MOLECULARWEIGHT HOMOPOLYMERS:2||BINARYMIXTURE:2||PATTERNS:2||photoluminescent polyimide:2||photosensitive polyimide:2||DEPENDENT MICELLIZATION:2||SPEED:2||synthesis:2||COIL BLOCKCOPOLYMERS:2||LIQUIDCRYSTALLINE ASSEMBLIES:2||OXIDE):2||molecular weight distribution:2||CONJUGATED POLYMER:2||polymer characterization:2||NONIONIC SURFACTANTS:2||STEREOREGULAR POLY(METHYL METHACRYLATE):2||structure:2||RODLIKE POLYIMIDE:2||FLEXIBLE POLYIMIDE:2||THERMAL IMIDIZATION:2||IN SITU RODCHAIN FORMATION:2||PHASESEPARATION:2||VINYL ETHER):2||EQUILIBRIUM:2||STRESS:2||STRUCTURAL RELAXATION:2||LIVING POLYMERIZATION:2||CONTAIN:2||SALT:2||WAVEGUIDE:2||XRAY DIFFRACTION:2||WALLED CARBON NANOTUBES:2||SILICON NANOWIRES:2||IR:2||DIELECTRIC THINFILMS:2||Selfassembled monolayer:2||PARAMETERS:2||Temperature gradient interaction chromatography:2||SOLIDSURFACES:2||FLOW:2||RATES:2||PRECURSORS:2||FILM BALANCE:2||SIDECHAINS:2||SUPRAMOLECULAR MATERIALS:2||CHAINS:2||POLYSTYRENE:39||ANIONICPOLYMERIZATION:34||GRADIENT INTERACTION CHROMATOGRAPHY:31||SEPARATION:27||BEHAVIOR:24||LIQUIDCHROMATOGRAPHY:22||POLYMERS:22||SIZEEXCLUSION CHROMATOGRAPHY:19||BLOCKCOPOLYMERS:17||DIBLOCK COPOLYMERS:17||THINFILMS:16||POLYISOPRENE:14||HPLC:13||SYNTHETICPOLYMERS:12||PERFORMANCE LIQUIDCHROMATOGRAPHY:11||DIBLOCK COPOLYMER:11||MOLECULARWEIGHT DISTRIBUTION:10||MACROMOLECULES:10||BLOCKCOPOLYMER:10||REVERSEDPHASE:10||RETENTION BEHAVIOR:10||MORPHOLOGY:9||MOLECULARWEIGHT:9||MELTS:9||AROMATIC POLYIMIDES:8||XRAYSCATTERING:8||polystyrene:8||MIXTURES:7||block copolymer:7||SURFACES:7||DEPENDENCE:7||COPOLYMERS:7||POLYMERIZATION:7||AIR/WATER INTERFACE:7||DEFINED BRUSH POLYIMIDE:6||TEMPERATURE:6||FULLY RODLIKE BACKBONE:6||MONOLAYERS:6||POLYIMIDES:6||CHAIN:6||COMPLEX POLYMERS:6||MOLECULARREORIENTATION:6||temperature gradient interaction chromatography:6||POLYMERFILMS:6||GELPERMEATION CHROMATOGRAPHY:6||ELUTION:6||ORDERDISORDER TRANSITION:6||SURFACEMORPHOLOGY:6||ORIENTATION:6||SYSTEMS:6||CRITICAL ADSORPTION POINT:6||LIGHTSCATTERING:5||PROBE DIFFUSION:5||POLYDISPERSITY:5||AIRWATERINTERFACE:5||MICROPHASE SEPARATION:5||GLASSTRANSITION:5||BLENDS:5||FILMS:5||ADSORPTION CHROMATOGRAPHY:5||MECHANISM:5||CO2:5||ETHYLENEOXIDE:5||ALIGNMENT:5||COMPLEXES:5||FRACTIONATION:5||MISCIBILITY:5||POLYMER CHARACTERIZATION:5||HEXAGONALLY PERFORATED LAYER:5||TRANSITION:5||FLIGHT MASSSPECTROMETRY:5||ARCHITECTURE:5||POLY(METHYL METHACRYLATE):5||ALTERNATING COPOLYMERIZATION:4||THICKNESS:4||THERMODYNAMICS:4||CRITICAL RANGE:4||ULTRATHIN POLYMERFILMS:4||DYNAMICS:4||CLIMATECHANGE:4||PHASE:4||GLASSTRANSITION TEMPERATURE:4||EPOXIDE:4||selfassembly:4||SPECTROSCOPY:4||SELFDIFFUSION:4||SCATTERING:4||OPTICALPROPERTIES:4||CATALYSTS:4||CHEMISTRY:4||SOLARCELLS:4||polyimides:4||polypyromellitimides:4||SEGMENTAL REORIENTATIONS:4||ADSORPTION:4||INTERFACE:4||POLYMERSOLUTIONS:4||TRACER DIFFUSION:4||OXIDE) DIBLOCK COPOLYMER:4||POLYSTYRENEBPOLY(METHYL METHACRYLATE):4||POLYMER BLENDS:4||SIMULATION:4||CHAIN ORIENTATION:4||STYRENE:4||TOF MASSSPECTROMETRY:4||WATER:4||DISPLAYS:4||OLIGOMERS:4||PEPTIDES:4||CYCLIC POLYSTYRENE:4||LATTICE CLUSTER THEORY:4||2NDHARMONIC GENERATION:4||LIQUIDCRYSTAL ALIGNMENT:4||MONTECARLO:4||LangmuirBlodgett film:3||ASSEMBLIES:3||chromatography:3||HOLOGRAPHIC RELAXATION SPECTROSCOPY:3||MULTIPLE MORPHOLOGIES:3||INTERACTION CHROMATOGRAPHY:3||NORMALPHASE:3||DIFFUSION:3||BRANCHED POLYSTYRENE:3||NANOPARTICLES:3||LITHOGRAPHY:3||POLYMER:3||LASERLIGHTSCATTERING:3||HIGH MOLECULARWEIGHT:3||CUBIC PHASE:3||AMPHIPHILIC BLOCKCOPOLYMERS:3||AQUEOUSSOLUTION:3||MODEL:3||FORCED RAYLEIGHSCATTERING:3||HYDRODYNAMIC PROPERTIES:3||4MIKTOARM STAR COPOLYMER:3||SYSTEM:3||PHASEBEHAVIOR:3||AQUEOUSSOLUTIONS:3||RHEOLOGY:3||LB film:3||2DIMENSIONAL LIQUIDCHROMATOGRAPHY:3||VISCOSITY:3||DIBLOCK COPOLYMER MELTS:3||ORDERORDER TRANSITION:3||GYROID PHASE:3||BINDING:3||BLOCK POLYELECTROLYTES:3||DERIVATIVES:3||MELT:3||PHASE LIQUIDCHROMATOGRAPHY:3||high temperature:3||ELEVATEDTEMPERATURE:3||RETENTION:3||MICELLE FORMATION:3||ELECTRONMICROSCOPY:3||Electrospray ionization:2||FRACTIONS:2||nalkanes:2||ISOCRATIC SEPARATION:2||ASSOCIATION:2||POLY(METHYL METHACRYLATE)S:2||2D correlation spectroscopy:2||CARBONATION:2||GLASSTRANSITION BEHAVIORS:2||MECHANICAL PROPERTIES:2||DIMENSIONS:2||POLYMER MIXTURES:2||ALUMINUM PORPHYRIN:2||LEAD STEARATE:2||FERROCENE:2||POLY(EPSILONCAPROLACTONE):2||DIAGRAM:2||nucleosides:2||Selective recognition by preconcentration:2||Electrochemical impedance spectroscopy:2||DOPAMINE:2||Silica:2||Silyl Ester:2||DIETHYL ESTER) PRECURSORS:2||SURFACE CHARACTERIZATION:2||MICROSTRUCTURE:2||polystyreneblockpolyisoprene:2||MICROPHASESEPARATED STRUCTURES:2||IMPEDANCE MEASUREMENTS:2||HEMEPROTEINS:2||SOLID SUBSTRATE:2||MOISTURE ABSORPTION:2||aromatic polyimide:2||INDUCED MORPHOLOGICALCHANGES:2||STABILITY:2||LC alignment layers:2||POLYPYROMELLITIMIDES:2||Ion mobility:2||Chiral polymer:2||OLIGOSACCHARIDES:2||OXIDE:2||SIDECHAIN:2||RETARDATION:2||functionality:2||temperature effects:2||phase transition:2||glass transition temperature:2||spincoated film:2||ESTER) PRECURSORS:2||PRECURSOR BLEND:2||Xray reflectivity:2||SIGMABONDS:2||aluminum porphyrin catalysts:2||METALLOPORPHYRIN:2||SILICON:2||MASSSPECTROMETRY ANALYSIS:2||STAR POLYMERS:2||SIZE DISTRIBUTIONS:2||GIANT VESICLES:2||POLY(3ALKYLTHIOPHENES):2||ADHESION:2||LIGHT:2||POLYSTYRENEBPOLYISOPRENE:2||HPLC fractionation:2||SILVER ELECTRODES:2||ENHANCED RESONANCE RAMAN:2||SEQUENCE:2||POLYELECTROLYTE/NONELECTROLYTE SHELLS:2||polyimide:2||liquid crystal alignment layer:2||SOLUBLE POLYIMIDES:2||POLYBUTADIENECOATED ZIRCONIA:2||PRETILT ANGLES:2||CROSSSECTIONS:2||IMSMS:2||POLYISOPRENE COPOLYMERS:2||POLYIMIDE THINFILMS:2||POLYMER SURFACES:2||RAMAN:2||STEREOREGULAR PMMA:2||poly(tertbutyl methacrylate) (PtBMA):2||TIME:2||POLYIMIDE COMPOSITE:2||CARBOXYLATO COMPLEXES:2||AGOSTIC INTERACTIONS:2||MOLECULARSTRUCTURE:2||ALKENE:2||TRANSISTOR MEMORY:2||DEVICES:2||ORTHOGONALITY:2||molecular characterization:2||ORGANOSILICATE DIELECTRIC FILMS:2||AMPHIPHILES:2||Serotonin:2||Anodic stripping differential pulse voltammetry:2||transmission electron microtomography:2||LIQUIDCHROMATOGRAPHY ANALYSIS:2||PHASEDIAGRAM:2||CARBON NANOTUBES:2||TRANSFER MECHANISM:2||BINARY MIXTURES:2||REFLECTOMETRY:2||ROD:2||DROPS:2||CONSTANT:2||TRIBLOCK COPOLYMER:2||POLYMER VESICLES:2||CLICK CHEMISTRY:2||ARRAYS:2||COMPOSITES:2||MALDITOF MS:2||POLYMER THINFILMS:2||HYDROPHOBIC INTERACTION CHROMATOGRAPHY:2||retention mechanism:2||GRAZINGINCIDENCE:2||NANOPOROSITY:2||soluble poly(amic esteraltimide)s:2||DIFFERENTIAL SCANNING CALORIMETRY:2||RESIDUALSTRESS:2||CHEMICALCOMPOSITION:2||POLY(AMIC DIETHYL ESTER) PRECURSOR:2||POLY(DIMETHYL SILOXANES):2||MASS POLYSTYRENES:2||cyclic propylene carbonate:2||propylene oxide:2||ACETATE) TOLUENE SOLUTIONS:2||TRANSIENT GRATING METHOD:2||MASS DIFFUSION:2||MICROPHASE SEPARATION TRANSITION:2||POLYSTYRENES:2||POLYSILANE:2||CARBOHYDRATEBASED PHOSPHOLIPIDS:2||HELICAL STRANDS:2||FLUORESCENCE DETECTION:2||SENSITIVE DETERMINATION:2||COMPOSITE FILMS:2||microphase:2||3MERCAPTOPROPIONIC ACID:2||BUTADIENE BLOCK COPOLYMER:2||HYBRID POLYMERIC MICELLES:2||AQUEOUSMEDIA:2||CONTACTANGLE:2||TRANSISTORCIRCUITS:2||ABTYPE POLY(ETHERIMIDE)S:2||CORRELATION SPECTROSCOPY:2||GASPHASE CONFORMATIONS:2||DECANE:2||INFRAREDSPECTROSCOPY:2||MICELLIZATION:2||ENERGIES:2||ACID) PRECURSORS:2||PHOTOALIGNMENT:2||polymers:2||SUBSTRATE:2||carbon dioxide:2||oligomeric propylene carbonate:2||THERMALDIFFUSION:2||CRYSTAL:2||PHASETRANSITION:2||REFLECTIVITY:2||ANALOGS:2||supramolecular chemistry:2||LYSOPHOSPHATIDIC ACID:2||PHOSPHOCHOLINE:2||POLY(3HEXYLTHIOPHENE):2||Receptor:2||MODIFIED GOLD ELECTRODES:2||ASCORBICACID:2||HUMAN URINE:2||Hybrid Nanocomposite:2||Dielectric Constant:2||AU(111) ELECTRODES:2||NANOFILMS:2||HYDROPHOBIC CORES:2||DRIVEN:2||FLEXIBLE SIDECHAINS:2||MESOGEN:2||size exclusion chromatography:2||ORGANIZATION:2||POLY(LACTIC ACID):2||MOLECULAR ARCHITECTURE:2||COUPLER:2||POLYSTYRENE COPOLYMER:2||diffusion coefficient:2||XRAY REFLECTIVITY:2||temperature gradient interaction chromatography polystyryllithium:2||VISCOELASTIC PROPERTIES:2||polyisoprene:2||CRYSTALSTRUCTURES:2||POLYCARBONATE:2||MULTILAYERS:2||DEPOSITION:2||FULL ADSORPTION MECHANISMS:2||QUANTUM DOTS:2||CRITICAL ORDERING TRANSITION:2||CORE:2||PARACRYSTALLINE DISTORTION:2||PERFORATED LAYER PHASE:2||liposomes:2||phospholipids:2||UNILAMELLAR VESICLES:2||VOLTAMMETRIC DETERMINATION:2||Polyimide:2||FOURIERTRANSFORM:2||SURFACE:2||SIZE EXCLUSION CHROMATOGRAPHY:2||NEUTRON REFLECTIVITY:2||ORDERED STRUCTURE:2||RIGID ROD POLYMERS:2||DISPLACEMENT POLYMERIZATION:2||PHOTOSENSITIVE POLYIMIDE:2||EFFICIENCY:2||films:2||Polylactide:2||CHROMATOGRAPHIC CRITICAL CONDITION:2||RETENTION MECHANISM:2||COPPER PHTHALOCYANINE:2||C60:2||COPOLYMER:2||micelle:2||LINEAR POLYETHYLENE:2||LIQUIDS:2||ARMS:2||HIGHPERFORMANCE LIQUID:2||alternating copolyimides:2||PHASE SEPARATION:2||POLYMERCHAINS:2||STYRYLPYRIDINIUM:2||ANGLES:2||MOBILITY:2||PROBE:2||ACIDS:2||BLUE:2||POSITIONS:2||CYCLOPENTADIENYL:2||HIGHMOLECULARWEIGHT:2||FUELCELLS:2||TIN OXIDE:2||NANOCRYSTALS:2||SURFACE MICELLE FORMATION:2||DISORDER TRANSITION:2||BIREFRINGENCE:2||LIPIDCOMPOSITION:2||CONJUGATED POLYMERS:2||GLASSYCARBON ELECTRODE:2||ELECTROCHEMICAL DETECTION:2||MULTIPLE DETECTION:2||aromatic polyimides:2||MOLECULARWEIGHT HOMOPOLYMERS:2||BINARYMIXTURE:2||PATTERNS:2||photoluminescent polyimide:2||photosensitive polyimide:2||DEPENDENT MICELLIZATION:2||SPEED:2||synthesis:2||COIL BLOCKCOPOLYMERS:2||LIQUIDCRYSTALLINE ASSEMBLIES:2||OXIDE):2||molecular weight distribution:2||CONJUGATED POLYMER:2||polymer characterization:2||NONIONIC SURFACTANTS:2||STEREOREGULAR POLY(METHYL METHACRYLATE):2||structure:2||RODLIKE POLYIMIDE:2||FLEXIBLE POLYIMIDE:2||THERMAL IMIDIZATION:2||IN SITU RODCHAIN FORMATION:2||PHASESEPARATION:2||VINYL ETHER):2||EQUILIBRIUM:2||STRESS:2||STRUCTURAL RELAXATION:2||LIVING POLYMERIZATION:2||CONTAIN:2||SALT:2||WAVEGUIDE:2||XRAY DIFFRACTION:2||WALLED CARBON NANOTUBES:2||SILICON NANOWIRES:2||IR:2||DIELECTRIC THINFILMS:2||Selfassembled monolayer:2||PARAMETERS:2||Temperature gradient interaction chromatography:2||SOLIDSURFACES:2||FLOW:2||RATES:2||PRECURSORS:2||FILM BALANCE:2||SIDECHAINS:2||SUPRAMOLECULAR MATERIALS:2||CHAINS:2||POLYSTYRENE:39||ANIONICPOLYMERIZATION:34||GRADIENT INTERACTION CHROMATOGRAPHY:31||SEPARATION:27||BEHAVIOR:24||LIQUIDCHROMATOGRAPHY:22||POLYMERS:22||SIZEEXCLUSION CHROMATOGRAPHY:19||BLOCKCOPOLYMERS:17||DIBLOCK COPOLYMERS:17||THINFILMS:16||POLYISOPRENE:14||HPLC:13||SYNTHETICPOLYMERS:12||PERFORMANCE LIQUIDCHROMATOGRAPHY:11||DIBLOCK COPOLYMER:11||MOLECULARWEIGHT DISTRIBUTION:10||MACROMOLECULES:10||BLOCKCOPOLYMER:10||REVERSEDPHASE:10||RETENTION BEHAVIOR:10||MORPHOLOGY:9||MOLECULARWEIGHT:9||MELTS:9||AROMATIC POLYIMIDES:8||XRAYSCATTERING:8||polystyrene:8||MIXTURES:7||block copolymer:7||SURFACES:7||DEPENDENCE:7||COPOLYMERS:7||POLYMERIZATION:7||AIR/WATER INTERFACE:7||DEFINED BRUSH POLYIMIDE:6||TEMPERATURE:6||FULLY RODLIKE BACKBONE:6||MONOLAYERS:6||POLYIMIDES:6||CHAIN:6||COMPLEX POLYMERS:6||MOLECULARREORIENTATION:6||temperature gradient interaction chromatography:6||POLYMERFILMS:6||GELPERMEATION CHROMATOGRAPHY:6||ELUTION:6||ORDERDISORDER TRANSITION:6||SURFACEMORPHOLOGY:6||ORIENTATION:6||SYSTEMS:6||CRITICAL ADSORPTION POINT:6||LIGHTSCATTERING:5||PROBE DIFFUSION:5||POLYDISPERSITY:5||AIRWATERINTERFACE:5||MICROPHASE SEPARATION:5||GLASSTRANSITION:5||BLENDS:5||FILMS:5||ADSORPTION CHROMATOGRAPHY:5||MECHANISM:5||CO2:5||ETHYLENEOXIDE:5||ALIGNMENT:5||COMPLEXES:5||FRACTIONATION:5||MISCIBILITY:5||POLYMER CHARACTERIZATION:5||HEXAGONALLY PERFORATED LAYER:5||TRANSITION:5||FLIGHT MASSSPECTROMETRY:5||ARCHITECTURE:5||POLY(METHYL METHACRYLATE):5||ALTERNATING COPOLYMERIZATION:4||THICKNESS:4||THERMODYNAMICS:4||CRITICAL RANGE:4||ULTRATHIN POLYMERFILMS:4||DYNAMICS:4||CLIMATECHANGE:4||PHASE:4||GLASSTRANSITION TEMPERATURE:4||EPOXIDE:4||selfassembly:4||SPECTROSCOPY:4||SELFDIFFUSION:4||SCATTERING:4||OPTICALPROPERTIES:4||CATALYSTS:4||CHEMISTRY:4||SOLARCELLS:4||polyimides:4||polypyromellitimides:4||SEGMENTAL REORIENTATIONS:4||ADSORPTION:4||INTERFACE:4||POLYMERSOLUTIONS:4||TRACER DIFFUSION:4||OXIDE) DIBLOCK COPOLYMER:4||POLYSTYRENEBPOLY(METHYL METHACRYLATE):4||POLYMER BLENDS:4||SIMULATION:4||CHAIN ORIENTATION:4||STYRENE:4||TOF MASSSPECTROMETRY:4||WATER:4||DISPLAYS:4||OLIGOMERS:4||PEPTIDES:4||CYCLIC POLYSTYRENE:4||LATTICE CLUSTER THEORY:4||2NDHARMONIC GENERATION:4||LIQUIDCRYSTAL ALIGNMENT:4||MONTECARLO:4||LangmuirBlodgett film:3||ASSEMBLIES:3||chromatography:3||HOLOGRAPHIC RELAXATION SPECTROSCOPY:3||MULTIPLE MORPHOLOGIES:3||INTERACTION CHROMATOGRAPHY:3||NORMALPHASE:3||DIFFUSION:3||BRANCHED POLYSTYRENE:3||NANOPARTICLES:3||LITHOGRAPHY:3||POLYMER:3||LASERLIGHTSCATTERING:3||HIGH MOLECULARWEIGHT:3||CUBIC PHASE:3||AMPHIPHILIC BLOCKCOPOLYMERS:3||AQUEOUSSOLUTION:3||MODEL:3||FORCED RAYLEIGHSCATTERING:3||HYDRODYNAMIC PROPERTIES:3||4MIKTOARM STAR COPOLYMER:3||SYSTEM:3||PHASEBEHAVIOR:3||AQUEOUSSOLUTIONS:3||RHEOLOGY:3||LB film:3||2DIMENSIONAL LIQUIDCHROMATOGRAPHY:3||VISCOSITY:3||DIBLOCK COPOLYMER MELTS:3||ORDERORDER TRANSITION:3||GYROID PHASE:3||BINDING:3||BLOCK POLYELECTROLYTES:3||DERIVATIVES:3||MELT:3||PHASE LIQUIDCHROMATOGRAPHY:3||high temperature:3||ELEVATEDTEMPERATURE:3||RETENTION:3||MICELLE FORMATION:3||ELECTRONMICROSCOPY:3||Electrospray ionization:2||FRACTIONS:2||nalkanes:2||ISOCRATIC SEPARATION:2||ASSOCIATION:2||POLY(METHYL METHACRYLATE)S:2||2D correlation spectroscopy:2||CARBONATION:2||GLASSTRANSITION BEHAVIORS:2||MECHANICAL PROPERTIES:2||DIMENSIONS:2||POLYMER MIXTURES:2||ALUMINUM PORPHYRIN:2||LEAD STEARATE:2||FERROCENE:2||POLY(EPSILONCAPROLACTONE):2||DIAGRAM:2||nucleosides:2||Selective recognition by preconcentration:2||Electrochemical impedance spectroscopy:2||DOPAMINE:2||Silica:2||Silyl Ester:2||DIETHYL ESTER) PRECURSORS:2||SURFACE CHARACTERIZATION:2||MICROSTRUCTURE:2||polystyreneblockpolyisoprene:2||MICROPHASESEPARATED STRUCTURES:2||IMPEDANCE MEASUREMENTS:2||HEMEPROTEINS:2||SOLID SUBSTRATE:2||MOISTURE ABSORPTION:2||aromatic polyimide:2||INDUCED MORPHOLOGICALCHANGES:2||STABILITY:2||LC alignment layers:2||POLYPYROMELLITIMIDES:2||Ion mobility:2||Chiral polymer:2||OLIGOSACCHARIDES:2||OXIDE:2||SIDECHAIN:2||RETARDATION:2||functionality:2||temperature effects:2||phase transition:2||glass transition temperature:2||spincoated film:2||ESTER) PRECURSORS:2||PRECURSOR BLEND:2||Xray reflectivity:2||SIGMABONDS:2||aluminum porphyrin catalysts:2||METALLOPORPHYRIN:2||SILICON:2||MASSSPECTROMETRY ANALYSIS:2||STAR POLYMERS:2||SIZE DISTRIBUTIONS:2||GIANT VESICLES:2||POLY(3ALKYLTHIOPHENES):2||ADHESION:2||LIGHT:2||POLYSTYRENEBPOLYISOPRENE:2||HPLC fractionation:2||SILVER ELECTRODES:2||ENHANCED RESONANCE RAMAN:2||SEQUENCE:2||POLYELECTROLYTE/NONELECTROLYTE SHELLS:2||polyimide:2||liquid crystal alignment layer:2||SOLUBLE POLYIMIDES:2||POLYBUTADIENECOATED ZIRCONIA:2||PRETILT ANGLES:2||CROSSSECTIONS:2||IMSMS:2||POLYISOPRENE COPOLYMERS:2||POLYIMIDE THINFILMS:2||POLYMER SURFACES:2||RAMAN:2||STEREOREGULAR PMMA:2||poly(tertbutyl methacrylate) (PtBMA):2||TIME:2||POLYIMIDE COMPOSITE:2||CARBOXYLATO COMPLEXES:2||AGOSTIC INTERACTIONS:2||MOLECULARSTRUCTURE:2||ALKENE:2||TRANSISTOR MEMORY:2||DEVICES:2||ORTHOGONALITY:2||molecular characterization:2||ORGANOSILICATE DIELECTRIC FILMS:2||AMPHIPHILES:2||Serotonin:2||Anodic stripping differential pulse voltammetry:2||transmission electron microtomography:2||LIQUIDCHROMATOGRAPHY ANALYSIS:2||PHASEDIAGRAM:2||CARBON NANOTUBES:2||TRANSFER MECHANISM:2||BINARY MIXTURES:2||REFLECTOMETRY:2||ROD:2||DROPS:2||CONSTANT:2||TRIBLOCK COPOLYMER:2||POLYMER VESICLES:2||CLICK CHEMISTRY:2||ARRAYS:2||COMPOSITES:2||MALDITOF MS:2||POLYMER THINFILMS:2||HYDROPHOBIC INTERACTION CHROMATOGRAPHY:2||retention mechanism:2||GRAZINGINCIDENCE:2||NANOPOROSITY:2||soluble poly(amic esteraltimide)s:2||DIFFERENTIAL SCANNING CALORIMETRY:2||RESIDUALSTRESS:2||CHEMICALCOMPOSITION:2||POLY(AMIC DIETHYL ESTER) PRECURSOR:2||POLY(DIMETHYL SILOXANES):2||MASS POLYSTYRENES:2||cyclic propylene carbonate:2||propylene oxide:2||ACETATE) TOLUENE SOLUTIONS:2||TRANSIENT GRATING METHOD:2||MASS DIFFUSION:2||MICROPHASE SEPARATION TRANSITION:2||POLYSTYRENES:2||POLYSILANE:2||CARBOHYDRATEBASED PHOSPHOLIPIDS:2||HELICAL STRANDS:2||FLUORESCENCE DETECTION:2||SENSITIVE DETERMINATION:2||COMPOSITE FILMS:2||microphase:2||3MERCAPTOPROPIONIC ACID:2||BUTADIENE BLOCK COPOLYMER:2||HYBRID POLYMERIC MICELLES:2||AQUEOUSMEDIA:2||CONTACTANGLE:2||TRANSISTORCIRCUITS:2||ABTYPE POLY(ETHERIMIDE)S:2||CORRELATION SPECTROSCOPY:2||GASPHASE CONFORMATIONS:2||DECANE:2||INFRAREDSPECTROSCOPY:2||MICELLIZATION:2||ENERGIES:2||ACID) PRECURSORS:2||PHOTOALIGNMENT:2||polymers:2||SUBSTRATE:2||carbon dioxide:2||oligomeric propylene carbonate:2||THERMALDIFFUSION:2||CRYSTAL:2||PHASETRANSITION:2||REFLECTIVITY:2||ANALOGS:2||supramolecular chemistry:2||LYSOPHOSPHATIDIC ACID:2||PHOSPHOCHOLINE:2||POLY(3HEXYLTHIOPHENE):2||Receptor:2||MODIFIED GOLD ELECTRODES:2||ASCORBICACID:2||HUMAN URINE:2||Hybrid Nanocomposite:2||Dielectric Constant:2||AU(111) ELECTRODES:2||NANOFILMS:2||HYDROPHOBIC CORES:2||DRIVEN:2||FLEXIBLE SIDECHAINS:2||MESOGEN:2||size exclusion chromatography:2||ORGANIZATION:2||POLY(LACTIC ACID):2||MOLECULAR ARCHITECTURE:2||COUPLER:2||POLYSTYRENE COPOLYMER:2||diffusion coefficient:2||XRAY REFLECTIVITY:2||temperature gradient interaction chromatography polystyryllithium:2||VISCOELASTIC PROPERTIES:2||polyisoprene:2||CRYSTALSTRUCTURES:2||POLYCARBONATE:2||MULTILAYERS:2||DEPOSITION:2||FULL ADSORPTION MECHANISMS:2||QUANTUM DOTS:2||CRITICAL ORDERING TRANSITION:2||CORE:2||PARACRYSTALLINE DISTORTION:2||PERFORATED LAYER PHASE:2||liposomes:2||phospholipids:2||UNILAMELLAR VESICLES:2||VOLTAMMETRIC DETERMINATION:2||Polyimide:2||FOURIERTRANSFORM:2||SURFACE:2||SIZE EXCLUSION CHROMATOGRAPHY:2||NEUTRON REFLECTIVITY:2||ORDERED STRUCTURE:2||RIGID ROD POLYMERS:2||DISPLACEMENT POLYMERIZATION:2||PHOTOSENSITIVE POLYIMIDE:2||EFFICIENCY:2||films:2||Polylactide:2||CHROMATOGRAPHIC CRITICAL CONDITION:2||RETENTION MECHANISM:2||COPPER PHTHALOCYANINE:2||C60:2||COPOLYMER:2||micelle:2||LINEAR POLYETHYLENE:2||LIQUIDS:2||ARMS:2||HIGHPERFORMANCE LIQUID:2||alternating copolyimides:2||PHASE SEPARATION:2||POLYMERCHAINS:2||STYRYLPYRIDINIUM:2||ANGLES:2||MOBILITY:2||PROBE:2||ACIDS:2||BLUE:2||POSITIONS:2||CYCLOPENTADIENYL:2||HIGHMOLECULARWEIGHT:2||FUELCELLS:2||TIN OXIDE:2||NANOCRYSTALS:2||SURFACE MICELLE FORMATION:2||DISORDER TRANSITION:2||BIREFRINGENCE:2||LIPIDCOMPOSITION:2||CONJUGATED POLYMERS:2||GLASSYCARBON ELECTRODE:2||ELECTROCHEMICAL DETECTION:2||MULTIPLE DETECTION:2||aromatic polyimides:2||MOLECULARWEIGHT HOMOPOLYMERS:2||BINARYMIXTURE:2||PATTERNS:2||photoluminescent polyimide:2||photosensitive polyimide:2||DEPENDENT MICELLIZATION:2||SPEED:2||synthesis:2||COIL BLOCKCOPOLYMERS:2||LIQUIDCRYSTALLINE ASSEMBLIES:2||OXIDE):2||molecular weight distribution:2||CONJUGATED POLYMER:2||polymer characterization:2||NONIONIC SURFACTANTS:2||STEREOREGULAR POLY(METHYL METHACRYLATE):2||structure:2||RODLIKE POLYIMIDE:2||FLEXIBLE POLYIMIDE:2||THERMAL IMIDIZATION:2||IN SITU RODCHAIN FORMATION:2||PHASESEPARATION:2||VINYL ETHER):2||EQUILIBRIUM:2||STRESS:2||STRUCTURAL RELAXATION:2||LIVING POLYMERIZATION:2||CONTAIN:2||SALT:2||WAVEGUIDE:2||XRAY DIFFRACTION:2||WALLED CARBON NANOTUBES:2||SILICON NANOWIRES:2||IR:2||DIELECTRIC THINFILMS:2||Selfassembled monolayer:2||PARAMETERS:2||Temperature gradient interaction chromatography:2||SOLIDSURFACES:2||FLOW:2||RATES:2||PRECURSORS:2||FILM BALANCE:2||SIDECHAINS:2||SUPRAMOLECULAR MATERIALS:2||CHAINS:2||POLYSTYRENE:39||ANIONICPOLYMERIZATION:34||GRADIENT INTERACTION CHROMATOGRAPHY:31||SEPARATION:27||BEHAVIOR:24||LIQUIDCHROMATOGRAPHY:22||POLYMERS:22||SIZEEXCLUSION CHROMATOGRAPHY:19||BLOCKCOPOLYMERS:17||DIBLOCK COPOLYMERS:17||THINFILMS:16||POLYISOPRENE:14||HPLC:13||SYNTHETICPOLYMERS:12||PERFORMANCE LIQUIDCHROMATOGRAPHY:11||DIBLOCK COPOLYMER:11||MOLECULARWEIGHT DISTRIBUTION:10||MACROMOLECULES:10||BLOCKCOPOLYMER:10||REVERSEDPHASE:10||RETENTION BEHAVIOR:10||MORPHOLOGY:9||MOLECULARWEIGHT:9||MELTS:9||AROMATIC POLYIMIDES:8||XRAYSCATTERING:8||polystyrene:8||MIXTURES:7||block copolymer:7||SURFACES:7||DEPENDENCE:7||COPOLYMERS:7||POLYMERIZATION:7||AIR/WATER INTERFACE:7||DEFINED BRUSH POLYIMIDE:6||TEMPERATURE:6||FULLY RODLIKE BACKBONE:6||MONOLAYERS:6||POLYIMIDES:6||CHAIN:6||COMPLEX POLYMERS:6||MOLECULARREORIENTATION:6||temperature gradient interaction chromatography:6||POLYMERFILMS:6||GELPERMEATION CHROMATOGRAPHY:6||ELUTION:6||ORDERDISORDER TRANSITION:6||SURFACEMORPHOLOGY:6||ORIENTATION:6||SYSTEMS:6||CRITICAL ADSORPTION POINT:6||LIGHTSCATTERING:5||PROBE DIFFUSION:5||POLYDISPERSITY:5||AIRWATERINTERFACE:5||MICROPHASE SEPARATION:5||GLASSTRANSITION:5||BLENDS:5||FILMS:5||ADSORPTION CHROMATOGRAPHY:5||MECHANISM:5||CO2:5||ETHYLENEOXIDE:5||ALIGNMENT:5||COMPLEXES:5||FRACTIONATION:5||MISCIBILITY:5||POLYMER CHARACTERIZATION:5||HEXAGONALLY PERFORATED LAYER:5||TRANSITION:5||FLIGHT MASSSPECTROMETRY:5||ARCHITECTURE:5||POLY(METHYL METHACRYLATE):5||ALTERNATING COPOLYMERIZATION:4||THICKNESS:4||THERMODYNAMICS:4||CRITICAL RANGE:4||ULTRATHIN POLYMERFILMS:4||DYNAMICS:4||CLIMATECHANGE:4||PHASE:4||GLASSTRANSITION TEMPERATURE:4||EPOXIDE:4||selfassembly:4||SPECTROSCOPY:4||SELFDIFFUSION:4||SCATTERING:4||OPTICALPROPERTIES:4||CATALYSTS:4||CHEMISTRY:4||SOLARCELLS:4||polyimides:4||polypyromellitimides:4||SEGMENTAL REORIENTATIONS:4||ADSORPTION:4||INTERFACE:4||POLYMERSOLUTIONS:4||TRACER DIFFUSION:4||OXIDE) DIBLOCK COPOLYMER:4||POLYSTYRENEBPOLY(METHYL METHACRYLATE):4||POLYMER BLENDS:4||SIMULATION:4||CHAIN ORIENTATION:4||STYRENE:4||TOF MASSSPECTROMETRY:4||WATER:4||DISPLAYS:4||OLIGOMERS:4||PEPTIDES:4||CYCLIC POLYSTYRENE:4||LATTICE CLUSTER THEORY:4||2NDHARMONIC GENERATION:4||LIQUIDCRYSTAL ALIGNMENT:4||MONTECARLO:4||LangmuirBlodgett film:3||ASSEMBLIES:3||chromatography:3||HOLOGRAPHIC RELAXATION SPECTROSCOPY:3||MULTIPLE MORPHOLOGIES:3||INTERACTION CHROMATOGRAPHY:3||NORMALPHASE:3||DIFFUSION:3||BRANCHED POLYSTYRENE:3||NANOPARTICLES:3||LITHOGRAPHY:3||POLYMER:3||LASERLIGHTSCATTERING:3||HIGH MOLECULARWEIGHT:3||CUBIC PHASE:3||AMPHIPHILIC BLOCKCOPOLYMERS:3||AQUEOUSSOLUTION:3||MODEL:3||FORCED RAYLEIGHSCATTERING:3||HYDRODYNAMIC PROPERTIES:3||4MIKTOARM STAR COPOLYMER:3||SYSTEM:3||PHASEBEHAVIOR:3||AQUEOUSSOLUTIONS:3||RHEOLOGY:3||LB film:3||2DIMENSIONAL LIQUIDCHROMATOGRAPHY:3||VISCOSITY:3||DIBLOCK COPOLYMER MELTS:3||ORDERORDER TRANSITION:3||GYROID PHASE:3||BINDING:3||BLOCK POLYELECTROLYTES:3||DERIVATIVES:3||MELT:3||PHASE LIQUIDCHROMATOGRAPHY:3||high temperature:3||ELEVATEDTEMPERATURE:3||RETENTION:3||MICELLE FORMATION:3||ELECTRONMICROSCOPY:3||Electrospray ionization:2||FRACTIONS:2||nalkanes:2||ISOCRATIC SEPARATION:2||ASSOCIATION:2||POLY(METHYL METHACRYLATE)S:2||2D correlation spectroscopy:2||CARBONATION:2||GLASSTRANSITION BEHAVIORS:2||MECHANICAL PROPERTIES:2||DIMENSIONS:2||POLYMER MIXTURES:2||ALUMINUM PORPHYRIN:2||LEAD STEARATE:2||FERROCENE:2||POLY(EPSILONCAPROLACTONE):2||DIAGRAM:2||nucleosides:2||Selective recognition by preconcentration:2||Electrochemical impedance spectroscopy:2||DOPAMINE:2||Silica:2||Silyl Ester:2||DIETHYL ESTER) PRECURSORS:2||SURFACE CHARACTERIZATION:2||MICROSTRUCTURE:2||polystyreneblockpolyisoprene:2||MICROPHASESEPARATED STRUCTURES:2||IMPEDANCE MEASUREMENTS:2||HEMEPROTEINS:2||SOLID SUBSTRATE:2||MOISTURE ABSORPTION:2||aromatic polyimide:2||INDUCED MORPHOLOGICALCHANGES:2||STABILITY:2||LC alignment layers:2||POLYPYROMELLITIMIDES:2||Ion mobility:2||Chiral polymer:2||OLIGOSACCHARIDES:2||OXIDE:2||SIDECHAIN:2||RETARDATION:2||functionality:2||temperature effects:2||phase transition:2||glass transition temperature:2||spincoated film:2||ESTER) PRECURSORS:2||PRECURSOR BLEND:2||Xray reflectivity:2||SIGMABONDS:2||aluminum porphyrin catalysts:2||METALLOPORPHYRIN:2||SILICON:2||MASSSPECTROMETRY ANALYSIS:2||STAR POLYMERS:2||SIZE DISTRIBUTIONS:2||GIANT VESICLES:2||POLY(3ALKYLTHIOPHENES):2||ADHESION:2||LIGHT:2||POLYSTYRENEBPOLYISOPRENE:2||HPLC fractionation:2||SILVER ELECTRODES:2||ENHANCED RESONANCE RAMAN:2||SEQUENCE:2||POLYELECTROLYTE/NONELECTROLYTE SHELLS:2||polyimide:2||liquid crystal alignment layer:2||SOLUBLE POLYIMIDES:2||POLYBUTADIENECOATED ZIRCONIA:2||PRETILT ANGLES:2||CROSSSECTIONS:2||IMSMS:2||POLYISOPRENE COPOLYMERS:2||POLYIMIDE THINFILMS:2||POLYMER SURFACES:2||RAMAN:2||STEREOREGULAR PMMA:2||poly(tertbutyl methacrylate) (PtBMA):2||TIME:2||POLYIMIDE COMPOSITE:2||CARBOXYLATO COMPLEXES:2||AGOSTIC INTERACTIONS:2||MOLECULARSTRUCTURE:2||ALKENE:2||TRANSISTOR MEMORY:2||DEVICES:2||ORTHOGONALITY:2||molecular characterization:2||ORGANOSILICATE DIELECTRIC FILMS:2||AMPHIPHILES:2||Serotonin:2||Anodic stripping differential pulse voltammetry:2||transmission electron microtomography:2||LIQUIDCHROMATOGRAPHY ANALYSIS:2||PHASEDIAGRAM:2||CARBON NANOTUBES:2||TRANSFER MECHANISM:2||BINARY MIXTURES:2||REFLECTOMETRY:2||ROD:2||DROPS:2||CONSTANT:2||TRIBLOCK COPOLYMER:2||POLYMER VESICLES:2||CLICK CHEMISTRY:2||ARRAYS:2||COMPOSITES:2||MALDITOF MS:2||POLYMER THINFILMS:2||HYDROPHOBIC INTERACTION CHROMATOGRAPHY:2||retention mechanism:2||GRAZINGINCIDENCE:2||NANOPOROSITY:2||soluble poly(amic esteraltimide)s:2||DIFFERENTIAL SCANNING CALORIMETRY:2||RESIDUALSTRESS:2||CHEMICALCOMPOSITION:2||POLY(AMIC DIETHYL ESTER) PRECURSOR:2||POLY(DIMETHYL SILOXANES):2||MASS POLYSTYRENES:2||cyclic propylene carbonate:2||propylene oxide:2||ACETATE) TOLUENE SOLUTIONS:2||TRANSIENT GRATING METHOD:2||MASS DIFFUSION:2||MICROPHASE SEPARATION TRANSITION:2||POLYSTYRENES:2||POLYSILANE:2||CARBOHYDRATEBASED PHOSPHOLIPIDS:2||HELICAL STRANDS:2||FLUORESCENCE DETECTION:2||SENSITIVE DETERMINATION:2||COMPOSITE FILMS:2||microphase:2||3MERCAPTOPROPIONIC ACID:2||BUTADIENE BLOCK COPOLYMER:2||HYBRID POLYMERIC MICELLES:2||AQUEOUSMEDIA:2||CONTACTANGLE:2||TRANSISTORCIRCUITS:2||ABTYPE POLY(ETHERIMIDE)S:2||CORRELATION SPECTROSCOPY:2||GASPHASE CONFORMATIONS:2||DECANE:2||INFRAREDSPECTROSCOPY:2||MICELLIZATION:2||ENERGIES:2||ACID) PRECURSORS:2||PHOTOALIGNMENT:2||polymers:2||SUBSTRATE:2||carbon dioxide:2||oligomeric propylene carbonate:2||THERMALDIFFUSION:2||CRYSTAL:2||PHASETRANSITION:2||REFLECTIVITY:2||ANALOGS:2||supramolecular chemistry:2||LYSOPHOSPHATIDIC ACID:2||PHOSPHOCHOLINE:2||POLY(3HEXYLTHIOPHENE):2||Receptor:2||MODIFIED GOLD ELECTRODES:2||ASCORBICACID:2||HUMAN URINE:2||Hybrid Nanocomposite:2||Dielectric Constant:2||AU(111) ELECTRODES:2||NANOFILMS:2||HYDROPHOBIC CORES:2||DRIVEN:2||FLEXIBLE SIDECHAINS:2||MESOGEN:2||size exclusion chromatography:2||ORGANIZATION:2||POLY(LACTIC ACID):2||MOLECULAR ARCHITECTURE:2||COUPLER:2||POLYSTYRENE COPOLYMER:2||diffusion coefficient:2||XRAY REFLECTIVITY:2||temperature gradient interaction chromatography polystyryllithium:2||VISCOELASTIC PROPERTIES:2||polyisoprene:2||CRYSTALSTRUCTURES:2||POLYCARBONATE:2||MULTILAYERS:2||DEPOSITION:2||FULL ADSORPTION MECHANISMS:2||QUANTUM DOTS:2||CRITICAL ORDERING TRANSITION:2||CORE:2||PARACRYSTALLINE DISTORTION:2||PERFORATED LAYER PHASE:2||liposomes:2||phospholipids:2||UNILAMELLAR VESICLES:2||VOLTAMMETRIC DETERMINATION:2||Polyimide:2||FOURIERTRANSFORM:2||SURFACE:2||SIZE EXCLUSION CHROMATOGRAPHY:2||NEUTRON REFLECTIVITY:2||ORDERED STRUCTURE:2||RIGID ROD POLYMERS:2||DISPLACEMENT POLYMERIZATION:2||PHOTOSENSITIVE POLYIMIDE:2||EFFICIENCY:2||films:2||Polylactide:2||CHROMATOGRAPHIC CRITICAL CONDITION:2||RETENTION MECHANISM:2||COPPER PHTHALOCYANINE:2||C60:2||COPOLYMER:2||micelle:2||LINEAR POLYETHYLENE:2||LIQUIDS:2||ARMS:2||HIGHPERFORMANCE LIQUID:2||alternating copolyimides:2||PHASE SEPARATION:2||POLYMERCHAINS:2||STYRYLPYRIDINIUM:2||ANGLES:2||MOBILITY:2||PROBE:2||ACIDS:2||BLUE:2||POSITIONS:2||CYCLOPENTADIENYL:2||HIGHMOLECULARWEIGHT:2||FUELCELLS:2||TIN OXIDE:2||NANOCRYSTALS:2||SURFACE MICELLE FORMATION:2||DISORDER TRANSITION:2||BIREFRINGENCE:2||LIPIDCOMPOSITION:2||CONJUGATED POLYMERS:2||GLASSYCARBON ELECTRODE:2||ELECTROCHEMICAL DETECTION:2||MULTIPLE DETECTION:2||aromatic polyimides:2||MOLECULARWEIGHT HOMOPOLYMERS:2||BINARYMIXTURE:2||PATTERNS:2||photoluminescent polyimide:2||photosensitive polyimide:2||DEPENDENT MICELLIZATION:2||SPEED:2||synthesis:2||COIL BLOCKCOPOLYMERS:2||LIQUIDCRYSTALLINE ASSEMBLIES:2||OXIDE):2||molecular weight distribution:2||CONJUGATED POLYMER:2||polymer characterization:2||NONIONIC SURFACTANTS:2||STEREOREGULAR POLY(METHYL METHACRYLATE):2||structure:2||RODLIKE POLYIMIDE:2||FLEXIBLE POLYIMIDE:2||THERMAL IMIDIZATION:2||IN SITU RODCHAIN FORMATION:2||PHASESEPARATION:2||VINYL ETHER):2||EQUILIBRIUM:2||STRESS:2||STRUCTURAL RELAXATION:2||LIVING POLYMERIZATION:2||CONTAIN:2||SALT:2||WAVEGUIDE:2||XRAY DIFFRACTION:2||WALLED CARBON NANOTUBES:2||SILICON NANOWIRES:2||IR:2||DIELECTRIC THINFILMS:2||Selfassembled monolayer:2||PARAMETERS:2||Temperature gradient interaction chromatography:2||SOLIDSURFACES:2||FLOW:2||RATES:2||PRECURSORS:2||FILM BALANCE:2||SIDECHAINS:2||SUPRAMOLECULAR MATERIALS:2||CHAINS:2||POLYSTYRENE:39||ANIONICPOLYMERIZATION:34||GRADIENT INTERACTION CHROMATOGRAPHY:31||SEPARATION:27||BEHAVIOR:24||LIQUIDCHROMATOGRAPHY:22||POLYMERS:22||SIZEEXCLUSION CHROMATOGRAPHY:19||BLOCKCOPOLYMERS:17||DIBLOCK COPOLYMERS:17||THINFILMS:16||POLYISOPRENE:14||HPLC:13||SYNTHETICPOLYMERS:12||PERFORMANCE LIQUIDCHROMATOGRAPHY:11||DIBLOCK COPOLYMER:11||MOLECULARWEIGHT DISTRIBUTION:10||MACROMOLECULES:10||BLOCKCOPOLYMER:10||REVERSEDPHASE:10||RETENTION BEHAVIOR:10||MORPHOLOGY:9||MOLECULARWEIGHT:9||MELTS:9||AROMATIC POLYIMIDES:8||XRAYSCATTERING:8||polystyrene:8||MIXTURES:7||block copolymer:7||SURFACES:7||DEPENDENCE:7||COPOLYMERS:7||POLYMERIZATION:7||AIR/WATER INTERFACE:7||DEFINED BRUSH POLYIMIDE:6||TEMPERATURE:6||FULLY RODLIKE BACKBONE:6||MONOLAYERS:6||POLYIMIDES:6||CHAIN:6||COMPLEX POLYMERS:6||MOLECULARREORIENTATION:6||temperature gradient interaction chromatography:6||POLYMERFILMS:6||GELPERMEATION CHROMATOGRAPHY:6||ELUTION:6||ORDERDISORDER TRANSITION:6||SURFACEMORPHOLOGY:6||ORIENTATION:6||SYSTEMS:6||CRITICAL ADSORPTION POINT:6||LIGHTSCATTERING:5||PROBE DIFFUSION:5||POLYDISPERSITY:5||AIRWATERINTERFACE:5||MICROPHASE SEPARATION:5||GLASSTRANSITION:5||BLENDS:5||FILMS:5||ADSORPTION CHROMATOGRAPHY:5||MECHANISM:5||CO2:5||ETHYLENEOXIDE:5||ALIGNMENT:5||COMPLEXES:5||FRACTIONATION:5||MISCIBILITY:5||POLYMER CHARACTERIZATION:5||HEXAGONALLY PERFORATED LAYER:5||TRANSITION:5||FLIGHT MASSSPECTROMETRY:5||ARCHITECTURE:5||POLY(METHYL METHACRYLATE):5||ALTERNATING COPOLYMERIZATION:4||THICKNESS:4||THERMODYNAMICS:4||CRITICAL RANGE:4||ULTRATHIN POLYMERFILMS:4||DYNAMICS:4||CLIMATECHANGE:4||PHASE:4||GLASSTRANSITION TEMPERATURE:4||EPOXIDE:4||selfassembly:4||SPECTROSCOPY:4||SELFDIFFUSION:4||SCATTERING:4||OPTICALPROPERTIES:4||CATALYSTS:4||CHEMISTRY:4||SOLARCELLS:4||polyimides:4||polypyromellitimides:4||SEGMENTAL REORIENTATIONS:4||ADSORPTION:4||INTERFACE:4||POLYMERSOLUTIONS:4||TRACER DIFFUSION:4||OXIDE) DIBLOCK COPOLYMER:4||POLYSTYRENEBPOLY(METHYL METHACRYLATE):4||POLYMER BLENDS:4||SIMULATION:4||CHAIN ORIENTATION:4||STYRENE:4||TOF MASSSPECTROMETRY:4||WATER:4||DISPLAYS:4||OLIGOMERS:4||PEPTIDES:4||CYCLIC POLYSTYRENE:4||LATTICE CLUSTER THEORY:4||2NDHARMONIC GENERATION:4||LIQUIDCRYSTAL ALIGNMENT:4||MONTECARLO:4||LangmuirBlodgett film:3||ASSEMBLIES:3||chromatography:3||HOLOGRAPHIC RELAXATION SPECTROSCOPY:3||MULTIPLE MORPHOLOGIES:3||INTERACTION CHROMATOGRAPHY:3||NORMALPHASE:3||DIFFUSION:3||BRANCHED POLYSTYRENE:3||NANOPARTICLES:3||LITHOGRAPHY:3||POLYMER:3||LASERLIGHTSCATTERING:3||HIGH MOLECULARWEIGHT:3||CUBIC PHASE:3||AMPHIPHILIC BLOCKCOPOLYMERS:3||AQUEOUSSOLUTION:3||MODEL:3||FORCED RAYLEIGHSCATTERING:3||HYDRODYNAMIC PROPERTIES:3||4MIKTOARM STAR COPOLYMER:3||SYSTEM:3||PHASEBEHAVIOR:3||AQUEOUSSOLUTIONS:3||RHEOLOGY:3||LB film:3||2DIMENSIONAL LIQUIDCHROMATOGRAPHY:3||VISCOSITY:3||DIBLOCK COPOLYMER MELTS:3||ORDERORDER TRANSITION:3||GYROID PHASE:3||BINDING:3||BLOCK POLYELECTROLYTES:3||DERIVATIVES:3||MELT:3||PHASE LIQUIDCHROMATOGRAPHY:3||high temperature:3||ELEVATEDTEMPERATURE:3||RETENTION:3||MICELLE FORMATION:3||ELECTRONMICROSCOPY:3||Electrospray ionization:2||FRACTIONS:2||nalkanes:2||ISOCRATIC SEPARATION:2||ASSOCIATION:2||POLY(METHYL METHACRYLATE)S:2||2D correlation spectroscopy:2||CARBONATION:2||GLASSTRANSITION BEHAVIORS:2||MECHANICAL PROPERTIES:2||DIMENSIONS:2||POLYMER MIXTURES:2||ALUMINUM PORPHYRIN:2||LEAD STEARATE:2||FERROCENE:2||POLY(EPSILONCAPROLACTONE):2||DIAGRAM:2||nucleosides:2||Selective recognition by preconcentration:2||Electrochemical impedance spectroscopy:2||DOPAMINE:2||Silica:2||Silyl Ester:2||DIETHYL ESTER) PRECURSORS:2||SURFACE CHARACTERIZATION:2||MICROSTRUCTURE:2||polystyreneblockpolyisoprene:2||MICROPHASESEPARATED STRUCTURES:2||IMPEDANCE MEASUREMENTS:2||HEMEPROTEINS:2||SOLID SUBSTRATE:2||MOISTURE ABSORPTION:2||aromatic polyimide:2||INDUCED MORPHOLOGICALCHANGES:2||STABILITY:2||LC alignment layers:2||POLYPYROMELLITIMIDES:2||Ion mobility:2||Chiral polymer:2||OLIGOSACCHARIDES:2||OXIDE:2||SIDECHAIN:2||RETARDATION:2||functionality:2||temperature effects:2||phase transition:2||glass transition temperature:2||spincoated film:2||ESTER) PRECURSORS:2||PRECURSOR BLEND:2||Xray reflectivity:2||SIGMABONDS:2||aluminum porphyrin catalysts:2||METALLOPORPHYRIN:2||SILICON:2||MASSSPECTROMETRY ANALYSIS:2||STAR POLYMERS:2||SIZE DISTRIBUTIONS:2||GIANT VESICLES:2||POLY(3ALKYLTHIOPHENES):2||ADHESION:2||LIGHT:2||POLYSTYRENEBPOLYISOPRENE:2||HPLC fractionation:2||SILVER ELECTRODES:2||ENHANCED RESONANCE RAMAN:2||SEQUENCE:2||POLYELECTROLYTE/NONELECTROLYTE SHELLS:2||polyimide:2||liquid crystal alignment layer:2||SOLUBLE POLYIMIDES:2||POLYBUTADIENECOATED ZIRCONIA:2||PRETILT ANGLES:2||CROSSSECTIONS:2||IMSMS:2||POLYISOPRENE COPOLYMERS:2||POLYIMIDE THINFILMS:2||POLYMER SURFACES:2||RAMAN:2||STEREOREGULAR PMMA:2||poly(tertbutyl methacrylate) (PtBMA):2||TIME:2||POLYIMIDE COMPOSITE:2||CARBOXYLATO COMPLEXES:2||AGOSTIC INTERACTIONS:2||MOLECULARSTRUCTURE:2||ALKENE:2||TRANSISTOR MEMORY:2||DEVICES:2||ORTHOGONALITY:2||molecular characterization:2||ORGANOSILICATE DIELECTRIC FILMS:2||AMPHIPHILES:2||Serotonin:2||Anodic stripping differential pulse voltammetry:2||transmission electron microtomography:2||LIQUIDCHROMATOGRAPHY ANALYSIS:2||PHASEDIAGRAM:2||CARBON NANOTUBES:2||TRANSFER MECHANISM:2||BINARY MIXTURES:2||REFLECTOMETRY:2||ROD:2||DROPS:2||CONSTANT:2||TRIBLOCK COPOLYMER:2||POLYMER VESICLES:2||CLICK CHEMISTRY:2||ARRAYS:2||COMPOSITES:2||MALDITOF MS:2||POLYMER THINFILMS:2||HYDROPHOBIC INTERACTION CHROMATOGRAPHY:2||retention mechanism:2||GRAZINGINCIDENCE:2||NANOPOROSITY:2||soluble poly(amic esteraltimide)s:2||DIFFERENTIAL SCANNING CALORIMETRY:2||RESIDUALSTRESS:2||CHEMICALCOMPOSITION:2||POLY(AMIC DIETHYL ESTER) PRECURSOR:2||POLY(DIMETHYL SILOXANES):2||MASS POLYSTYRENES:2||cyclic propylene carbonate:2||propylene oxide:2||ACETATE) TOLUENE SOLUTIONS:2||TRANSIENT GRATING METHOD:2||MASS DIFFUSION:2||MICROPHASE SEPARATION TRANSITION:2||POLYSTYRENES:2||POLYSILANE:2||CARBOHYDRATEBASED PHOSPHOLIPIDS:2||HELICAL STRANDS:2||FLUORESCENCE DETECTION:2||SENSITIVE DETERMINATION:2||COMPOSITE FILMS:2||microphase:2||3MERCAPTOPROPIONIC ACID:2||BUTADIENE BLOCK COPOLYMER:2||HYBRID POLYMERIC MICELLES:2||AQUEOUSMEDIA:2||CONTACTANGLE:2||TRANSISTORCIRCUITS:2||ABTYPE POLY(ETHERIMIDE)S:2||CORRELATION SPECTROSCOPY:2||GASPHASE CONFORMATIONS:2||DECANE:2||INFRAREDSPECTROSCOPY:2||MICELLIZATION:2||ENERGIES:2||ACID) PRECURSORS:2||PHOTOALIGNMENT:2||polymers:2||SUBSTRATE:2||carbon dioxide:2||oligomeric propylene carbonate:2||THERMALDIFFUSION:2||CRYSTAL:2||PHASETRANSITION:2||REFLECTIVITY:2||ANALOGS:2||supramolecular chemistry:2||LYSOPHOSPHATIDIC ACID:2||PHOSPHOCHOLINE:2||POLY(3HEXYLTHIOPHENE):2||Receptor:2||MODIFIED GOLD ELECTRODES:2||ASCORBICACID:2||HUMAN URINE:2||Hybrid Nanocomposite:2||Dielectric Constant:2||AU(111) ELECTRODES:2||NANOFILMS:2||HYDROPHOBIC CORES:2||DRIVEN:2||FLEXIBLE SIDECHAINS:2||MESOGEN:2||size exclusion chromatography:2||ORGANIZATION:2||POLY(LACTIC ACID):2||MOLECULAR ARCHITECTURE:2||COUPLER:2||POLYSTYRENE COPOLYMER:2||diffusion coefficient:2||XRAY REFLECTIVITY:2||temperature gradient interaction chromatography polystyryllithium:2||VISCOELASTIC PROPERTIES:2||polyisoprene:2||CRYSTALSTRUCTURES:2||POLYCARBONATE:2||MULTILAYERS:2||DEPOSITION:2||FULL ADSORPTION MECHANISMS:2||QUANTUM DOTS:2||CRITICAL ORDERING TRANSITION:2||CORE:2||PARACRYSTALLINE DISTORTION:2||PERFORATED LAYER PHASE:2||liposomes:2||phospholipids:2||UNILAMELLAR VESICLES:2||VOLTAMMETRIC DETERMINATION:2||Polyimide:2||FOURIERTRANSFORM:2||SURFACE:2||SIZE EXCLUSION CHROMATOGRAPHY:2||NEUTRON REFLECTIVITY:2||ORDERED STRUCTURE:2||RIGID ROD POLYMERS:2||DISPLACEMENT POLYMERIZATION:2||PHOTOSENSITIVE POLYIMIDE:2||EFFICIENCY:2||films:2||Polylactide:2||CHROMATOGRAPHIC CRITICAL CONDITION:2||RETENTION MECHANISM:2||COPPER PHTHALOCYANINE:2||C60:2||COPOLYMER:2||micelle:2||LINEAR POLYETHYLENE:2||LIQUIDS:2||ARMS:2||HIGHPERFORMANCE LIQUID:2||alternating copolyimides:2||PHASE SEPARATION:2||POLYMERCHAINS:2||STYRYLPYRIDINIUM:2||ANGLES:2||MOBILITY:2||PROBE:2||ACIDS:2||BLUE:2||POSITIONS:2||CYCLOPENTADIENYL:2||HIGHMOLECULARWEIGHT:2||FUELCELLS:2||TIN OXIDE:2||NANOCRYSTALS:2||SURFACE MICELLE FORMATION:2||DISORDER TRANSITION:2||BIREFRINGENCE:2||LIPIDCOMPOSITION:2||CONJUGATED POLYMERS:2||GLASSYCARBON ELECTRODE:2||ELECTROCHEMICAL DETECTION:2||MULTIPLE DETECTION:2||aromatic polyimides:2||MOLECULARWEIGHT HOMOPOLYMERS:2||BINARYMIXTURE:2||PATTERNS:2||photoluminescent polyimide:2||photosensitive polyimide:2||DEPENDENT MICELLIZATION:2||SPEED:2||synthesis:2||COIL BLOCKCOPOLYMERS:2||LIQUIDCRYSTALLINE ASSEMBLIES:2||OXIDE):2||molecular weight distribution:2||CONJUGATED POLYMER:2||polymer characterization:2||NONIONIC SURFACTANTS:2||STEREOREGULAR POLY(METHYL METHACRYLATE):2||structure:2||RODLIKE POLYIMIDE:2||FLEXIBLE POLYIMIDE:2||THERMAL IMIDIZATION:2||IN SITU RODCHAIN FORMATION:2||PHASESEPARATION:2||VINYL ETHER):2||EQUILIBRIUM:2||STRESS:2||STRUCTURAL RELAXATION:2||LIVING POLYMERIZATION:2||CONTAIN:2||SALT:2||WAVEGUIDE:2||XRAY DIFFRACTION:2||WALLED CARBON NANOTUBES:2||SILICON NANOWIRES:2||IR:2||DIELECTRIC THINFILMS:2||Selfassembled monolayer:2||PARAMETERS:2||Temperature gradient interaction chromatography:2||SOLIDSURFACES:2||FLOW:2||RATES:2||PRECURSORS:2||FILM BALANCE:2||SIDECHAINS:2||SUPRAMOLECULAR MATERIALS:2||CHAINS:2||POLYSTYRENE:39||ANIONICPOLYMERIZATION:34||GRADIENT INTERACTION CHROMATOGRAPHY:31||SEPARATION:27||BEHAVIOR:24||LIQUIDCHROMATOGRAPHY:22||POLYMERS:22||SIZEEXCLUSION CHROMATOGRAPHY:19||BLOCKCOPOLYMERS:17||DIBLOCK COPOLYMERS:17||THINFILMS:16||POLYISOPRENE:14||HPLC:13||SYNTHETICPOLYMERS:12||PERFORMANCE LIQUIDCHROMATOGRAPHY:11||DIBLOCK COPOLYMER:11||MOLECULARWEIGHT DISTRIBUTION:10||MACROMOLECULES:10||BLOCKCOPOLYMER:10||REVERSEDPHASE:10||RETENTION BEHAVIOR:10||MORPHOLOGY:9||MOLECULARWEIGHT:9||MELTS:9||AROMATIC POLYIMIDES:8||XRAYSCATTERING:8||polystyrene:8||MIXTURES:7||block copolymer:7||SURFACES:7||DEPENDENCE:7||COPOLYMERS:7||POLYMERIZATION:7||AIR/WATER INTERFACE:7||DEFINED BRUSH POLYIMIDE:6||TEMPERATURE:6||FULLY RODLIKE BACKBONE:6||MONOLAYERS:6||POLYIMIDES:6||CHAIN:6||COMPLEX POLYMERS:6||MOLECULARREORIENTATION:6||temperature gradient interaction chromatography:6||POLYMERFILMS:6||GELPERMEATION CHROMATOGRAPHY:6||ELUTION:6||ORDERDISORDER TRANSITION:6||SURFACEMORPHOLOGY:6||ORIENTATION:6||SYSTEMS:6||CRITICAL ADSORPTION POINT:6||LIGHTSCATTERING:5||PROBE DIFFUSION:5||POLYDISPERSITY:5||AIRWATERINTERFACE:5||MICROPHASE SEPARATION:5||GLASSTRANSITION:5||BLENDS:5||FILMS:5||ADSORPTION CHROMATOGRAPHY:5||MECHANISM:5||CO2:5||ETHYLENEOXIDE:5||ALIGNMENT:5||COMPLEXES:5||FRACTIONATION:5||MISCIBILITY:5||POLYMER CHARACTERIZATION:5||HEXAGONALLY PERFORATED LAYER:5||TRANSITION:5||FLIGHT MASSSPECTROMETRY:5||ARCHITECTURE:5||POLY(METHYL METHACRYLATE):5||ALTERNATING COPOLYMERIZATION:4||THICKNESS:4||THERMODYNAMICS:4||CRITICAL RANGE:4||ULTRATHIN POLYMERFILMS:4||DYNAMICS:4||CLIMATECHANGE:4||PHASE:4||GLASSTRANSITION TEMPERATURE:4||EPOXIDE:4||selfassembly:4||SPECTROSCOPY:4||SELFDIFFUSION:4||SCATTERING:4||OPTICALPROPERTIES:4||CATALYSTS:4||CHEMISTRY:4||SOLARCELLS:4||polyimides:4||polypyromellitimides:4||SEGMENTAL REORIENTATIONS:4||ADSORPTION:4||INTERFACE:4||POLYMERSOLUTIONS:4||TRACER DIFFUSION:4||OXIDE) DIBLOCK COPOLYMER:4||POLYSTYRENEBPOLY(METHYL METHACRYLATE):4||POLYMER BLENDS:4||SIMULATION:4||CHAIN ORIENTATION:4||STYRENE:4||TOF MASSSPECTROMETRY:4||WATER:4||DISPLAYS:4||OLIGOMERS:4||PEPTIDES:4||CYCLIC POLYSTYRENE:4||LATTICE CLUSTER THEORY:4||2NDHARMONIC GENERATION:4||LIQUIDCRYSTAL ALIGNMENT:4||MONTECARLO:4||LangmuirBlodgett film:3||ASSEMBLIES:3||chromatography:3||HOLOGRAPHIC RELAXATION SPECTROSCOPY:3||MULTIPLE MORPHOLOGIES:3||INTERACTION CHROMATOGRAPHY:3||NORMALPHASE:3||DIFFUSION:3||BRANCHED POLYSTYRENE:3||NANOPARTICLES:3||LITHOGRAPHY:3||POLYMER:3||LASERLIGHTSCATTERING:3||HIGH MOLECULARWEIGHT:3||CUBIC PHASE:3||AMPHIPHILIC BLOCKCOPOLYMERS:3||AQUEOUSSOLUTION:3||MODEL:3||FORCED RAYLEIGHSCATTERING:3||HYDRODYNAMIC PROPERTIES:3||4MIKTOARM STAR COPOLYMER:3||SYSTEM:3||PHASEBEHAVIOR:3||AQUEOUSSOLUTIONS:3||RHEOLOGY:3||LB film:3||2DIMENSIONAL LIQUIDCHROMATOGRAPHY:3||VISCOSITY:3||DIBLOCK COPOLYMER MELTS:3||ORDERORDER TRANSITION:3||GYROID PHASE:3||BINDING:3||BLOCK POLYELECTROLYTES:3||DERIVATIVES:3||MELT:3||PHASE LIQUIDCHROMATOGRAPHY:3||high temperature:3||ELEVATEDTEMPERATURE:3||RETENTION:3||MICELLE FORMATION:3||ELECTRONMICROSCOPY:3||Electrospray ionization:2||FRACTIONS:2||nalkanes:2||ISOCRATIC SEPARATION:2||ASSOCIATION:2||POLY(METHYL METHACRYLATE)S:2||2D correlation spectroscopy:2||CARBONATION:2||GLASSTRANSITION BEHAVIORS:2||MECHANICAL PROPERTIES:2||DIMENSIONS:2||POLYMER MIXTURES:2||ALUMINUM PORPHYRIN:2||LEAD STEARATE:2||FERROCENE:2||POLY(EPSILONCAPROLACTONE):2||DIAGRAM:2||nucleosides:2||Selective recognition by preconcentration:2||Electrochemical impedance spectroscopy:2||DOPAMINE:2||Silica:2||Silyl Ester:2||DIETHYL ESTER) PRECURSORS:2||SURFACE CHARACTERIZATION:2||MICROSTRUCTURE:2||polystyreneblockpolyisoprene:2||MICROPHASESEPARATED STRUCTURES:2||IMPEDANCE MEASUREMENTS:2||HEMEPROTEINS:2||SOLID SUBSTRATE:2||MOISTURE ABSORPTION:2||aromatic polyimide:2||INDUCED MORPHOLOGICALCHANGES:2||STABILITY:2||LC alignment layers:2||POLYPYROMELLITIMIDES:2||Ion mobility:2||Chiral polymer:2||OLIGOSACCHARIDES:2||OXIDE:2||SIDECHAIN:2||RETARDATION:2||functionality:2||temperature effects:2||phase transition:2||glass transition temperature:2||spincoated film:2||ESTER) PRECURSORS:2||PRECURSOR BLEND:2||Xray reflectivity:2||SIGMABONDS:2||aluminum porphyrin catalysts:2||METALLOPORPHYRIN:2||SILICON:2||MASSSPECTROMETRY ANALYSIS:2||STAR POLYMERS:2||SIZE DISTRIBUTIONS:2||GIANT VESICLES:2||POLY(3ALKYLTHIOPHENES):2||ADHESION:2||LIGHT:2||POLYSTYRENEBPOLYISOPRENE:2||HPLC fractionation:2||SILVER ELECTRODES:2||ENHANCED RESONANCE RAMAN:2||SEQUENCE:2||POLYELECTROLYTE/NONELECTROLYTE SHELLS:2||polyimide:2||liquid crystal alignment layer:2||SOLUBLE POLYIMIDES:2||POLYBUTADIENECOATED ZIRCONIA:2||PRETILT ANGLES:2||CROSSSECTIONS:2||IMSMS:2||POLYISOPRENE COPOLYMERS:2||POLYIMIDE THINFILMS:2||POLYMER SURFACES:2||RAMAN:2||STEREOREGULAR PMMA:2||poly(tertbutyl methacrylate) (PtBMA):2||TIME:2||POLYIMIDE COMPOSITE:2||CARBOXYLATO COMPLEXES:2||AGOSTIC INTERACTIONS:2||MOLECULARSTRUCTURE:2||ALKENE:2||TRANSISTOR MEMORY:2||DEVICES:2||ORTHOGONALITY:2||molecular characterization:2||ORGANOSILICATE DIELECTRIC FILMS:2||AMPHIPHILES:2||Serotonin:2||Anodic stripping differential pulse voltammetry:2||transmission electron microtomography:2||LIQUIDCHROMATOGRAPHY ANALYSIS:2||PHASEDIAGRAM:2||CARBON NANOTUBES:2||TRANSFER MECHANISM:2||BINARY MIXTURES:2||REFLECTOMETRY:2||ROD:2||DROPS:2||CONSTANT:2||TRIBLOCK COPOLYMER:2||POLYMER VESICLES:2||CLICK CHEMISTRY:2||ARRAYS:2||COMPOSITES:2||MALDITOF MS:2||POLYMER THINFILMS:2||HYDROPHOBIC INTERACTION CHROMATOGRAPHY:2||retention mechanism:2||GRAZINGINCIDENCE:2||NANOPOROSITY:2||soluble poly(amic esteraltimide)s:2||DIFFERENTIAL SCANNING CALORIMETRY:2||RESIDUALSTRESS:2||CHEMICALCOMPOSITION:2||POLY(AMIC DIETHYL ESTER) PRECURSOR:2||POLY(DIMETHYL SILOXANES):2||MASS POLYSTYRENES:2||cyclic propylene carbonate:2||propylene oxide:2||ACETATE) TOLUENE SOLUTIONS:2||TRANSIENT GRATING METHOD:2||MASS DIFFUSION:2||MICROPHASE SEPARATION TRANSITION:2||POLYSTYRENES:2||POLYSILANE:2||CARBOHYDRATEBASED PHOSPHOLIPIDS:2||HELICAL STRANDS:2||FLUORESCENCE DETECTION:2||SENSITIVE DETERMINATION:2||COMPOSITE FILMS:2||microphase:2||3MERCAPTOPROPIONIC ACID:2||BUTADIENE BLOCK COPOLYMER:2||HYBRID POLYMERIC MICELLES:2||AQUEOUSMEDIA:2||CONTACTANGLE:2||TRANSISTORCIRCUITS:2||ABTYPE POLY(ETHERIMIDE)S:2||CORRELATION SPECTROSCOPY:2||GASPHASE CONFORMATIONS:2||DECANE:2||INFRAREDSPECTROSCOPY:2||MICELLIZATION:2||ENERGIES:2||ACID) PRECURSORS:2||PHOTOALIGNMENT:2||polymers:2||SUBSTRATE:2||carbon dioxide:2||oligomeric propylene carbonate:2||THERMALDIFFUSION:2||CRYSTAL:2||PHASETRANSITION:2||REFLECTIVITY:2||ANALOGS:2||supramolecular chemistry:2||LYSOPHOSPHATIDIC ACID:2||PHOSPHOCHOLINE:2||POLY(3HEXYLTHIOPHENE):2||Receptor:2||MODIFIED GOLD ELECTRODES:2||ASCORBICACID:2||HUMAN URINE:2||Hybrid Nanocomposite:2||Dielectric Constant:2||AU(111) ELECTRODES:2||NANOFILMS:2||HYDROPHOBIC CORES:2||DRIVEN:2||FLEXIBLE SIDECHAINS:2||MESOGEN:2||size exclusion chromatography:2||ORGANIZATION:2||POLY(LACTIC ACID):2||MOLECULAR ARCHITECTURE:2||COUPLER:2||POLYSTYRENE COPOLYMER:2||diffusion coefficient:2||XRAY REFLECTIVITY:2||temperature gradient interaction chromatography polystyryllithium:2||VISCOELASTIC PROPERTIES:2||polyisoprene:2||CRYSTALSTRUCTURES:2||POLYCARBONATE:2||MULTILAYERS:2||DEPOSITION:2||FULL ADSORPTION MECHANISMS:2||QUANTUM DOTS:2||CRITICAL ORDERING TRANSITION:2||CORE:2||PARACRYSTALLINE DISTORTION:2||PERFORATED LAYER PHASE:2||liposomes:2||phospholipids:2||UNILAMELLAR VESICLES:2||VOLTAMMETRIC DETERMINATION:2||Polyimide:2||FOURIERTRANSFORM:2||SURFACE:2||SIZE EXCLUSION CHROMATOGRAPHY:2||NEUTRON REFLECTIVITY:2||ORDERED STRUCTURE:2||RIGID ROD POLYMERS:2||DISPLACEMENT POLYMERIZATION:2||PHOTOSENSITIVE POLYIMIDE:2||EFFICIENCY:2||films:2||Polylactide:2||CHROMATOGRAPHIC CRITICAL CONDITION:2||RETENTION MECHANISM:2||COPPER PHTHALOCYANINE:2||C60:2||COPOLYMER:2||micelle:2||LINEAR POLYETHYLENE:2||LIQUIDS:2||ARMS:2||HIGHPERFORMANCE LIQUID:2||alternating copolyimides:2||PHASE SEPARATION:2||POLYMERCHAINS:2||STYRYLPYRIDINIUM:2||ANGLES:2||MOBILITY:2||PROBE:2||ACIDS:2||BLUE:2||POSITIONS:2||CYCLOPENTADIENYL:2||HIGHMOLECULARWEIGHT:2||FUELCELLS:2||TIN OXIDE:2||NANOCRYSTALS:2||SURFACE MICELLE FORMATION:2||DISORDER TRANSITION:2||BIREFRINGENCE:2||LIPIDCOMPOSITION:2||CONJUGATED POLYMERS:2||GLASSYCARBON ELECTRODE:2||ELECTROCHEMICAL DETECTION:2||MULTIPLE DETECTION:2||aromatic polyimides:2||MOLECULARWEIGHT HOMOPOLYMERS:2||BINARYMIXTURE:2||PATTERNS:2||photoluminescent polyimide:2||photosensitive polyimide:2||DEPENDENT MICELLIZATION:2||SPEED:2||synthesis:2||COIL BLOCKCOPOLYMERS:2||LIQUIDCRYSTALLINE ASSEMBLIES:2||OXIDE):2||molecular weight distribution:2||CONJUGATED POLYMER:2||polymer characterization:2||NONIONIC SURFACTANTS:2||STEREOREGULAR POLY(METHYL METHACRYLATE):2||structure:2||RODLIKE POLYIMIDE:2||FLEXIBLE POLYIMIDE:2||THERMAL IMIDIZATION:2||IN SITU RODCHAIN FORMATION:2||PHASESEPARATION:2||VINYL ETHER):2||EQUILIBRIUM:2||STRESS:2||STRUCTURAL RELAXATION:2||LIVING POLYMERIZATION:2||CONTAIN:2||SALT:2||WAVEGUIDE:2||XRAY DIFFRACTION:2||WALLED CARBON NANOTUBES:2||SILICON NANOWIRES:2||IR:2||DIELECTRIC THINFILMS:2||Selfassembled monolayer:2||PARAMETERS:2||Temperature gradient interaction chromatography:2||SOLIDSURFACES:2||FLOW:2||RATES:2||PRECURSORS:2||FILM BALANCE:2||SIDECHAINS:2||SUPRAMOLECULAR MATERIALS:2||CHAINS:2||POLYSTYRENE:39||ANIONICPOLYMERIZATION:34||GRADIENT INTERACTION CHROMATOGRAPHY:31||SEPARATION:27||BEHAVIOR:24||LIQUIDCHROMATOGRAPHY:22||POLYMERS:22||SIZEEXCLUSION CHROMATOGRAPHY:19||BLOCKCOPOLYMERS:17||DIBLOCK COPOLYMERS:17||THINFILMS:16||POLYISOPRENE:14||HPLC:13||SYNTHETICPOLYMERS:12||PERFORMANCE LIQUIDCHROMATOGRAPHY:11||DIBLOCK COPOLYMER:11||MOLECULARWEIGHT DISTRIBUTION:10||MACROMOLECULES:10||BLOCKCOPOLYMER:10||REVERSEDPHASE:10||RETENTION BEHAVIOR:10||MORPHOLOGY:9||MOLECULARWEIGHT:9||MELTS:9||AROMATIC POLYIMIDES:8||XRAYSCATTERING:8||polystyrene:8||MIXTURES:7||block copolymer:7||SURFACES:7||DEPENDENCE:7||COPOLYMERS:7||POLYMERIZATION:7||AIR/WATER INTERFACE:7||DEFINED BRUSH POLYIMIDE:6||TEMPERATURE:6||FULLY RODLIKE BACKBONE:6||MONOLAYERS:6||POLYIMIDES:6||CHAIN:6||COMPLEX POLYMERS:6||MOLECULARREORIENTATION:6||temperature gradient interaction chromatography:6||POLYMERFILMS:6||GELPERMEATION CHROMATOGRAPHY:6||ELUTION:6||ORDERDISORDER TRANSITION:6||SURFACEMORPHOLOGY:6||ORIENTATION:6||SYSTEMS:6||CRITICAL ADSORPTION POINT:6||LIGHTSCATTERING:5||PROBE DIFFUSION:5||POLYDISPERSITY:5||AIRWATERINTERFACE:5||MICROPHASE SEPARATION:5||GLASSTRANSITION:5||BLENDS:5||FILMS:5||ADSORPTION CHROMATOGRAPHY:5||MECHANISM:5||CO2:5||ETHYLENEOXIDE:5||ALIGNMENT:5||COMPLEXES:5||FRACTIONATION:5||MISCIBILITY:5||POLYMER CHARACTERIZATION:5||HEXAGONALLY PERFORATED LAYER:5||TRANSITION:5||FLIGHT MASSSPECTROMETRY:5||ARCHITECTURE:5||POLY(METHYL METHACRYLATE):5||ALTERNATING COPOLYMERIZATION:4||THICKNESS:4||THERMODYNAMICS:4||CRITICAL RANGE:4||ULTRATHIN POLYMERFILMS:4||DYNAMICS:4||CLIMATECHANGE:4||PHASE:4||GLASSTRANSITION TEMPERATURE:4||EPOXIDE:4||selfassembly:4||SPECTROSCOPY:4||SELFDIFFUSION:4||SCATTERING:4||OPTICALPROPERTIES:4||CATALYSTS:4||CHEMISTRY:4||SOLARCELLS:4||polyimides:4||polypyromellitimides:4||SEGMENTAL REORIENTATIONS:4||ADSORPTION:4||INTERFACE:4||POLYMERSOLUTIONS:4||TRACER DIFFUSION:4||OXIDE) DIBLOCK COPOLYMER:4||POLYSTYRENEBPOLY(METHYL METHACRYLATE):4||POLYMER BLENDS:4||SIMULATION:4||CHAIN ORIENTATION:4||STYRENE:4||TOF MASSSPECTROMETRY:4||WATER:4||DISPLAYS:4||OLIGOMERS:4||PEPTIDES:4||CYCLIC POLYSTYRENE:4||LATTICE CLUSTER THEORY:4||2NDHARMONIC GENERATION:4||LIQUIDCRYSTAL ALIGNMENT:4||MONTECARLO:4||LangmuirBlodgett film:3||ASSEMBLIES:3||chromatography:3||HOLOGRAPHIC RELAXATION SPECTROSCOPY:3||MULTIPLE MORPHOLOGIES:3||INTERACTION CHROMATOGRAPHY:3||NORMALPHASE:3||DIFFUSION:3||BRANCHED POLYSTYRENE:3||NANOPARTICLES:3||LITHOGRAPHY:3||POLYMER:3||LASERLIGHTSCATTERING:3||HIGH MOLECULARWEIGHT:3||CUBIC PHASE:3||AMPHIPHILIC BLOCKCOPOLYMERS:3||AQUEOUSSOLUTION:3||MODEL:3||FORCED RAYLEIGHSCATTERING:3||HYDRODYNAMIC PROPERTIES:3||4MIKTOARM STAR COPOLYMER:3||SYSTEM:3||PHASEBEHAVIOR:3||AQUEOUSSOLUTIONS:3||RHEOLOGY:3||LB film:3||2DIMENSIONAL LIQUIDCHROMATOGRAPHY:3||VISCOSITY:3||DIBLOCK COPOLYMER MELTS:3||ORDERORDER TRANSITION:3||GYROID PHASE:3||BINDING:3||BLOCK POLYELECTROLYTES:3||DERIVATIVES:3||MELT:3||PHASE LIQUIDCHROMATOGRAPHY:3||high temperature:3||ELEVATEDTEMPERATURE:3||RETENTION:3||MICELLE FORMATION:3||ELECTRONMICROSCOPY:3||Electrospray ionization:2||FRACTIONS:2||nalkanes:2||ISOCRATIC SEPARATION:2||ASSOCIATION:2||POLY(METHYL METHACRYLATE)S:2||2D correlation spectroscopy:2||CARBONATION:2||GLASSTRANSITION BEHAVIORS:2||MECHANICAL PROPERTIES:2||DIMENSIONS:2||POLYMER MIXTURES:2||ALUMINUM PORPHYRIN:2||LEAD STEARATE:2||FERROCENE:2||POLY(EPSILONCAPROLACTONE):2||DIAGRAM:2||nucleosides:2||Selective recognition by preconcentration:2||Electrochemical impedance spectroscopy:2||DOPAMINE:2||Silica:2||Silyl Ester:2||DIETHYL ESTER) PRECURSORS:2||SURFACE CHARACTERIZATION:2||MICROSTRUCTURE:2||polystyreneblockpolyisoprene:2||MICROPHASESEPARATED STRUCTURES:2||IMPEDANCE MEASUREMENTS:2||HEMEPROTEINS:2||SOLID SUBSTRATE:2||MOISTURE ABSORPTION:2||aromatic polyimide:2||INDUCED MORPHOLOGICALCHANGES:2||STABILITY:2||LC alignment layers:2||POLYPYROMELLITIMIDES:2||Ion mobility:2||Chiral polymer:2||OLIGOSACCHARIDES:2||OXIDE:2||SIDECHAIN:2||RETARDATION:2||functionality:2||temperature effects:2||phase transition:2||glass transition temperature:2||spincoated film:2||ESTER) PRECURSORS:2||PRECURSOR BLEND:2||Xray reflectivity:2||SIGMABONDS:2||aluminum porphyrin catalysts:2||METALLOPORPHYRIN:2||SILICON:2||MASSSPECTROMETRY ANALYSIS:2||STAR POLYMERS:2||SIZE DISTRIBUTIONS:2||GIANT VESICLES:2||POLY(3ALKYLTHIOPHENES):2||ADHESION:2||LIGHT:2||POLYSTYRENEBPOLYISOPRENE:2||HPLC fractionation:2||SILVER ELECTRODES:2||ENHANCED RESONANCE RAMAN:2||SEQUENCE:2||POLYELECTROLYTE/NONELECTROLYTE SHELLS:2||polyimide:2||liquid crystal alignment layer:2||SOLUBLE POLYIMIDES:2||POLYBUTADIENECOATED ZIRCONIA:2||PRETILT ANGLES:2||CROSSSECTIONS:2||IMSMS:2||POLYISOPRENE COPOLYMERS:2||POLYIMIDE THINFILMS:2||POLYMER SURFACES:2||RAMAN:2||STEREOREGULAR PMMA:2||poly(tertbutyl methacrylate) (PtBMA):2||TIME:2||POLYIMIDE COMPOSITE:2||CARBOXYLATO COMPLEXES:2||AGOSTIC INTERACTIONS:2||MOLECULARSTRUCTURE:2||ALKENE:2||TRANSISTOR MEMORY:2||DEVICES:2||ORTHOGONALITY:2||molecular characterization:2||ORGANOSILICATE DIELECTRIC FILMS:2||AMPHIPHILES:2||Serotonin:2||Anodic stripping differential pulse voltammetry:2||transmission electron microtomography:2||LIQUIDCHROMATOGRAPHY ANALYSIS:2||PHASEDIAGRAM:2||CARBON NANOTUBES:2||TRANSFER MECHANISM:2||BINARY MIXTURES:2||REFLECTOMETRY:2||ROD:2||DROPS:2||CONSTANT:2||TRIBLOCK COPOLYMER:2||POLYMER VESICLES:2||CLICK CHEMISTRY:2||ARRAYS:2||COMPOSITES:2||MALDITOF MS:2||POLYMER THINFILMS:2||HYDROPHOBIC INTERACTION CHROMATOGRAPHY:2||retention mechanism:2||GRAZINGINCIDENCE:2||NANOPOROSITY:2||soluble poly(amic esteraltimide)s:2||DIFFERENTIAL SCANNING CALORIMETRY:2||RESIDUALSTRESS:2||CHEMICALCOMPOSITION:2||POLY(AMIC DIETHYL ESTER) PRECURSOR:2||POLY(DIMETHYL SILOXANES):2||MASS POLYSTYRENES:2||cyclic propylene carbonate:2||propylene oxide:2||ACETATE) TOLUENE SOLUTIONS:2||TRANSIENT GRATING METHOD:2||MASS DIFFUSION:2||MICROPHASE SEPARATION TRANSITION:2||POLYSTYRENES:2||POLYSILANE:2||CARBOHYDRATEBASED PHOSPHOLIPIDS:2||HELICAL STRANDS:2||FLUORESCENCE DETECTION:2||SENSITIVE DETERMINATION:2||COMPOSITE FILMS:2||microphase:2||3MERCAPTOPROPIONIC ACID:2||BUTADIENE BLOCK COPOLYMER:2||HYBRID POLYMERIC MICELLES:2||AQUEOUSMEDIA:2||CONTACTANGLE:2||TRANSISTORCIRCUITS:2||ABTYPE POLY(ETHERIMIDE)S:2||CORRELATION SPECTROSCOPY:2||GASPHASE CONFORMATIONS:2||DECANE:2||INFRAREDSPECTROSCOPY:2||MICELLIZATION:2||ENERGIES:2||ACID) PRECURSORS:2||PHOTOALIGNMENT:2||polymers:2||SUBSTRATE:2||carbon dioxide:2||oligomeric propylene carbonate:2||THERMALDIFFUSION:2||CRYSTAL:2||PHASETRANSITION:2||REFLECTIVITY:2||ANALOGS:2||supramolecular chemistry:2||LYSOPHOSPHATIDIC ACID:2||PHOSPHOCHOLINE:2||POLY(3HEXYLTHIOPHENE):2||Receptor:2||MODIFIED GOLD ELECTRODES:2||ASCORBICACID:2||HUMAN URINE:2||Hybrid Nanocomposite:2||Dielectric Constant:2||AU(111) ELECTRODES:2||NANOFILMS:2||HYDROPHOBIC CORES:2||DRIVEN:2||FLEXIBLE SIDECHAINS:2||MESOGEN:2||size exclusion chromatography:2||ORGANIZATION:2||POLY(LACTIC ACID):2||MOLECULAR ARCHITECTURE:2||COUPLER:2||POLYSTYRENE COPOLYMER:2||diffusion coefficient:2||XRAY REFLECTIVITY:2||temperature gradient interaction chromatography polystyryllithium:2||VISCOELASTIC PROPERTIES:2||polyisoprene:2||CRYSTALSTRUCTURES:2||POLYCARBONATE:2||MULTILAYERS:2||DEPOSITION:2||FULL ADSORPTION MECHANISMS:2||QUANTUM DOTS:2||CRITICAL ORDERING TRANSITION:2||CORE:2||PARACRYSTALLINE DISTORTION:2||PERFORATED LAYER PHASE:2||liposomes:2||phospholipids:2||UNILAMELLAR VESICLES:2||VOLTAMMETRIC DETERMINATION:2||Polyimide:2||FOURIERTRANSFORM:2||SURFACE:2||SIZE EXCLUSION CHROMATOGRAPHY:2||NEUTRON REFLECTIVITY:2||ORDERED STRUCTURE:2||RIGID ROD POLYMERS:2||DISPLACEMENT POLYMERIZATION:2||PHOTOSENSITIVE POLYIMIDE:2||EFFICIENCY:2||films:2||Polylactide:2||CHROMATOGRAPHIC CRITICAL CONDITION:2||RETENTION MECHANISM:2||COPPER PHTHALOCYANINE:2||C60:2||COPOLYMER:2||micelle:2||LINEAR POLYETHYLENE:2||LIQUIDS:2||ARMS:2||HIGHPERFORMANCE LIQUID:2||alternating copolyimides:2||PHASE SEPARATION:2||POLYMERCHAINS:2||STYRYLPYRIDINIUM:2||ANGLES:2||MOBILITY:2||PROBE:2||ACIDS:2||BLUE:2||POSITIONS:2||CYCLOPENTADIENYL:2||HIGHMOLECULARWEIGHT:2||FUELCELLS:2||TIN OXIDE:2||NANOCRYSTALS:2||SURFACE MICELLE FORMATION:2||DISORDER TRANSITION:2||BIREFRINGENCE:2||LIPIDCOMPOSITION:2||CONJUGATED POLYMERS:2||GLASSYCARBON ELECTRODE:2||ELECTROCHEMICAL DETECTION:2||MULTIPLE DETECTION:2||aromatic polyimides:2||MOLECULARWEIGHT HOMOPOLYMERS:2||BINARYMIXTURE:2||PATTERNS:2||photoluminescent polyimide:2||photosensitive polyimide:2||DEPENDENT MICELLIZATION:2||SPEED:2||synthesis:2||COIL BLOCKCOPOLYMERS:2||LIQUIDCRYSTALLINE ASSEMBLIES:2||OXIDE):2||molecular weight distribution:2||CONJUGATED POLYMER:2||polymer characterization:2||NONIONIC SURFACTANTS:2||STEREOREGULAR POLY(METHYL METHACRYLATE):2||structure:2||RODLIKE POLYIMIDE:2||FLEXIBLE POLYIMIDE:2||THERMAL IMIDIZATION:2||IN SITU RODCHAIN FORMATION:2||PHASESEPARATION:2||VINYL ETHER):2||EQUILIBRIUM:2||STRESS:2||STRUCTURAL RELAXATION:2||LIVING POLYMERIZATION:2||CONTAIN:2||SALT:2||WAVEGUIDE:2||XRAY DIFFRACTION:2||WALLED CARBON NANOTUBES:2||SILICON NANOWIRES:2||IR:2||DIELECTRIC THINFILMS:2||Selfassembled monolayer:2||PARAMETERS:2||Temperature gradient interaction chromatography:2||SOLIDSURFACES:2||FLOW:2||RATES:2||PRECURSORS:2||FILM BALANCE:2||SIDECHAINS:2||SUPRAMOLECULAR MATERIALS:2||CHAINS:2||POLYSTYRENE:39||ANIONICPOLYMERIZATION:34||GRADIENT INTERACTION CHROMATOGRAPHY:31||SEPARATION:27||BEHAVIOR:24||LIQUIDCHROMATOGRAPHY:22||POLYMERS:22||SIZEEXCLUSION CHROMATOGRAPHY:19||BLOCKCOPOLYMERS:17||DIBLOCK COPOLYMERS:17||THINFILMS:16||POLYISOPRENE:14||HPLC:13||SYNTHETICPOLYMERS:12||PERFORMANCE LIQUIDCHROMATOGRAPHY:11||DIBLOCK COPOLYMER:11||MOLECULARWEIGHT DISTRIBUTION:10||MACROMOLECULES:10||BLOCKCOPOLYMER:10||REVERSEDPHASE:10||RETENTION BEHAVIOR:10||MORPHOLOGY:9||MOLECULARWEIGHT:9||MELTS:9||AROMATIC POLYIMIDES:8||XRAYSCATTERING:8||polystyrene:8||MIXTURES:7||block copolymer:7||SURFACES:7||DEPENDENCE:7||COPOLYMERS:7||POLYMERIZATION:7||AIR/WATER INTERFACE:7||DEFINED BRUSH POLYIMIDE:6||TEMPERATURE:6||FULLY RODLIKE BACKBONE:6||MONOLAYERS:6||POLYIMIDES:6||CHAIN:6||COMPLEX POLYMERS:6||MOLECULARREORIENTATION:6||temperature gradient interaction chromatography:6||POLYMERFILMS:6||GELPERMEATION CHROMATOGRAPHY:6||ELUTION:6||ORDERDISORDER TRANSITION:6||SURFACEMORPHOLOGY:6||ORIENTATION:6||SYSTEMS:6||CRITICAL ADSORPTION POINT:6||LIGHTSCATTERING:5||PROBE DIFFUSION:5||POLYDISPERSITY:5||AIRWATERINTERFACE:5||MICROPHASE SEPARATION:5||GLASSTRANSITION:5||BLENDS:5||FILMS:5||ADSORPTION CHROMATOGRAPHY:5||MECHANISM:5||CO2:5||ETHYLENEOXIDE:5||ALIGNMENT:5||COMPLEXES:5||FRACTIONATION:5||MISCIBILITY:5||POLYMER CHARACTERIZATION:5||HEXAGONALLY PERFORATED LAYER:5||TRANSITION:5||FLIGHT MASSSPECTROMETRY:5||ARCHITECTURE:5||POLY(METHYL METHACRYLATE):5||ALTERNATING COPOLYMERIZATION:4||THICKNESS:4||THERMODYNAMICS:4||CRITICAL RANGE:4||ULTRATHIN POLYMERFILMS:4||DYNAMICS:4||CLIMATECHANGE:4||PHASE:4||GLASSTRANSITION TEMPERATURE:4||EPOXIDE:4||selfassembly:4||SPECTROSCOPY:4||SELFDIFFUSION:4||SCATTERING:4||OPTICALPROPERTIES:4||CATALYSTS:4||CHEMISTRY:4||SOLARCELLS:4||polyimides:4||polypyromellitimides:4||SEGMENTAL REORIENTATIONS:4||ADSORPTION:4||INTERFACE:4||POLYMERSOLUTIONS:4||TRACER DIFFUSION:4||OXIDE) DIBLOCK COPOLYMER:4||POLYSTYRENEBPOLY(METHYL METHACRYLATE):4||POLYMER BLENDS:4||SIMULATION:4||CHAIN ORIENTATION:4||STYRENE:4||TOF MASSSPECTROMETRY:4||WATER:4||DISPLAYS:4||OLIGOMERS:4||PEPTIDES:4||CYCLIC POLYSTYRENE:4||LATTICE CLUSTER THEORY:4||2NDHARMONIC GENERATION:4||LIQUIDCRYSTAL ALIGNMENT:4||MONTECARLO:4||LangmuirBlodgett film:3||ASSEMBLIES:3||chromatography:3||HOLOGRAPHIC RELAXATION SPECTROSCOPY:3||MULTIPLE MORPHOLOGIES:3||INTERACTION CHROMATOGRAPHY:3||NORMALPHASE:3||DIFFUSION:3||BRANCHED POLYSTYRENE:3||NANOPARTICLES:3||LITHOGRAPHY:3||POLYMER:3||LASERLIGHTSCATTERING:3||HIGH MOLECULARWEIGHT:3||CUBIC PHASE:3||AMPHIPHILIC BLOCKCOPOLYMERS:3||AQUEOUSSOLUTION:3||MODEL:3||FORCED RAYLEIGHSCATTERING:3||HYDRODYNAMIC PROPERTIES:3||4MIKTOARM STAR COPOLYMER:3||SYSTEM:3||PHASEBEHAVIOR:3||AQUEOUSSOLUTIONS:3||RHEOLOGY:3||LB film:3||2DIMENSIONAL LIQUIDCHROMATOGRAPHY:3||VISCOSITY:3||DIBLOCK COPOLYMER MELTS:3||ORDERORDER TRANSITION:3||GYROID PHASE:3||BINDING:3||BLOCK POLYELECTROLYTES:3||DERIVATIVES:3||MELT:3||PHASE LIQUIDCHROMATOGRAPHY:3||high temperature:3||ELEVATEDTEMPERATURE:3||RETENTION:3||MICELLE FORMATION:3||ELECTRONMICROSCOPY:3||Electrospray ionization:2||FRACTIONS:2||nalkanes:2||ISOCRATIC SEPARATION:2||ASSOCIATION:2||POLY(METHYL METHACRYLATE)S:2||2D correlation spectroscopy:2||CARBONATION:2||GLASSTRANSITION BEHAVIORS:2||MECHANICAL PROPERTIES:2||DIMENSIONS:2||POLYMER MIXTURES:2||ALUMINUM PORPHYRIN:2||LEAD STEARATE:2||FERROCENE:2||POLY(EPSILONCAPROLACTONE):2||DIAGRAM:2||nucleosides:2||Selective recognition by preconcentration:2||Electrochemical impedance spectroscopy:2||DOPAMINE:2||Silica:2||Silyl Ester:2||DIETHYL ESTER) PRECURSORS:2||SURFACE CHARACTERIZATION:2||MICROSTRUCTURE:2||polystyreneblockpolyisoprene:2||MICROPHASESEPARATED STRUCTURES:2||IMPEDANCE MEASUREMENTS:2||HEMEPROTEINS:2||SOLID SUBSTRATE:2||MOISTURE ABSORPTION:2||aromatic polyimide:2||INDUCED MORPHOLOGICALCHANGES:2||STABILITY:2||LC alignment layers:2||POLYPYROMELLITIMIDES:2||Ion mobility:2||Chiral polymer:2||OLIGOSACCHARIDES:2||OXIDE:2||SIDECHAIN:2||RETARDATION:2||functionality:2||temperature effects:2||phase transition:2||glass transition temperature:2||spincoated film:2||ESTER) PRECURSORS:2||PRECURSOR BLEND:2||Xray reflectivity:2||SIGMABONDS:2||aluminum porphyrin catalysts:2||METALLOPORPHYRIN:2||SILICON:2||MASSSPECTROMETRY ANALYSIS:2||STAR POLYMERS:2||SIZE DISTRIBUTIONS:2||GIANT VESICLES:2||POLY(3ALKYLTHIOPHENES):2||ADHESION:2||LIGHT:2||POLYSTYRENEBPOLYISOPRENE:2||HPLC fractionation:2||SILVER ELECTRODES:2||ENHANCED RESONANCE RAMAN:2||SEQUENCE:2||POLYELECTROLYTE/NONELECTROLYTE SHELLS:2||polyimide:2||liquid crystal alignment layer:2||SOLUBLE POLYIMIDES:2||POLYBUTADIENECOATED ZIRCONIA:2||PRETILT ANGLES:2||CROSSSECTIONS:2||IMSMS:2||POLYISOPRENE COPOLYMERS:2||POLYIMIDE THINFILMS:2||POLYMER SURFACES:2||RAMAN:2||STEREOREGULAR PMMA:2||poly(tertbutyl methacrylate) (PtBMA):2||TIME:2||POLYIMIDE COMPOSITE:2||CARBOXYLATO COMPLEXES:2||AGOSTIC INTERACTIONS:2||MOLECULARSTRUCTURE:2||ALKENE:2||TRANSISTOR MEMORY:2||DEVICES:2||ORTHOGONALITY:2||molecular characterization:2||ORGANOSILICATE DIELECTRIC FILMS:2||AMPHIPHILES:2||Serotonin:2||Anodic stripping differential pulse voltammetry:2||transmission electron microtomography:2||LIQUIDCHROMATOGRAPHY ANALYSIS:2||PHASEDIAGRAM:2||CARBON NANOTUBES:2||TRANSFER MECHANISM:2||BINARY MIXTURES:2||REFLECTOMETRY:2||ROD:2||DROPS:2||CONSTANT:2||TRIBLOCK COPOLYMER:2||POLYMER VESICLES:2||CLICK CHEMISTRY:2||ARRAYS:2||COMPOSITES:2||MALDITOF MS:2||POLYMER THINFILMS:2||HYDROPHOBIC INTERACTION CHROMATOGRAPHY:2||retention mechanism:2||GRAZINGINCIDENCE:2||NANOPOROSITY:2||soluble poly(amic esteraltimide)s:2||DIFFERENTIAL SCANNING CALORIMETRY:2||RESIDUALSTRESS:2||CHEMICALCOMPOSITION:2||POLY(AMIC DIETHYL ESTER) PRECURSOR:2||POLY(DIMETHYL SILOXANES):2||MASS POLYSTYRENES:2||cyclic propylene carbonate:2||propylene oxide:2||ACETATE) TOLUENE SOLUTIONS:2||TRANSIENT GRATING METHOD:2||MASS DIFFUSION:2||MICROPHASE SEPARATION TRANSITION:2||POLYSTYRENES:2||POLYSILANE:2||CARBOHYDRATEBASED PHOSPHOLIPIDS:2||HELICAL STRANDS:2||FLUORESCENCE DETECTION:2||SENSITIVE DETERMINATION:2||COMPOSITE FILMS:2||microphase:2||3MERCAPTOPROPIONIC ACID:2||BUTADIENE BLOCK COPOLYMER:2||HYBRID POLYMERIC MICELLES:2||AQUEOUSMEDIA:2||CONTACTANGLE:2||TRANSISTORCIRCUITS:2||ABTYPE POLY(ETHERIMIDE)S:2||CORRELATION SPECTROSCOPY:2||GASPHASE CONFORMATIONS:2||DECANE:2||INFRAREDSPECTROSCOPY:2||MICELLIZATION:2||ENERGIES:2||ACID) PRECURSORS:2||PHOTOALIGNMENT:2||polymers:2||SUBSTRATE:2||carbon dioxide:2||oligomeric propylene carbonate:2||THERMALDIFFUSION:2||CRYSTAL:2||PHASETRANSITION:2||REFLECTIVITY:2||ANALOGS:2||supramolecular chemistry:2||LYSOPHOSPHATIDIC ACID:2||PHOSPHOCHOLINE:2||POLY(3HEXYLTHIOPHENE):2||Receptor:2||MODIFIED GOLD ELECTRODES:2||ASCORBICACID:2||HUMAN URINE:2||Hybrid Nanocomposite:2||Dielectric Constant:2||AU(111) ELECTRODES:2||NANOFILMS:2||HYDROPHOBIC CORES:2||DRIVEN:2||FLEXIBLE SIDECHAINS:2||MESOGEN:2||size exclusion chromatography:2||ORGANIZATION:2||POLY(LACTIC ACID):2||MOLECULAR ARCHITECTURE:2||COUPLER:2||POLYSTYRENE COPOLYMER:2||diffusion coefficient:2||XRAY REFLECTIVITY:2||temperature gradient interaction chromatography polystyryllithium:2||VISCOELASTIC PROPERTIES:2||polyisoprene:2||CRYSTALSTRUCTURES:2||POLYCARBONATE:2||MULTILAYERS:2||DEPOSITION:2||FULL ADSORPTION MECHANISMS:2||QUANTUM DOTS:2||CRITICAL ORDERING TRANSITION:2||CORE:2||PARACRYSTALLINE DISTORTION:2||PERFORATED LAYER PHASE:2||liposomes:2||phospholipids:2||UNILAMELLAR VESICLES:2||VOLTAMMETRIC DETERMINATION:2||Polyimide:2||FOURIERTRANSFORM:2||SURFACE:2||SIZE EXCLUSION CHROMATOGRAPHY:2||NEUTRON REFLECTIVITY:2||ORDERED STRUCTURE:2||RIGID ROD POLYMERS:2||DISPLACEMENT POLYMERIZATION:2||PHOTOSENSITIVE POLYIMIDE:2||EFFICIENCY:2||films:2||Polylactide:2||CHROMATOGRAPHIC CRITICAL CONDITION:2||RETENTION MECHANISM:2||COPPER PHTHALOCYANINE:2||C60:2||COPOLYMER:2||micelle:2||LINEAR POLYETHYLENE:2||LIQUIDS:2||ARMS:2||HIGHPERFORMANCE LIQUID:2||alternating copolyimides:2||PHASE SEPARATION:2||POLYMERCHAINS:2||STYRYLPYRIDINIUM:2||ANGLES:2||MOBILITY:2||PROBE:2||ACIDS:2||BLUE:2||POSITIONS:2||CYCLOPENTADIENYL:2||HIGHMOLECULARWEIGHT:2||FUELCELLS:2||TIN OXIDE:2||NANOCRYSTALS:2||SURFACE MICELLE FORMATION:2||DISORDER TRANSITION:2||BIREFRINGENCE:2||LIPIDCOMPOSITION:2||CONJUGATED POLYMERS:2||GLASSYCARBON ELECTRODE:2||ELECTROCHEMICAL DETECTION:2||MULTIPLE DETECTION:2||aromatic polyimides:2||MOLECULARWEIGHT HOMOPOLYMERS:2||BINARYMIXTURE:2||PATTERNS:2||photoluminescent polyimide:2||photosensitive polyimide:2||DEPENDENT MICELLIZATION:2||SPEED:2||synthesis:2||COIL BLOCKCOPOLYMERS:2||LIQUIDCRYSTALLINE ASSEMBLIES:2||OXIDE):2||molecular weight distribution:2||CONJUGATED POLYMER:2||polymer characterization:2||NONIONIC SURFACTANTS:2||STEREOREGULAR POLY(METHYL METHACRYLATE):2||structure:2||RODLIKE POLYIMIDE:2||FLEXIBLE POLYIMIDE:2||THERMAL IMIDIZATION:2||IN SITU RODCHAIN FORMATION:2||PHASESEPARATION:2||VINYL ETHER):2||EQUILIBRIUM:2||STRESS:2||STRUCTURAL RELAXATION:2||LIVING POLYMERIZATION:2||CONTAIN:2||SALT:2||WAVEGUIDE:2||XRAY DIFFRACTION:2||WALLED CARBON NANOTUBES:2||SILICON NANOWIRES:2||IR:2||DIELECTRIC THINFILMS:2||Selfassembled monolayer:2||PARAMETERS:2||Temperature gradient interaction chromatography:2||SOLIDSURFACES:2||FLOW:2||RATES:2||PRECURSORS:2||FILM BALANCE:2||SIDECHAINS:2||SUPRAMOLECULAR MATERIALS:2||CHAINS:2||POLYSTYRENE:39||ANIONICPOLYMERIZATION:34||GRADIENT INTERACTION CHROMATOGRAPHY:31||SEPARATION:27||BEHAVIOR:24||LIQUIDCHROMATOGRAPHY:22||POLYMERS:22||SIZEEXCLUSION CHROMATOGRAPHY:19||BLOCKCOPOLYMERS:17||DIBLOCK COPOLYMERS:17||THINFILMS:16||POLYISOPRENE:14||HPLC:13||SYNTHETICPOLYMERS:12||PERFORMANCE LIQUIDCHROMATOGRAPHY:11||DIBLOCK COPOLYMER:11||MOLECULARWEIGHT DISTRIBUTION:10||MACROMOLECULES:10||BLOCKCOPOLYMER:10||REVERSEDPHASE:10||RETENTION BEHAVIOR:10||MORPHOLOGY:9||MOLECULARWEIGHT:9||MELTS:9||AROMATIC POLYIMIDES:8||XRAYSCATTERING:8||polystyrene:8||MIXTURES:7||block copolymer:7||SURFACES:7||DEPENDENCE:7||COPOLYMERS:7||POLYMERIZATION:7||AIR/WATER INTERFACE:7||DEFINED BRUSH POLYIMIDE:6||TEMPERATURE:6||FULLY RODLIKE BACKBONE:6||MONOLAYERS:6||POLYIMIDES:6||CHAIN:6||COMPLEX POLYMERS:6||MOLECULARREORIENTATION:6||temperature gradient interaction chromatography:6||POLYMERFILMS:6||GELPERMEATION CHROMATOGRAPHY:6||ELUTION:6||ORDERDISORDER TRANSITION:6||SURFACEMORPHOLOGY:6||ORIENTATION:6||SYSTEMS:6||CRITICAL ADSORPTION POINT:6||LIGHTSCATTERING:5||PROBE DIFFUSION:5||POLYDISPERSITY:5||AIRWATERINTERFACE:5||MICROPHASE SEPARATION:5||GLASSTRANSITION:5||BLENDS:5||FILMS:5||ADSORPTION CHROMATOGRAPHY:5||MECHANISM:5||CO2:5||ETHYLENEOXIDE:5||ALIGNMENT:5||COMPLEXES:5||FRACTIONATION:5||MISCIBILITY:5||POLYMER CHARACTERIZATION:5||HEXAGONALLY PERFORATED LAYER:5||TRANSITION:5||FLIGHT MASSSPECTROMETRY:5||ARCHITECTURE:5||POLY(METHYL METHACRYLATE):5||ALTERNATING COPOLYMERIZATION:4||THICKNESS:4||THERMODYNAMICS:4||CRITICAL RANGE:4||ULTRATHIN POLYMERFILMS:4||DYNAMICS:4||CLIMATECHANGE:4||PHASE:4||GLASSTRANSITION TEMPERATURE:4||EPOXIDE:4||selfassembly:4||SPECTROSCOPY:4||SELFDIFFUSION:4||SCATTERING:4||OPTICALPROPERTIES:4||CATALYSTS:4||CHEMISTRY:4||SOLARCELLS:4||polyimides:4||polypyromellitimides:4||SEGMENTAL REORIENTATIONS:4||ADSORPTION:4||INTERFACE:4||POLYMERSOLUTIONS:4||TRACER DIFFUSION:4||OXIDE) DIBLOCK COPOLYMER:4||POLYSTYRENEBPOLY(METHYL METHACRYLATE):4||POLYMER BLENDS:4||SIMULATION:4||CHAIN ORIENTATION:4||STYRENE:4||TOF MASSSPECTROMETRY:4||WATER:4||DISPLAYS:4||OLIGOMERS:4||PEPTIDES:4||CYCLIC POLYSTYRENE:4||LATTICE CLUSTER THEORY:4||2NDHARMONIC GENERATION:4||LIQUIDCRYSTAL ALIGNMENT:4||MONTECARLO:4||LangmuirBlodgett film:3||ASSEMBLIES:3||chromatography:3||HOLOGRAPHIC RELAXATION SPECTROSCOPY:3||MULTIPLE MORPHOLOGIES:3||INTERACTION CHROMATOGRAPHY:3||NORMALPHASE:3||DIFFUSION:3||BRANCHED POLYSTYRENE:3||NANOPARTICLES:3||LITHOGRAPHY:3||POLYMER:3||LASERLIGHTSCATTERING:3||HIGH MOLECULARWEIGHT:3||CUBIC PHASE:3||AMPHIPHILIC BLOCKCOPOLYMERS:3||AQUEOUSSOLUTION:3||MODEL:3||FORCED RAYLEIGHSCATTERING:3||HYDRODYNAMIC PROPERTIES:3||4MIKTOARM STAR COPOLYMER:3||SYSTEM:3||PHASEBEHAVIOR:3||AQUEOUSSOLUTIONS:3||RHEOLOGY:3||LB film:3||2DIMENSIONAL LIQUIDCHROMATOGRAPHY:3||VISCOSITY:3||DIBLOCK COPOLYMER MELTS:3||ORDERORDER TRANSITION:3||GYROID PHASE:3||BINDING:3||BLOCK POLYELECTROLYTES:3||DERIVATIVES:3||MELT:3||PHASE LIQUIDCHROMATOGRAPHY:3||high temperature:3||ELEVATEDTEMPERATURE:3||RETENTION:3||MICELLE FORMATION:3||ELECTRONMICROSCOPY:3||Electrospray ionization:2||FRACTIONS:2||nalkanes:2||ISOCRATIC SEPARATION:2||ASSOCIATION:2||POLY(METHYL METHACRYLATE)S:2||2D correlation spectroscopy:2||CARBONATION:2||GLASSTRANSITION BEHAVIORS:2||MECHANICAL PROPERTIES:2||DIMENSIONS:2||POLYMER MIXTURES:2||ALUMINUM PORPHYRIN:2||LEAD STEARATE:2||FERROCENE:2||POLY(EPSILONCAPROLACTONE):2||DIAGRAM:2||nucleosides:2||Selective recognition by preconcentration:2||Electrochemical impedance spectroscopy:2||DOPAMINE:2||Silica:2||Silyl Ester:2||DIETHYL ESTER) PRECURSORS:2||SURFACE CHARACTERIZATION:2||MICROSTRUCTURE:2||polystyreneblockpolyisoprene:2||MICROPHASESEPARATED STRUCTURES:2||IMPEDANCE MEASUREMENTS:2||HEMEPROTEINS:2||SOLID SUBSTRATE:2||MOISTURE ABSORPTION:2||aromatic polyimide:2||INDUCED MORPHOLOGICALCHANGES:2||STABILITY:2||LC alignment layers:2||POLYPYROMELLITIMIDES:2||Ion mobility:2||Chiral polymer:2||OLIGOSACCHARIDES:2||OXIDE:2||SIDECHAIN:2||RETARDATION:2||functionality:2||temperature effects:2||phase transition:2||glass transition temperature:2||spincoated film:2||ESTER) PRECURSORS:2||PRECURSOR BLEND:2||Xray reflectivity:2||SIGMABONDS:2||aluminum porphyrin catalysts:2||METALLOPORPHYRIN:2||SILICON:2||MASSSPECTROMETRY ANALYSIS:2||STAR POLYMERS:2||SIZE DISTRIBUTIONS:2||GIANT VESICLES:2||POLY(3ALKYLTHIOPHENES):2||ADHESION:2||LIGHT:2||POLYSTYRENEBPOLYISOPRENE:2||HPLC fractionation:2||SILVER ELECTRODES:2||ENHANCED RESONANCE RAMAN:2||SEQUENCE:2||POLYELECTROLYTE/NONELECTROLYTE SHELLS:2||polyimide:2||liquid crystal alignment layer:2||SOLUBLE POLYIMIDES:2||POLYBUTADIENECOATED ZIRCONIA:2||PRETILT ANGLES:2||CROSSSECTIONS:2||IMSMS:2||POLYISOPRENE COPOLYMERS:2||POLYIMIDE THINFILMS:2||POLYMER SURFACES:2||RAMAN:2||STEREOREGULAR PMMA:2||poly(tertbutyl methacrylate) (PtBMA):2||TIME:2||POLYIMIDE COMPOSITE:2||CARBOXYLATO COMPLEXES:2||AGOSTIC INTERACTIONS:2||MOLECULARSTRUCTURE:2||ALKENE:2||TRANSISTOR MEMORY:2||DEVICES:2||ORTHOGONALITY:2||molecular characterization:2||ORGANOSILICATE DIELECTRIC FILMS:2||AMPHIPHILES:2||Serotonin:2||Anodic stripping differential pulse voltammetry:2||transmission electron microtomography:2||LIQUIDCHROMATOGRAPHY ANALYSIS:2||PHASEDIAGRAM:2||CARBON NANOTUBES:2||TRANSFER MECHANISM:2||BINARY MIXTURES:2||REFLECTOMETRY:2||ROD:2||DROPS:2||CONSTANT:2||TRIBLOCK COPOLYMER:2||POLYMER VESICLES:2||CLICK CHEMISTRY:2||ARRAYS:2||COMPOSITES:2||MALDITOF MS:2||POLYMER THINFILMS:2||HYDROPHOBIC INTERACTION CHROMATOGRAPHY:2||retention mechanism:2||GRAZINGINCIDENCE:2||NANOPOROSITY:2||soluble poly(amic esteraltimide)s:2||DIFFERENTIAL SCANNING CALORIMETRY:2||RESIDUALSTRESS:2||CHEMICALCOMPOSITION:2||POLY(AMIC DIETHYL ESTER) PRECURSOR:2||POLY(DIMETHYL SILOXANES):2||MASS POLYSTYRENES:2||cyclic propylene carbonate:2||propylene oxide:2||ACETATE) TOLUENE SOLUTIONS:2||TRANSIENT GRATING METHOD:2||MASS DIFFUSION:2||MICROPHASE SEPARATION TRANSITION:2||POLYSTYRENES:2||POLYSILANE:2||CARBOHYDRATEBASED PHOSPHOLIPIDS:2||HELICAL STRANDS:2||FLUORESCENCE DETECTION:2||SENSITIVE DETERMINATION:2||COMPOSITE FILMS:2||microphase:2||3MERCAPTOPROPIONIC ACID:2||BUTADIENE BLOCK COPOLYMER:2||HYBRID POLYMERIC MICELLES:2||AQUEOUSMEDIA:2||CONTACTANGLE:2||TRANSISTORCIRCUITS:2||ABTYPE POLY(ETHERIMIDE)S:2||CORRELATION SPECTROSCOPY:2||GASPHASE CONFORMATIONS:2||DECANE:2||INFRAREDSPECTROSCOPY:2||MICELLIZATION:2||ENERGIES:2||ACID) PRECURSORS:2||PHOTOALIGNMENT:2||polymers:2||SUBSTRATE:2||carbon dioxide:2||oligomeric propylene carbonate:2||THERMALDIFFUSION:2||CRYSTAL:2||PHASETRANSITION:2||REFLECTIVITY:2||ANALOGS:2||supramolecular chemistry:2||LYSOPHOSPHATIDIC ACID:2||PHOSPHOCHOLINE:2||POLY(3HEXYLTHIOPHENE):2||Receptor:2||MODIFIED GOLD ELECTRODES:2||ASCORBICACID:2||HUMAN URINE:2||Hybrid Nanocomposite:2||Dielectric Constant:2||AU(111) ELECTRODES:2||NANOFILMS:2||HYDROPHOBIC CORES:2||DRIVEN:2||FLEXIBLE SIDECHAINS:2||MESOGEN:2||size exclusion chromatography:2||ORGANIZATION:2||POLY(LACTIC ACID):2||MOLECULAR ARCHITECTURE:2||COUPLER:2||POLYSTYRENE COPOLYMER:2||diffusion coefficient:2||XRAY REFLECTIVITY:2||temperature gradient interaction chromatography polystyryllithium:2||VISCOELASTIC PROPERTIES:2||polyisoprene:2||CRYSTALSTRUCTURES:2||POLYCARBONATE:2||MULTILAYERS:2||DEPOSITION:2||FULL ADSORPTION MECHANISMS:2||QUANTUM DOTS:2||CRITICAL ORDERING TRANSITION:2||CORE:2||PARACRYSTALLINE DISTORTION:2||PERFORATED LAYER PHASE:2||liposomes:2||phospholipids:2||UNILAMELLAR VESICLES:2||VOLTAMMETRIC DETERMINATION:2||Polyimide:2||FOURIERTRANSFORM:2||SURFACE:2||SIZE EXCLUSION CHROMATOGRAPHY:2||NEUTRON REFLECTIVITY:2||ORDERED STRUCTURE:2||RIGID ROD POLYMERS:2||DISPLACEMENT POLYMERIZATION:2||PHOTOSENSITIVE POLYIMIDE:2||EFFICIENCY:2||films:2||Polylactide:2||CHROMATOGRAPHIC CRITICAL CONDITION:2||RETENTION MECHANISM:2||COPPER PHTHALOCYANINE:2||C60:2||COPOLYMER:2||micelle:2||LINEAR POLYETHYLENE:2||LIQUIDS:2||ARMS:2||HIGHPERFORMANCE LIQUID:2||alternating copolyimides:2||PHASE SEPARATION:2||POLYMERCHAINS:2||STYRYLPYRIDINIUM:2||ANGLES:2||MOBILITY:2||PROBE:2||ACIDS:2||BLUE:2||POSITIONS:2||CYCLOPENTADIENYL:2||HIGHMOLECULARWEIGHT:2||FUELCELLS:2||TIN OXIDE:2||NANOCRYSTALS:2||SURFACE MICELLE FORMATION:2||DISORDER TRANSITION:2||BIREFRINGENCE:2||LIPIDCOMPOSITION:2||CONJUGATED POLYMERS:2||GLASSYCARBON ELECTRODE:2||ELECTROCHEMICAL DETECTION:2||MULTIPLE DETECTION:2||aromatic polyimides:2||MOLECULARWEIGHT HOMOPOLYMERS:2||BINARYMIXTURE:2||PATTERNS:2||photoluminescent polyimide:2||photosensitive polyimide:2||DEPENDENT MICELLIZATION:2||SPEED:2||synthesis:2||COIL BLOCKCOPOLYMERS:2||LIQUIDCRYSTALLINE ASSEMBLIES:2||OXIDE):2||molecular weight distribution:2||CONJUGATED POLYMER:2||polymer characterization:2||NONIONIC SURFACTANTS:2||STEREOREGULAR POLY(METHYL METHACRYLATE):2||structure:2||RODLIKE POLYIMIDE:2||FLEXIBLE POLYIMIDE:2||THERMAL IMIDIZATION:2||IN SITU RODCHAIN FORMATION:2||PHASESEPARATION:2||VINYL ETHER):2||EQUILIBRIUM:2||STRESS:2||STRUCTURAL RELAXATION:2||LIVING POLYMERIZATION:2||CONTAIN:2||SALT:2||WAVEGUIDE:2||XRAY DIFFRACTION:2||WALLED CARBON NANOTUBES:2||SILICON NANOWIRES:2||IR:2||DIELECTRIC THINFILMS:2||Selfassembled monolayer:2||PARAMETERS:2||Temperature gradient interaction chromatography:2||SOLIDSURFACES:2||FLOW:2||RATES:2||PRECURSORS:2||FILM BALANCE:2||SIDECHAINS:2||SUPRAMOLECULAR MATERIALS:2||CHAINS:2||POLYSTYRENE:39||ANIONICPOLYMERIZATION:34||GRADIENT INTERACTION CHROMATOGRAPHY:31||SEPARATION:27||BEHAVIOR:24||LIQUIDCHROMATOGRAPHY:22||POLYMERS:22||SIZEEXCLUSION CHROMATOGRAPHY:19||BLOCKCOPOLYMERS:17||DIBLOCK COPOLYMERS:17||THINFILMS:16||POLYISOPRENE:14||HPLC:13||SYNTHETICPOLYMERS:12||PERFORMANCE LIQUIDCHROMATOGRAPHY:11||DIBLOCK COPOLYMER:11||MOLECULARWEIGHT DISTRIBUTION:10||MACROMOLECULES:10||BLOCKCOPOLYMER:10||REVERSEDPHASE:10||RETENTION BEHAVIOR:10||MORPHOLOGY:9||MOLECULARWEIGHT:9||MELTS:9||AROMATIC POLYIMIDES:8||XRAYSCATTERING:8||polystyrene:8||MIXTURES:7||block copolymer:7||SURFACES:7||DEPENDENCE:7||COPOLYMERS:7||POLYMERIZATION:7||AIR/WATER INTERFACE:7||DEFINED BRUSH POLYIMIDE:6||TEMPERATURE:6||FULLY RODLIKE BACKBONE:6||MONOLAYERS:6||POLYIMIDES:6||CHAIN:6||COMPLEX POLYMERS:6||MOLECULARREORIENTATION:6||temperature gradient interaction chromatography:6||POLYMERFILMS:6||GELPERMEATION CHROMATOGRAPHY:6||ELUTION:6||ORDERDISORDER TRANSITION:6||SURFACEMORPHOLOGY:6||ORIENTATION:6||SYSTEMS:6||CRITICAL ADSORPTION POINT:6||LIGHTSCATTERING:5||PROBE DIFFUSION:5||POLYDISPERSITY:5||AIRWATERINTERFACE:5||MICROPHASE SEPARATION:5||GLASSTRANSITION:5||BLENDS:5||FILMS:5||ADSORPTION CHROMATOGRAPHY:5||MECHANISM:5||CO2:5||ETHYLENEOXIDE:5||ALIGNMENT:5||COMPLEXES:5||FRACTIONATION:5||MISCIBILITY:5||POLYMER CHARACTERIZATION:5||HEXAGONALLY PERFORATED LAYER:5||TRANSITION:5||FLIGHT MASSSPECTROMETRY:5||ARCHITECTURE:5||POLY(METHYL METHACRYLATE):5||ALTERNATING COPOLYMERIZATION:4||THICKNESS:4||THERMODYNAMICS:4||CRITICAL RANGE:4||ULTRATHIN POLYMERFILMS:4||DYNAMICS:4||CLIMATECHANGE:4||PHASE:4||GLASSTRANSITION TEMPERATURE:4||EPOXIDE:4||selfassembly:4||SPECTROSCOPY:4||SELFDIFFUSION:4||SCATTERING:4||OPTICALPROPERTIES:4||CATALYSTS:4||CHEMISTRY:4||SOLARCELLS:4||polyimides:4||polypyromellitimides:4||SEGMENTAL REORIENTATIONS:4||ADSORPTION:4||INTERFACE:4||POLYMERSOLUTIONS:4||TRACER DIFFUSION:4||OXIDE) DIBLOCK COPOLYMER:4||POLYSTYRENEBPOLY(METHYL METHACRYLATE):4||POLYMER BLENDS:4||SIMULATION:4||CHAIN ORIENTATION:4||STYRENE:4||TOF MASSSPECTROMETRY:4||WATER:4||DISPLAYS:4||OLIGOMERS:4||PEPTIDES:4||CYCLIC POLYSTYRENE:4||LATTICE CLUSTER THEORY:4||2NDHARMONIC GENERATION:4||LIQUIDCRYSTAL ALIGNMENT:4||MONTECARLO:4||LangmuirBlodgett film:3||ASSEMBLIES:3||chromatography:3||HOLOGRAPHIC RELAXATION SPECTROSCOPY:3||MULTIPLE MORPHOLOGIES:3||INTERACTION CHROMATOGRAPHY:3||NORMALPHASE:3||DIFFUSION:3||BRANCHED POLYSTYRENE:3||NANOPARTICLES:3||LITHOGRAPHY:3||POLYMER:3||LASERLIGHTSCATTERING:3||HIGH MOLECULARWEIGHT:3||CUBIC PHASE:3||AMPHIPHILIC BLOCKCOPOLYMERS:3||AQUEOUSSOLUTION:3||MODEL:3||FORCED RAYLEIGHSCATTERING:3||HYDRODYNAMIC PROPERTIES:3||4MIKTOARM STAR COPOLYMER:3||SYSTEM:3||PHASEBEHAVIOR:3||AQUEOUSSOLUTIONS:3||RHEOLOGY:3||LB film:3||2DIMENSIONAL LIQUIDCHROMATOGRAPHY:3||VISCOSITY:3||DIBLOCK COPOLYMER MELTS:3||ORDERORDER TRANSITION:3||GYROID PHASE:3||BINDING:3||BLOCK POLYELECTROLYTES:3||DERIVATIVES:3||MELT:3||PHASE LIQUIDCHROMATOGRAPHY:3||high temperature:3||ELEVATEDTEMPERATURE:3||RETENTION:3||MICELLE FORMATION:3||ELECTRONMICROSCOPY:3||Electrospray ionization:2||FRACTIONS:2||nalkanes:2||ISOCRATIC SEPARATION:2||ASSOCIATION:2||POLY(METHYL METHACRYLATE)S:2||2D correlation spectroscopy:2||CARBONATION:2||GLASSTRANSITION BEHAVIORS:2||MECHANICAL PROPERTIES:2||DIMENSIONS:2||POLYMER MIXTURES:2||ALUMINUM PORPHYRIN:2||LEAD STEARATE:2||FERROCENE:2||POLY(EPSILONCAPROLACTONE):2||DIAGRAM:2||nucleosides:2||Selective recognition by preconcentration:2||Electrochemical impedance spectroscopy:2||DOPAMINE:2||Silica:2||Silyl Ester:2||DIETHYL ESTER) PRECURSORS:2||SURFACE CHARACTERIZATION:2||MICROSTRUCTURE:2||polystyreneblockpolyisoprene:2||MICROPHASESEPARATED STRUCTURES:2||IMPEDANCE MEASUREMENTS:2||HEMEPROTEINS:2||SOLID SUBSTRATE:2||MOISTURE ABSORPTION:2||aromatic polyimide:2||INDUCED MORPHOLOGICALCHANGES:2||STABILITY:2||LC alignment layers:2||POLYPYROMELLITIMIDES:2||Ion mobility:2||Chiral polymer:2||OLIGOSACCHARIDES:2||OXIDE:2||SIDECHAIN:2||RETARDATION:2||functionality:2||temperature effects:2||phase transition:2||glass transition temperature:2||spincoated film:2||ESTER) PRECURSORS:2||PRECURSOR BLEND:2||Xray reflectivity:2||SIGMABONDS:2||aluminum porphyrin catalysts:2||METALLOPORPHYRIN:2||SILICON:2||MASSSPECTROMETRY ANALYSIS:2||STAR POLYMERS:2||SIZE DISTRIBUTIONS:2||GIANT VESICLES:2||POLY(3ALKYLTHIOPHENES):2||ADHESION:2||LIGHT:2||POLYSTYRENEBPOLYISOPRENE:2||HPLC fractionation:2||SILVER ELECTRODES:2||ENHANCED RESONANCE RAMAN:2||SEQUENCE:2||POLYELECTROLYTE/NONELECTROLYTE SHELLS:2||polyimide:2||liquid crystal alignment layer:2||SOLUBLE POLYIMIDES:2||POLYBUTADIENECOATED ZIRCONIA:2||PRETILT ANGLES:2||CROSSSECTIONS:2||IMSMS:2||POLYISOPRENE COPOLYMERS:2||POLYIMIDE THINFILMS:2||POLYMER SURFACES:2||RAMAN:2||STEREOREGULAR PMMA:2||poly(tertbutyl methacrylate) (PtBMA):2||TIME:2||POLYIMIDE COMPOSITE:2||CARBOXYLATO COMPLEXES:2||AGOSTIC INTERACTIONS:2||MOLECULARSTRUCTURE:2||ALKENE:2||TRANSISTOR MEMORY:2||DEVICES:2||ORTHOGONALITY:2||molecular characterization:2||ORGANOSILICATE DIELECTRIC FILMS:2||AMPHIPHILES:2||Serotonin:2||Anodic stripping differential pulse voltammetry:2||transmission electron microtomography:2||LIQUIDCHROMATOGRAPHY ANALYSIS:2||PHASEDIAGRAM:2||CARBON NANOTUBES:2||TRANSFER MECHANISM:2||BINARY MIXTURES:2||REFLECTOMETRY:2||ROD:2||DROPS:2||CONSTANT:2||TRIBLOCK COPOLYMER:2||POLYMER VESICLES:2||CLICK CHEMISTRY:2||ARRAYS:2||COMPOSITES:2||MALDITOF MS:2||POLYMER THINFILMS:2||HYDROPHOBIC INTERACTION CHROMATOGRAPHY:2||retention mechanism:2||GRAZINGINCIDENCE:2||NANOPOROSITY:2||soluble poly(amic esteraltimide)s:2||DIFFERENTIAL SCANNING CALORIMETRY:2||RESIDUALSTRESS:2||CHEMICALCOMPOSITION:2||POLY(AMIC DIETHYL ESTER) PRECURSOR:2||POLY(DIMETHYL SILOXANES):2||MASS POLYSTYRENES:2||cyclic propylene carbonate:2||propylene oxide:2||ACETATE) TOLUENE SOLUTIONS:2||TRANSIENT GRATING METHOD:2||MASS DIFFUSION:2||MICROPHASE SEPARATION TRANSITION:2||POLYSTYRENES:2||POLYSILANE:2||CARBOHYDRATEBASED PHOSPHOLIPIDS:2||HELICAL STRANDS:2||FLUORESCENCE DETECTION:2||SENSITIVE DETERMINATION:2||COMPOSITE FILMS:2||microphase:2||3MERCAPTOPROPIONIC ACID:2||BUTADIENE BLOCK COPOLYMER:2||HYBRID POLYMERIC MICELLES:2||AQUEOUSMEDIA:2||CONTACTANGLE:2||TRANSISTORCIRCUITS:2||ABTYPE POLY(ETHERIMIDE)S:2||CORRELATION SPECTROSCOPY:2||GASPHASE CONFORMATIONS:2||DECANE:2||INFRAREDSPECTROSCOPY:2||MICELLIZATION:2||ENERGIES:2||ACID) PRECURSORS:2||PHOTOALIGNMENT:2||polymers:2||SUBSTRATE:2||carbon dioxide:2||oligomeric propylene carbonate:2||THERMALDIFFUSION:2||CRYSTAL:2||PHASETRANSITION:2||REFLECTIVITY:2||ANALOGS:2||supramolecular chemistry:2||LYSOPHOSPHATIDIC ACID:2||PHOSPHOCHOLINE:2||POLY(3HEXYLTHIOPHENE):2||Receptor:2||MODIFIED GOLD ELECTRODES:2||ASCORBICACID:2||HUMAN URINE:2||Hybrid Nanocomposite:2||Dielectric Constant:2||AU(111) ELECTRODES:2||NANOFILMS:2||HYDROPHOBIC CORES:2||DRIVEN:2||FLEXIBLE SIDECHAINS:2||MESOGEN:2||size exclusion chromatography:2||ORGANIZATION:2||POLY(LACTIC ACID):2||MOLECULAR ARCHITECTURE:2||COUPLER:2||POLYSTYRENE COPOLYMER:2||diffusion coefficient:2||XRAY REFLECTIVITY:2||temperature gradient interaction chromatography polystyryllithium:2||VISCOELASTIC PROPERTIES:2||polyisoprene:2||CRYSTALSTRUCTURES:2||POLYCARBONATE:2||MULTILAYERS:2||DEPOSITION:2||FULL ADSORPTION MECHANISMS:2||QUANTUM DOTS:2||CRITICAL ORDERING TRANSITION:2||CORE:2||PARACRYSTALLINE DISTORTION:2||PERFORATED LAYER PHASE:2||liposomes:2||phospholipids:2||UNILAMELLAR VESICLES:2||VOLTAMMETRIC DETERMINATION:2||Polyimide:2||FOURIERTRANSFORM:2||SURFACE:2||SIZE EXCLUSION CHROMATOGRAPHY:2||NEUTRON REFLECTIVITY:2||ORDERED STRUCTURE:2||RIGID ROD POLYMERS:2||DISPLACEMENT POLYMERIZATION:2||PHOTOSENSITIVE POLYIMIDE:2||EFFICIENCY:2||films:2||Polylactide:2||CHROMATOGRAPHIC CRITICAL CONDITION:2||RETENTION MECHANISM:2||COPPER PHTHALOCYANINE:2||C60:2||COPOLYMER:2||micelle:2||LINEAR POLYETHYLENE:2||LIQUIDS:2||ARMS:2||HIGHPERFORMANCE LIQUID:2||alternating copolyimides:2||PHASE SEPARATION:2||POLYMERCHAINS:2||STYRYLPYRIDINIUM:2||ANGLES:2||MOBILITY:2||PROBE:2||ACIDS:2||BLUE:2||POSITIONS:2||CYCLOPENTADIENYL:2||HIGHMOLECULARWEIGHT:2||FUELCELLS:2||TIN OXIDE:2||NANOCRYSTALS:2||SURFACE MICELLE FORMATION:2||DISORDER TRANSITION:2||BIREFRINGENCE:2||LIPIDCOMPOSITION:2||CONJUGATED POLYMERS:2||GLASSYCARBON ELECTRODE:2||ELECTROCHEMICAL DETECTION:2||MULTIPLE DETECTION:2||aromatic polyimides:2||MOLECULARWEIGHT HOMOPOLYMERS:2||BINARYMIXTURE:2||PATTERNS:2||photoluminescent polyimide:2||photosensitive polyimide:2||DEPENDENT MICELLIZATION:2||SPEED:2||synthesis:2||COIL BLOCKCOPOLYMERS:2||LIQUIDCRYSTALLINE ASSEMBLIES:2||OXIDE):2||molecular weight distribution:2||CONJUGATED POLYMER:2||polymer characterization:2||NONIONIC SURFACTANTS:2||STEREOREGULAR POLY(METHYL METHACRYLATE):2||structure:2||RODLIKE POLYIMIDE:2||FLEXIBLE POLYIMIDE:2||THERMAL IMIDIZATION:2||IN SITU RODCHAIN FORMATION:2||PHASESEPARATION:2||VINYL ETHER):2||EQUILIBRIUM:2||STRESS:2||STRUCTURAL RELAXATION:2||LIVING POLYMERIZATION:2||CONTAIN:2||SALT:2||WAVEGUIDE:2||XRAY DIFFRACTION:2||WALLED CARBON NANOTUBES:2||SILICON NANOWIRES:2||IR:2||DIELECTRIC THINFILMS:2||Selfassembled monolayer:2||PARAMETERS:2||Temperature gradient interaction chromatography:2||SOLIDSURFACES:2||FLOW:2||RATES:2||PRECURSORS:2||FILM BALANCE:2||SIDECHAINS:2||SUPRAMOLECULAR MATERIALS:2||CHAINS:2||POLYSTYRENE:39||ANIONICPOLYMERIZATION:34||GRADIENT INTERACTION CHROMATOGRAPHY:31||SEPARATION:27||BEHAVIOR:24||LIQUIDCHROMATOGRAPHY:22||POLYMERS:22||SIZEEXCLUSION CHROMATOGRAPHY:19||BLOCKCOPOLYMERS:17||DIBLOCK COPOLYMERS:17||THINFILMS:16||POLYISOPRENE:14||HPLC:13||SYNTHETICPOLYMERS:12||PERFORMANCE LIQUIDCHROMATOGRAPHY:11||DIBLOCK COPOLYMER:11||MOLECULARWEIGHT DISTRIBUTION:10||MACROMOLECULES:10||BLOCKCOPOLYMER:10||REVERSEDPHASE:10||RETENTION BEHAVIOR:10||MORPHOLOGY:9||MOLECULARWEIGHT:9||MELTS:9||AROMATIC POLYIMIDES:8||XRAYSCATTERING:8||polystyrene:8||MIXTURES:7||block copolymer:7||SURFACES:7||DEPENDENCE:7||COPOLYMERS:7||POLYMERIZATION:7||AIR/WATER INTERFACE:7||DEFINED BRUSH POLYIMIDE:6||TEMPERATURE:6||FULLY RODLIKE BACKBONE:6||MONOLAYERS:6||POLYIMIDES:6||CHAIN:6||COMPLEX POLYMERS:6||MOLECULARREORIENTATION:6||temperature gradient interaction chromatography:6||POLYMERFILMS:6||GELPERMEATION CHROMATOGRAPHY:6||ELUTION:6||ORDERDISORDER TRANSITION:6||SURFACEMORPHOLOGY:6||ORIENTATION:6||SYSTEMS:6||CRITICAL ADSORPTION POINT:6||LIGHTSCATTERING:5||PROBE DIFFUSION:5||POLYDISPERSITY:5||AIRWATERINTERFACE:5||MICROPHASE SEPARATION:5||GLASSTRANSITION:5||BLENDS:5||FILMS:5||ADSORPTION CHROMATOGRAPHY:5||MECHANISM:5||CO2:5||ETHYLENEOXIDE:5||ALIGNMENT:5||COMPLEXES:5||FRACTIONATION:5||MISCIBILITY:5||POLYMER CHARACTERIZATION:5||HEXAGONALLY PERFORATED LAYER:5||TRANSITION:5||FLIGHT MASSSPECTROMETRY:5||ARCHITECTURE:5||POLY(METHYL METHACRYLATE):5||ALTERNATING COPOLYMERIZATION:4||THICKNESS:4||THERMODYNAMICS:4||CRITICAL RANGE:4||ULTRATHIN POLYMERFILMS:4||DYNAMICS:4||CLIMATECHANGE:4||PHASE:4||GLASSTRANSITION TEMPERATURE:4||EPOXIDE:4||selfassembly:4||SPECTROSCOPY:4||SELFDIFFUSION:4||SCATTERING:4||OPTICALPROPERTIES:4||CATALYSTS:4||CHEMISTRY:4||SOLARCELLS:4||polyimides:4||polypyromellitimides:4||SEGMENTAL REORIENTATIONS:4||ADSORPTION:4||INTERFACE:4||POLYMERSOLUTIONS:4||TRACER DIFFUSION:4||OXIDE) DIBLOCK COPOLYMER:4||POLYSTYRENEBPOLY(METHYL METHACRYLATE):4||POLYMER BLENDS:4||SIMULATION:4||CHAIN ORIENTATION:4||STYRENE:4||TOF MASSSPECTROMETRY:4||WATER:4||DISPLAYS:4||OLIGOMERS:4||PEPTIDES:4||CYCLIC POLYSTYRENE:4||LATTICE CLUSTER THEORY:4||2NDHARMONIC GENERATION:4||LIQUIDCRYSTAL ALIGNMENT:4||MONTECARLO:4||LangmuirBlodgett film:3||ASSEMBLIES:3||chromatography:3||HOLOGRAPHIC RELAXATION SPECTROSCOPY:3||MULTIPLE MORPHOLOGIES:3||INTERACTION CHROMATOGRAPHY:3||NORMALPHASE:3||DIFFUSION:3||BRANCHED POLYSTYRENE:3||NANOPARTICLES:3||LITHOGRAPHY:3||POLYMER:3||LASERLIGHTSCATTERING:3||HIGH MOLECULARWEIGHT:3||CUBIC PHASE:3||AMPHIPHILIC BLOCKCOPOLYMERS:3||AQUEOUSSOLUTION:3||MODEL:3||FORCED RAYLEIGHSCATTERING:3||HYDRODYNAMIC PROPERTIES:3||4MIKTOARM STAR COPOLYMER:3||SYSTEM:3||PHASEBEHAVIOR:3||AQUEOUSSOLUTIONS:3||RHEOLOGY:3||LB film:3||2DIMENSIONAL LIQUIDCHROMATOGRAPHY:3||VISCOSITY:3||DIBLOCK COPOLYMER MELTS:3||ORDERORDER TRANSITION:3||GYROID PHASE:3||BINDING:3||BLOCK POLYELECTROLYTES:3||DERIVATIVES:3||MELT:3||PHASE LIQUIDCHROMATOGRAPHY:3||high temperature:3||ELEVATEDTEMPERATURE:3||RETENTION:3||MICELLE FORMATION:3||ELECTRONMICROSCOPY:3||Electrospray ionization:2||FRACTIONS:2||nalkanes:2||ISOCRATIC SEPARATION:2||ASSOCIATION:2||POLY(METHYL METHACRYLATE)S:2||2D correlation spectroscopy:2||CARBONATION:2||GLASSTRANSITION BEHAVIORS:2||MECHANICAL PROPERTIES:2||DIMENSIONS:2||POLYMER MIXTURES:2||ALUMINUM PORPHYRIN:2||LEAD STEARATE:2||FERROCENE:2||POLY(EPSILONCAPROLACTONE):2||DIAGRAM:2||nucleosides:2||Selective recognition by preconcentration:2||Electrochemical impedance spectroscopy:2||DOPAMINE:2||Silica:2||Silyl Ester:2||DIETHYL ESTER) PRECURSORS:2||SURFACE CHARACTERIZATION:2||MICROSTRUCTURE:2||polystyreneblockpolyisoprene:2||MICROPHASESEPARATED STRUCTURES:2||IMPEDANCE MEASUREMENTS:2||HEMEPROTEINS:2||SOLID SUBSTRATE:2||MOISTURE ABSORPTION:2||aromatic polyimide:2||INDUCED MORPHOLOGICALCHANGES:2||STABILITY:2||LC alignment layers:2||POLYPYROMELLITIMIDES:2||Ion mobility:2||Chiral polymer:2||OLIGOSACCHARIDES:2||OXIDE:2||SIDECHAIN:2||RETARDATION:2||functionality:2||temperature effects:2||phase transition:2||glass transition temperature:2||spincoated film:2||ESTER) PRECURSORS:2||PRECURSOR BLEND:2||Xray reflectivity:2||SIGMABONDS:2||aluminum porphyrin catalysts:2||METALLOPORPHYRIN:2||SILICON:2||MASSSPECTROMETRY ANALYSIS:2||STAR POLYMERS:2||SIZE DISTRIBUTIONS:2||GIANT VESICLES:2||POLY(3ALKYLTHIOPHENES):2||ADHESION:2||LIGHT:2||POLYSTYRENEBPOLYISOPRENE:2||HPLC fractionation:2||SILVER ELECTRODES:2||ENHANCED RESONANCE RAMAN:2||SEQUENCE:2||POLYELECTROLYTE/NONELECTROLYTE SHELLS:2||polyimide:2||liquid crystal alignment layer:2||SOLUBLE POLYIMIDES:2||POLYBUTADIENECOATED ZIRCONIA:2||PRETILT ANGLES:2||CROSSSECTIONS:2||IMSMS:2||POLYISOPRENE COPOLYMERS:2||POLYIMIDE THINFILMS:2||POLYMER SURFACES:2||RAMAN:2||STEREOREGULAR PMMA:2||poly(tertbutyl methacrylate) (PtBMA):2||TIME:2||POLYIMIDE COMPOSITE:2||CARBOXYLATO COMPLEXES:2||AGOSTIC INTERACTIONS:2||MOLECULARSTRUCTURE:2||ALKENE:2||TRANSISTOR MEMORY:2||DEVICES:2||ORTHOGONALITY:2||molecular characterization:2||ORGANOSILICATE DIELECTRIC FILMS:2||AMPHIPHILES:2||Serotonin:2||Anodic stripping differential pulse voltammetry:2||transmission electron microtomography:2||LIQUIDCHROMATOGRAPHY ANALYSIS:2||PHASEDIAGRAM:2||CARBON NANOTUBES:2||TRANSFER MECHANISM:2||BINARY MIXTURES:2||REFLECTOMETRY:2||ROD:2||DROPS:2||CONSTANT:2||TRIBLOCK COPOLYMER:2||POLYMER VESICLES:2||CLICK CHEMISTRY:2||ARRAYS:2||COMPOSITES:2||MALDITOF MS:2||POLYMER THINFILMS:2||HYDROPHOBIC INTERACTION CHROMATOGRAPHY:2||retention mechanism:2||GRAZINGINCIDENCE:2||NANOPOROSITY:2||soluble poly(amic esteraltimide)s:2||DIFFERENTIAL SCANNING CALORIMETRY:2||RESIDUALSTRESS:2||CHEMICALCOMPOSITION:2||POLY(AMIC DIETHYL ESTER) PRECURSOR:2||POLY(DIMETHYL SILOXANES):2||MASS POLYSTYRENES:2||cyclic propylene carbonate:2||propylene oxide:2||ACETATE) TOLUENE SOLUTIONS:2||TRANSIENT GRATING METHOD:2||MASS DIFFUSION:2||MICROPHASE SEPARATION TRANSITION:2||POLYSTYRENES:2||POLYSILANE:2||CARBOHYDRATEBASED PHOSPHOLIPIDS:2||HELICAL STRANDS:2||FLUORESCENCE DETECTION:2||SENSITIVE DETERMINATION:2||COMPOSITE FILMS:2||microphase:2||3MERCAPTOPROPIONIC ACID:2||BUTADIENE BLOCK COPOLYMER:2||HYBRID POLYMERIC MICELLES:2||AQUEOUSMEDIA:2||CONTACTANGLE:2||TRANSISTORCIRCUITS:2||ABTYPE POLY(ETHERIMIDE)S:2||CORRELATION SPECTROSCOPY:2||GASPHASE CONFORMATIONS:2||DECANE:2||INFRAREDSPECTROSCOPY:2||MICELLIZATION:2||ENERGIES:2||ACID) PRECURSORS:2||PHOTOALIGNMENT:2||polymers:2||SUBSTRATE:2||carbon dioxide:2||oligomeric propylene carbonate:2||THERMALDIFFUSION:2||CRYSTAL:2||PHASETRANSITION:2||REFLECTIVITY:2||ANALOGS:2||supramolecular chemistry:2||LYSOPHOSPHATIDIC ACID:2||PHOSPHOCHOLINE:2||POLY(3HEXYLTHIOPHENE):2||Receptor:2||MODIFIED GOLD ELECTRODES:2||ASCORBICACID:2||HUMAN URINE:2||Hybrid Nanocomposite:2||Dielectric Constant:2||AU(111) ELECTRODES:2||NANOFILMS:2||HYDROPHOBIC CORES:2||DRIVEN:2||FLEXIBLE SIDECHAINS:2||MESOGEN:2||size exclusion chromatography:2||ORGANIZATION:2||POLY(LACTIC ACID):2||MOLECULAR ARCHITECTURE:2||COUPLER:2||POLYSTYRENE COPOLYMER:2||diffusion coefficient:2||XRAY REFLECTIVITY:2||temperature gradient interaction chromatography polystyryllithium:2||VISCOELASTIC PROPERTIES:2||polyisoprene:2||CRYSTALSTRUCTURES:2||POLYCARBONATE:2||MULTILAYERS:2||DEPOSITION:2||FULL ADSORPTION MECHANISMS:2||QUANTUM DOTS:2||CRITICAL ORDERING TRANSITION:2||CORE:2||PARACRYSTALLINE DISTORTION:2||PERFORATED LAYER PHASE:2||liposomes:2||phospholipids:2||UNILAMELLAR VESICLES:2||VOLTAMMETRIC DETERMINATION:2||Polyimide:2||FOURIERTRANSFORM:2||SURFACE:2||SIZE EXCLUSION CHROMATOGRAPHY:2||NEUTRON REFLECTIVITY:2||ORDERED STRUCTURE:2||RIGID ROD POLYMERS:2||DISPLACEMENT POLYMERIZATION:2||PHOTOSENSITIVE POLYIMIDE:2||EFFICIENCY:2||films:2||Polylactide:2||CHROMATOGRAPHIC CRITICAL CONDITION:2||RETENTION MECHANISM:2||COPPER PHTHALOCYANINE:2||C60:2||COPOLYMER:2||micelle:2||LINEAR POLYETHYLENE:2||LIQUIDS:2||ARMS:2||HIGHPERFORMANCE LIQUID:2||alternating copolyimides:2||PHASE SEPARATION:2||POLYMERCHAINS:2||STYRYLPYRIDINIUM:2||ANGLES:2||MOBILITY:2||PROBE:2||ACIDS:2||BLUE:2||POSITIONS:2||CYCLOPENTADIENYL:2||HIGHMOLECULARWEIGHT:2||FUELCELLS:2||TIN OXIDE:2||NANOCRYSTALS:2||SURFACE MICELLE FORMATION:2||DISORDER TRANSITION:2||BIREFRINGENCE:2||LIPIDCOMPOSITION:2||CONJUGATED POLYMERS:2||GLASSYCARBON ELECTRODE:2||ELECTROCHEMICAL DETECTION:2||MULTIPLE DETECTION:2||aromatic polyimides:2||MOLECULARWEIGHT HOMOPOLYMERS:2||BINARYMIXTURE:2||PATTERNS:2||photoluminescent polyimide:2||photosensitive polyimide:2||DEPENDENT MICELLIZATION:2||SPEED:2||synthesis:2||COIL BLOCKCOPOLYMERS:2||LIQUIDCRYSTALLINE ASSEMBLIES:2||OXIDE):2||molecular weight distribution:2||CONJUGATED POLYMER:2||polymer characterization:2||NONIONIC SURFACTANTS:2||STEREOREGULAR POLY(METHYL METHACRYLATE):2||structure:2||RODLIKE POLYIMIDE:2||FLEXIBLE POLYIMIDE:2||THERMAL IMIDIZATION:2||IN SITU RODCHAIN FORMATION:2||PHASESEPARATION:2||VINYL ETHER):2||EQUILIBRIUM:2||STRESS:2||STRUCTURAL RELAXATION:2||LIVING POLYMERIZATION:2||CONTAIN:2||SALT:2||WAVEGUIDE:2||XRAY DIFFRACTION:2||WALLED CARBON NANOTUBES:2||SILICON NANOWIRES:2||IR:2||DIELECTRIC THINFILMS:2||Selfassembled monolayer:2||PARAMETERS:2||Temperature gradient interaction chromatography:2||SOLIDSURFACES:2||FLOW:2||RATES:2||PRECURSORS:2||FILM BALANCE:2||SIDECHAINS:2||SUPRAMOLECULAR MATERIALS:2||CHAINS:2||POLYSTYRENE:39||ANIONICPOLYMERIZATION:34||GRADIENT INTERACTION CHROMATOGRAPHY:31||SEPARATION:27||BEHAVIOR:24||LIQUIDCHROMATOGRAPHY:22||POLYMERS:22||SIZEEXCLUSION CHROMATOGRAPHY:19||BLOCKCOPOLYMERS:17||DIBLOCK COPOLYMERS:17||THINFILMS:16||POLYISOPRENE:14||HPLC:13||SYNTHETICPOLYMERS:12||PERFORMANCE LIQUIDCHROMATOGRAPHY:11||DIBLOCK COPOLYMER:11||MOLECULARWEIGHT DISTRIBUTION:10||MACROMOLECULES:10||BLOCKCOPOLYMER:10||REVERSEDPHASE:10||RETENTION BEHAVIOR:10||MORPHOLOGY:9||MOLECULARWEIGHT:9||MELTS:9||AROMATIC POLYIMIDES:8||XRAYSCATTERING:8||polystyrene:8||MIXTURES:7||block copolymer:7||SURFACES:7||DEPENDENCE:7||COPOLYMERS:7||POLYMERIZATION:7||AIR/WATER INTERFACE:7||DEFINED BRUSH POLYIMIDE:6||TEMPERATURE:6||FULLY RODLIKE BACKBONE:6||MONOLAYERS:6||POLYIMIDES:6||CHAIN:6||COMPLEX POLYMERS:6||MOLECULARREORIENTATION:6||temperature gradient interaction chromatography:6||POLYMERFILMS:6||GELPERMEATION CHROMATOGRAPHY:6||ELUTION:6||ORDERDISORDER TRANSITION:6||SURFACEMORPHOLOGY:6||ORIENTATION:6||SYSTEMS:6||CRITICAL ADSORPTION POINT:6||LIGHTSCATTERING:5||PROBE DIFFUSION:5||POLYDISPERSITY:5||AIRWATERINTERFACE:5||MICROPHASE SEPARATION:5||GLASSTRANSITION:5||BLENDS:5||FILMS:5||ADSORPTION CHROMATOGRAPHY:5||MECHANISM:5||CO2:5||ETHYLENEOXIDE:5||ALIGNMENT:5||COMPLEXES:5||FRACTIONATION:5||MISCIBILITY:5||POLYMER CHARACTERIZATION:5||HEXAGONALLY PERFORATED LAYER:5||TRANSITION:5||FLIGHT MASSSPECTROMETRY:5||ARCHITECTURE:5||POLY(METHYL METHACRYLATE):5||ALTERNATING COPOLYMERIZATION:4||THICKNESS:4||THERMODYNAMICS:4||CRITICAL RANGE:4||ULTRATHIN POLYMERFILMS:4||DYNAMICS:4||CLIMATECHANGE:4||PHASE:4||GLASSTRANSITION TEMPERATURE:4||EPOXIDE:4||selfassembly:4||SPECTROSCOPY:4||SELFDIFFUSION:4||SCATTERING:4||OPTICALPROPERTIES:4||CATALYSTS:4||CHEMISTRY:4||SOLARCELLS:4||polyimides:4||polypyromellitimides:4||SEGMENTAL REORIENTATIONS:4||ADSORPTION:4||INTERFACE:4||POLYMERSOLUTIONS:4||TRACER DIFFUSION:4||OXIDE) DIBLOCK COPOLYMER:4||POLYSTYRENEBPOLY(METHYL METHACRYLATE):4||POLYMER BLENDS:4||SIMULATION:4||CHAIN ORIENTATION:4||STYRENE:4||TOF MASSSPECTROMETRY:4||WATER:4||DISPLAYS:4||OLIGOMERS:4||PEPTIDES:4||CYCLIC POLYSTYRENE:4||LATTICE CLUSTER THEORY:4||2NDHARMONIC GENERATION:4||LIQUIDCRYSTAL ALIGNMENT:4||MONTECARLO:4||LangmuirBlodgett film:3||ASSEMBLIES:3||chromatography:3||HOLOGRAPHIC RELAXATION SPECTROSCOPY:3||MULTIPLE MORPHOLOGIES:3||INTERACTION CHROMATOGRAPHY:3||NORMALPHASE:3||DIFFUSION:3||BRANCHED POLYSTYRENE:3||NANOPARTICLES:3||LITHOGRAPHY:3||POLYMER:3||LASERLIGHTSCATTERING:3||HIGH MOLECULARWEIGHT:3||CUBIC PHASE:3||AMPHIPHILIC BLOCKCOPOLYMERS:3||AQUEOUSSOLUTION:3||MODEL:3||FORCED RAYLEIGHSCATTERING:3||HYDRODYNAMIC PROPERTIES:3||4MIKTOARM STAR COPOLYMER:3||SYSTEM:3||PHASEBEHAVIOR:3||AQUEOUSSOLUTIONS:3||RHEOLOGY:3||LB film:3||2DIMENSIONAL LIQUIDCHROMATOGRAPHY:3||VISCOSITY:3||DIBLOCK COPOLYMER MELTS:3||ORDERORDER TRANSITION:3||GYROID PHASE:3||BINDING:3||BLOCK POLYELECTROLYTES:3||DERIVATIVES:3||MELT:3||PHASE LIQUIDCHROMATOGRAPHY:3||high temperature:3||ELEVATEDTEMPERATURE:3||RETENTION:3||MICELLE FORMATION:3||ELECTRONMICROSCOPY:3||Electrospray ionization:2||FRACTIONS:2||nalkanes:2||ISOCRATIC SEPARATION:2||ASSOCIATION:2||POLY(METHYL METHACRYLATE)S:2||2D correlation spectroscopy:2||CARBONATION:2||GLASSTRANSITION BEHAVIORS:2||MECHANICAL PROPERTIES:2||DIMENSIONS:2||POLYMER MIXTURES:2||ALUMINUM PORPHYRIN:2||LEAD STEARATE:2||FERROCENE:2||POLY(EPSILONCAPROLACTONE):2||DIAGRAM:2||nucleosides:2||Selective recognition by preconcentration:2||Electrochemical impedance spectroscopy:2||DOPAMINE:2||Silica:2||Silyl Ester:2||DIETHYL ESTER) PRECURSORS:2||SURFACE CHARACTERIZATION:2||MICROSTRUCTURE:2||polystyreneblockpolyisoprene:2||MICROPHASESEPARATED STRUCTURES:2||IMPEDANCE MEASUREMENTS:2||HEMEPROTEINS:2||SOLID SUBSTRATE:2||MOISTURE ABSORPTION:2||aromatic polyimide:2||INDUCED MORPHOLOGICALCHANGES:2||STABILITY:2||LC alignment layers:2||POLYPYROMELLITIMIDES:2||Ion mobility:2||Chiral polymer:2||OLIGOSACCHARIDES:2||OXIDE:2||SIDECHAIN:2||RETARDATION:2||functionality:2||temperature effects:2||phase transition:2||glass transition temperature:2||spincoated film:2||ESTER) PRECURSORS:2||PRECURSOR BLEND:2||Xray reflectivity:2||SIGMABONDS:2||aluminum porphyrin catalysts:2||METALLOPORPHYRIN:2||SILICON:2||MASSSPECTROMETRY ANALYSIS:2||STAR POLYMERS:2||SIZE DISTRIBUTIONS:2||GIANT VESICLES:2||POLY(3ALKYLTHIOPHENES):2||ADHESION:2||LIGHT:2||POLYSTYRENEBPOLYISOPRENE:2||HPLC fractionation:2||SILVER ELECTRODES:2||ENHANCED RESONANCE RAMAN:2||SEQUENCE:2||POLYELECTROLYTE/NONELECTROLYTE SHELLS:2||polyimide:2||liquid crystal alignment layer:2||SOLUBLE POLYIMIDES:2||POLYBUTADIENECOATED ZIRCONIA:2||PRETILT ANGLES:2||CROSSSECTIONS:2||IMSMS:2||POLYISOPRENE COPOLYMERS:2||POLYIMIDE THINFILMS:2||POLYMER SURFACES:2||RAMAN:2||STEREOREGULAR PMMA:2||poly(tertbutyl methacrylate) (PtBMA):2||TIME:2||POLYIMIDE COMPOSITE:2||CARBOXYLATO COMPLEXES:2||AGOSTIC INTERACTIONS:2||MOLECULARSTRUCTURE:2||ALKENE:2||TRANSISTOR MEMORY:2||DEVICES:2||ORTHOGONALITY:2||molecular characterization:2||ORGANOSILICATE DIELECTRIC FILMS:2||AMPHIPHILES:2||Serotonin:2||Anodic stripping differential pulse voltammetry:2||transmission electron microtomography:2||LIQUIDCHROMATOGRAPHY ANALYSIS:2||PHASEDIAGRAM:2||CARBON NANOTUBES:2||TRANSFER MECHANISM:2||BINARY MIXTURES:2||REFLECTOMETRY:2||ROD:2||DROPS:2||CONSTANT:2||TRIBLOCK COPOLYMER:2||POLYMER VESICLES:2||CLICK CHEMISTRY:2||ARRAYS:2||COMPOSITES:2||MALDITOF MS:2||POLYMER THINFILMS:2||HYDROPHOBIC INTERACTION CHROMATOGRAPHY:2||retention mechanism:2||GRAZINGINCIDENCE:2||NANOPOROSITY:2||soluble poly(amic esteraltimide)s:2||DIFFERENTIAL SCANNING CALORIMETRY:2||RESIDUALSTRESS:2||CHEMICALCOMPOSITION:2||POLY(AMIC DIETHYL ESTER) PRECURSOR:2||POLY(DIMETHYL SILOXANES):2||MASS POLYSTYRENES:2||cyclic propylene carbonate:2||propylene oxide:2||ACETATE) TOLUENE SOLUTIONS:2||TRANSIENT GRATING METHOD:2||MASS DIFFUSION:2||MICROPHASE SEPARATION TRANSITION:2||POLYSTYRENES:2||POLYSILANE:2||CARBOHYDRATEBASED PHOSPHOLIPIDS:2||HELICAL STRANDS:2||FLUORESCENCE DETECTION:2||SENSITIVE DETERMINATION:2||COMPOSITE FILMS:2||microphase:2||3MERCAPTOPROPIONIC ACID:2||BUTADIENE BLOCK COPOLYMER:2||HYBRID POLYMERIC MICELLES:2||AQUEOUSMEDIA:2||CONTACTANGLE:2||TRANSISTORCIRCUITS:2||ABTYPE POLY(ETHERIMIDE)S:2||CORRELATION SPECTROSCOPY:2||GASPHASE CONFORMATIONS:2||DECANE:2||INFRAREDSPECTROSCOPY:2||MICELLIZATION:2||ENERGIES:2||ACID) PRECURSORS:2||PHOTOALIGNMENT:2||polymers:2||SUBSTRATE:2||carbon dioxide:2||oligomeric propylene carbonate:2||THERMALDIFFUSION:2||CRYSTAL:2||PHASETRANSITION:2||REFLECTIVITY:2||ANALOGS:2||supramolecular chemistry:2||LYSOPHOSPHATIDIC ACID:2||PHOSPHOCHOLINE:2||POLY(3HEXYLTHIOPHENE):2||Receptor:2||MODIFIED GOLD ELECTRODES:2||ASCORBICACID:2||HUMAN URINE:2||Hybrid Nanocomposite:2||Dielectric Constant:2||AU(111) ELECTRODES:2||NANOFILMS:2||HYDROPHOBIC CORES:2||DRIVEN:2||FLEXIBLE SIDECHAINS:2||MESOGEN:2||size exclusion chromatography:2||ORGANIZATION:2||POLY(LACTIC ACID):2||MOLECULAR ARCHITECTURE:2||COUPLER:2||POLYSTYRENE COPOLYMER:2||diffusion coefficient:2||XRAY REFLECTIVITY:2||temperature gradient interaction chromatography polystyryllithium:2||VISCOELASTIC PROPERTIES:2||polyisoprene:2||CRYSTALSTRUCTURES:2||POLYCARBONATE:2||MULTILAYERS:2||DEPOSITION:2||FULL ADSORPTION MECHANISMS:2||QUANTUM DOTS:2||CRITICAL ORDERING TRANSITION:2||CORE:2||PARACRYSTALLINE DISTORTION:2||PERFORATED LAYER PHASE:2||liposomes:2||phospholipids:2||UNILAMELLAR VESICLES:2||VOLTAMMETRIC DETERMINATION:2||Polyimide:2||FOURIERTRANSFORM:2||SURFACE:2||SIZE EXCLUSION CHROMATOGRAPHY:2||NEUTRON REFLECTIVITY:2||ORDERED STRUCTURE:2||RIGID ROD POLYMERS:2||DISPLACEMENT POLYMERIZATION:2||PHOTOSENSITIVE POLYIMIDE:2||EFFICIENCY:2||films:2||Polylactide:2||CHROMATOGRAPHIC CRITICAL CONDITION:2||RETENTION MECHANISM:2||COPPER PHTHALOCYANINE:2||C60:2||COPOLYMER:2||micelle:2||LINEAR POLYETHYLENE:2||LIQUIDS:2||ARMS:2||HIGHPERFORMANCE LIQUID:2||alternating copolyimides:2||PHASE SEPARATION:2||POLYMERCHAINS:2||STYRYLPYRIDINIUM:2||ANGLES:2||MOBILITY:2||PROBE:2||ACIDS:2||BLUE:2||POSITIONS:2||CYCLOPENTADIENYL:2||HIGHMOLECULARWEIGHT:2||FUELCELLS:2||TIN OXIDE:2||NANOCRYSTALS:2||SURFACE MICELLE FORMATION:2||DISORDER TRANSITION:2||BIREFRINGENCE:2||LIPIDCOMPOSITION:2||CONJUGATED POLYMERS:2||GLASSYCARBON ELECTRODE:2||ELECTROCHEMICAL DETECTION:2||MULTIPLE DETECTION:2||aromatic polyimides:2||MOLECULARWEIGHT HOMOPOLYMERS:2||BINARYMIXTURE:2||PATTERNS:2||photoluminescent polyimide:2||photosensitive polyimide:2||DEPENDENT MICELLIZATION:2||SPEED:2||synthesis:2||COIL BLOCKCOPOLYMERS:2||LIQUIDCRYSTALLINE ASSEMBLIES:2||OXIDE):2||molecular weight distribution:2||CONJUGATED POLYMER:2||polymer characterization:2||NONIONIC SURFACTANTS:2||STEREOREGULAR POLY(METHYL METHACRYLATE):2||structure:2||RODLIKE POLYIMIDE:2||FLEXIBLE POLYIMIDE:2||THERMAL IMIDIZATION:2||IN SITU RODCHAIN FORMATION:2||PHASESEPARATION:2||VINYL ETHER):2||EQUILIBRIUM:2||STRESS:2||STRUCTURAL RELAXATION:2||LIVING POLYMERIZATION:2||CONTAIN:2||SALT:2||WAVEGUIDE:2||XRAY DIFFRACTION:2||WALLED CARBON NANOTUBES:2||SILICON NANOWIRES:2||IR:2||DIELECTRIC THINFILMS:2||Selfassembled monolayer:2||PARAMETERS:2||Temperature gradient interaction chromatography:2||SOLIDSURFACES:2||FLOW:2||RATES:2||PRECURSORS:2||FILM BALANCE:2||SIDECHAINS:2||SUPRAMOLECULAR MATERIALS:2||CHAINS:2||POLYSTYRENE:39||ANIONICPOLYMERIZATION:34||GRADIENT INTERACTION CHROMATOGRAPHY:31||SEPARATION:27||BEHAVIOR:24||LIQUIDCHROMATOGRAPHY:22||POLYMERS:22||SIZEEXCLUSION CHROMATOGRAPHY:19||BLOCKCOPOLYMERS:17||DIBLOCK COPOLYMERS:17||THINFILMS:16||POLYISOPRENE:14||HPLC:13||SYNTHETICPOLYMERS:12||PERFORMANCE LIQUIDCHROMATOGRAPHY:11||DIBLOCK COPOLYMER:11||MOLECULARWEIGHT DISTRIBUTION:10||MACROMOLECULES:10||BLOCKCOPOLYMER:10||REVERSEDPHASE:10||RETENTION BEHAVIOR:10||MORPHOLOGY:9||MOLECULARWEIGHT:9||MELTS:9||AROMATIC POLYIMIDES:8||XRAYSCATTERING:8||polystyrene:8||MIXTURES:7||block copolymer:7||SURFACES:7||DEPENDENCE:7||COPOLYMERS:7||POLYMERIZATION:7||AIR/WATER INTERFACE:7||DEFINED BRUSH POLYIMIDE:6||TEMPERATURE:6||FULLY RODLIKE BACKBONE:6||MONOLAYERS:6||POLYIMIDES:6||CHAIN:6||COMPLEX POLYMERS:6||MOLECULARREORIENTATION:6||temperature gradient interaction chromatography:6||POLYMERFILMS:6||GELPERMEATION CHROMATOGRAPHY:6||ELUTION:6||ORDERDISORDER TRANSITION:6||SURFACEMORPHOLOGY:6||ORIENTATION:6||SYSTEMS:6||CRITICAL ADSORPTION POINT:6||LIGHTSCATTERING:5||PROBE DIFFUSION:5||POLYDISPERSITY:5||AIRWATERINTERFACE:5||MICROPHASE SEPARATION:5||GLASSTRANSITION:5||BLENDS:5||FILMS:5||ADSORPTION CHROMATOGRAPHY:5||MECHANISM:5||CO2:5||ETHYLENEOXIDE:5||ALIGNMENT:5||COMPLEXES:5||FRACTIONATION:5||MISCIBILITY:5||POLYMER CHARACTERIZATION:5||HEXAGONALLY PERFORATED LAYER:5||TRANSITION:5||FLIGHT MASSSPECTROMETRY:5||ARCHITECTURE:5||POLY(METHYL METHACRYLATE):5||ALTERNATING COPOLYMERIZATION:4||THICKNESS:4||THERMODYNAMICS:4||CRITICAL RANGE:4||ULTRATHIN POLYMERFILMS:4||DYNAMICS:4||CLIMATECHANGE:4||PHASE:4||GLASSTRANSITION TEMPERATURE:4||EPOXIDE:4||selfassembly:4||SPECTROSCOPY:4||SELFDIFFUSION:4||SCATTERING:4||OPTICALPROPERTIES:4||CATALYSTS:4||CHEMISTRY:4||SOLARCELLS:4||polyimides:4||polypyromellitimides:4||SEGMENTAL REORIENTATIONS:4||ADSORPTION:4||INTERFACE:4||POLYMERSOLUTIONS:4||TRACER DIFFUSION:4||OXIDE) DIBLOCK COPOLYMER:4||POLYSTYRENEBPOLY(METHYL METHACRYLATE):4||POLYMER BLENDS:4||SIMULATION:4||CHAIN ORIENTATION:4||STYRENE:4||TOF MASSSPECTROMETRY:4||WATER:4||DISPLAYS:4||OLIGOMERS:4||PEPTIDES:4||CYCLIC POLYSTYRENE:4||LATTICE CLUSTER THEORY:4||2NDHARMONIC GENERATION:4||LIQUIDCRYSTAL ALIGNMENT:4||MONTECARLO:4||LangmuirBlodgett film:3||ASSEMBLIES:3||chromatography:3||HOLOGRAPHIC RELAXATION SPECTROSCOPY:3||MULTIPLE MORPHOLOGIES:3||INTERACTION CHROMATOGRAPHY:3||NORMALPHASE:3||DIFFUSION:3||BRANCHED POLYSTYRENE:3||NANOPARTICLES:3||LITHOGRAPHY:3||POLYMER:3||LASERLIGHTSCATTERING:3||HIGH MOLECULARWEIGHT:3||CUBIC PHASE:3||AMPHIPHILIC BLOCKCOPOLYMERS:3||AQUEOUSSOLUTION:3||MODEL:3||FORCED RAYLEIGHSCATTERING:3||HYDRODYNAMIC PROPERTIES:3||4MIKTOARM STAR COPOLYMER:3||SYSTEM:3||PHASEBEHAVIOR:3||AQUEOUSSOLUTIONS:3||RHEOLOGY:3||LB film:3||2DIMENSIONAL LIQUIDCHROMATOGRAPHY:3||VISCOSITY:3||DIBLOCK COPOLYMER MELTS:3||ORDERORDER TRANSITION:3||GYROID PHASE:3||BINDING:3||BLOCK POLYELECTROLYTES:3||DERIVATIVES:3||MELT:3||PHASE LIQUIDCHROMATOGRAPHY:3||high temperature:3||ELEVATEDTEMPERATURE:3||RETENTION:3||MICELLE FORMATION:3||ELECTRONMICROSCOPY:3||Electrospray ionization:2||FRACTIONS:2||nalkanes:2||ISOCRATIC SEPARATION:2||ASSOCIATION:2||POLY(METHYL METHACRYLATE)S:2||2D correlation spectroscopy:2||CARBONATION:2||GLASSTRANSITION BEHAVIORS:2||MECHANICAL PROPERTIES:2||DIMENSIONS:2||POLYMER MIXTURES:2||ALUMINUM PORPHYRIN:2||LEAD STEARATE:2||FERROCENE:2||POLY(EPSILONCAPROLACTONE):2||DIAGRAM:2||nucleosides:2||Selective recognition by preconcentration:2||Electrochemical impedance spectroscopy:2||DOPAMINE:2||Silica:2||Silyl Ester:2||DIETHYL ESTER) PRECURSORS:2||SURFACE CHARACTERIZATION:2||MICROSTRUCTURE:2||polystyreneblockpolyisoprene:2||MICROPHASESEPARATED STRUCTURES:2||IMPEDANCE MEASUREMENTS:2||HEMEPROTEINS:2||SOLID SUBSTRATE:2||MOISTURE ABSORPTION:2||aromatic polyimide:2||INDUCED MORPHOLOGICALCHANGES:2||STABILITY:2||LC alignment layers:2||POLYPYROMELLITIMIDES:2||Ion mobility:2||Chiral polymer:2||OLIGOSACCHARIDES:2||OXIDE:2||SIDECHAIN:2||RETARDATION:2||functionality:2||temperature effects:2||phase transition:2||glass transition temperature:2||spincoated film:2||ESTER) PRECURSORS:2||PRECURSOR BLEND:2||Xray reflectivity:2||SIGMABONDS:2||aluminum porphyrin catalysts:2||METALLOPORPHYRIN:2||SILICON:2||MASSSPECTROMETRY ANALYSIS:2||STAR POLYMERS:2||SIZE DISTRIBUTIONS:2||GIANT VESICLES:2||POLY(3ALKYLTHIOPHENES):2||ADHESION:2||LIGHT:2||POLYSTYRENEBPOLYISOPRENE:2||HPLC fractionation:2||SILVER ELECTRODES:2||ENHANCED RESONANCE RAMAN:2||SEQUENCE:2||POLYELECTROLYTE/NONELECTROLYTE SHELLS:2||polyimide:2||liquid crystal alignment layer:2||SOLUBLE POLYIMIDES:2||POLYBUTADIENECOATED ZIRCONIA:2||PRETILT ANGLES:2||CROSSSECTIONS:2||IMSMS:2||POLYISOPRENE COPOLYMERS:2||POLYIMIDE THINFILMS:2||POLYMER SURFACES:2||RAMAN:2||STEREOREGULAR PMMA:2||poly(tertbutyl methacrylate) (PtBMA):2||TIME:2||POLYIMIDE COMPOSITE:2||CARBOXYLATO COMPLEXES:2||AGOSTIC INTERACTIONS:2||MOLECULARSTRUCTURE:2||ALKENE:2||TRANSISTOR MEMORY:2||DEVICES:2||ORTHOGONALITY:2||molecular characterization:2||ORGANOSILICATE DIELECTRIC FILMS:2||AMPHIPHILES:2||Serotonin:2||Anodic stripping differential pulse voltammetry:2||transmission electron microtomography:2||LIQUIDCHROMATOGRAPHY ANALYSIS:2||PHASEDIAGRAM:2||CARBON NANOTUBES:2||TRANSFER MECHANISM:2||BINARY MIXTURES:2||REFLECTOMETRY:2||ROD:2||DROPS:2||CONSTANT:2||TRIBLOCK COPOLYMER:2||POLYMER VESICLES:2||CLICK CHEMISTRY:2||ARRAYS:2||COMPOSITES:2||MALDITOF MS:2||POLYMER THINFILMS:2||HYDROPHOBIC INTERACTION CHROMATOGRAPHY:2||retention mechanism:2||GRAZINGINCIDENCE:2||NANOPOROSITY:2||soluble poly(amic esteraltimide)s:2||DIFFERENTIAL SCANNING CALORIMETRY:2||RESIDUALSTRESS:2||CHEMICALCOMPOSITION:2||POLY(AMIC DIETHYL ESTER) PRECURSOR:2||POLY(DIMETHYL SILOXANES):2||MASS POLYSTYRENES:2||cyclic propylene carbonate:2||propylene oxide:2||ACETATE) TOLUENE SOLUTIONS:2||TRANSIENT GRATING METHOD:2||MASS DIFFUSION:2||MICROPHASE SEPARATION TRANSITION:2||POLYSTYRENES:2||POLYSILANE:2||CARBOHYDRATEBASED PHOSPHOLIPIDS:2||HELICAL STRANDS:2||FLUORESCENCE DETECTION:2||SENSITIVE DETERMINATION:2||COMPOSITE FILMS:2||microphase:2||3MERCAPTOPROPIONIC ACID:2||BUTADIENE BLOCK COPOLYMER:2||HYBRID POLYMERIC MICELLES:2||AQUEOUSMEDIA:2||CONTACTANGLE:2||TRANSISTORCIRCUITS:2||ABTYPE POLY(ETHERIMIDE)S:2||CORRELATION SPECTROSCOPY:2||GASPHASE CONFORMATIONS:2||DECANE:2||INFRAREDSPECTROSCOPY:2||MICELLIZATION:2||ENERGIES:2||ACID) PRECURSORS:2||PHOTOALIGNMENT:2||polymers:2||SUBSTRATE:2||carbon dioxide:2||oligomeric propylene carbonate:2||THERMALDIFFUSION:2||CRYSTAL:2||PHASETRANSITION:2||REFLECTIVITY:2||ANALOGS:2||supramolecular chemistry:2||LYSOPHOSPHATIDIC ACID:2||PHOSPHOCHOLINE:2||POLY(3HEXYLTHIOPHENE):2||Receptor:2||MODIFIED GOLD ELECTRODES:2||ASCORBICACID:2||HUMAN URINE:2||Hybrid Nanocomposite:2||Dielectric Constant:2||AU(111) ELECTRODES:2||NANOFILMS:2||HYDROPHOBIC CORES:2||DRIVEN:2||FLEXIBLE SIDECHAINS:2||MESOGEN:2||size exclusion chromatography:2||ORGANIZATION:2||POLY(LACTIC ACID):2||MOLECULAR ARCHITECTURE:2||COUPLER:2||POLYSTYRENE COPOLYMER:2||diffusion coefficient:2||XRAY REFLECTIVITY:2||temperature gradient interaction chromatography polystyryllithium:2||VISCOELASTIC PROPERTIES:2||polyisoprene:2||CRYSTALSTRUCTURES:2||POLYCARBONATE:2||MULTILAYERS:2||DEPOSITION:2||FULL ADSORPTION MECHANISMS:2||QUANTUM DOTS:2||CRITICAL ORDERING TRANSITION:2||CORE:2||PARACRYSTALLINE DISTORTION:2||PERFORATED LAYER PHASE:2||liposomes:2||phospholipids:2||UNILAMELLAR VESICLES:2||VOLTAMMETRIC DETERMINATION:2||Polyimide:2||FOURIERTRANSFORM:2||SURFACE:2||SIZE EXCLUSION CHROMATOGRAPHY:2||NEUTRON REFLECTIVITY:2||ORDERED STRUCTURE:2||RIGID ROD POLYMERS:2||DISPLACEMENT POLYMERIZATION:2||PHOTOSENSITIVE POLYIMIDE:2||EFFICIENCY:2||films:2||Polylactide:2||CHROMATOGRAPHIC CRITICAL CONDITION:2||RETENTION MECHANISM:2||COPPER PHTHALOCYANINE:2||C60:2||COPOLYMER:2||micelle:2||LINEAR POLYETHYLENE:2||LIQUIDS:2||ARMS:2||HIGHPERFORMANCE LIQUID:2||alternating copolyimides:2||PHASE SEPARATION:2||POLYMERCHAINS:2||STYRYLPYRIDINIUM:2||ANGLES:2||MOBILITY:2||PROBE:2||ACIDS:2||BLUE:2||POSITIONS:2||CYCLOPENTADIENYL:2||HIGHMOLECULARWEIGHT:2||FUELCELLS:2||TIN OXIDE:2||NANOCRYSTALS:2||SURFACE MICELLE FORMATION:2||DISORDER TRANSITION:2||BIREFRINGENCE:2||LIPIDCOMPOSITION:2||CONJUGATED POLYMERS:2||GLASSYCARBON ELECTRODE:2||ELECTROCHEMICAL DETECTION:2||MULTIPLE DETECTION:2||aromatic polyimides:2||MOLECULARWEIGHT HOMOPOLYMERS:2||BINARYMIXTURE:2||PATTERNS:2||photoluminescent polyimide:2||photosensitive polyimide:2||DEPENDENT MICELLIZATION:2||SPEED:2||synthesis:2||COIL BLOCKCOPOLYMERS:2||LIQUIDCRYSTALLINE ASSEMBLIES:2||OXIDE):2||molecular weight distribution:2||CONJUGATED POLYMER:2||polymer characterization:2||NONIONIC SURFACTANTS:2||STEREOREGULAR POLY(METHYL METHACRYLATE):2||structure:2||RODLIKE POLYIMIDE:2||FLEXIBLE POLYIMIDE:2||THERMAL IMIDIZATION:2||IN SITU RODCHAIN FORMATION:2||PHASESEPARATION:2||VINYL ETHER):2||EQUILIBRIUM:2||STRESS:2||STRUCTURAL RELAXATION:2||LIVING POLYMERIZATION:2||CONTAIN:2||SALT:2||WAVEGUIDE:2||XRAY DIFFRACTION:2||WALLED CARBON NANOTUBES:2||SILICON NANOWIRES:2||IR:2||DIELECTRIC THINFILMS:2||Selfassembled monolayer:2||PARAMETERS:2||Temperature gradient interaction chromatography:2||SOLIDSURFACES:2||FLOW:2||RATES:2||PRECURSORS:2||FILM BALANCE:2||SIDECHAINS:2||SUPRAMOLECULAR MATERIALS:2||CHAINS:2||POLYSTYRENE:39||ANIONICPOLYMERIZATION:34||GRADIENT INTERACTION CHROMATOGRAPHY:31||SEPARATION:27||BEHAVIOR:24||LIQUIDCHROMATOGRAPHY:22||POLYMERS:22||SIZEEXCLUSION CHROMATOGRAPHY:19||BLOCKCOPOLYMERS:17||DIBLOCK COPOLYMERS:17||THINFILMS:16||POLYISOPRENE:14||HPLC:13||SYNTHETICPOLYMERS:12||PERFORMANCE LIQUIDCHROMATOGRAPHY:11||DIBLOCK COPOLYMER:11||MOLECULARWEIGHT DISTRIBUTION:10||MACROMOLECULES:10||BLOCKCOPOLYMER:10||REVERSEDPHASE:10||RETENTION BEHAVIOR:10||MORPHOLOGY:9||MOLECULARWEIGHT:9||MELTS:9||AROMATIC POLYIMIDES:8||XRAYSCATTERING:8||polystyrene:8||MIXTURES:7||block copolymer:7||SURFACES:7||DEPENDENCE:7||COPOLYMERS:7||POLYMERIZATION:7||AIR/WATER INTERFACE:7||DEFINED BRUSH POLYIMIDE:6||TEMPERATURE:6||FULLY RODLIKE BACKBONE:6||MONOLAYERS:6||POLYIMIDES:6||CHAIN:6||COMPLEX POLYMERS:6||MOLECULARREORIENTATION:6||temperature gradient interaction chromatography:6||POLYMERFILMS:6||GELPERMEATION CHROMATOGRAPHY:6||ELUTION:6||ORDERDISORDER TRANSITION:6||SURFACEMORPHOLOGY:6||ORIENTATION:6||SYSTEMS:6||CRITICAL ADSORPTION POINT:6||LIGHTSCATTERING:5||PROBE DIFFUSION:5||POLYDISPERSITY:5||AIRWATERINTERFACE:5||MICROPHASE SEPARATION:5||GLASSTRANSITION:5||BLENDS:5||FILMS:5||ADSORPTION CHROMATOGRAPHY:5||MECHANISM:5||CO2:5||ETHYLENEOXIDE:5||ALIGNMENT:5||COMPLEXES:5||FRACTIONATION:5||MISCIBILITY:5||POLYMER CHARACTERIZATION:5||HEXAGONALLY PERFORATED LAYER:5||TRANSITION:5||FLIGHT MASSSPECTROMETRY:5||ARCHITECTURE:5||POLY(METHYL METHACRYLATE):5||ALTERNATING COPOLYMERIZATION:4||THICKNESS:4||THERMODYNAMICS:4||CRITICAL RANGE:4||ULTRATHIN POLYMERFILMS:4||DYNAMICS:4||CLIMATECHANGE:4||PHASE:4||GLASSTRANSITION TEMPERATURE:4||EPOXIDE:4||selfassembly:4||SPECTROSCOPY:4||SELFDIFFUSION:4||SCATTERING:4||OPTICALPROPERTIES:4||CATALYSTS:4||CHEMISTRY:4||SOLARCELLS:4||polyimides:4||polypyromellitimides:4||SEGMENTAL REORIENTATIONS:4||ADSORPTION:4||INTERFACE:4||POLYMERSOLUTIONS:4||TRACER DIFFUSION:4||OXIDE) DIBLOCK COPOLYMER:4||POLYSTYRENEBPOLY(METHYL METHACRYLATE):4||POLYMER BLENDS:4||SIMULATION:4||CHAIN ORIENTATION:4||STYRENE:4||TOF MASSSPECTROMETRY:4||WATER:4||DISPLAYS:4||OLIGOMERS:4||PEPTIDES:4||CYCLIC POLYSTYRENE:4||LATTICE CLUSTER THEORY:4||2NDHARMONIC GENERATION:4||LIQUIDCRYSTAL ALIGNMENT:4||MONTECARLO:4||LangmuirBlodgett film:3||ASSEMBLIES:3||chromatography:3||HOLOGRAPHIC RELAXATION SPECTROSCOPY:3||MULTIPLE MORPHOLOGIES:3||INTERACTION CHROMATOGRAPHY:3||NORMALPHASE:3||DIFFUSION:3||BRANCHED POLYSTYRENE:3||NANOPARTICLES:3||LITHOGRAPHY:3||POLYMER:3||LASERLIGHTSCATTERING:3||HIGH MOLECULARWEIGHT:3||CUBIC PHASE:3||AMPHIPHILIC BLOCKCOPOLYMERS:3||AQUEOUSSOLUTION:3||MODEL:3||FORCED RAYLEIGHSCATTERING:3||HYDRODYNAMIC PROPERTIES:3||4MIKTOARM STAR COPOLYMER:3||SYSTEM:3||PHASEBEHAVIOR:3||AQUEOUSSOLUTIONS:3||RHEOLOGY:3||LB film:3||2DIMENSIONAL LIQUIDCHROMATOGRAPHY:3||VISCOSITY:3||DIBLOCK COPOLYMER MELTS:3||ORDERORDER TRANSITION:3||GYROID PHASE:3||BINDING:3||BLOCK POLYELECTROLYTES:3||DERIVATIVES:3||MELT:3||PHASE LIQUIDCHROMATOGRAPHY:3||high temperature:3||ELEVATEDTEMPERATURE:3||RETENTION:3||MICELLE FORMATION:3||ELECTRONMICROSCOPY:3||Electrospray ionization:2||FRACTIONS:2||nalkanes:2||ISOCRATIC SEPARATION:2||ASSOCIATION:2||POLY(METHYL METHACRYLATE)S:2||2D correlation spectroscopy:2||CARBONATION:2||GLASSTRANSITION BEHAVIORS:2||MECHANICAL PROPERTIES:2||DIMENSIONS:2||POLYMER MIXTURES:2||ALUMINUM PORPHYRIN:2||LEAD STEARATE:2||FERROCENE:2||POLY(EPSILONCAPROLACTONE):2||DIAGRAM:2||nucleosides:2||Selective recognition by preconcentration:2||Electrochemical impedance spectroscopy:2||DOPAMINE:2||Silica:2||Silyl Ester:2||DIETHYL ESTER) PRECURSORS:2||SURFACE CHARACTERIZATION:2||MICROSTRUCTURE:2||polystyreneblockpolyisoprene:2||MICROPHASESEPARATED STRUCTURES:2||IMPEDANCE MEASUREMENTS:2||HEMEPROTEINS:2||SOLID SUBSTRATE:2||MOISTURE ABSORPTION:2||aromatic polyimide:2||INDUCED MORPHOLOGICALCHANGES:2||STABILITY:2||LC alignment layers:2||POLYPYROMELLITIMIDES:2||Ion mobility:2||Chiral polymer:2||OLIGOSACCHARIDES:2||OXIDE:2||SIDECHAIN:2||RETARDATION:2||functionality:2||temperature effects:2||phase transition:2||glass transition temperature:2||spincoated film:2||ESTER) PRECURSORS:2||PRECURSOR BLEND:2||Xray reflectivity:2||SIGMABONDS:2||aluminum porphyrin catalysts:2||METALLOPORPHYRIN:2||SILICON:2||MASSSPECTROMETRY ANALYSIS:2||STAR POLYMERS:2||SIZE DISTRIBUTIONS:2||GIANT VESICLES:2||POLY(3ALKYLTHIOPHENES):2||ADHESION:2||LIGHT:2||POLYSTYRENEBPOLYISOPRENE:2||HPLC fractionation:2||SILVER ELECTRODES:2||ENHANCED RESONANCE RAMAN:2||SEQUENCE:2||POLYELECTROLYTE/NONELECTROLYTE SHELLS:2||polyimide:2||liquid crystal alignment layer:2||SOLUBLE POLYIMIDES:2||POLYBUTADIENECOATED ZIRCONIA:2||PRETILT ANGLES:2||CROSSSECTIONS:2||IMSMS:2||POLYISOPRENE COPOLYMERS:2||POLYIMIDE THINFILMS:2||POLYMER SURFACES:2||RAMAN:2||STEREOREGULAR PMMA:2||poly(tertbutyl methacrylate) (PtBMA):2||TIME:2||POLYIMIDE COMPOSITE:2||CARBOXYLATO COMPLEXES:2||AGOSTIC INTERACTIONS:2||MOLECULARSTRUCTURE:2||ALKENE:2||TRANSISTOR MEMORY:2||DEVICES:2||ORTHOGONALITY:2||molecular characterization:2||ORGANOSILICATE DIELECTRIC FILMS:2||AMPHIPHILES:2||Serotonin:2||Anodic stripping differential pulse voltammetry:2||transmission electron microtomography:2||LIQUIDCHROMATOGRAPHY ANALYSIS:2||PHASEDIAGRAM:2||CARBON NANOTUBES:2||TRANSFER MECHANISM:2||BINARY MIXTURES:2||REFLECTOMETRY:2||ROD:2||DROPS:2||CONSTANT:2||TRIBLOCK COPOLYMER:2||POLYMER VESICLES:2||CLICK CHEMISTRY:2||ARRAYS:2||COMPOSITES:2||MALDITOF MS:2||POLYMER THINFILMS:2||HYDROPHOBIC INTERACTION CHROMATOGRAPHY:2||retention mechanism:2||GRAZINGINCIDENCE:2||NANOPOROSITY:2||soluble poly(amic esteraltimide)s:2||DIFFERENTIAL SCANNING CALORIMETRY:2||RESIDUALSTRESS:2||CHEMICALCOMPOSITION:2||POLY(AMIC DIETHYL ESTER) PRECURSOR:2||POLY(DIMETHYL SILOXANES):2||MASS POLYSTYRENES:2||cyclic propylene carbonate:2||propylene oxide:2||ACETATE) TOLUENE SOLUTIONS:2||TRANSIENT GRATING METHOD:2||MASS DIFFUSION:2||MICROPHASE SEPARATION TRANSITION:2||POLYSTYRENES:2||POLYSILANE:2||CARBOHYDRATEBASED PHOSPHOLIPIDS:2||HELICAL STRANDS:2||FLUORESCENCE DETECTION:2||SENSITIVE DETERMINATION:2||COMPOSITE FILMS:2||microphase:2||3MERCAPTOPROPIONIC ACID:2||BUTADIENE BLOCK COPOLYMER:2||HYBRID POLYMERIC MICELLES:2||AQUEOUSMEDIA:2||CONTACTANGLE:2||TRANSISTORCIRCUITS:2||ABTYPE POLY(ETHERIMIDE)S:2||CORRELATION SPECTROSCOPY:2||GASPHASE CONFORMATIONS:2||DECANE:2||INFRAREDSPECTROSCOPY:2||MICELLIZATION:2||ENERGIES:2||ACID) PRECURSORS:2||PHOTOALIGNMENT:2||polymers:2||SUBSTRATE:2||carbon dioxide:2||oligomeric propylene carbonate:2||THERMALDIFFUSION:2||CRYSTAL:2||PHASETRANSITION:2||REFLECTIVITY:2||ANALOGS:2||supramolecular chemistry:2||LYSOPHOSPHATIDIC ACID:2||PHOSPHOCHOLINE:2||POLY(3HEXYLTHIOPHENE):2||Receptor:2||MODIFIED GOLD ELECTRODES:2||ASCORBICACID:2||HUMAN URINE:2||Hybrid Nanocomposite:2||Dielectric Constant:2||AU(111) ELECTRODES:2||NANOFILMS:2||HYDROPHOBIC CORES:2||DRIVEN:2||FLEXIBLE SIDECHAINS:2||MESOGEN:2||size exclusion chromatography:2||ORGANIZATION:2||POLY(LACTIC ACID):2||MOLECULAR ARCHITECTURE:2||COUPLER:2||POLYSTYRENE COPOLYMER:2||diffusion coefficient:2||XRAY REFLECTIVITY:2||temperature gradient interaction chromatography polystyryllithium:2||VISCOELASTIC PROPERTIES:2||polyisoprene:2||CRYSTALSTRUCTURES:2||POLYCARBONATE:2||MULTILAYERS:2||DEPOSITION:2||FULL ADSORPTION MECHANISMS:2||QUANTUM DOTS:2||CRITICAL ORDERING TRANSITION:2||CORE:2||PARACRYSTALLINE DISTORTION:2||PERFORATED LAYER PHASE:2||liposomes:2||phospholipids:2||UNILAMELLAR VESICLES:2||VOLTAMMETRIC DETERMINATION:2||Polyimide:2||FOURIERTRANSFORM:2||SURFACE:2||SIZE EXCLUSION CHROMATOGRAPHY:2||NEUTRON REFLECTIVITY:2||ORDERED STRUCTURE:2||RIGID ROD POLYMERS:2||DISPLACEMENT POLYMERIZATION:2||PHOTOSENSITIVE POLYIMIDE:2||EFFICIENCY:2||films:2||Polylactide:2||CHROMATOGRAPHIC CRITICAL CONDITION:2||RETENTION MECHANISM:2||COPPER PHTHALOCYANINE:2||C60:2||COPOLYMER:2||micelle:2||LINEAR POLYETHYLENE:2||LIQUIDS:2||ARMS:2||HIGHPERFORMANCE LIQUID:2||alternating copolyimides:2||PHASE SEPARATION:2||POLYMERCHAINS:2||STYRYLPYRIDINIUM:2||ANGLES:2||MOBILITY:2||PROBE:2||ACIDS:2||BLUE:2||POSITIONS:2||CYCLOPENTADIENYL:2||HIGHMOLECULARWEIGHT:2||FUELCELLS:2||TIN OXIDE:2||NANOCRYSTALS:2||SURFACE MICELLE FORMATION:2||DISORDER TRANSITION:2||BIREFRINGENCE:2||LIPIDCOMPOSITION:2||CONJUGATED POLYMERS:2||GLASSYCARBON ELECTRODE:2||ELECTROCHEMICAL DETECTION:2||MULTIPLE DETECTION:2||aromatic polyimides:2||MOLECULARWEIGHT HOMOPOLYMERS:2||BINARYMIXTURE:2||PATTERNS:2||photoluminescent polyimide:2||photosensitive polyimide:2||DEPENDENT MICELLIZATION:2||SPEED:2||synthesis:2||COIL BLOCKCOPOLYMERS:2||LIQUIDCRYSTALLINE ASSEMBLIES:2||OXIDE):2||molecular weight distribution:2||CONJUGATED POLYMER:2||polymer characterization:2||NONIONIC SURFACTANTS:2||STEREOREGULAR POLY(METHYL METHACRYLATE):2||structure:2||RODLIKE POLYIMIDE:2||FLEXIBLE POLYIMIDE:2||THERMAL IMIDIZATION:2||IN SITU RODCHAIN FORMATION:2||PHASESEPARATION:2||VINYL ETHER):2||EQUILIBRIUM:2||STRESS:2||STRUCTURAL RELAXATION:2||LIVING POLYMERIZATION:2||CONTAIN:2||SALT:2||WAVEGUIDE:2||XRAY DIFFRACTION:2||WALLED CARBON NANOTUBES:2||SILICON NANOWIRES:2||IR:2||DIELECTRIC THINFILMS:2||Selfassembled monolayer:2||PARAMETERS:2||Temperature gradient interaction chromatography:2||SOLIDSURFACES:2||FLOW:2||RATES:2||PRECURSORS:2||FILM BALANCE:2||SIDECHAINS:2||SUPRAMOLECULAR MATERIALS:2||CHAINS:2||POLYSTYRENE:39||ANIONICPOLYMERIZATION:34||GRADIENT INTERACTION CHROMATOGRAPHY:31||SEPARATION:27||BEHAVIOR:24||LIQUIDCHROMATOGRAPHY:22||POLYMERS:22||SIZEEXCLUSION CHROMATOGRAPHY:19||BLOCKCOPOLYMERS:17||DIBLOCK COPOLYMERS:17||THINFILMS:16||POLYISOPRENE:14||HPLC:13||SYNTHETICPOLYMERS:12||PERFORMANCE LIQUIDCHROMATOGRAPHY:11||DIBLOCK COPOLYMER:11||MOLECULARWEIGHT DISTRIBUTION:10||MACROMOLECULES:10||BLOCKCOPOLYMER:10||REVERSEDPHASE:10||RETENTION BEHAVIOR:10||MORPHOLOGY:9||MOLECULARWEIGHT:9||MELTS:9||AROMATIC POLYIMIDES:8||XRAYSCATTERING:8||polystyrene:8||MIXTURES:7||block copolymer:7||SURFACES:7||DEPENDENCE:7||COPOLYMERS:7||POLYMERIZATION:7||AIR/WATER INTERFACE:7||DEFINED BRUSH POLYIMIDE:6||TEMPERATURE:6||FULLY RODLIKE BACKBONE:6||MONOLAYERS:6||POLYIMIDES:6||CHAIN:6||COMPLEX POLYMERS:6||MOLECULARREORIENTATION:6||temperature gradient interaction chromatography:6||POLYMERFILMS:6||GELPERMEATION CHROMATOGRAPHY:6||ELUTION:6||ORDERDISORDER TRANSITION:6||SURFACEMORPHOLOGY:6||ORIENTATION:6||SYSTEMS:6||CRITICAL ADSORPTION POINT:6||LIGHTSCATTERING:5||PROBE DIFFUSION:5||POLYDISPERSITY:5||AIRWATERINTERFACE:5||MICROPHASE SEPARATION:5||GLASSTRANSITION:5||BLENDS:5||FILMS:5||ADSORPTION CHROMATOGRAPHY:5||MECHANISM:5||CO2:5||ETHYLENEOXIDE:5||ALIGNMENT:5||COMPLEXES:5||FRACTIONATION:5||MISCIBILITY:5||POLYMER CHARACTERIZATION:5||HEXAGONALLY PERFORATED LAYER:5||TRANSITION:5||FLIGHT MASSSPECTROMETRY:5||ARCHITECTURE:5||POLY(METHYL METHACRYLATE):5||ALTERNATING COPOLYMERIZATION:4||THICKNESS:4||THERMODYNAMICS:4||CRITICAL RANGE:4||ULTRATHIN POLYMERFILMS:4||DYNAMICS:4||CLIMATECHANGE:4||PHASE:4||GLASSTRANSITION TEMPERATURE:4||EPOXIDE:4||selfassembly:4||SPECTROSCOPY:4||SELFDIFFUSION:4||SCATTERING:4||OPTICALPROPERTIES:4||CATALYSTS:4||CHEMISTRY:4||SOLARCELLS:4||polyimides:4||polypyromellitimides:4||SEGMENTAL REORIENTATIONS:4||ADSORPTION:4||INTERFACE:4||POLYMERSOLUTIONS:4||TRACER DIFFUSION:4||OXIDE) DIBLOCK COPOLYMER:4||POLYSTYRENEBPOLY(METHYL METHACRYLATE):4||POLYMER BLENDS:4||SIMULATION:4||CHAIN ORIENTATION:4||STYRENE:4||TOF MASSSPECTROMETRY:4||WATER:4||DISPLAYS:4||OLIGOMERS:4||PEPTIDES:4||CYCLIC POLYSTYRENE:4||LATTICE CLUSTER THEORY:4||2NDHARMONIC GENERATION:4||LIQUIDCRYSTAL ALIGNMENT:4||MONTECARLO:4||LangmuirBlodgett film:3||ASSEMBLIES:3||chromatography:3||HOLOGRAPHIC RELAXATION SPECTROSCOPY:3||MULTIPLE MORPHOLOGIES:3||INTERACTION CHROMATOGRAPHY:3||NORMALPHASE:3||DIFFUSION:3||BRANCHED POLYSTYRENE:3||NANOPARTICLES:3||LITHOGRAPHY:3||POLYMER:3||LASERLIGHTSCATTERING:3||HIGH MOLECULARWEIGHT:3||CUBIC PHASE:3||AMPHIPHILIC BLOCKCOPOLYMERS:3||AQUEOUSSOLUTION:3||MODEL:3||FORCED RAYLEIGHSCATTERING:3||HYDRODYNAMIC PROPERTIES:3||4MIKTOARM STAR COPOLYMER:3||SYSTEM:3||PHASEBEHAVIOR:3||AQUEOUSSOLUTIONS:3||RHEOLOGY:3||LB film:3||2DIMENSIONAL LIQUIDCHROMATOGRAPHY:3||VISCOSITY:3||DIBLOCK COPOLYMER MELTS:3||ORDERORDER TRANSITION:3||GYROID PHASE:3||BINDING:3||BLOCK POLYELECTROLYTES:3||DERIVATIVES:3||MELT:3||PHASE LIQUIDCHROMATOGRAPHY:3||high temperature:3||ELEVATEDTEMPERATURE:3||RETENTION:3||MICELLE FORMATION:3||ELECTRONMICROSCOPY:3||Electrospray ionization:2||FRACTIONS:2||nalkanes:2||ISOCRATIC SEPARATION:2||ASSOCIATION:2||POLY(METHYL METHACRYLATE)S:2||2D correlation spectroscopy:2||CARBONATION:2||GLASSTRANSITION BEHAVIORS:2||MECHANICAL PROPERTIES:2||DIMENSIONS:2||POLYMER MIXTURES:2||ALUMINUM PORPHYRIN:2||LEAD STEARATE:2||FERROCENE:2||POLY(EPSILONCAPROLACTONE):2||DIAGRAM:2||nucleosides:2||Selective recognition by preconcentration:2||Electrochemical impedance spectroscopy:2||DOPAMINE:2||Silica:2||Silyl Ester:2||DIETHYL ESTER) PRECURSORS:2||SURFACE CHARACTERIZATION:2||MICROSTRUCTURE:2||polystyreneblockpolyisoprene:2||MICROPHASESEPARATED STRUCTURES:2||IMPEDANCE MEASUREMENTS:2||HEMEPROTEINS:2||SOLID SUBSTRATE:2||MOISTURE ABSORPTION:2||aromatic polyimide:2||INDUCED MORPHOLOGICALCHANGES:2||STABILITY:2||LC alignment layers:2||POLYPYROMELLITIMIDES:2||Ion mobility:2||Chiral polymer:2||OLIGOSACCHARIDES:2||OXIDE:2||SIDECHAIN:2||RETARDATION:2||functionality:2||temperature effects:2||phase transition:2||glass transition temperature:2||spincoated film:2||ESTER) PRECURSORS:2||PRECURSOR BLEND:2||Xray reflectivity:2||SIGMABONDS:2||aluminum porphyrin catalysts:2||METALLOPORPHYRIN:2||SILICON:2||MASSSPECTROMETRY ANALYSIS:2||STAR POLYMERS:2||SIZE DISTRIBUTIONS:2||GIANT VESICLES:2||POLY(3ALKYLTHIOPHENES):2||ADHESION:2||LIGHT:2||POLYSTYRENEBPOLYISOPRENE:2||HPLC fractionation:2||SILVER ELECTRODES:2||ENHANCED RESONANCE RAMAN:2||SEQUENCE:2||POLYELECTROLYTE/NONELECTROLYTE SHELLS:2||polyimide:2||liquid crystal alignment layer:2||SOLUBLE POLYIMIDES:2||POLYBUTADIENECOATED ZIRCONIA:2||PRETILT ANGLES:2||CROSSSECTIONS:2||IMSMS:2||POLYISOPRENE COPOLYMERS:2||POLYIMIDE THINFILMS:2||POLYMER SURFACES:2||RAMAN:2||STEREOREGULAR PMMA:2||poly(tertbutyl methacrylate) (PtBMA):2||TIME:2||POLYIMIDE COMPOSITE:2||CARBOXYLATO COMPLEXES:2||AGOSTIC INTERACTIONS:2||MOLECULARSTRUCTURE:2||ALKENE:2||TRANSISTOR MEMORY:2||DEVICES:2||ORTHOGONALITY:2||molecular characterization:2||ORGANOSILICATE DIELECTRIC FILMS:2||AMPHIPHILES:2||Serotonin:2||Anodic stripping differential pulse voltammetry:2||transmission electron microtomography:2||LIQUIDCHROMATOGRAPHY ANALYSIS:2||PHASEDIAGRAM:2||CARBON NANOTUBES:2||TRANSFER MECHANISM:2||BINARY MIXTURES:2||REFLECTOMETRY:2||ROD:2||DROPS:2||CONSTANT:2||TRIBLOCK COPOLYMER:2||POLYMER VESICLES:2||CLICK CHEMISTRY:2||ARRAYS:2||COMPOSITES:2||MALDITOF MS:2||POLYMER THINFILMS:2||HYDROPHOBIC INTERACTION CHROMATOGRAPHY:2||retention mechanism:2||GRAZINGINCIDENCE:2||NANOPOROSITY:2||soluble poly(amic esteraltimide)s:2||DIFFERENTIAL SCANNING CALORIMETRY:2||RESIDUALSTRESS:2||CHEMICALCOMPOSITION:2||POLY(AMIC DIETHYL ESTER) PRECURSOR:2||POLY(DIMETHYL SILOXANES):2||MASS POLYSTYRENES:2||cyclic propylene carbonate:2||propylene oxide:2||ACETATE) TOLUENE SOLUTIONS:2||TRANSIENT GRATING METHOD:2||MASS DIFFUSION:2||MICROPHASE SEPARATION TRANSITION:2||POLYSTYRENES:2||POLYSILANE:2||CARBOHYDRATEBASED PHOSPHOLIPIDS:2||HELICAL STRANDS:2||FLUORESCENCE DETECTION:2||SENSITIVE DETERMINATION:2||COMPOSITE FILMS:2||microphase:2||3MERCAPTOPROPIONIC ACID:2||BUTADIENE BLOCK COPOLYMER:2||HYBRID POLYMERIC MICELLES:2||AQUEOUSMEDIA:2||CONTACTANGLE:2||TRANSISTORCIRCUITS:2||ABTYPE POLY(ETHERIMIDE)S:2||CORRELATION SPECTROSCOPY:2||GASPHASE CONFORMATIONS:2||DECANE:2||INFRAREDSPECTROSCOPY:2||MICELLIZATION:2||ENERGIES:2||ACID) PRECURSORS:2||PHOTOALIGNMENT:2||polymers:2||SUBSTRATE:2||carbon dioxide:2||oligomeric propylene carbonate:2||THERMALDIFFUSION:2||CRYSTAL:2||PHASETRANSITION:2||REFLECTIVITY:2||ANALOGS:2||supramolecular chemistry:2||LYSOPHOSPHATIDIC ACID:2||PHOSPHOCHOLINE:2||POLY(3HEXYLTHIOPHENE):2||Receptor:2||MODIFIED GOLD ELECTRODES:2||ASCORBICACID:2||HUMAN URINE:2||Hybrid Nanocomposite:2||Dielectric Constant:2||AU(111) ELECTRODES:2||NANOFILMS:2||HYDROPHOBIC CORES:2||DRIVEN:2||FLEXIBLE SIDECHAINS:2||MESOGEN:2||size exclusion chromatography:2||ORGANIZATION:2||POLY(LACTIC ACID):2||MOLECULAR ARCHITECTURE:2||COUPLER:2||POLYSTYRENE COPOLYMER:2||diffusion coefficient:2||XRAY REFLECTIVITY:2||temperature gradient interaction chromatography polystyryllithium:2||VISCOELASTIC PROPERTIES:2||polyisoprene:2||CRYSTALSTRUCTURES:2||POLYCARBONATE:2||MULTILAYERS:2||DEPOSITION:2||FULL ADSORPTION MECHANISMS:2||QUANTUM DOTS:2||CRITICAL ORDERING TRANSITION:2||CORE:2||PARACRYSTALLINE DISTORTION:2||PERFORATED LAYER PHASE:2||liposomes:2||phospholipids:2||UNILAMELLAR VESICLES:2||VOLTAMMETRIC DETERMINATION:2||Polyimide:2||FOURIERTRANSFORM:2||SURFACE:2||SIZE EXCLUSION CHROMATOGRAPHY:2||NEUTRON REFLECTIVITY:2||ORDERED STRUCTURE:2||RIGID ROD POLYMERS:2||DISPLACEMENT POLYMERIZATION:2||PHOTOSENSITIVE POLYIMIDE:2||EFFICIENCY:2||films:2||Polylactide:2||CHROMATOGRAPHIC CRITICAL CONDITION:2||RETENTION MECHANISM:2||COPPER PHTHALOCYANINE:2||C60:2||COPOLYMER:2||micelle:2||LINEAR POLYETHYLENE:2||LIQUIDS:2||ARMS:2||HIGHPERFORMANCE LIQUID:2||alternating copolyimides:2||PHASE SEPARATION:2||POLYMERCHAINS:2||STYRYLPYRIDINIUM:2||ANGLES:2||MOBILITY:2||PROBE:2||ACIDS:2||BLUE:2||POSITIONS:2||CYCLOPENTADIENYL:2||HIGHMOLECULARWEIGHT:2||FUELCELLS:2||TIN OXIDE:2||NANOCRYSTALS:2||SURFACE MICELLE FORMATION:2||DISORDER TRANSITION:2||BIREFRINGENCE:2||LIPIDCOMPOSITION:2||CONJUGATED POLYMERS:2||GLASSYCARBON ELECTRODE:2||ELECTROCHEMICAL DETECTION:2||MULTIPLE DETECTION:2||aromatic polyimides:2||MOLECULARWEIGHT HOMOPOLYMERS:2||BINARYMIXTURE:2||PATTERNS:2||photoluminescent polyimide:2||photosensitive polyimide:2||DEPENDENT MICELLIZATION:2||SPEED:2||synthesis:2||COIL BLOCKCOPOLYMERS:2||LIQUIDCRYSTALLINE ASSEMBLIES:2||OXIDE):2||molecular weight distribution:2||CONJUGATED POLYMER:2||polymer characterization:2||NONIONIC SURFACTANTS:2||STEREOREGULAR POLY(METHYL METHACRYLATE):2||structure:2||RODLIKE POLYIMIDE:2||FLEXIBLE POLYIMIDE:2||THERMAL IMIDIZATION:2||IN SITU RODCHAIN FORMATION:2||PHASESEPARATION:2||VINYL ETHER):2||EQUILIBRIUM:2||STRESS:2||STRUCTURAL RELAXATION:2||LIVING POLYMERIZATION:2||CONTAIN:2||SALT:2||WAVEGUIDE:2||XRAY DIFFRACTION:2||WALLED CARBON NANOTUBES:2||SILICON NANOWIRES:2||IR:2||DIELECTRIC THINFILMS:2||Selfassembled monolayer:2||PARAMETERS:2||Temperature gradient interaction chromatography:2||SOLIDSURFACES:2||FLOW:2||RATES:2||PRECURSORS:2||FILM BALANCE:2||SIDECHAINS:2||SUPRAMOLECULAR MATERIALS:2||CHAINS:2||POLYSTYRENE:39||ANIONICPOLYMERIZATION:34||GRADIENT INTERACTION CHROMATOGRAPHY:31||SEPARATION:27||BEHAVIOR:24||LIQUIDCHROMATOGRAPHY:22||POLYMERS:22||SIZEEXCLUSION CHROMATOGRAPHY:19||BLOCKCOPOLYMERS:17||DIBLOCK COPOLYMERS:17||THINFILMS:16||POLYISOPRENE:14||HPLC:13||SYNTHETICPOLYMERS:12||PERFORMANCE LIQUIDCHROMATOGRAPHY:11||DIBLOCK COPOLYMER:11||MOLECULARWEIGHT DISTRIBUTION:10||MACROMOLECULES:10||BLOCKCOPOLYMER:10||REVERSEDPHASE:10||RETENTION BEHAVIOR:10||MORPHOLOGY:9||MOLECULARWEIGHT:9||MELTS:9||AROMATIC POLYIMIDES:8||XRAYSCATTERING:8||polystyrene:8||MIXTURES:7||block copolymer:7||SURFACES:7||DEPENDENCE:7||COPOLYMERS:7||POLYMERIZATION:7||AIR/WATER INTERFACE:7||DEFINED BRUSH POLYIMIDE:6||TEMPERATURE:6||FULLY RODLIKE BACKBONE:6||MONOLAYERS:6||POLYIMIDES:6||CHAIN:6||COMPLEX POLYMERS:6||MOLECULARREORIENTATION:6||temperature gradient interaction chromatography:6||POLYMERFILMS:6||GELPERMEATION CHROMATOGRAPHY:6||ELUTION:6||ORDERDISORDER TRANSITION:6||SURFACEMORPHOLOGY:6||ORIENTATION:6||SYSTEMS:6||CRITICAL ADSORPTION POINT:6||LIGHTSCATTERING:5||PROBE DIFFUSION:5||POLYDISPERSITY:5||AIRWATERINTERFACE:5||MICROPHASE SEPARATION:5||GLASSTRANSITION:5||BLENDS:5||FILMS:5||ADSORPTION CHROMATOGRAPHY:5||MECHANISM:5||CO2:5||ETHYLENEOXIDE:5||ALIGNMENT:5||COMPLEXES:5||FRACTIONATION:5||MISCIBILITY:5||POLYMER CHARACTERIZATION:5||HEXAGONALLY PERFORATED LAYER:5||TRANSITION:5||FLIGHT MASSSPECTROMETRY:5||ARCHITECTURE:5||POLY(METHYL METHACRYLATE):5||ALTERNATING COPOLYMERIZATION:4||THICKNESS:4||THERMODYNAMICS:4||CRITICAL RANGE:4||ULTRATHIN POLYMERFILMS:4||DYNAMICS:4||CLIMATECHANGE:4||PHASE:4||GLASSTRANSITION TEMPERATURE:4||EPOXIDE:4||selfassembly:4||SPECTROSCOPY:4||SELFDIFFUSION:4||SCATTERING:4||OPTICALPROPERTIES:4||CATALYSTS:4||CHEMISTRY:4||SOLARCELLS:4||polyimides:4||polypyromellitimides:4||SEGMENTAL REORIENTATIONS:4||ADSORPTION:4||INTERFACE:4||POLYMERSOLUTIONS:4||TRACER DIFFUSION:4||OXIDE) DIBLOCK COPOLYMER:4||POLYSTYRENEBPOLY(METHYL METHACRYLATE):4||POLYMER BLENDS:4||SIMULATION:4||CHAIN ORIENTATION:4||STYRENE:4||TOF MASSSPECTROMETRY:4||WATER:4||DISPLAYS:4||OLIGOMERS:4||PEPTIDES:4||CYCLIC POLYSTYRENE:4||LATTICE CLUSTER THEORY:4||2NDHARMONIC GENERATION:4||LIQUIDCRYSTAL ALIGNMENT:4||MONTECARLO:4||LangmuirBlodgett film:3||ASSEMBLIES:3||chromatography:3||HOLOGRAPHIC RELAXATION SPECTROSCOPY:3||MULTIPLE MORPHOLOGIES:3||INTERACTION CHROMATOGRAPHY:3||NORMALPHASE:3||DIFFUSION:3||BRANCHED POLYSTYRENE:3||NANOPARTICLES:3||LITHOGRAPHY:3||POLYMER:3||LASERLIGHTSCATTERING:3||HIGH MOLECULARWEIGHT:3||CUBIC PHASE:3||AMPHIPHILIC BLOCKCOPOLYMERS:3||AQUEOUSSOLUTION:3||MODEL:3||FORCED RAYLEIGHSCATTERING:3||HYDRODYNAMIC PROPERTIES:3||4MIKTOARM STAR COPOLYMER:3||SYSTEM:3||PHASEBEHAVIOR:3||AQUEOUSSOLUTIONS:3||RHEOLOGY:3||LB film:3||2DIMENSIONAL LIQUIDCHROMATOGRAPHY:3||VISCOSITY:3||DIBLOCK COPOLYMER MELTS:3||ORDERORDER TRANSITION:3||GYROID PHASE:3||BINDING:3||BLOCK POLYELECTROLYTES:3||DERIVATIVES:3||MELT:3||PHASE LIQUIDCHROMATOGRAPHY:3||high temperature:3||ELEVATEDTEMPERATURE:3||RETENTION:3||MICELLE FORMATION:3||ELECTRONMICROSCOPY:3||Electrospray ionization:2||FRACTIONS:2||nalkanes:2||ISOCRATIC SEPARATION:2||ASSOCIATION:2||POLY(METHYL METHACRYLATE)S:2||2D correlation spectroscopy:2||CARBONATION:2||GLASSTRANSITION BEHAVIORS:2||MECHANICAL PROPERTIES:2||DIMENSIONS:2||POLYMER MIXTURES:2||ALUMINUM PORPHYRIN:2||LEAD STEARATE:2||FERROCENE:2||POLY(EPSILONCAPROLACTONE):2||DIAGRAM:2||nucleosides:2||Selective recognition by preconcentration:2||Electrochemical impedance spectroscopy:2||DOPAMINE:2||Silica:2||Silyl Ester:2||DIETHYL ESTER) PRECURSORS:2||SURFACE CHARACTERIZATION:2||MICROSTRUCTURE:2||polystyreneblockpolyisoprene:2||MICROPHASESEPARATED STRUCTURES:2||IMPEDANCE MEASUREMENTS:2||HEMEPROTEINS:2||SOLID SUBSTRATE:2||MOISTURE ABSORPTION:2||aromatic polyimide:2||INDUCED MORPHOLOGICALCHANGES:2||STABILITY:2||LC alignment layers:2||POLYPYROMELLITIMIDES:2||Ion mobility:2||Chiral polymer:2||OLIGOSACCHARIDES:2||OXIDE:2||SIDECHAIN:2||RETARDATION:2||functionality:2||temperature effects:2||phase transition:2||glass transition temperature:2||spincoated film:2||ESTER) PRECURSORS:2||PRECURSOR BLEND:2||Xray reflectivity:2||SIGMABONDS:2||aluminum porphyrin catalysts:2||METALLOPORPHYRIN:2||SILICON:2||MASSSPECTROMETRY ANALYSIS:2||STAR POLYMERS:2||SIZE DISTRIBUTIONS:2||GIANT VESICLES:2||POLY(3ALKYLTHIOPHENES):2||ADHESION:2||LIGHT:2||POLYSTYRENEBPOLYISOPRENE:2||HPLC fractionation:2||SILVER ELECTRODES:2||ENHANCED RESONANCE RAMAN:2||SEQUENCE:2||POLYELECTROLYTE/NONELECTROLYTE SHELLS:2||polyimide:2||liquid crystal alignment layer:2||SOLUBLE POLYIMIDES:2||POLYBUTADIENECOATED ZIRCONIA:2||PRETILT ANGLES:2||CROSSSECTIONS:2||IMSMS:2||POLYISOPRENE COPOLYMERS:2||POLYIMIDE THINFILMS:2||POLYMER SURFACES:2||RAMAN:2||STEREOREGULAR PMMA:2||poly(tertbutyl methacrylate) (PtBMA):2||TIME:2||POLYIMIDE COMPOSITE:2||CARBOXYLATO COMPLEXES:2||AGOSTIC INTERACTIONS:2||MOLECULARSTRUCTURE:2||ALKENE:2||TRANSISTOR MEMORY:2||DEVICES:2||ORTHOGONALITY:2||molecular characterization:2||ORGANOSILICATE DIELECTRIC FILMS:2||AMPHIPHILES:2||Serotonin:2||Anodic stripping differential pulse voltammetry:2||transmission electron microtomography:2||LIQUIDCHROMATOGRAPHY ANALYSIS:2||PHASEDIAGRAM:2||CARBON NANOTUBES:2||TRANSFER MECHANISM:2||BINARY MIXTURES:2||REFLECTOMETRY:2||ROD:2||DROPS:2||CONSTANT:2||TRIBLOCK COPOLYMER:2||POLYMER VESICLES:2||CLICK CHEMISTRY:2||ARRAYS:2||COMPOSITES:2||MALDITOF MS:2||POLYMER THINFILMS:2||HYDROPHOBIC INTERACTION CHROMATOGRAPHY:2||retention mechanism:2||GRAZINGINCIDENCE:2||NANOPOROSITY:2||soluble poly(amic esteraltimide)s:2||DIFFERENTIAL SCANNING CALORIMETRY:2||RESIDUALSTRESS:2||CHEMICALCOMPOSITION:2||POLY(AMIC DIETHYL ESTER) PRECURSOR:2||POLY(DIMETHYL SILOXANES):2||MASS POLYSTYRENES:2||cyclic propylene carbonate:2||propylene oxide:2||ACETATE) TOLUENE SOLUTIONS:2||TRANSIENT GRATING METHOD:2||MASS DIFFUSION:2||MICROPHASE SEPARATION TRANSITION:2||POLYSTYRENES:2||POLYSILANE:2||CARBOHYDRATEBASED PHOSPHOLIPIDS:2||HELICAL STRANDS:2||FLUORESCENCE DETECTION:2||SENSITIVE DETERMINATION:2||COMPOSITE FILMS:2||microphase:2||3MERCAPTOPROPIONIC ACID:2||BUTADIENE BLOCK COPOLYMER:2||HYBRID POLYMERIC MICELLES:2||AQUEOUSMEDIA:2||CONTACTANGLE:2||TRANSISTORCIRCUITS:2||ABTYPE POLY(ETHERIMIDE)S:2||CORRELATION SPECTROSCOPY:2||GASPHASE CONFORMATIONS:2||DECANE:2||INFRAREDSPECTROSCOPY:2||MICELLIZATION:2||ENERGIES:2||ACID) PRECURSORS:2||PHOTOALIGNMENT:2||polymers:2||SUBSTRATE:2||carbon dioxide:2||oligomeric propylene carbonate:2||THERMALDIFFUSION:2||CRYSTAL:2||PHASETRANSITION:2||REFLECTIVITY:2||ANALOGS:2||supramolecular chemistry:2||LYSOPHOSPHATIDIC ACID:2||PHOSPHOCHOLINE:2||POLY(3HEXYLTHIOPHENE):2||Receptor:2||MODIFIED GOLD ELECTRODES:2||ASCORBICACID:2||HUMAN URINE:2||Hybrid Nanocomposite:2||Dielectric Constant:2||AU(111) ELECTRODES:2||NANOFILMS:2||HYDROPHOBIC CORES:2||DRIVEN:2||FLEXIBLE SIDECHAINS:2||MESOGEN:2||size exclusion chromatography:2||ORGANIZATION:2||POLY(LACTIC ACID):2||MOLECULAR ARCHITECTURE:2||COUPLER:2||POLYSTYRENE COPOLYMER:2||diffusion coefficient:2||XRAY REFLECTIVITY:2||temperature gradient interaction chromatography polystyryllithium:2||VISCOELASTIC PROPERTIES:2||polyisoprene:2||CRYSTALSTRUCTURES:2||POLYCARBONATE:2||MULTILAYERS:2||DEPOSITION:2||FULL ADSORPTION MECHANISMS:2||QUANTUM DOTS:2||CRITICAL ORDERING TRANSITION:2||CORE:2||PARACRYSTALLINE DISTORTION:2||PERFORATED LAYER PHASE:2||liposomes:2||phospholipids:2||UNILAMELLAR VESICLES:2||VOLTAMMETRIC DETERMINATION:2||Polyimide:2||FOURIERTRANSFORM:2||SURFACE:2||SIZE EXCLUSION CHROMATOGRAPHY:2||NEUTRON REFLECTIVITY:2||ORDERED STRUCTURE:2||RIGID ROD POLYMERS:2||DISPLACEMENT POLYMERIZATION:2||PHOTOSENSITIVE POLYIMIDE:2||EFFICIENCY:2||films:2||Polylactide:2||CHROMATOGRAPHIC CRITICAL CONDITION:2||RETENTION MECHANISM:2||COPPER PHTHALOCYANINE:2||C60:2||COPOLYMER:2||micelle:2||LINEAR POLYETHYLENE:2||LIQUIDS:2||ARMS:2||HIGHPERFORMANCE LIQUID:2||alternating copolyimides:2||PHASE SEPARATION:2||POLYMERCHAINS:2||STYRYLPYRIDINIUM:2||ANGLES:2||MOBILITY:2||PROBE:2||ACIDS:2||BLUE:2||POSITIONS:2||CYCLOPENTADIENYL:2||HIGHMOLECULARWEIGHT:2||FUELCELLS:2||TIN OXIDE:2||NANOCRYSTALS:2||SURFACE MICELLE FORMATION:2||DISORDER TRANSITION:2||BIREFRINGENCE:2||LIPIDCOMPOSITION:2||CONJUGATED POLYMERS:2||GLASSYCARBON ELECTRODE:2||ELECTROCHEMICAL DETECTION:2||MULTIPLE DETECTION:2||aromatic polyimides:2||MOLECULARWEIGHT HOMOPOLYMERS:2||BINARYMIXTURE:2||PATTERNS:2||photoluminescent polyimide:2||photosensitive polyimide:2||DEPENDENT MICELLIZATION:2||SPEED:2||synthesis:2||COIL BLOCKCOPOLYMERS:2||LIQUIDCRYSTALLINE ASSEMBLIES:2||OXIDE):2||molecular weight distribution:2||CONJUGATED POLYMER:2||polymer characterization:2||NONIONIC SURFACTANTS:2||STEREOREGULAR POLY(METHYL METHACRYLATE):2||structure:2||RODLIKE POLYIMIDE:2||FLEXIBLE POLYIMIDE:2||THERMAL IMIDIZATION:2||IN SITU RODCHAIN FORMATION:2||PHASESEPARATION:2||VINYL ETHER):2||EQUILIBRIUM:2||STRESS:2||STRUCTURAL RELAXATION:2||LIVING POLYMERIZATION:2||CONTAIN:2||SALT:2||WAVEGUIDE:2||XRAY DIFFRACTION:2||WALLED CARBON NANOTUBES:2||SILICON NANOWIRES:2||IR:2||DIELECTRIC THINFILMS:2||Selfassembled monolayer:2||PARAMETERS:2||Temperature gradient interaction chromatography:2||SOLIDSURFACES:2||FLOW:2||RATES:2||PRECURSORS:2||FILM BALANCE:2||SIDECHAINS:2||SUPRAMOLECULAR MATERIALS:2||CHAINS:2||POLYSTYRENE:39||ANIONICPOLYMERIZATION:34||GRADIENT INTERACTION CHROMATOGRAPHY:31||SEPARATION:27||BEHAVIOR:24||LIQUIDCHROMATOGRAPHY:22||POLYMERS:22||SIZEEXCLUSION CHROMATOGRAPHY:19||BLOCKCOPOLYMERS:17||DIBLOCK COPOLYMERS:17||THINFILMS:16||POLYISOPRENE:14||HPLC:13||SYNTHETICPOLYMERS:12||PERFORMANCE LIQUIDCHROMATOGRAPHY:11||DIBLOCK COPOLYMER:11||MOLECULARWEIGHT DISTRIBUTION:10||MACROMOLECULES:10||BLOCKCOPOLYMER:10||REVERSEDPHASE:10||RETENTION BEHAVIOR:10||MORPHOLOGY:9||MOLECULARWEIGHT:9||MELTS:9||AROMATIC POLYIMIDES:8||XRAYSCATTERING:8||polystyrene:8||MIXTURES:7||block copolymer:7||SURFACES:7||DEPENDENCE:7||COPOLYMERS:7||POLYMERIZATION:7||AIR/WATER INTERFACE:7||DEFINED BRUSH POLYIMIDE:6||TEMPERATURE:6||FULLY RODLIKE BACKBONE:6||MONOLAYERS:6||POLYIMIDES:6||CHAIN:6||COMPLEX POLYMERS:6||MOLECULARREORIENTATION:6||temperature gradient interaction chromatography:6||POLYMERFILMS:6||GELPERMEATION CHROMATOGRAPHY:6||ELUTION:6||ORDERDISORDER TRANSITION:6||SURFACEMORPHOLOGY:6||ORIENTATION:6||SYSTEMS:6||CRITICAL ADSORPTION POINT:6||LIGHTSCATTERING:5||PROBE DIFFUSION:5||POLYDISPERSITY:5||AIRWATERINTERFACE:5||MICROPHASE SEPARATION:5||GLASSTRANSITION:5||BLENDS:5||FILMS:5||ADSORPTION CHROMATOGRAPHY:5||MECHANISM:5||CO2:5||ETHYLENEOXIDE:5||ALIGNMENT:5||COMPLEXES:5||FRACTIONATION:5||MISCIBILITY:5||POLYMER CHARACTERIZATION:5||HEXAGONALLY PERFORATED LAYER:5||TRANSITION:5||FLIGHT MASSSPECTROMETRY:5||ARCHITECTURE:5||POLY(METHYL METHACRYLATE):5||ALTERNATING COPOLYMERIZATION:4||THICKNESS:4||THERMODYNAMICS:4||CRITICAL RANGE:4||ULTRATHIN POLYMERFILMS:4||DYNAMICS:4||CLIMATECHANGE:4||PHASE:4||GLASSTRANSITION TEMPERATURE:4||EPOXIDE:4||selfassembly:4||SPECTROSCOPY:4||SELFDIFFUSION:4||SCATTERING:4||OPTICALPROPERTIES:4||CATALYSTS:4||CHEMISTRY:4||SOLARCELLS:4||polyimides:4||polypyromellitimides:4||SEGMENTAL REORIENTATIONS:4||ADSORPTION:4||INTERFACE:4||POLYMERSOLUTIONS:4||TRACER DIFFUSION:4||OXIDE) DIBLOCK COPOLYMER:4||POLYSTYRENEBPOLY(METHYL METHACRYLATE):4||POLYMER BLENDS:4||SIMULATION:4||CHAIN ORIENTATION:4||STYRENE:4||TOF MASSSPECTROMETRY:4||WATER:4||DISPLAYS:4||OLIGOMERS:4||PEPTIDES:4||CYCLIC POLYSTYRENE:4||LATTICE CLUSTER THEORY:4||2NDHARMONIC GENERATION:4||LIQUIDCRYSTAL ALIGNMENT:4||MONTECARLO:4||LangmuirBlodgett film:3||ASSEMBLIES:3||chromatography:3||HOLOGRAPHIC RELAXATION SPECTROSCOPY:3||MULTIPLE MORPHOLOGIES:3||INTERACTION CHROMATOGRAPHY:3||NORMALPHASE:3||DIFFUSION:3||BRANCHED POLYSTYRENE:3||NANOPARTICLES:3||LITHOGRAPHY:3||POLYMER:3||LASERLIGHTSCATTERING:3||HIGH MOLECULARWEIGHT:3||CUBIC PHASE:3||AMPHIPHILIC BLOCKCOPOLYMERS:3||AQUEOUSSOLUTION:3||MODEL:3||FORCED RAYLEIGHSCATTERING:3||HYDRODYNAMIC PROPERTIES:3||4MIKTOARM STAR COPOLYMER:3||SYSTEM:3||PHASEBEHAVIOR:3||AQUEOUSSOLUTIONS:3||RHEOLOGY:3||LB film:3||2DIMENSIONAL LIQUIDCHROMATOGRAPHY:3||VISCOSITY:3||DIBLOCK COPOLYMER MELTS:3||ORDERORDER TRANSITION:3||GYROID PHASE:3||BINDING:3||BLOCK POLYELECTROLYTES:3||DERIVATIVES:3||MELT:3||PHASE LIQUIDCHROMATOGRAPHY:3||high temperature:3||ELEVATEDTEMPERATURE:3||RETENTION:3||MICELLE FORMATION:3||ELECTRONMICROSCOPY:3||Electrospray ionization:2||FRACTIONS:2||nalkanes:2||ISOCRATIC SEPARATION:2||ASSOCIATION:2||POLY(METHYL METHACRYLATE)S:2||2D correlation spectroscopy:2||CARBONATION:2||GLASSTRANSITION BEHAVIORS:2||MECHANICAL PROPERTIES:2||DIMENSIONS:2||POLYMER MIXTURES:2||ALUMINUM PORPHYRIN:2||LEAD STEARATE:2||FERROCENE:2||POLY(EPSILONCAPROLACTONE):2||DIAGRAM:2||nucleosides:2||Selective recognition by preconcentration:2||Electrochemical impedance spectroscopy:2||DOPAMINE:2||Silica:2||Silyl Ester:2||DIETHYL ESTER) PRECURSORS:2||SURFACE CHARACTERIZATION:2||MICROSTRUCTURE:2||polystyreneblockpolyisoprene:2||MICROPHASESEPARATED STRUCTURES:2||IMPEDANCE MEASUREMENTS:2||HEMEPROTEINS:2||SOLID SUBSTRATE:2||MOISTURE ABSORPTION:2||aromatic polyimide:2||INDUCED MORPHOLOGICALCHANGES:2||STABILITY:2||LC alignment layers:2||POLYPYROMELLITIMIDES:2||Ion mobility:2||Chiral polymer:2||OLIGOSACCHARIDES:2||OXIDE:2||SIDECHAIN:2||RETARDATION:2||functionality:2||temperature effects:2||phase transition:2||glass transition temperature:2||spincoated film:2||ESTER) PRECURSORS:2||PRECURSOR BLEND:2||Xray reflectivity:2||SIGMABONDS:2||aluminum porphyrin catalysts:2||METALLOPORPHYRIN:2||SILICON:2||MASSSPECTROMETRY ANALYSIS:2||STAR POLYMERS:2||SIZE DISTRIBUTIONS:2||GIANT VESICLES:2||POLY(3ALKYLTHIOPHENES):2||ADHESION:2||LIGHT:2||POLYSTYRENEBPOLYISOPRENE:2||HPLC fractionation:2||SILVER ELECTRODES:2||ENHANCED RESONANCE RAMAN:2||SEQUENCE:2||POLYELECTROLYTE/NONELECTROLYTE SHELLS:2||polyimide:2||liquid crystal alignment layer:2||SOLUBLE POLYIMIDES:2||POLYBUTADIENECOATED ZIRCONIA:2||PRETILT ANGLES:2||CROSSSECTIONS:2||IMSMS:2||POLYISOPRENE COPOLYMERS:2||POLYIMIDE THINFILMS:2||POLYMER SURFACES:2||RAMAN:2||STEREOREGULAR PMMA:2||poly(tertbutyl methacrylate) (PtBMA):2||TIME:2||POLYIMIDE COMPOSITE:2||CARBOXYLATO COMPLEXES:2||AGOSTIC INTERACTIONS:2||MOLECULARSTRUCTURE:2||ALKENE:2||TRANSISTOR MEMORY:2||DEVICES:2||ORTHOGONALITY:2||molecular characterization:2||ORGANOSILICATE DIELECTRIC FILMS:2||AMPHIPHILES:2||Serotonin:2||Anodic stripping differential pulse voltammetry:2||transmission electron microtomography:2||LIQUIDCHROMATOGRAPHY ANALYSIS:2||PHASEDIAGRAM:2||CARBON NANOTUBES:2||TRANSFER MECHANISM:2||BINARY MIXTURES:2||REFLECTOMETRY:2||ROD:2||DROPS:2||CONSTANT:2||TRIBLOCK COPOLYMER:2||POLYMER VESICLES:2||CLICK CHEMISTRY:2||ARRAYS:2||COMPOSITES:2||MALDITOF MS:2||POLYMER THINFILMS:2||HYDROPHOBIC INTERACTION CHROMATOGRAPHY:2||retention mechanism:2||GRAZINGINCIDENCE:2||NANOPOROSITY:2||soluble poly(amic esteraltimide)s:2||DIFFERENTIAL SCANNING CALORIMETRY:2||RESIDUALSTRESS:2||CHEMICALCOMPOSITION:2||POLY(AMIC DIETHYL ESTER) PRECURSOR:2||POLY(DIMETHYL SILOXANES):2||MASS POLYSTYRENES:2||cyclic propylene carbonate:2||propylene oxide:2||ACETATE) TOLUENE SOLUTIONS:2||TRANSIENT GRATING METHOD:2||MASS DIFFUSION:2||MICROPHASE SEPARATION TRANSITION:2||POLYSTYRENES:2||POLYSILANE:2||CARBOHYDRATEBASED PHOSPHOLIPIDS:2||HELICAL STRANDS:2||FLUORESCENCE DETECTION:2||SENSITIVE DETERMINATION:2||COMPOSITE FILMS:2||microphase:2||3MERCAPTOPROPIONIC ACID:2||BUTADIENE BLOCK COPOLYMER:2||HYBRID POLYMERIC MICELLES:2||AQUEOUSMEDIA:2||CONTACTANGLE:2||TRANSISTORCIRCUITS:2||ABTYPE POLY(ETHERIMIDE)S:2||CORRELATION SPECTROSCOPY:2||GASPHASE CONFORMATIONS:2||DECANE:2||INFRAREDSPECTROSCOPY:2||MICELLIZATION:2||ENERGIES:2||ACID) PRECURSORS:2||PHOTOALIGNMENT:2||polymers:2||SUBSTRATE:2||carbon dioxide:2||oligomeric propylene carbonate:2||THERMALDIFFUSION:2||CRYSTAL:2||PHASETRANSITION:2||REFLECTIVITY:2||ANALOGS:2||supramolecular chemistry:2||LYSOPHOSPHATIDIC ACID:2||PHOSPHOCHOLINE:2||POLY(3HEXYLTHIOPHENE):2||Receptor:2||MODIFIED GOLD ELECTRODES:2||ASCORBICACID:2||HUMAN URINE:2||Hybrid Nanocomposite:2||Dielectric Constant:2||AU(111) ELECTRODES:2||NANOFILMS:2||HYDROPHOBIC CORES:2||DRIVEN:2||FLEXIBLE SIDECHAINS:2||MESOGEN:2||size exclusion chromatography:2||ORGANIZATION:2||POLY(LACTIC ACID):2||MOLECULAR ARCHITECTURE:2||COUPLER:2||POLYSTYRENE COPOLYMER:2||diffusion coefficient:2||XRAY REFLECTIVITY:2||temperature gradient interaction chromatography polystyryllithium:2||VISCOELASTIC PROPERTIES:2||polyisoprene:2||CRYSTALSTRUCTURES:2||POLYCARBONATE:2||MULTILAYERS:2||DEPOSITION:2||FULL ADSORPTION MECHANISMS:2||QUANTUM DOTS:2||CRITICAL ORDERING TRANSITION:2||CORE:2||PARACRYSTALLINE DISTORTION:2||PERFORATED LAYER PHASE:2||liposomes:2||phospholipids:2||UNILAMELLAR VESICLES:2||VOLTAMMETRIC DETERMINATION:2||Polyimide:2||FOURIERTRANSFORM:2||SURFACE:2||SIZE EXCLUSION CHROMATOGRAPHY:2||NEUTRON REFLECTIVITY:2||ORDERED STRUCTURE:2||RIGID ROD POLYMERS:2||DISPLACEMENT POLYMERIZATION:2||PHOTOSENSITIVE POLYIMIDE:2||EFFICIENCY:2||films:2||Polylactide:2||CHROMATOGRAPHIC CRITICAL CONDITION:2||RETENTION MECHANISM:2||COPPER PHTHALOCYANINE:2||C60:2||COPOLYMER:2||micelle:2||LINEAR POLYETHYLENE:2||LIQUIDS:2||ARMS:2||HIGHPERFORMANCE LIQUID:2||alternating copolyimides:2||PHASE SEPARATION:2||POLYMERCHAINS:2||STYRYLPYRIDINIUM:2||ANGLES:2||MOBILITY:2||PROBE:2||ACIDS:2||BLUE:2||POSITIONS:2||CYCLOPENTADIENYL:2||HIGHMOLECULARWEIGHT:2||FUELCELLS:2||TIN OXIDE:2||NANOCRYSTALS:2||SURFACE MICELLE FORMATION:2||DISORDER TRANSITION:2||BIREFRINGENCE:2||LIPIDCOMPOSITION:2||CONJUGATED POLYMERS:2||GLASSYCARBON ELECTRODE:2||ELECTROCHEMICAL DETECTION:2||MULTIPLE DETECTION:2||aromatic polyimides:2||MOLECULARWEIGHT HOMOPOLYMERS:2||BINARYMIXTURE:2||PATTERNS:2||photoluminescent polyimide:2||photosensitive polyimide:2||DEPENDENT MICELLIZATION:2||SPEED:2||synthesis:2||COIL BLOCKCOPOLYMERS:2||LIQUIDCRYSTALLINE ASSEMBLIES:2||OXIDE):2||molecular weight distribution:2||CONJUGATED POLYMER:2||polymer characterization:2||NONIONIC SURFACTANTS:2||STEREOREGULAR POLY(METHYL METHACRYLATE):2||structure:2||RODLIKE POLYIMIDE:2||FLEXIBLE POLYIMIDE:2||THERMAL IMIDIZATION:2||IN SITU RODCHAIN FORMATION:2||PHASESEPARATION:2||VINYL ETHER):2||EQUILIBRIUM:2||STRESS:2||STRUCTURAL RELAXATION:2||LIVING POLYMERIZATION:2||CONTAIN:2||SALT:2||WAVEGUIDE:2||XRAY DIFFRACTION:2||WALLED CARBON NANOTUBES:2||SILICON NANOWIRES:2||IR:2||DIELECTRIC THINFILMS:2||Selfassembled monolayer:2||PARAMETERS:2||Temperature gradient interaction chromatography:2||SOLIDSURFACES:2||FLOW:2||RATES:2||PRECURSORS:2||FILM BALANCE:2||SIDECHAINS:2||SUPRAMOLECULAR MATERIALS:2||CHAINS:2||POLYSTYRENE:39||ANIONICPOLYMERIZATION:34||GRADIENT INTERACTION CHROMATOGRAPHY:31||SEPARATION:27||BEHAVIOR:24||LIQUIDCHROMATOGRAPHY:22||POLYMERS:22||SIZEEXCLUSION CHROMATOGRAPHY:19||BLOCKCOPOLYMERS:17||DIBLOCK COPOLYMERS:17||THINFILMS:16||POLYISOPRENE:14||HPLC:13||SYNTHETICPOLYMERS:12||PERFORMANCE LIQUIDCHROMATOGRAPHY:11||DIBLOCK COPOLYMER:11||MOLECULARWEIGHT DISTRIBUTION:10||MACROMOLECULES:10||BLOCKCOPOLYMER:10||REVERSEDPHASE:10||RETENTION BEHAVIOR:10||MORPHOLOGY:9||MOLECULARWEIGHT:9||MELTS:9||AROMATIC POLYIMIDES:8||XRAYSCATTERING:8||polystyrene:8||MIXTURES:7||block copolymer:7||SURFACES:7||DEPENDENCE:7||COPOLYMERS:7||POLYMERIZATION:7||AIR/WATER INTERFACE:7||DEFINED BRUSH POLYIMIDE:6||TEMPERATURE:6||FULLY RODLIKE BACKBONE:6||MONOLAYERS:6||POLYIMIDES:6||CHAIN:6||COMPLEX POLYMERS:6||MOLECULARREORIENTATION:6||temperature gradient interaction chromatography:6||POLYMERFILMS:6||GELPERMEATION CHROMATOGRAPHY:6||ELUTION:6||ORDERDISORDER TRANSITION:6||SURFACEMORPHOLOGY:6||ORIENTATION:6||SYSTEMS:6||CRITICAL ADSORPTION POINT:6||LIGHTSCATTERING:5||PROBE DIFFUSION:5||POLYDISPERSITY:5||AIRWATERINTERFACE:5||MICROPHASE SEPARATION:5||GLASSTRANSITION:5||BLENDS:5||FILMS:5||ADSORPTION CHROMATOGRAPHY:5||MECHANISM:5||CO2:5||ETHYLENEOXIDE:5||ALIGNMENT:5||COMPLEXES:5||FRACTIONATION:5||MISCIBILITY:5||POLYMER CHARACTERIZATION:5||HEXAGONALLY PERFORATED LAYER:5||TRANSITION:5||FLIGHT MASSSPECTROMETRY:5||ARCHITECTURE:5||POLY(METHYL METHACRYLATE):5||ALTERNATING COPOLYMERIZATION:4||THICKNESS:4||THERMODYNAMICS:4||CRITICAL RANGE:4||ULTRATHIN POLYMERFILMS:4||DYNAMICS:4||CLIMATECHANGE:4||PHASE:4||GLASSTRANSITION TEMPERATURE:4||EPOXIDE:4||selfassembly:4||SPECTROSCOPY:4||SELFDIFFUSION:4||SCATTERING:4||OPTICALPROPERTIES:4||CATALYSTS:4||CHEMISTRY:4||SOLARCELLS:4||polyimides:4||polypyromellitimides:4||SEGMENTAL REORIENTATIONS:4||ADSORPTION:4||INTERFACE:4||POLYMERSOLUTIONS:4||TRACER DIFFUSION:4||OXIDE) DIBLOCK COPOLYMER:4||POLYSTYRENEBPOLY(METHYL METHACRYLATE):4||POLYMER BLENDS:4||SIMULATION:4||CHAIN ORIENTATION:4||STYRENE:4||TOF MASSSPECTROMETRY:4||WATER:4||DISPLAYS:4||OLIGOMERS:4||PEPTIDES:4||CYCLIC POLYSTYRENE:4||LATTICE CLUSTER THEORY:4||2NDHARMONIC GENERATION:4||LIQUIDCRYSTAL ALIGNMENT:4||MONTECARLO:4||LangmuirBlodgett film:3||ASSEMBLIES:3||chromatography:3||HOLOGRAPHIC RELAXATION SPECTROSCOPY:3||MULTIPLE MORPHOLOGIES:3||INTERACTION CHROMATOGRAPHY:3||NORMALPHASE:3||DIFFUSION:3||BRANCHED POLYSTYRENE:3||NANOPARTICLES:3||LITHOGRAPHY:3||POLYMER:3||LASERLIGHTSCATTERING:3||HIGH MOLECULARWEIGHT:3||CUBIC PHASE:3||AMPHIPHILIC BLOCKCOPOLYMERS:3||AQUEOUSSOLUTION:3||MODEL:3||FORCED RAYLEIGHSCATTERING:3||HYDRODYNAMIC PROPERTIES:3||4MIKTOARM STAR COPOLYMER:3||SYSTEM:3||PHASEBEHAVIOR:3||AQUEOUSSOLUTIONS:3||RHEOLOGY:3||LB film:3||2DIMENSIONAL LIQUIDCHROMATOGRAPHY:3||VISCOSITY:3||DIBLOCK COPOLYMER MELTS:3||ORDERORDER TRANSITION:3||GYROID PHASE:3||BINDING:3||BLOCK POLYELECTROLYTES:3||DERIVATIVES:3||MELT:3||PHASE LIQUIDCHROMATOGRAPHY:3||high temperature:3||ELEVATEDTEMPERATURE:3||RETENTION:3||MICELLE FORMATION:3||ELECTRONMICROSCOPY:3||Electrospray ionization:2||FRACTIONS:2||nalkanes:2||ISOCRATIC SEPARATION:2||ASSOCIATION:2||POLY(METHYL METHACRYLATE)S:2||2D correlation spectroscopy:2||CARBONATION:2||GLASSTRANSITION BEHAVIORS:2||MECHANICAL PROPERTIES:2||DIMENSIONS:2||POLYMER MIXTURES:2||ALUMINUM PORPHYRIN:2||LEAD STEARATE:2||FERROCENE:2||POLY(EPSILONCAPROLACTONE):2||DIAGRAM:2||nucleosides:2||Selective recognition by preconcentration:2||Electrochemical impedance spectroscopy:2||DOPAMINE:2||Silica:2||Silyl Ester:2||DIETHYL ESTER) PRECURSORS:2||SURFACE CHARACTERIZATION:2||MICROSTRUCTURE:2||polystyreneblockpolyisoprene:2||MICROPHASESEPARATED STRUCTURES:2||IMPEDANCE MEASUREMENTS:2||HEMEPROTEINS:2||SOLID SUBSTRATE:2||MOISTURE ABSORPTION:2||aromatic polyimide:2||INDUCED MORPHOLOGICALCHANGES:2||STABILITY:2||LC alignment layers:2||POLYPYROMELLITIMIDES:2||Ion mobility:2||Chiral polymer:2||OLIGOSACCHARIDES:2||OXIDE:2||SIDECHAIN:2||RETARDATION:2||functionality:2||temperature effects:2||phase transition:2||glass transition temperature:2||spincoated film:2||ESTER) PRECURSORS:2||PRECURSOR BLEND:2||Xray reflectivity:2||SIGMABONDS:2||aluminum porphyrin catalysts:2||METALLOPORPHYRIN:2||SILICON:2||MASSSPECTROMETRY ANALYSIS:2||STAR POLYMERS:2||SIZE DISTRIBUTIONS:2||GIANT VESICLES:2||POLY(3ALKYLTHIOPHENES):2||ADHESION:2||LIGHT:2||POLYSTYRENEBPOLYISOPRENE:2||HPLC fractionation:2||SILVER ELECTRODES:2||ENHANCED RESONANCE RAMAN:2||SEQUENCE:2||POLYELECTROLYTE/NONELECTROLYTE SHELLS:2||polyimide:2||liquid crystal alignment layer:2||SOLUBLE POLYIMIDES:2||POLYBUTADIENECOATED ZIRCONIA:2||PRETILT ANGLES:2||CROSSSECTIONS:2||IMSMS:2||POLYISOPRENE COPOLYMERS:2||POLYIMIDE THINFILMS:2||POLYMER SURFACES:2||RAMAN:2||STEREOREGULAR PMMA:2||poly(tertbutyl methacrylate) (PtBMA):2||TIME:2||POLYIMIDE COMPOSITE:2||CARBOXYLATO COMPLEXES:2||AGOSTIC INTERACTIONS:2||MOLECULARSTRUCTURE:2||ALKENE:2||TRANSISTOR MEMORY:2||DEVICES:2||ORTHOGONALITY:2||molecular characterization:2||ORGANOSILICATE DIELECTRIC FILMS:2||AMPHIPHILES:2||Serotonin:2||Anodic stripping differential pulse voltammetry:2||transmission electron microtomography:2||LIQUIDCHROMATOGRAPHY ANALYSIS:2||PHASEDIAGRAM:2||CARBON NANOTUBES:2||TRANSFER MECHANISM:2||BINARY MIXTURES:2||REFLECTOMETRY:2||ROD:2||DROPS:2||CONSTANT:2||TRIBLOCK COPOLYMER:2||POLYMER VESICLES:2||CLICK CHEMISTRY:2||ARRAYS:2||COMPOSITES:2||MALDITOF MS:2||POLYMER THINFILMS:2||HYDROPHOBIC INTERACTION CHROMATOGRAPHY:2||retention mechanism:2||GRAZINGINCIDENCE:2||NANOPOROSITY:2||soluble poly(amic esteraltimide)s:2||DIFFERENTIAL SCANNING CALORIMETRY:2||RESIDUALSTRESS:2||CHEMICALCOMPOSITION:2||POLY(AMIC DIETHYL ESTER) PRECURSOR:2||POLY(DIMETHYL SILOXANES):2||MASS POLYSTYRENES:2||cyclic propylene carbonate:2||propylene oxide:2||ACETATE) TOLUENE SOLUTIONS:2||TRANSIENT GRATING METHOD:2||MASS DIFFUSION:2||MICROPHASE SEPARATION TRANSITION:2||POLYSTYRENES:2||POLYSILANE:2||CARBOHYDRATEBASED PHOSPHOLIPIDS:2||HELICAL STRANDS:2||FLUORESCENCE DETECTION:2||SENSITIVE DETERMINATION:2||COMPOSITE FILMS:2||microphase:2||3MERCAPTOPROPIONIC ACID:2||BUTADIENE BLOCK COPOLYMER:2||HYBRID POLYMERIC MICELLES:2||AQUEOUSMEDIA:2||CONTACTANGLE:2||TRANSISTORCIRCUITS:2||ABTYPE POLY(ETHERIMIDE)S:2||CORRELATION SPECTROSCOPY:2||GASPHASE CONFORMATIONS:2||DECANE:2||INFRAREDSPECTROSCOPY:2||MICELLIZATION:2||ENERGIES:2||ACID) PRECURSORS:2||PHOTOALIGNMENT:2||polymers:2||SUBSTRATE:2||carbon dioxide:2||oligomeric propylene carbonate:2||THERMALDIFFUSION:2||CRYSTAL:2||PHASETRANSITION:2||REFLECTIVITY:2||ANALOGS:2||supramolecular chemistry:2||LYSOPHOSPHATIDIC ACID:2||PHOSPHOCHOLINE:2||POLY(3HEXYLTHIOPHENE):2||Receptor:2||MODIFIED GOLD ELECTRODES:2||ASCORBICACID:2||HUMAN URINE:2||Hybrid Nanocomposite:2||Dielectric Constant:2||AU(111) ELECTRODES:2||NANOFILMS:2||HYDROPHOBIC CORES:2||DRIVEN:2||FLEXIBLE SIDECHAINS:2||MESOGEN:2||size exclusion chromatography:2||ORGANIZATION:2||POLY(LACTIC ACID):2||MOLECULAR ARCHITECTURE:2||COUPLER:2||POLYSTYRENE COPOLYMER:2||diffusion coefficient:2||XRAY REFLECTIVITY:2||temperature gradient interaction chromatography polystyryllithium:2||VISCOELASTIC PROPERTIES:2||polyisoprene:2||CRYSTALSTRUCTURES:2||POLYCARBONATE:2||MULTILAYERS:2||DEPOSITION:2||FULL ADSORPTION MECHANISMS:2||QUANTUM DOTS:2||CRITICAL ORDERING TRANSITION:2||CORE:2||PARACRYSTALLINE DISTORTION:2||PERFORATED LAYER PHASE:2||liposomes:2||phospholipids:2||UNILAMELLAR VESICLES:2||VOLTAMMETRIC DETERMINATION:2||Polyimide:2||FOURIERTRANSFORM:2||SURFACE:2||SIZE EXCLUSION CHROMATOGRAPHY:2||NEUTRON REFLECTIVITY:2||ORDERED STRUCTURE:2||RIGID ROD POLYMERS:2||DISPLACEMENT POLYMERIZATION:2||PHOTOSENSITIVE POLYIMIDE:2||EFFICIENCY:2||films:2||Polylactide:2||CHROMATOGRAPHIC CRITICAL CONDITION:2||RETENTION MECHANISM:2||COPPER PHTHALOCYANINE:2||C60:2||COPOLYMER:2||micelle:2||LINEAR POLYETHYLENE:2||LIQUIDS:2||ARMS:2||HIGHPERFORMANCE LIQUID:2||alternating copolyimides:2||PHASE SEPARATION:2||POLYMERCHAINS:2||STYRYLPYRIDINIUM:2||ANGLES:2||MOBILITY:2||PROBE:2||ACIDS:2||BLUE:2||POSITIONS:2||CYCLOPENTADIENYL:2||HIGHMOLECULARWEIGHT:2||FUELCELLS:2||TIN OXIDE:2||NANOCRYSTALS:2||SURFACE MICELLE FORMATION:2||DISORDER TRANSITION:2||BIREFRINGENCE:2||LIPIDCOMPOSITION:2||CONJUGATED POLYMERS:2||GLASSYCARBON ELECTRODE:2||ELECTROCHEMICAL DETECTION:2||MULTIPLE DETECTION:2||aromatic polyimides:2||MOLECULARWEIGHT HOMOPOLYMERS:2||BINARYMIXTURE:2||PATTERNS:2||photoluminescent polyimide:2||photosensitive polyimide:2||DEPENDENT MICELLIZATION:2||SPEED:2||synthesis:2||COIL BLOCKCOPOLYMERS:2||LIQUIDCRYSTALLINE ASSEMBLIES:2||OXIDE):2||molecular weight distribution:2||CONJUGATED POLYMER:2||polymer characterization:2||NONIONIC SURFACTANTS:2||STEREOREGULAR POLY(METHYL METHACRYLATE):2||structure:2||RODLIKE POLYIMIDE:2||FLEXIBLE POLYIMIDE:2||THERMAL IMIDIZATION:2||IN SITU RODCHAIN FORMATION:2||PHASESEPARATION:2||VINYL ETHER):2||EQUILIBRIUM:2||STRESS:2||STRUCTURAL RELAXATION:2||LIVING POLYMERIZATION:2||CONTAIN:2||SALT:2||WAVEGUIDE:2||XRAY DIFFRACTION:2||WALLED CARBON NANOTUBES:2||SILICON NANOWIRES:2||IR:2||DIELECTRIC THINFILMS:2||Selfassembled monolayer:2||PARAMETERS:2||Temperature gradient interaction chromatography:2||SOLIDSURFACES:2||FLOW:2||RATES:2||PRECURSORS:2||FILM BALANCE:2||SIDECHAINS:2||SUPRAMOLECULAR MATERIALS:2||CHAINS:2||POLYSTYRENE:39||ANIONICPOLYMERIZATION:34||GRADIENT INTERACTION CHROMATOGRAPHY:31||SEPARATION:27||BEHAVIOR:24||LIQUIDCHROMATOGRAPHY:22||POLYMERS:22||SIZEEXCLUSION CHROMATOGRAPHY:19||BLOCKCOPOLYMERS:17||DIBLOCK COPOLYMERS:17||THINFILMS:16||POLYISOPRENE:14||HPLC:13||SYNTHETICPOLYMERS:12||PERFORMANCE LIQUIDCHROMATOGRAPHY:11||DIBLOCK COPOLYMER:11||MOLECULARWEIGHT DISTRIBUTION:10||MACROMOLECULES:10||BLOCKCOPOLYMER:10||REVERSEDPHASE:10||RETENTION BEHAVIOR:10||MORPHOLOGY:9||MOLECULARWEIGHT:9||MELTS:9||AROMATIC POLYIMIDES:8||XRAYSCATTERING:8||polystyrene:8||MIXTURES:7||block copolymer:7||SURFACES:7||DEPENDENCE:7||COPOLYMERS:7||POLYMERIZATION:7||AIR/WATER INTERFACE:7||DEFINED BRUSH POLYIMIDE:6||TEMPERATURE:6||FULLY RODLIKE BACKBONE:6||MONOLAYERS:6||POLYIMIDES:6||CHAIN:6||COMPLEX POLYMERS:6||MOLECULARREORIENTATION:6||temperature gradient interaction chromatography:6||POLYMERFILMS:6||GELPERMEATION CHROMATOGRAPHY:6||ELUTION:6||ORDERDISORDER TRANSITION:6||SURFACEMORPHOLOGY:6||ORIENTATION:6||SYSTEMS:6||CRITICAL ADSORPTION POINT:6||LIGHTSCATTERING:5||PROBE DIFFUSION:5||POLYDISPERSITY:5||AIRWATERINTERFACE:5||MICROPHASE SEPARATION:5||GLASSTRANSITION:5||BLENDS:5||FILMS:5||ADSORPTION CHROMATOGRAPHY:5||MECHANISM:5||CO2:5||ETHYLENEOXIDE:5||ALIGNMENT:5||COMPLEXES:5||FRACTIONATION:5||MISCIBILITY:5||POLYMER CHARACTERIZATION:5||HEXAGONALLY PERFORATED LAYER:5||TRANSITION:5||FLIGHT MASSSPECTROMETRY:5||ARCHITECTURE:5||POLY(METHYL METHACRYLATE):5||ALTERNATING COPOLYMERIZATION:4||THICKNESS:4||THERMODYNAMICS:4||CRITICAL RANGE:4||ULTRATHIN POLYMERFILMS:4||DYNAMICS:4||CLIMATECHANGE:4||PHASE:4||GLASSTRANSITION TEMPERATURE:4||EPOXIDE:4||selfassembly:4||SPECTROSCOPY:4||SELFDIFFUSION:4||SCATTERING:4||OPTICALPROPERTIES:4||CATALYSTS:4||CHEMISTRY:4||SOLARCELLS:4||polyimides:4||polypyromellitimides:4||SEGMENTAL REORIENTATIONS:4||ADSORPTION:4||INTERFACE:4||POLYMERSOLUTIONS:4||TRACER DIFFUSION:4||OXIDE) DIBLOCK COPOLYMER:4||POLYSTYRENEBPOLY(METHYL METHACRYLATE):4||POLYMER BLENDS:4||SIMULATION:4||CHAIN ORIENTATION:4||STYRENE:4||TOF MASSSPECTROMETRY:4||WATER:4||DISPLAYS:4||OLIGOMERS:4||PEPTIDES:4||CYCLIC POLYSTYRENE:4||LATTICE CLUSTER THEORY:4||2NDHARMONIC GENERATION:4||LIQUIDCRYSTAL ALIGNMENT:4||MONTECARLO:4||LangmuirBlodgett film:3||ASSEMBLIES:3||chromatography:3||HOLOGRAPHIC RELAXATION SPECTROSCOPY:3||MULTIPLE MORPHOLOGIES:3||INTERACTION CHROMATOGRAPHY:3||NORMALPHASE:3||DIFFUSION:3||BRANCHED POLYSTYRENE:3||NANOPARTICLES:3||LITHOGRAPHY:3||POLYMER:3||LASERLIGHTSCATTERING:3||HIGH MOLECULARWEIGHT:3||CUBIC PHASE:3||AMPHIPHILIC BLOCKCOPOLYMERS:3||AQUEOUSSOLUTION:3||MODEL:3||FORCED RAYLEIGHSCATTERING:3||HYDRODYNAMIC PROPERTIES:3||4MIKTOARM STAR COPOLYMER:3||SYSTEM:3||PHASEBEHAVIOR:3||AQUEOUSSOLUTIONS:3||RHEOLOGY:3||LB film:3||2DIMENSIONAL LIQUIDCHROMATOGRAPHY:3||VISCOSITY:3||DIBLOCK COPOLYMER MELTS:3||ORDERORDER TRANSITION:3||GYROID PHASE:3||BINDING:3||BLOCK POLYELECTROLYTES:3||DERIVATIVES:3||MELT:3||PHASE LIQUIDCHROMATOGRAPHY:3||high temperature:3||ELEVATEDTEMPERATURE:3||RETENTION:3||MICELLE FORMATION:3||ELECTRONMICROSCOPY:3||Electrospray ionization:2||FRACTIONS:2||nalkanes:2||ISOCRATIC SEPARATION:2||ASSOCIATION:2||POLY(METHYL METHACRYLATE)S:2||2D correlation spectroscopy:2||CARBONATION:2||GLASSTRANSITION BEHAVIORS:2||MECHANICAL PROPERTIES:2||DIMENSIONS:2||POLYMER MIXTURES:2||ALUMINUM PORPHYRIN:2||LEAD STEARATE:2||FERROCENE:2||POLY(EPSILONCAPROLACTONE):2||DIAGRAM:2||nucleosides:2||Selective recognition by preconcentration:2||Electrochemical impedance spectroscopy:2||DOPAMINE:2||Silica:2||Silyl Ester:2||DIETHYL ESTER) PRECURSORS:2||SURFACE CHARACTERIZATION:2||MICROSTRUCTURE:2||polystyreneblockpolyisoprene:2||MICROPHASESEPARATED STRUCTURES:2||IMPEDANCE MEASUREMENTS:2||HEMEPROTEINS:2||SOLID SUBSTRATE:2||MOISTURE ABSORPTION:2||aromatic polyimide:2||INDUCED MORPHOLOGICALCHANGES:2||STABILITY:2||LC alignment layers:2||POLYPYROMELLITIMIDES:2||Ion mobility:2||Chiral polymer:2||OLIGOSACCHARIDES:2||OXIDE:2||SIDECHAIN:2||RETARDATION:2||functionality:2||temperature effects:2||phase transition:2||glass transition temperature:2||spincoated film:2||ESTER) PRECURSORS:2||PRECURSOR BLEND:2||Xray reflectivity:2||SIGMABONDS:2||aluminum porphyrin catalysts:2||METALLOPORPHYRIN:2||SILICON:2||MASSSPECTROMETRY ANALYSIS:2||STAR POLYMERS:2||SIZE DISTRIBUTIONS:2||GIANT VESICLES:2||POLY(3ALKYLTHIOPHENES):2||ADHESION:2||LIGHT:2||POLYSTYRENEBPOLYISOPRENE:2||HPLC fractionation:2||SILVER ELECTRODES:2||ENHANCED RESONANCE RAMAN:2||SEQUENCE:2||POLYELECTROLYTE/NONELECTROLYTE SHELLS:2||polyimide:2||liquid crystal alignment layer:2||SOLUBLE POLYIMIDES:2||POLYBUTADIENECOATED ZIRCONIA:2||PRETILT ANGLES:2||CROSSSECTIONS:2||IMSMS:2||POLYISOPRENE COPOLYMERS:2||POLYIMIDE THINFILMS:2||POLYMER SURFACES:2||RAMAN:2||STEREOREGULAR PMMA:2||poly(tertbutyl methacrylate) (PtBMA):2||TIME:2||POLYIMIDE COMPOSITE:2||CARBOXYLATO COMPLEXES:2||AGOSTIC INTERACTIONS:2||MOLECULARSTRUCTURE:2||ALKENE:2||TRANSISTOR MEMORY:2||DEVICES:2||ORTHOGONALITY:2||molecular characterization:2||ORGANOSILICATE DIELECTRIC FILMS:2||AMPHIPHILES:2||Serotonin:2||Anodic stripping differential pulse voltammetry:2||transmission electron microtomography:2||LIQUIDCHROMATOGRAPHY ANALYSIS:2||PHASEDIAGRAM:2||CARBON NANOTUBES:2||TRANSFER MECHANISM:2||BINARY MIXTURES:2||REFLECTOMETRY:2||ROD:2||DROPS:2||CONSTANT:2||TRIBLOCK COPOLYMER:2||POLYMER VESICLES:2||CLICK CHEMISTRY:2||ARRAYS:2||COMPOSITES:2||MALDITOF MS:2||POLYMER THINFILMS:2||HYDROPHOBIC INTERACTION CHROMATOGRAPHY:2||retention mechanism:2||GRAZINGINCIDENCE:2||NANOPOROSITY:2||soluble poly(amic esteraltimide)s:2||DIFFERENTIAL SCANNING CALORIMETRY:2||RESIDUALSTRESS:2||CHEMICALCOMPOSITION:2||POLY(AMIC DIETHYL ESTER) PRECURSOR:2||POLY(DIMETHYL SILOXANES):2||MASS POLYSTYRENES:2||cyclic propylene carbonate:2||propylene oxide:2||ACETATE) TOLUENE SOLUTIONS:2||TRANSIENT GRATING METHOD:2||MASS DIFFUSION:2||MICROPHASE SEPARATION TRANSITION:2||POLYSTYRENES:2||POLYSILANE:2||CARBOHYDRATEBASED PHOSPHOLIPIDS:2||HELICAL STRANDS:2||FLUORESCENCE DETECTION:2||SENSITIVE DETERMINATION:2||COMPOSITE FILMS:2||microphase:2||3MERCAPTOPROPIONIC ACID:2||BUTADIENE BLOCK COPOLYMER:2||HYBRID POLYMERIC MICELLES:2||AQUEOUSMEDIA:2||CONTACTANGLE:2||TRANSISTORCIRCUITS:2||ABTYPE POLY(ETHERIMIDE)S:2||CORRELATION SPECTROSCOPY:2||GASPHASE CONFORMATIONS:2||DECANE:2||INFRAREDSPECTROSCOPY:2||MICELLIZATION:2||ENERGIES:2||ACID) PRECURSORS:2||PHOTOALIGNMENT:2||polymers:2||SUBSTRATE:2||carbon dioxide:2||oligomeric propylene carbonate:2||THERMALDIFFUSION:2||CRYSTAL:2||PHASETRANSITION:2||REFLECTIVITY:2||ANALOGS:2||supramolecular chemistry:2||LYSOPHOSPHATIDIC ACID:2||PHOSPHOCHOLINE:2||POLY(3HEXYLTHIOPHENE):2||Receptor:2||MODIFIED GOLD ELECTRODES:2||ASCORBICACID:2||HUMAN URINE:2||Hybrid Nanocomposite:2||Dielectric Constant:2||AU(111) ELECTRODES:2||NANOFILMS:2||HYDROPHOBIC CORES:2||DRIVEN:2||FLEXIBLE SIDECHAINS:2||MESOGEN:2||size exclusion chromatography:2||ORGANIZATION:2||POLY(LACTIC ACID):2||MOLECULAR ARCHITECTURE:2||COUPLER:2||POLYSTYRENE COPOLYMER:2||diffusion coefficient:2||XRAY REFLECTIVITY:2||temperature gradient interaction chromatography polystyryllithium:2||VISCOELASTIC PROPERTIES:2||polyisoprene:2||CRYSTALSTRUCTURES:2||POLYCARBONATE:2||MULTILAYERS:2||DEPOSITION:2||FULL ADSORPTION MECHANISMS:2||QUANTUM DOTS:2||CRITICAL ORDERING TRANSITION:2||CORE:2||PARACRYSTALLINE DISTORTION:2||PERFORATED LAYER PHASE:2||liposomes:2||phospholipids:2||UNILAMELLAR VESICLES:2||VOLTAMMETRIC DETERMINATION:2||Polyimide:2||FOURIERTRANSFORM:2||SURFACE:2||SIZE EXCLUSION CHROMATOGRAPHY:2||NEUTRON REFLECTIVITY:2||ORDERED STRUCTURE:2||RIGID ROD POLYMERS:2||DISPLACEMENT POLYMERIZATION:2||PHOTOSENSITIVE POLYIMIDE:2||EFFICIENCY:2||films:2||Polylactide:2||CHROMATOGRAPHIC CRITICAL CONDITION:2||RETENTION MECHANISM:2||COPPER PHTHALOCYANINE:2||C60:2||COPOLYMER:2||micelle:2||LINEAR POLYETHYLENE:2||LIQUIDS:2||ARMS:2||HIGHPERFORMANCE LIQUID:2||alternating copolyimides:2||PHASE SEPARATION:2||POLYMERCHAINS:2||STYRYLPYRIDINIUM:2||ANGLES:2||MOBILITY:2||PROBE:2||ACIDS:2||BLUE:2||POSITIONS:2||CYCLOPENTADIENYL:2||HIGHMOLECULARWEIGHT:2||FUELCELLS:2||TIN OXIDE:2||NANOCRYSTALS:2||SURFACE MICELLE FORMATION:2||DISORDER TRANSITION:2||BIREFRINGENCE:2||LIPIDCOMPOSITION:2||CONJUGATED POLYMERS:2||GLASSYCARBON ELECTRODE:2||ELECTROCHEMICAL DETECTION:2||MULTIPLE DETECTION:2||aromatic polyimides:2||MOLECULARWEIGHT HOMOPOLYMERS:2||BINARYMIXTURE:2||PATTERNS:2||photoluminescent polyimide:2||photosensitive polyimide:2||DEPENDENT MICELLIZATION:2||SPEED:2||synthesis:2||COIL BLOCKCOPOLYMERS:2||LIQUIDCRYSTALLINE ASSEMBLIES:2||OXIDE):2||molecular weight distribution:2||CONJUGATED POLYMER:2||polymer characterization:2||NONIONIC SURFACTANTS:2||STEREOREGULAR POLY(METHYL METHACRYLATE):2||structure:2||RODLIKE POLYIMIDE:2||FLEXIBLE POLYIMIDE:2||THERMAL IMIDIZATION:2||IN SITU RODCHAIN FORMATION:2||PHASESEPARATION:2||VINYL ETHER):2||EQUILIBRIUM:2||STRESS:2||STRUCTURAL RELAXATION:2||LIVING POLYMERIZATION:2||CONTAIN:2||SALT:2||WAVEGUIDE:2||XRAY DIFFRACTION:2||WALLED CARBON NANOTUBES:2||SILICON NANOWIRES:2||IR:2||DIELECTRIC THINFILMS:2||Selfassembled monolayer:2||PARAMETERS:2||Temperature gradient interaction chromatography:2||SOLIDSURFACES:2||FLOW:2||RATES:2||PRECURSORS:2||FILM BALANCE:2||SIDECHAINS:2||SUPRAMOLECULAR MATERIALS:2||CHAINS:2||POLYSTYRENE:39||ANIONICPOLYMERIZATION:34||GRADIENT INTERACTION CHROMATOGRAPHY:31||SEPARATION:27||BEHAVIOR:24||LIQUIDCHROMATOGRAPHY:22||POLYMERS:22||SIZEEXCLUSION CHROMATOGRAPHY:19||BLOCKCOPOLYMERS:17||DIBLOCK COPOLYMERS:17||THINFILMS:16||POLYISOPRENE:14||HPLC:13||SYNTHETICPOLYMERS:12||PERFORMANCE LIQUIDCHROMATOGRAPHY:11||DIBLOCK COPOLYMER:11||MOLECULARWEIGHT DISTRIBUTION:10||MACROMOLECULES:10||BLOCKCOPOLYMER:10||REVERSEDPHASE:10||RETENTION BEHAVIOR:10||MORPHOLOGY:9||MOLECULARWEIGHT:9||MELTS:9||AROMATIC POLYIMIDES:8||XRAYSCATTERING:8||polystyrene:8||MIXTURES:7||block copolymer:7||SURFACES:7||DEPENDENCE:7||COPOLYMERS:7||POLYMERIZATION:7||AIR/WATER INTERFACE:7||DEFINED BRUSH POLYIMIDE:6||TEMPERATURE:6||FULLY RODLIKE BACKBONE:6||MONOLAYERS:6||POLYIMIDES:6||CHAIN:6||COMPLEX POLYMERS:6||MOLECULARREORIENTATION:6||temperature gradient interaction chromatography:6||POLYMERFILMS:6||GELPERMEATION CHROMATOGRAPHY:6||ELUTION:6||ORDERDISORDER TRANSITION:6||SURFACEMORPHOLOGY:6||ORIENTATION:6||SYSTEMS:6||CRITICAL ADSORPTION POINT:6||LIGHTSCATTERING:5||PROBE DIFFUSION:5||POLYDISPERSITY:5||AIRWATERINTERFACE:5||MICROPHASE SEPARATION:5||GLASSTRANSITION:5||BLENDS:5||FILMS:5||ADSORPTION CHROMATOGRAPHY:5||MECHANISM:5||CO2:5||ETHYLENEOXIDE:5||ALIGNMENT:5||COMPLEXES:5||FRACTIONATION:5||MISCIBILITY:5||POLYMER CHARACTERIZATION:5||HEXAGONALLY PERFORATED LAYER:5||TRANSITION:5||FLIGHT MASSSPECTROMETRY:5||ARCHITECTURE:5||POLY(METHYL METHACRYLATE):5||ALTERNATING COPOLYMERIZATION:4||THICKNESS:4||THERMODYNAMICS:4||CRITICAL RANGE:4||ULTRATHIN POLYMERFILMS:4||DYNAMICS:4||CLIMATECHANGE:4||PHASE:4||GLASSTRANSITION TEMPERATURE:4||EPOXIDE:4||selfassembly:4||SPECTROSCOPY:4||SELFDIFFUSION:4||SCATTERING:4||OPTICALPROPERTIES:4||CATALYSTS:4||CHEMISTRY:4||SOLARCELLS:4||polyimides:4||polypyromellitimides:4||SEGMENTAL REORIENTATIONS:4||ADSORPTION:4||INTERFACE:4||POLYMERSOLUTIONS:4||TRACER DIFFUSION:4||OXIDE) DIBLOCK COPOLYMER:4||POLYSTYRENEBPOLY(METHYL METHACRYLATE):4||POLYMER BLENDS:4||SIMULATION:4||CHAIN ORIENTATION:4||STYRENE:4||TOF MASSSPECTROMETRY:4||WATER:4||DISPLAYS:4||OLIGOMERS:4||PEPTIDES:4||CYCLIC POLYSTYRENE:4||LATTICE CLUSTER THEORY:4||2NDHARMONIC GENERATION:4||LIQUIDCRYSTAL ALIGNMENT:4||MONTECARLO:4||LangmuirBlodgett film:3||ASSEMBLIES:3||chromatography:3||HOLOGRAPHIC RELAXATION SPECTROSCOPY:3||MULTIPLE MORPHOLOGIES:3||INTERACTION CHROMATOGRAPHY:3||NORMALPHASE:3||DIFFUSION:3||BRANCHED POLYSTYRENE:3||NANOPARTICLES:3||LITHOGRAPHY:3||POLYMER:3||LASERLIGHTSCATTERING:3||HIGH MOLECULARWEIGHT:3||CUBIC PHASE:3||AMPHIPHILIC BLOCKCOPOLYMERS:3||AQUEOUSSOLUTION:3||MODEL:3||FORCED RAYLEIGHSCATTERING:3||HYDRODYNAMIC PROPERTIES:3||4MIKTOARM STAR COPOLYMER:3||SYSTEM:3||PHASEBEHAVIOR:3||AQUEOUSSOLUTIONS:3||RHEOLOGY:3||LB film:3||2DIMENSIONAL LIQUIDCHROMATOGRAPHY:3||VISCOSITY:3||DIBLOCK COPOLYMER MELTS:3||ORDERORDER TRANSITION:3||GYROID PHASE:3||BINDING:3||BLOCK POLYELECTROLYTES:3||DERIVATIVES:3||MELT:3||PHASE LIQUIDCHROMATOGRAPHY:3||high temperature:3||ELEVATEDTEMPERATURE:3||RETENTION:3||MICELLE FORMATION:3||ELECTRONMICROSCOPY:3||Electrospray ionization:2||FRACTIONS:2||nalkanes:2||ISOCRATIC SEPARATION:2||ASSOCIATION:2||POLY(METHYL METHACRYLATE)S:2||2D correlation spectroscopy:2||CARBONATION:2||GLASSTRANSITION BEHAVIORS:2||MECHANICAL PROPERTIES:2||DIMENSIONS:2||POLYMER MIXTURES:2||ALUMINUM PORPHYRIN:2||LEAD STEARATE:2||FERROCENE:2||POLY(EPSILONCAPROLACTONE):2||DIAGRAM:2||nucleosides:2||Selective recognition by preconcentration:2||Electrochemical impedance spectroscopy:2||DOPAMINE:2||Silica:2||Silyl Ester:2||DIETHYL ESTER) PRECURSORS:2||SURFACE CHARACTERIZATION:2||MICROSTRUCTURE:2||polystyreneblockpolyisoprene:2||MICROPHASESEPARATED STRUCTURES:2||IMPEDANCE MEASUREMENTS:2||HEMEPROTEINS:2||SOLID SUBSTRATE:2||MOISTURE ABSORPTION:2||aromatic polyimide:2||INDUCED MORPHOLOGICALCHANGES:2||STABILITY:2||LC alignment layers:2||POLYPYROMELLITIMIDES:2||Ion mobility:2||Chiral polymer:2||OLIGOSACCHARIDES:2||OXIDE:2||SIDECHAIN:2||RETARDATION:2||functionality:2||temperature effects:2||phase transition:2||glass transition temperature:2||spincoated film:2||ESTER) PRECURSORS:2||PRECURSOR BLEND:2||Xray reflectivity:2||SIGMABONDS:2||aluminum porphyrin catalysts:2||METALLOPORPHYRIN:2||SILICON:2||MASSSPECTROMETRY ANALYSIS:2||STAR POLYMERS:2||SIZE DISTRIBUTIONS:2||GIANT VESICLES:2||POLY(3ALKYLTHIOPHENES):2||ADHESION:2||LIGHT:2||POLYSTYRENEBPOLYISOPRENE:2||HPLC fractionation:2||SILVER ELECTRODES:2||ENHANCED RESONANCE RAMAN:2||SEQUENCE:2||POLYELECTROLYTE/NONELECTROLYTE SHELLS:2||polyimide:2||liquid crystal alignment layer:2||SOLUBLE POLYIMIDES:2||POLYBUTADIENECOATED ZIRCONIA:2||PRETILT ANGLES:2||CROSSSECTIONS:2||IMSMS:2||POLYISOPRENE COPOLYMERS:2||POLYIMIDE THINFILMS:2||POLYMER SURFACES:2||RAMAN:2||STEREOREGULAR PMMA:2||poly(tertbutyl methacrylate) (PtBMA):2||TIME:2||POLYIMIDE COMPOSITE:2||CARBOXYLATO COMPLEXES:2||AGOSTIC INTERACTIONS:2||MOLECULARSTRUCTURE:2||ALKENE:2||TRANSISTOR MEMORY:2||DEVICES:2||ORTHOGONALITY:2||molecular characterization:2||ORGANOSILICATE DIELECTRIC FILMS:2||AMPHIPHILES:2||Serotonin:2||Anodic stripping differential pulse voltammetry:2||transmission electron microtomography:2||LIQUIDCHROMATOGRAPHY ANALYSIS:2||PHASEDIAGRAM:2||CARBON NANOTUBES:2||TRANSFER MECHANISM:2||BINARY MIXTURES:2||REFLECTOMETRY:2||ROD:2||DROPS:2||CONSTANT:2||TRIBLOCK COPOLYMER:2||POLYMER VESICLES:2||CLICK CHEMISTRY:2||ARRAYS:2||COMPOSITES:2||MALDITOF MS:2||POLYMER THINFILMS:2||HYDROPHOBIC INTERACTION CHROMATOGRAPHY:2||retention mechanism:2||GRAZINGINCIDENCE:2||NANOPOROSITY:2||soluble poly(amic esteraltimide)s:2||DIFFERENTIAL SCANNING CALORIMETRY:2||RESIDUALSTRESS:2||CHEMICALCOMPOSITION:2||POLY(AMIC DIETHYL ESTER) PRECURSOR:2||POLY(DIMETHYL SILOXANES):2||MASS POLYSTYRENES:2||cyclic propylene carbonate:2||propylene oxide:2||ACETATE) TOLUENE SOLUTIONS:2||TRANSIENT GRATING METHOD:2||MASS DIFFUSION:2||MICROPHASE SEPARATION TRANSITION:2||POLYSTYRENES:2||POLYSILANE:2||CARBOHYDRATEBASED PHOSPHOLIPIDS:2||HELICAL STRANDS:2||FLUORESCENCE DETECTION:2||SENSITIVE DETERMINATION:2||COMPOSITE FILMS:2||microphase:2||3MERCAPTOPROPIONIC ACID:2||BUTADIENE BLOCK COPOLYMER:2||HYBRID POLYMERIC MICELLES:2||AQUEOUSMEDIA:2||CONTACTANGLE:2||TRANSISTORCIRCUITS:2||ABTYPE POLY(ETHERIMIDE)S:2||CORRELATION SPECTROSCOPY:2||GASPHASE CONFORMATIONS:2||DECANE:2||INFRAREDSPECTROSCOPY:2||MICELLIZATION:2||ENERGIES:2||ACID) PRECURSORS:2||PHOTOALIGNMENT:2||polymers:2||SUBSTRATE:2||carbon dioxide:2||oligomeric propylene carbonate:2||THERMALDIFFUSION:2||CRYSTAL:2||PHASETRANSITION:2||REFLECTIVITY:2||ANALOGS:2||supramolecular chemistry:2||LYSOPHOSPHATIDIC ACID:2||PHOSPHOCHOLINE:2||POLY(3HEXYLTHIOPHENE):2||Receptor:2||MODIFIED GOLD ELECTRODES:2||ASCORBICACID:2||HUMAN URINE:2||Hybrid Nanocomposite:2||Dielectric Constant:2||AU(111) ELECTRODES:2||NANOFILMS:2||HYDROPHOBIC CORES:2||DRIVEN:2||FLEXIBLE SIDECHAINS:2||MESOGEN:2||size exclusion chromatography:2||ORGANIZATION:2||POLY(LACTIC ACID):2||MOLECULAR ARCHITECTURE:2||COUPLER:2||POLYSTYRENE COPOLYMER:2||diffusion coefficient:2||XRAY REFLECTIVITY:2||temperature gradient interaction chromatography polystyryllithium:2||VISCOELASTIC PROPERTIES:2||polyisoprene:2||CRYSTALSTRUCTURES:2||POLYCARBONATE:2||MULTILAYERS:2||DEPOSITION:2||FULL ADSORPTION MECHANISMS:2||QUANTUM DOTS:2||CRITICAL ORDERING TRANSITION:2||CORE:2||PARACRYSTALLINE DISTORTION:2||PERFORATED LAYER PHASE:2||liposomes:2||phospholipids:2||UNILAMELLAR VESICLES:2||VOLTAMMETRIC DETERMINATION:2||Polyimide:2||FOURIERTRANSFORM:2||SURFACE:2||SIZE EXCLUSION CHROMATOGRAPHY:2||NEUTRON REFLECTIVITY:2||ORDERED STRUCTURE:2||RIGID ROD POLYMERS:2||DISPLACEMENT POLYMERIZATION:2||PHOTOSENSITIVE POLYIMIDE:2||EFFICIENCY:2||films:2||Polylactide:2||CHROMATOGRAPHIC CRITICAL CONDITION:2||RETENTION MECHANISM:2||COPPER PHTHALOCYANINE:2||C60:2||COPOLYMER:2||micelle:2||LINEAR POLYETHYLENE:2||LIQUIDS:2||ARMS:2||HIGHPERFORMANCE LIQUID:2||alternating copolyimides:2||PHASE SEPARATION:2||POLYMERCHAINS:2||STYRYLPYRIDINIUM:2||ANGLES:2||MOBILITY:2||PROBE:2||ACIDS:2||BLUE:2||POSITIONS:2||CYCLOPENTADIENYL:2||HIGHMOLECULARWEIGHT:2||FUELCELLS:2||TIN OXIDE:2||NANOCRYSTALS:2||SURFACE MICELLE FORMATION:2||DISORDER TRANSITION:2||BIREFRINGENCE:2||LIPIDCOMPOSITION:2||CONJUGATED POLYMERS:2||GLASSYCARBON ELECTRODE:2||ELECTROCHEMICAL DETECTION:2||MULTIPLE DETECTION:2||aromatic polyimides:2||MOLECULARWEIGHT HOMOPOLYMERS:2||BINARYMIXTURE:2||PATTERNS:2||photoluminescent polyimide:2||photosensitive polyimide:2||DEPENDENT MICELLIZATION:2||SPEED:2||synthesis:2||COIL BLOCKCOPOLYMERS:2||LIQUIDCRYSTALLINE ASSEMBLIES:2||OXIDE):2||molecular weight distribution:2||CONJUGATED POLYMER:2||polymer characterization:2||NONIONIC SURFACTANTS:2||STEREOREGULAR POLY(METHYL METHACRYLATE):2||structure:2||RODLIKE POLYIMIDE:2||FLEXIBLE POLYIMIDE:2||THERMAL IMIDIZATION:2||IN SITU RODCHAIN FORMATION:2||PHASESEPARATION:2||VINYL ETHER):2||EQUILIBRIUM:2||STRESS:2||STRUCTURAL RELAXATION:2||LIVING POLYMERIZATION:2||CONTAIN:2||SALT:2||WAVEGUIDE:2||XRAY DIFFRACTION:2||WALLED CARBON NANOTUBES:2||SILICON NANOWIRES:2||IR:2||DIELECTRIC THINFILMS:2||Selfassembled monolayer:2||PARAMETERS:2||Temperature gradient interaction chromatography:2||SOLIDSURFACES:2||FLOW:2||RATES:2||PRECURSORS:2||FILM BALANCE:2||SIDECHAINS:2||SUPRAMOLECULAR MATERIALS:2||CHAINS:2||POLYSTYRENE:39||ANIONICPOLYMERIZATION:34||GRADIENT INTERACTION CHROMATOGRAPHY:31||SEPARATION:27||BEHAVIOR:24||LIQUIDCHROMATOGRAPHY:22||POLYMERS:22||SIZEEXCLUSION CHROMATOGRAPHY:19||BLOCKCOPOLYMERS:17||DIBLOCK COPOLYMERS:17||THINFILMS:16||POLYISOPRENE:14||HPLC:13||SYNTHETICPOLYMERS:12||PERFORMANCE LIQUIDCHROMATOGRAPHY:11||DIBLOCK COPOLYMER:11||MOLECULARWEIGHT DISTRIBUTION:10||MACROMOLECULES:10||BLOCKCOPOLYMER:10||REVERSEDPHASE:10||RETENTION BEHAVIOR:10||MORPHOLOGY:9||MOLECULARWEIGHT:9||MELTS:9||AROMATIC POLYIMIDES:8||XRAYSCATTERING:8||polystyrene:8||MIXTURES:7||block copolymer:7||SURFACES:7||DEPENDENCE:7||COPOLYMERS:7||POLYMERIZATION:7||AIR/WATER INTERFACE:7||DEFINED BRUSH POLYIMIDE:6||TEMPERATURE:6||FULLY RODLIKE BACKBONE:6||MONOLAYERS:6||POLYIMIDES:6||CHAIN:6||COMPLEX POLYMERS:6||MOLECULARREORIENTATION:6||temperature gradient interaction chromatography:6||POLYMERFILMS:6||GELPERMEATION CHROMATOGRAPHY:6||ELUTION:6||ORDERDISORDER TRANSITION:6||SURFACEMORPHOLOGY:6||ORIENTATION:6||SYSTEMS:6||CRITICAL ADSORPTION POINT:6||LIGHTSCATTERING:5||PROBE DIFFUSION:5||POLYDISPERSITY:5||AIRWATERINTERFACE:5||MICROPHASE SEPARATION:5||GLASSTRANSITION:5||BLENDS:5||FILMS:5||ADSORPTION CHROMATOGRAPHY:5||MECHANISM:5||CO2:5||ETHYLENEOXIDE:5||ALIGNMENT:5||COMPLEXES:5||FRACTIONATION:5||MISCIBILITY:5||POLYMER CHARACTERIZATION:5||HEXAGONALLY PERFORATED LAYER:5||TRANSITION:5||FLIGHT MASSSPECTROMETRY:5||ARCHITECTURE:5||POLY(METHYL METHACRYLATE):5||ALTERNATING COPOLYMERIZATION:4||THICKNESS:4||THERMODYNAMICS:4||CRITICAL RANGE:4||ULTRATHIN POLYMERFILMS:4||DYNAMICS:4||CLIMATECHANGE:4||PHASE:4||GLASSTRANSITION TEMPERATURE:4||EPOXIDE:4||selfassembly:4||SPECTROSCOPY:4||SELFDIFFUSION:4||SCATTERING:4||OPTICALPROPERTIES:4||CATALYSTS:4||CHEMISTRY:4||SOLARCELLS:4||polyimides:4||polypyromellitimides:4||SEGMENTAL REORIENTATIONS:4||ADSORPTION:4||INTERFACE:4||POLYMERSOLUTIONS:4||TRACER DIFFUSION:4||OXIDE) DIBLOCK COPOLYMER:4||POLYSTYRENEBPOLY(METHYL METHACRYLATE):4||POLYMER BLENDS:4||SIMULATION:4||CHAIN ORIENTATION:4||STYRENE:4||TOF MASSSPECTROMETRY:4||WATER:4||DISPLAYS:4||OLIGOMERS:4||PEPTIDES:4||CYCLIC POLYSTYRENE:4||LATTICE CLUSTER THEORY:4||2NDHARMONIC GENERATION:4||LIQUIDCRYSTAL ALIGNMENT:4||MONTECARLO:4||LangmuirBlodgett film:3||ASSEMBLIES:3||chromatography:3||HOLOGRAPHIC RELAXATION SPECTROSCOPY:3||MULTIPLE MORPHOLOGIES:3||INTERACTION CHROMATOGRAPHY:3||NORMALPHASE:3||DIFFUSION:3||BRANCHED POLYSTYRENE:3||NANOPARTICLES:3||LITHOGRAPHY:3||POLYMER:3||LASERLIGHTSCATTERING:3||HIGH MOLECULARWEIGHT:3||CUBIC PHASE:3||AMPHIPHILIC BLOCKCOPOLYMERS:3||AQUEOUSSOLUTION:3||MODEL:3||FORCED RAYLEIGHSCATTERING:3||HYDRODYNAMIC PROPERTIES:3||4MIKTOARM STAR COPOLYMER:3||SYSTEM:3||PHASEBEHAVIOR:3||AQUEOUSSOLUTIONS:3||RHEOLOGY:3||LB film:3||2DIMENSIONAL LIQUIDCHROMATOGRAPHY:3||VISCOSITY:3||DIBLOCK COPOLYMER MELTS:3||ORDERORDER TRANSITION:3||GYROID PHASE:3||BINDING:3||BLOCK POLYELECTROLYTES:3||DERIVATIVES:3||MELT:3||PHASE LIQUIDCHROMATOGRAPHY:3||high temperature:3||ELEVATEDTEMPERATURE:3||RETENTION:3||MICELLE FORMATION:3||ELECTRONMICROSCOPY:3||Electrospray ionization:2||FRACTIONS:2||nalkanes:2||ISOCRATIC SEPARATION:2||ASSOCIATION:2||POLY(METHYL METHACRYLATE)S:2||2D correlation spectroscopy:2||CARBONATION:2||GLASSTRANSITION BEHAVIORS:2||MECHANICAL PROPERTIES:2||DIMENSIONS:2||POLYMER MIXTURES:2||ALUMINUM PORPHYRIN:2||LEAD STEARATE:2||FERROCENE:2||POLY(EPSILONCAPROLACTONE):2||DIAGRAM:2||nucleosides:2||Selective recognition by preconcentration:2||Electrochemical impedance spectroscopy:2||DOPAMINE:2||Silica:2||Silyl Ester:2||DIETHYL ESTER) PRECURSORS:2||SURFACE CHARACTERIZATION:2||MICROSTRUCTURE:2||polystyreneblockpolyisoprene:2||MICROPHASESEPARATED STRUCTURES:2||IMPEDANCE MEASUREMENTS:2||HEMEPROTEINS:2||SOLID SUBSTRATE:2||MOISTURE ABSORPTION:2||aromatic polyimide:2||INDUCED MORPHOLOGICALCHANGES:2||STABILITY:2||LC alignment layers:2||POLYPYROMELLITIMIDES:2||Ion mobility:2||Chiral polymer:2||OLIGOSACCHARIDES:2||OXIDE:2||SIDECHAIN:2||RETARDATION:2||functionality:2||temperature effects:2||phase transition:2||glass transition temperature:2||spincoated film:2||ESTER) PRECURSORS:2||PRECURSOR BLEND:2||Xray reflectivity:2||SIGMABONDS:2||aluminum porphyrin catalysts:2||METALLOPORPHYRIN:2||SILICON:2||MASSSPECTROMETRY ANALYSIS:2||STAR POLYMERS:2||SIZE DISTRIBUTIONS:2||GIANT VESICLES:2||POLY(3ALKYLTHIOPHENES):2||ADHESION:2||LIGHT:2||POLYSTYRENEBPOLYISOPRENE:2||HPLC fractionation:2||SILVER ELECTRODES:2||ENHANCED RESONANCE RAMAN:2||SEQUENCE:2||POLYELECTROLYTE/NONELECTROLYTE SHELLS:2||polyimide:2||liquid crystal alignment layer:2||SOLUBLE POLYIMIDES:2||POLYBUTADIENECOATED ZIRCONIA:2||PRETILT ANGLES:2||CROSSSECTIONS:2||IMSMS:2||POLYISOPRENE COPOLYMERS:2||POLYIMIDE THINFILMS:2||POLYMER SURFACES:2||RAMAN:2||STEREOREGULAR PMMA:2||poly(tertbutyl methacrylate) (PtBMA):2||TIME:2||POLYIMIDE COMPOSITE:2||CARBOXYLATO COMPLEXES:2||AGOSTIC INTERACTIONS:2||MOLECULARSTRUCTURE:2||ALKENE:2||TRANSISTOR MEMORY:2||DEVICES:2||ORTHOGONALITY:2||molecular characterization:2||ORGANOSILICATE DIELECTRIC FILMS:2||AMPHIPHILES:2||Serotonin:2||Anodic stripping differential pulse voltammetry:2||transmission electron microtomography:2||LIQUIDCHROMATOGRAPHY ANALYSIS:2||PHASEDIAGRAM:2||CARBON NANOTUBES:2||TRANSFER MECHANISM:2||BINARY MIXTURES:2||REFLECTOMETRY:2||ROD:2||DROPS:2||CONSTANT:2||TRIBLOCK COPOLYMER:2||POLYMER VESICLES:2||CLICK CHEMISTRY:2||ARRAYS:2||COMPOSITES:2||MALDITOF MS:2||POLYMER THINFILMS:2||HYDROPHOBIC INTERACTION CHROMATOGRAPHY:2||retention mechanism:2||GRAZINGINCIDENCE:2||NANOPOROSITY:2||soluble poly(amic esteraltimide)s:2||DIFFERENTIAL SCANNING CALORIMETRY:2||RESIDUALSTRESS:2||CHEMICALCOMPOSITION:2||POLY(AMIC DIETHYL ESTER) PRECURSOR:2||POLY(DIMETHYL SILOXANES):2||MASS POLYSTYRENES:2||cyclic propylene carbonate:2||propylene oxide:2||ACETATE) TOLUENE SOLUTIONS:2||TRANSIENT GRATING METHOD:2||MASS DIFFUSION:2||MICROPHASE SEPARATION TRANSITION:2||POLYSTYRENES:2||POLYSILANE:2||CARBOHYDRATEBASED PHOSPHOLIPIDS:2||HELICAL STRANDS:2||FLUORESCENCE DETECTION:2||SENSITIVE DETERMINATION:2||COMPOSITE FILMS:2||microphase:2||3MERCAPTOPROPIONIC ACID:2||BUTADIENE BLOCK COPOLYMER:2||HYBRID POLYMERIC MICELLES:2||AQUEOUSMEDIA:2||CONTACTANGLE:2||TRANSISTORCIRCUITS:2||ABTYPE POLY(ETHERIMIDE)S:2||CORRELATION SPECTROSCOPY:2||GASPHASE CONFORMATIONS:2||DECANE:2||INFRAREDSPECTROSCOPY:2||MICELLIZATION:2||ENERGIES:2||ACID) PRECURSORS:2||PHOTOALIGNMENT:2||polymers:2||SUBSTRATE:2||carbon dioxide:2||oligomeric propylene carbonate:2||THERMALDIFFUSION:2||CRYSTAL:2||PHASETRANSITION:2||REFLECTIVITY:2||ANALOGS:2||supramolecular chemistry:2||LYSOPHOSPHATIDIC ACID:2||PHOSPHOCHOLINE:2||POLY(3HEXYLTHIOPHENE):2||Receptor:2||MODIFIED GOLD ELECTRODES:2||ASCORBICACID:2||HUMAN URINE:2||Hybrid Nanocomposite:2||Dielectric Constant:2||AU(111) ELECTRODES:2||NANOFILMS:2||HYDROPHOBIC CORES:2||DRIVEN:2||FLEXIBLE SIDECHAINS:2||MESOGEN:2||size exclusion chromatography:2||ORGANIZATION:2||POLY(LACTIC ACID):2||MOLECULAR ARCHITECTURE:2||COUPLER:2||POLYSTYRENE COPOLYMER:2||diffusion coefficient:2||XRAY REFLECTIVITY:2||temperature gradient interaction chromatography polystyryllithium:2||VISCOELASTIC PROPERTIES:2||polyisoprene:2||CRYSTALSTRUCTURES:2||POLYCARBONATE:2||MULTILAYERS:2||DEPOSITION:2||FULL ADSORPTION MECHANISMS:2||QUANTUM DOTS:2||CRITICAL ORDERING TRANSITION:2||CORE:2||PARACRYSTALLINE DISTORTION:2||PERFORATED LAYER PHASE:2||liposomes:2||phospholipids:2||UNILAMELLAR VESICLES:2||VOLTAMMETRIC DETERMINATION:2||Polyimide:2||FOURIERTRANSFORM:2||SURFACE:2||SIZE EXCLUSION CHROMATOGRAPHY:2||NEUTRON REFLECTIVITY:2||ORDERED STRUCTURE:2||RIGID ROD POLYMERS:2||DISPLACEMENT POLYMERIZATION:2||PHOTOSENSITIVE POLYIMIDE:2||EFFICIENCY:2||films:2||Polylactide:2||CHROMATOGRAPHIC CRITICAL CONDITION:2||RETENTION MECHANISM:2||COPPER PHTHALOCYANINE:2||C60:2||COPOLYMER:2||micelle:2||LINEAR POLYETHYLENE:2||LIQUIDS:2||ARMS:2||HIGHPERFORMANCE LIQUID:2||alternating copolyimides:2||PHASE SEPARATION:2||POLYMERCHAINS:2||STYRYLPYRIDINIUM:2||ANGLES:2||MOBILITY:2||PROBE:2||ACIDS:2||BLUE:2||POSITIONS:2||CYCLOPENTADIENYL:2||HIGHMOLECULARWEIGHT:2||FUELCELLS:2||TIN OXIDE:2||NANOCRYSTALS:2||SURFACE MICELLE FORMATION:2||DISORDER TRANSITION:2||BIREFRINGENCE:2||LIPIDCOMPOSITION:2||CONJUGATED POLYMERS:2||GLASSYCARBON ELECTRODE:2||ELECTROCHEMICAL DETECTION:2||MULTIPLE DETECTION:2||aromatic polyimides:2||MOLECULARWEIGHT HOMOPOLYMERS:2||BINARYMIXTURE:2||PATTERNS:2||photoluminescent polyimide:2||photosensitive polyimide:2||DEPENDENT MICELLIZATION:2||SPEED:2||synthesis:2||COIL BLOCKCOPOLYMERS:2||LIQUIDCRYSTALLINE ASSEMBLIES:2||OXIDE):2||molecular weight distribution:2||CONJUGATED POLYMER:2||polymer characterization:2||NONIONIC SURFACTANTS:2||STEREOREGULAR POLY(METHYL METHACRYLATE):2||structure:2||RODLIKE POLYIMIDE:2||FLEXIBLE POLYIMIDE:2||THERMAL IMIDIZATION:2||IN SITU RODCHAIN FORMATION:2||PHASESEPARATION:2||VINYL ETHER):2||EQUILIBRIUM:2||STRESS:2||STRUCTURAL RELAXATION:2||LIVING POLYMERIZATION:2||CONTAIN:2||SALT:2||WAVEGUIDE:2||XRAY DIFFRACTION:2||WALLED CARBON NANOTUBES:2||SILICON NANOWIRES:2||IR:2||DIELECTRIC THINFILMS:2||Selfassembled monolayer:2||PARAMETERS:2||Temperature gradient interaction chromatography:2||SOLIDSURFACES:2||FLOW:2||RATES:2||PRECURSORS:2||FILM BALANCE:2||SIDECHAINS:2||SUPRAMOLECULAR MATERIALS:2||CHAINS:2||POLYSTYRENE:39||ANIONICPOLYMERIZATION:34||GRADIENT INTERACTION CHROMATOGRAPHY:31||SEPARATION:27||BEHAVIOR:24||LIQUIDCHROMATOGRAPHY:22||POLYMERS:22||SIZEEXCLUSION CHROMATOGRAPHY:19||BLOCKCOPOLYMERS:17||DIBLOCK COPOLYMERS:17||THINFILMS:16||POLYISOPRENE:14||HPLC:13||SYNTHETICPOLYMERS:12||PERFORMANCE LIQUIDCHROMATOGRAPHY:11||DIBLOCK COPOLYMER:11||MOLECULARWEIGHT DISTRIBUTION:10||MACROMOLECULES:10||BLOCKCOPOLYMER:10||REVERSEDPHASE:10||RETENTION BEHAVIOR:10||MORPHOLOGY:9||MOLECULARWEIGHT:9||MELTS:9||AROMATIC POLYIMIDES:8||XRAYSCATTERING:8||polystyrene:8||MIXTURES:7||block copolymer:7||SURFACES:7||DEPENDENCE:7||COPOLYMERS:7||POLYMERIZATION:7||AIR/WATER INTERFACE:7||DEFINED BRUSH POLYIMIDE:6||TEMPERATURE:6||FULLY RODLIKE BACKBONE:6||MONOLAYERS:6||POLYIMIDES:6||CHAIN:6||COMPLEX POLYMERS:6||MOLECULARREORIENTATION:6||temperature gradient interaction chromatography:6||POLYMERFILMS:6||GELPERMEATION CHROMATOGRAPHY:6||ELUTION:6||ORDERDISORDER TRANSITION:6||SURFACEMORPHOLOGY:6||ORIENTATION:6||SYSTEMS:6||CRITICAL ADSORPTION POINT:6||LIGHTSCATTERING:5||PROBE DIFFUSION:5||POLYDISPERSITY:5||AIRWATERINTERFACE:5||MICROPHASE SEPARATION:5||GLASSTRANSITION:5||BLENDS:5||FILMS:5||ADSORPTION CHROMATOGRAPHY:5||MECHANISM:5||CO2:5||ETHYLENEOXIDE:5||ALIGNMENT:5||COMPLEXES:5||FRACTIONATION:5||MISCIBILITY:5||POLYMER CHARACTERIZATION:5||HEXAGONALLY PERFORATED LAYER:5||TRANSITION:5||FLIGHT MASSSPECTROMETRY:5||ARCHITECTURE:5||POLY(METHYL METHACRYLATE):5||ALTERNATING COPOLYMERIZATION:4||THICKNESS:4||THERMODYNAMICS:4||CRITICAL RANGE:4||ULTRATHIN POLYMERFILMS:4||DYNAMICS:4||CLIMATECHANGE:4||PHASE:4||GLASSTRANSITION TEMPERATURE:4||EPOXIDE:4||selfassembly:4||SPECTROSCOPY:4||SELFDIFFUSION:4||SCATTERING:4||OPTICALPROPERTIES:4||CATALYSTS:4||CHEMISTRY:4||SOLARCELLS:4||polyimides:4||polypyromellitimides:4||SEGMENTAL REORIENTATIONS:4||ADSORPTION:4||INTERFACE:4||POLYMERSOLUTIONS:4||TRACER DIFFUSION:4||OXIDE) DIBLOCK COPOLYMER:4||POLYSTYRENEBPOLY(METHYL METHACRYLATE):4||POLYMER BLENDS:4||SIMULATION:4||CHAIN ORIENTATION:4||STYRENE:4||TOF MASSSPECTROMETRY:4||WATER:4||DISPLAYS:4||OLIGOMERS:4||PEPTIDES:4||CYCLIC POLYSTYRENE:4||LATTICE CLUSTER THEORY:4||2NDHARMONIC GENERATION:4||LIQUIDCRYSTAL ALIGNMENT:4||MONTECARLO:4||LangmuirBlodgett film:3||ASSEMBLIES:3||chromatography:3||HOLOGRAPHIC RELAXATION SPECTROSCOPY:3||MULTIPLE MORPHOLOGIES:3||INTERACTION CHROMATOGRAPHY:3||NORMALPHASE:3||DIFFUSION:3||BRANCHED POLYSTYRENE:3||NANOPARTICLES:3||LITHOGRAPHY:3||POLYMER:3||LASERLIGHTSCATTERING:3||HIGH MOLECULARWEIGHT:3||CUBIC PHASE:3||AMPHIPHILIC BLOCKCOPOLYMERS:3||AQUEOUSSOLUTION:3||MODEL:3||FORCED RAYLEIGHSCATTERING:3||HYDRODYNAMIC PROPERTIES:3||4MIKTOARM STAR COPOLYMER:3||SYSTEM:3||PHASEBEHAVIOR:3||AQUEOUSSOLUTIONS:3||RHEOLOGY:3||LB film:3||2DIMENSIONAL LIQUIDCHROMATOGRAPHY:3||VISCOSITY:3||DIBLOCK COPOLYMER MELTS:3||ORDERORDER TRANSITION:3||GYROID PHASE:3||BINDING:3||BLOCK POLYELECTROLYTES:3||DERIVATIVES:3||MELT:3||PHASE LIQUIDCHROMATOGRAPHY:3||high temperature:3||ELEVATEDTEMPERATURE:3||RETENTION:3||MICELLE FORMATION:3||ELECTRONMICROSCOPY:3||Electrospray ionization:2||FRACTIONS:2||nalkanes:2||ISOCRATIC SEPARATION:2||ASSOCIATION:2||POLY(METHYL METHACRYLATE)S:2||2D correlation spectroscopy:2||CARBONATION:2||GLASSTRANSITION BEHAVIORS:2||MECHANICAL PROPERTIES:2||DIMENSIONS:2||POLYMER MIXTURES:2||ALUMINUM PORPHYRIN:2||LEAD STEARATE:2||FERROCENE:2||POLY(EPSILONCAPROLACTONE):2||DIAGRAM:2||nucleosides:2||Selective recognition by preconcentration:2||Electrochemical impedance spectroscopy:2||DOPAMINE:2||Silica:2||Silyl Ester:2||DIETHYL ESTER) PRECURSORS:2||SURFACE CHARACTERIZATION:2||MICROSTRUCTURE:2||polystyreneblockpolyisoprene:2||MICROPHASESEPARATED STRUCTURES:2||IMPEDANCE MEASUREMENTS:2||HEMEPROTEINS:2||SOLID SUBSTRATE:2||MOISTURE ABSORPTION:2||aromatic polyimide:2||INDUCED MORPHOLOGICALCHANGES:2||STABILITY:2||LC alignment layers:2||POLYPYROMELLITIMIDES:2||Ion mobility:2||Chiral polymer:2||OLIGOSACCHARIDES:2||OXIDE:2||SIDECHAIN:2||RETARDATION:2||functionality:2||temperature effects:2||phase transition:2||glass transition temperature:2||spincoated film:2||ESTER) PRECURSORS:2||PRECURSOR BLEND:2||Xray reflectivity:2||SIGMABONDS:2||aluminum porphyrin catalysts:2||METALLOPORPHYRIN:2||SILICON:2||MASSSPECTROMETRY ANALYSIS:2||STAR POLYMERS:2||SIZE DISTRIBUTIONS:2||GIANT VESICLES:2||POLY(3ALKYLTHIOPHENES):2||ADHESION:2||LIGHT:2||POLYSTYRENEBPOLYISOPRENE:2||HPLC fractionation:2||SILVER ELECTRODES:2||ENHANCED RESONANCE RAMAN:2||SEQUENCE:2||POLYELECTROLYTE/NONELECTROLYTE SHELLS:2||polyimide:2||liquid crystal alignment layer:2||SOLUBLE POLYIMIDES:2||POLYBUTADIENECOATED ZIRCONIA:2||PRETILT ANGLES:2||CROSSSECTIONS:2||IMSMS:2||POLYISOPRENE COPOLYMERS:2||POLYIMIDE THINFILMS:2||POLYMER SURFACES:2||RAMAN:2||STEREOREGULAR PMMA:2||poly(tertbutyl methacrylate) (PtBMA):2||TIME:2||POLYIMIDE COMPOSITE:2||CARBOXYLATO COMPLEXES:2||AGOSTIC INTERACTIONS:2||MOLECULARSTRUCTURE:2||ALKENE:2||TRANSISTOR MEMORY:2||DEVICES:2||ORTHOGONALITY:2||molecular characterization:2||ORGANOSILICATE DIELECTRIC FILMS:2||AMPHIPHILES:2||Serotonin:2||Anodic stripping differential pulse voltammetry:2||transmission electron microtomography:2||LIQUIDCHROMATOGRAPHY ANALYSIS:2||PHASEDIAGRAM:2||CARBON NANOTUBES:2||TRANSFER MECHANISM:2||BINARY MIXTURES:2||REFLECTOMETRY:2||ROD:2||DROPS:2||CONSTANT:2||TRIBLOCK COPOLYMER:2||POLYMER VESICLES:2||CLICK CHEMISTRY:2||ARRAYS:2||COMPOSITES:2||MALDITOF MS:2||POLYMER THINFILMS:2||HYDROPHOBIC INTERACTION CHROMATOGRAPHY:2||retention mechanism:2||GRAZINGINCIDENCE:2||NANOPOROSITY:2||soluble poly(amic esteraltimide)s:2||DIFFERENTIAL SCANNING CALORIMETRY:2||RESIDUALSTRESS:2||CHEMICALCOMPOSITION:2||POLY(AMIC DIETHYL ESTER) PRECURSOR:2||POLY(DIMETHYL SILOXANES):2||MASS POLYSTYRENES:2||cyclic propylene carbonate:2||propylene oxide:2||ACETATE) TOLUENE SOLUTIONS:2||TRANSIENT GRATING METHOD:2||MASS DIFFUSION:2||MICROPHASE SEPARATION TRANSITION:2||POLYSTYRENES:2||POLYSILANE:2||CARBOHYDRATEBASED PHOSPHOLIPIDS:2||HELICAL STRANDS:2||FLUORESCENCE DETECTION:2||SENSITIVE DETERMINATION:2||COMPOSITE FILMS:2||microphase:2||3MERCAPTOPROPIONIC ACID:2||BUTADIENE BLOCK COPOLYMER:2||HYBRID POLYMERIC MICELLES:2||AQUEOUSMEDIA:2||CONTACTANGLE:2||TRANSISTORCIRCUITS:2||ABTYPE POLY(ETHERIMIDE)S:2||CORRELATION SPECTROSCOPY:2||GASPHASE CONFORMATIONS:2||DECANE:2||INFRAREDSPECTROSCOPY:2||MICELLIZATION:2||ENERGIES:2||ACID) PRECURSORS:2||PHOTOALIGNMENT:2||polymers:2||SUBSTRATE:2||carbon dioxide:2||oligomeric propylene carbonate:2||THERMALDIFFUSION:2||CRYSTAL:2||PHASETRANSITION:2||REFLECTIVITY:2||ANALOGS:2||supramolecular chemistry:2||LYSOPHOSPHATIDIC ACID:2||PHOSPHOCHOLINE:2||POLY(3HEXYLTHIOPHENE):2||Receptor:2||MODIFIED GOLD ELECTRODES:2||ASCORBICACID:2||HUMAN URINE:2||Hybrid Nanocomposite:2||Dielectric Constant:2||AU(111) ELECTRODES:2||NANOFILMS:2||HYDROPHOBIC CORES:2||DRIVEN:2||FLEXIBLE SIDECHAINS:2||MESOGEN:2||size exclusion chromatography:2||ORGANIZATION:2||POLY(LACTIC ACID):2||MOLECULAR ARCHITECTURE:2||COUPLER:2||POLYSTYRENE COPOLYMER:2||diffusion coefficient:2||XRAY REFLECTIVITY:2||temperature gradient interaction chromatography polystyryllithium:2||VISCOELASTIC PROPERTIES:2||polyisoprene:2||CRYSTALSTRUCTURES:2||POLYCARBONATE:2||MULTILAYERS:2||DEPOSITION:2||FULL ADSORPTION MECHANISMS:2||QUANTUM DOTS:2||CRITICAL ORDERING TRANSITION:2||CORE:2||PARACRYSTALLINE DISTORTION:2||PERFORATED LAYER PHASE:2||liposomes:2||phospholipids:2||UNILAMELLAR VESICLES:2||VOLTAMMETRIC DETERMINATION:2||Polyimide:2||FOURIERTRANSFORM:2||SURFACE:2||SIZE EXCLUSION CHROMATOGRAPHY:2||NEUTRON REFLECTIVITY:2||ORDERED STRUCTURE:2||RIGID ROD POLYMERS:2||DISPLACEMENT POLYMERIZATION:2||PHOTOSENSITIVE POLYIMIDE:2||EFFICIENCY:2||films:2||Polylactide:2||CHROMATOGRAPHIC CRITICAL CONDITION:2||RETENTION MECHANISM:2||COPPER PHTHALOCYANINE:2||C60:2||COPOLYMER:2||micelle:2||LINEAR POLYETHYLENE:2||LIQUIDS:2||ARMS:2||HIGHPERFORMANCE LIQUID:2||alternating copolyimides:2||PHASE SEPARATION:2||POLYMERCHAINS:2||STYRYLPYRIDINIUM:2||ANGLES:2||MOBILITY:2||PROBE:2||ACIDS:2||BLUE:2||POSITIONS:2||CYCLOPENTADIENYL:2||HIGHMOLECULARWEIGHT:2||FUELCELLS:2||TIN OXIDE:2||NANOCRYSTALS:2||SURFACE MICELLE FORMATION:2||DISORDER TRANSITION:2||BIREFRINGENCE:2||LIPIDCOMPOSITION:2||CONJUGATED POLYMERS:2||GLASSYCARBON ELECTRODE:2||ELECTROCHEMICAL DETECTION:2||MULTIPLE DETECTION:2||aromatic polyimides:2||MOLECULARWEIGHT HOMOPOLYMERS:2||BINARYMIXTURE:2||PATTERNS:2||photoluminescent polyimide:2||photosensitive polyimide:2||DEPENDENT MICELLIZATION:2||SPEED:2||synthesis:2||COIL BLOCKCOPOLYMERS:2||LIQUIDCRYSTALLINE ASSEMBLIES:2||OXIDE):2||molecular weight distribution:2||CONJUGATED POLYMER:2||polymer characterization:2||NONIONIC SURFACTANTS:2||STEREOREGULAR POLY(METHYL METHACRYLATE):2||structure:2||RODLIKE POLYIMIDE:2||FLEXIBLE POLYIMIDE:2||THERMAL IMIDIZATION:2||IN SITU RODCHAIN FORMATION:2||PHASESEPARATION:2||VINYL ETHER):2||EQUILIBRIUM:2||STRESS:2||STRUCTURAL RELAXATION:2||LIVING POLYMERIZATION:2||CONTAIN:2||SALT:2||WAVEGUIDE:2||XRAY DIFFRACTION:2||WALLED CARBON NANOTUBES:2||SILICON NANOWIRES:2||IR:2||DIELECTRIC THINFILMS:2||Selfassembled monolayer:2||PARAMETERS:2||Temperature gradient interaction chromatography:2||SOLIDSURFACES:2||FLOW:2||RATES:2||PRECURSORS:2||FILM BALANCE:2||SIDECHAINS:2||SUPRAMOLECULAR MATERIALS:2||CHAINS:2||POLYSTYRENE:39||ANIONICPOLYMERIZATION:34||GRADIENT INTERACTION CHROMATOGRAPHY:31||SEPARATION:27||BEHAVIOR:24||LIQUIDCHROMATOGRAPHY:22||POLYMERS:22||SIZEEXCLUSION CHROMATOGRAPHY:19||BLOCKCOPOLYMERS:17||DIBLOCK COPOLYMERS:17||THINFILMS:16||POLYISOPRENE:14||HPLC:13||SYNTHETICPOLYMERS:12||PERFORMANCE LIQUIDCHROMATOGRAPHY:11||DIBLOCK COPOLYMER:11||MOLECULARWEIGHT DISTRIBUTION:10||MACROMOLECULES:10||BLOCKCOPOLYMER:10||REVERSEDPHASE:10||RETENTION BEHAVIOR:10||MORPHOLOGY:9||MOLECULARWEIGHT:9||MELTS:9||AROMATIC POLYIMIDES:8||XRAYSCATTERING:8||polystyrene:8||MIXTURES:7||block copolymer:7||SURFACES:7||DEPENDENCE:7||COPOLYMERS:7||POLYMERIZATION:7||AIR/WATER INTERFACE:7||DEFINED BRUSH POLYIMIDE:6||TEMPERATURE:6||FULLY RODLIKE BACKBONE:6||MONOLAYERS:6||POLYIMIDES:6||CHAIN:6||COMPLEX POLYMERS:6||MOLECULARREORIENTATION:6||temperature gradient interaction chromatography:6||POLYMERFILMS:6||GELPERMEATION CHROMATOGRAPHY:6||ELUTION:6||ORDERDISORDER TRANSITION:6||SURFACEMORPHOLOGY:6||ORIENTATION:6||SYSTEMS:6||CRITICAL ADSORPTION POINT:6||LIGHTSCATTERING:5||PROBE DIFFUSION:5||POLYDISPERSITY:5||AIRWATERINTERFACE:5||MICROPHASE SEPARATION:5||GLASSTRANSITION:5||BLENDS:5||FILMS:5||ADSORPTION CHROMATOGRAPHY:5||MECHANISM:5||CO2:5||ETHYLENEOXIDE:5||ALIGNMENT:5||COMPLEXES:5||FRACTIONATION:5||MISCIBILITY:5||POLYMER CHARACTERIZATION:5||HEXAGONALLY PERFORATED LAYER:5||TRANSITION:5||FLIGHT MASSSPECTROMETRY:5||ARCHITECTURE:5||POLY(METHYL METHACRYLATE):5||ALTERNATING COPOLYMERIZATION:4||THICKNESS:4||THERMODYNAMICS:4||CRITICAL RANGE:4||ULTRATHIN POLYMERFILMS:4||DYNAMICS:4||CLIMATECHANGE:4||PHASE:4||GLASSTRANSITION TEMPERATURE:4||EPOXIDE:4||selfassembly:4||SPECTROSCOPY:4||SELFDIFFUSION:4||SCATTERING:4||OPTICALPROPERTIES:4||CATALYSTS:4||CHEMISTRY:4||SOLARCELLS:4||polyimides:4||polypyromellitimides:4||SEGMENTAL REORIENTATIONS:4||ADSORPTION:4||INTERFACE:4||POLYMERSOLUTIONS:4||TRACER DIFFUSION:4||OXIDE) DIBLOCK COPOLYMER:4||POLYSTYRENEBPOLY(METHYL METHACRYLATE):4||POLYMER BLENDS:4||SIMULATION:4||CHAIN ORIENTATION:4||STYRENE:4||TOF MASSSPECTROMETRY:4||WATER:4||DISPLAYS:4||OLIGOMERS:4||PEPTIDES:4||CYCLIC POLYSTYRENE:4||LATTICE CLUSTER THEORY:4||2NDHARMONIC GENERATION:4||LIQUIDCRYSTAL ALIGNMENT:4||MONTECARLO:4||LangmuirBlodgett film:3||ASSEMBLIES:3||chromatography:3||HOLOGRAPHIC RELAXATION SPECTROSCOPY:3||MULTIPLE MORPHOLOGIES:3||INTERACTION CHROMATOGRAPHY:3||NORMALPHASE:3||DIFFUSION:3||BRANCHED POLYSTYRENE:3||NANOPARTICLES:3||LITHOGRAPHY:3||POLYMER:3||LASERLIGHTSCATTERING:3||HIGH MOLECULARWEIGHT:3||CUBIC PHASE:3||AMPHIPHILIC BLOCKCOPOLYMERS:3||AQUEOUSSOLUTION:3||MODEL:3||FORCED RAYLEIGHSCATTERING:3||HYDRODYNAMIC PROPERTIES:3||4MIKTOARM STAR COPOLYMER:3||SYSTEM:3||PHASEBEHAVIOR:3||AQUEOUSSOLUTIONS:3||RHEOLOGY:3||LB film:3||2DIMENSIONAL LIQUIDCHROMATOGRAPHY:3||VISCOSITY:3||DIBLOCK COPOLYMER MELTS:3||ORDERORDER TRANSITION:3||GYROID PHASE:3||BINDING:3||BLOCK POLYELECTROLYTES:3||DERIVATIVES:3||MELT:3||PHASE LIQUIDCHROMATOGRAPHY:3||high temperature:3||ELEVATEDTEMPERATURE:3||RETENTION:3||MICELLE FORMATION:3||ELECTRONMICROSCOPY:3||Electrospray ionization:2||FRACTIONS:2||nalkanes:2||ISOCRATIC SEPARATION:2||ASSOCIATION:2||POLY(METHYL METHACRYLATE)S:2||2D correlation spectroscopy:2||CARBONATION:2||GLASSTRANSITION BEHAVIORS:2||MECHANICAL PROPERTIES:2||DIMENSIONS:2||POLYMER MIXTURES:2||ALUMINUM PORPHYRIN:2||LEAD STEARATE:2||FERROCENE:2||POLY(EPSILONCAPROLACTONE):2||DIAGRAM:2||nucleosides:2||Selective recognition by preconcentration:2||Electrochemical impedance spectroscopy:2||DOPAMINE:2||Silica:2||Silyl Ester:2||DIETHYL ESTER) PRECURSORS:2||SURFACE CHARACTERIZATION:2||MICROSTRUCTURE:2||polystyreneblockpolyisoprene:2||MICROPHASESEPARATED STRUCTURES:2||IMPEDANCE MEASUREMENTS:2||HEMEPROTEINS:2||SOLID SUBSTRATE:2||MOISTURE ABSORPTION:2||aromatic polyimide:2||INDUCED MORPHOLOGICALCHANGES:2||STABILITY:2||LC alignment layers:2||POLYPYROMELLITIMIDES:2||Ion mobility:2||Chiral polymer:2||OLIGOSACCHARIDES:2||OXIDE:2||SIDECHAIN:2||RETARDATION:2||functionality:2||temperature effects:2||phase transition:2||glass transition temperature:2||spincoated film:2||ESTER) PRECURSORS:2||PRECURSOR BLEND:2||Xray reflectivity:2||SIGMABONDS:2||aluminum porphyrin catalysts:2||METALLOPORPHYRIN:2||SILICON:2||MASSSPECTROMETRY ANALYSIS:2||STAR POLYMERS:2||SIZE DISTRIBUTIONS:2||GIANT VESICLES:2||POLY(3ALKYLTHIOPHENES):2||ADHESION:2||LIGHT:2||POLYSTYRENEBPOLYISOPRENE:2||HPLC fractionation:2||SILVER ELECTRODES:2||ENHANCED RESONANCE RAMAN:2||SEQUENCE:2||POLYELECTROLYTE/NONELECTROLYTE SHELLS:2||polyimide:2||liquid crystal alignment layer:2||SOLUBLE POLYIMIDES:2||POLYBUTADIENECOATED ZIRCONIA:2||PRETILT ANGLES:2||CROSSSECTIONS:2||IMSMS:2||POLYISOPRENE COPOLYMERS:2||POLYIMIDE THINFILMS:2||POLYMER SURFACES:2||RAMAN:2||STEREOREGULAR PMMA:2||poly(tertbutyl methacrylate) (PtBMA):2||TIME:2||POLYIMIDE COMPOSITE:2||CARBOXYLATO COMPLEXES:2||AGOSTIC INTERACTIONS:2||MOLECULARSTRUCTURE:2||ALKENE:2||TRANSISTOR MEMORY:2||DEVICES:2||ORTHOGONALITY:2||molecular characterization:2||ORGANOSILICATE DIELECTRIC FILMS:2||AMPHIPHILES:2||Serotonin:2||Anodic stripping differential pulse voltammetry:2||transmission electron microtomography:2||LIQUIDCHROMATOGRAPHY ANALYSIS:2||PHASEDIAGRAM:2||CARBON NANOTUBES:2||TRANSFER MECHANISM:2||BINARY MIXTURES:2||REFLECTOMETRY:2||ROD:2||DROPS:2||CONSTANT:2||TRIBLOCK COPOLYMER:2||POLYMER VESICLES:2||CLICK CHEMISTRY:2||ARRAYS:2||COMPOSITES:2||MALDITOF MS:2||POLYMER THINFILMS:2||HYDROPHOBIC INTERACTION CHROMATOGRAPHY:2||retention mechanism:2||GRAZINGINCIDENCE:2||NANOPOROSITY:2||soluble poly(amic esteraltimide)s:2||DIFFERENTIAL SCANNING CALORIMETRY:2||RESIDUALSTRESS:2||CHEMICALCOMPOSITION:2||POLY(AMIC DIETHYL ESTER) PRECURSOR:2||POLY(DIMETHYL SILOXANES):2||MASS POLYSTYRENES:2||cyclic propylene carbonate:2||propylene oxide:2||ACETATE) TOLUENE SOLUTIONS:2||TRANSIENT GRATING METHOD:2||MASS DIFFUSION:2||MICROPHASE SEPARATION TRANSITION:2||POLYSTYRENES:2||POLYSILANE:2||CARBOHYDRATEBASED PHOSPHOLIPIDS:2||HELICAL STRANDS:2||FLUORESCENCE DETECTION:2||SENSITIVE DETERMINATION:2||COMPOSITE FILMS:2||microphase:2||3MERCAPTOPROPIONIC ACID:2||BUTADIENE BLOCK COPOLYMER:2||HYBRID POLYMERIC MICELLES:2||AQUEOUSMEDIA:2||CONTACTANGLE:2||TRANSISTORCIRCUITS:2||ABTYPE POLY(ETHERIMIDE)S:2||CORRELATION SPECTROSCOPY:2||GASPHASE CONFORMATIONS:2||DECANE:2||INFRAREDSPECTROSCOPY:2||MICELLIZATION:2||ENERGIES:2||ACID) PRECURSORS:2||PHOTOALIGNMENT:2||polymers:2||SUBSTRATE:2||carbon dioxide:2||oligomeric propylene carbonate:2||THERMALDIFFUSION:2||CRYSTAL:2||PHASETRANSITION:2||REFLECTIVITY:2||ANALOGS:2||supramolecular chemistry:2||LYSOPHOSPHATIDIC ACID:2||PHOSPHOCHOLINE:2||POLY(3HEXYLTHIOPHENE):2||Receptor:2||MODIFIED GOLD ELECTRODES:2||ASCORBICACID:2||HUMAN URINE:2||Hybrid Nanocomposite:2||Dielectric Constant:2||AU(111) ELECTRODES:2||NANOFILMS:2||HYDROPHOBIC CORES:2||DRIVEN:2||FLEXIBLE SIDECHAINS:2||MESOGEN:2||size exclusion chromatography:2||ORGANIZATION:2||POLY(LACTIC ACID):2||MOLECULAR ARCHITECTURE:2||COUPLER:2||POLYSTYRENE COPOLYMER:2||diffusion coefficient:2||XRAY REFLECTIVITY:2||temperature gradient interaction chromatography polystyryllithium:2||VISCOELASTIC PROPERTIES:2||polyisoprene:2||CRYSTALSTRUCTURES:2||POLYCARBONATE:2||MULTILAYERS:2||DEPOSITION:2||FULL ADSORPTION MECHANISMS:2||QUANTUM DOTS:2||CRITICAL ORDERING TRANSITION:2||CORE:2||PARACRYSTALLINE DISTORTION:2||PERFORATED LAYER PHASE:2||liposomes:2||phospholipids:2||UNILAMELLAR VESICLES:2||VOLTAMMETRIC DETERMINATION:2||Polyimide:2||FOURIERTRANSFORM:2||SURFACE:2||SIZE EXCLUSION CHROMATOGRAPHY:2||NEUTRON REFLECTIVITY:2||ORDERED STRUCTURE:2||RIGID ROD POLYMERS:2||DISPLACEMENT POLYMERIZATION:2||PHOTOSENSITIVE POLYIMIDE:2||EFFICIENCY:2||films:2||Polylactide:2||CHROMATOGRAPHIC CRITICAL CONDITION:2||RETENTION MECHANISM:2||COPPER PHTHALOCYANINE:2||C60:2||COPOLYMER:2||micelle:2||LINEAR POLYETHYLENE:2||LIQUIDS:2||ARMS:2||HIGHPERFORMANCE LIQUID:2||alternating copolyimides:2||PHASE SEPARATION:2||POLYMERCHAINS:2||STYRYLPYRIDINIUM:2||ANGLES:2||MOBILITY:2||PROBE:2||ACIDS:2||BLUE:2||POSITIONS:2||CYCLOPENTADIENYL:2||HIGHMOLECULARWEIGHT:2||FUELCELLS:2||TIN OXIDE:2||NANOCRYSTALS:2||SURFACE MICELLE FORMATION:2||DISORDER TRANSITION:2||BIREFRINGENCE:2||LIPIDCOMPOSITION:2||CONJUGATED POLYMERS:2||GLASSYCARBON ELECTRODE:2||ELECTROCHEMICAL DETECTION:2||MULTIPLE DETECTION:2||aromatic polyimides:2||MOLECULARWEIGHT HOMOPOLYMERS:2||BINARYMIXTURE:2||PATTERNS:2||photoluminescent polyimide:2||photosensitive polyimide:2||DEPENDENT MICELLIZATION:2||SPEED:2||synthesis:2||COIL BLOCKCOPOLYMERS:2||LIQUIDCRYSTALLINE ASSEMBLIES:2||OXIDE):2||molecular weight distribution:2||CONJUGATED POLYMER:2||polymer characterization:2||NONIONIC SURFACTANTS:2||STEREOREGULAR POLY(METHYL METHACRYLATE):2||structure:2||RODLIKE POLYIMIDE:2||FLEXIBLE POLYIMIDE:2||THERMAL IMIDIZATION:2||IN SITU RODCHAIN FORMATION:2||PHASESEPARATION:2||VINYL ETHER):2||EQUILIBRIUM:2||STRESS:2||STRUCTURAL RELAXATION:2||LIVING POLYMERIZATION:2||CONTAIN:2||SALT:2||WAVEGUIDE:2||XRAY DIFFRACTION:2||WALLED CARBON NANOTUBES:2||SILICON NANOWIRES:2||IR:2||DIELECTRIC THINFILMS:2||Selfassembled monolayer:2||PARAMETERS:2||Temperature gradient interaction chromatography:2||SOLIDSURFACES:2||FLOW:2||RATES:2||PRECURSORS:2||FILM BALANCE:2||SIDECHAINS:2||SUPRAMOLECULAR MATERIALS:2||CHAINS:2||POLYSTYRENE:39||ANIONICPOLYMERIZATION:34||GRADIENT INTERACTION CHROMATOGRAPHY:31||SEPARATION:27||BEHAVIOR:24||LIQUIDCHROMATOGRAPHY:22||POLYMERS:22||SIZEEXCLUSION CHROMATOGRAPHY:19||BLOCKCOPOLYMERS:17||DIBLOCK COPOLYMERS:17||THINFILMS:16||POLYISOPRENE:14||HPLC:13||SYNTHETICPOLYMERS:12||PERFORMANCE LIQUIDCHROMATOGRAPHY:11||DIBLOCK COPOLYMER:11||MOLECULARWEIGHT DISTRIBUTION:10||MACROMOLECULES:10||BLOCKCOPOLYMER:10||REVERSEDPHASE:10||RETENTION BEHAVIOR:10||MORPHOLOGY:9||MOLECULARWEIGHT:9||MELTS:9||AROMATIC POLYIMIDES:8||XRAYSCATTERING:8||polystyrene:8||MIXTURES:7||block copolymer:7||SURFACES:7||DEPENDENCE:7||COPOLYMERS:7||POLYMERIZATION:7||AIR/WATER INTERFACE:7||DEFINED BRUSH POLYIMIDE:6||TEMPERATURE:6||FULLY RODLIKE BACKBONE:6||MONOLAYERS:6||POLYIMIDES:6||CHAIN:6||COMPLEX POLYMERS:6||MOLECULARREORIENTATION:6||temperature gradient interaction chromatography:6||POLYMERFILMS:6||GELPERMEATION CHROMATOGRAPHY:6||ELUTION:6||ORDERDISORDER TRANSITION:6||SURFACEMORPHOLOGY:6||ORIENTATION:6||SYSTEMS:6||CRITICAL ADSORPTION POINT:6||LIGHTSCATTERING:5||PROBE DIFFUSION:5||POLYDISPERSITY:5||AIRWATERINTERFACE:5||MICROPHASE SEPARATION:5||GLASSTRANSITION:5||BLENDS:5||FILMS:5||ADSORPTION CHROMATOGRAPHY:5||MECHANISM:5||CO2:5||ETHYLENEOXIDE:5||ALIGNMENT:5||COMPLEXES:5||FRACTIONATION:5||MISCIBILITY:5||POLYMER CHARACTERIZATION:5||HEXAGONALLY PERFORATED LAYER:5||TRANSITION:5||FLIGHT MASSSPECTROMETRY:5||ARCHITECTURE:5||POLY(METHYL METHACRYLATE):5||ALTERNATING COPOLYMERIZATION:4||THICKNESS:4||THERMODYNAMICS:4||CRITICAL RANGE:4||ULTRATHIN POLYMERFILMS:4||DYNAMICS:4||CLIMATECHANGE:4||PHASE:4||GLASSTRANSITION TEMPERATURE:4||EPOXIDE:4||selfassembly:4||SPECTROSCOPY:4||SELFDIFFUSION:4||SCATTERING:4||OPTICALPROPERTIES:4||CATALYSTS:4||CHEMISTRY:4||SOLARCELLS:4||polyimides:4||polypyromellitimides:4||SEGMENTAL REORIENTATIONS:4||ADSORPTION:4||INTERFACE:4||POLYMERSOLUTIONS:4||TRACER DIFFUSION:4||OXIDE) DIBLOCK COPOLYMER:4||POLYSTYRENEBPOLY(METHYL METHACRYLATE):4||POLYMER BLENDS:4||SIMULATION:4||CHAIN ORIENTATION:4||STYRENE:4||TOF MASSSPECTROMETRY:4||WATER:4||DISPLAYS:4||OLIGOMERS:4||PEPTIDES:4||CYCLIC POLYSTYRENE:4||LATTICE CLUSTER THEORY:4||2NDHARMONIC GENERATION:4||LIQUIDCRYSTAL ALIGNMENT:4||MONTECARLO:4||LangmuirBlodgett film:3||ASSEMBLIES:3||chromatography:3||HOLOGRAPHIC RELAXATION SPECTROSCOPY:3||MULTIPLE MORPHOLOGIES:3||INTERACTION CHROMATOGRAPHY:3||NORMALPHASE:3||DIFFUSION:3||BRANCHED POLYSTYRENE:3||NANOPARTICLES:3||LITHOGRAPHY:3||POLYMER:3||LASERLIGHTSCATTERING:3||HIGH MOLECULARWEIGHT:3||CUBIC PHASE:3||AMPHIPHILIC BLOCKCOPOLYMERS:3||AQUEOUSSOLUTION:3||MODEL:3||FORCED RAYLEIGHSCATTERING:3||HYDRODYNAMIC PROPERTIES:3||4MIKTOARM STAR COPOLYMER:3||SYSTEM:3||PHASEBEHAVIOR:3||AQUEOUSSOLUTIONS:3||RHEOLOGY:3||LB film:3||2DIMENSIONAL LIQUIDCHROMATOGRAPHY:3||VISCOSITY:3||DIBLOCK COPOLYMER MELTS:3||ORDERORDER TRANSITION:3||GYROID PHASE:3||BINDING:3||BLOCK POLYELECTROLYTES:3||DERIVATIVES:3||MELT:3||PHASE LIQUIDCHROMATOGRAPHY:3||high temperature:3||ELEVATEDTEMPERATURE:3||RETENTION:3||MICELLE FORMATION:3||ELECTRONMICROSCOPY:3||Electrospray ionization:2||FRACTIONS:2||nalkanes:2||ISOCRATIC SEPARATION:2||ASSOCIATION:2||POLY(METHYL METHACRYLATE)S:2||2D correlation spectroscopy:2||CARBONATION:2||GLASSTRANSITION BEHAVIORS:2||MECHANICAL PROPERTIES:2||DIMENSIONS:2||POLYMER MIXTURES:2||ALUMINUM PORPHYRIN:2||LEAD STEARATE:2||FERROCENE:2||POLY(EPSILONCAPROLACTONE):2||DIAGRAM:2||nucleosides:2||Selective recognition by preconcentration:2||Electrochemical impedance spectroscopy:2||DOPAMINE:2||Silica:2||Silyl Ester:2||DIETHYL ESTER) PRECURSORS:2||SURFACE CHARACTERIZATION:2||MICROSTRUCTURE:2||polystyreneblockpolyisoprene:2||MICROPHASESEPARATED STRUCTURES:2||IMPEDANCE MEASUREMENTS:2||HEMEPROTEINS:2||SOLID SUBSTRATE:2||MOISTURE ABSORPTION:2||aromatic polyimide:2||INDUCED MORPHOLOGICALCHANGES:2||STABILITY:2||LC alignment layers:2||POLYPYROMELLITIMIDES:2||Ion mobility:2||Chiral polymer:2||OLIGOSACCHARIDES:2||OXIDE:2||SIDECHAIN:2||RETARDATION:2||functionality:2||temperature effects:2||phase transition:2||glass transition temperature:2||spincoated film:2||ESTER) PRECURSORS:2||PRECURSOR BLEND:2||Xray reflectivity:2||SIGMABONDS:2||aluminum porphyrin catalysts:2||METALLOPORPHYRIN:2||SILICON:2||MASSSPECTROMETRY ANALYSIS:2||STAR POLYMERS:2||SIZE DISTRIBUTIONS:2||GIANT VESICLES:2||POLY(3ALKYLTHIOPHENES):2||ADHESION:2||LIGHT:2||POLYSTYRENEBPOLYISOPRENE:2||HPLC fractionation:2||SILVER ELECTRODES:2||ENHANCED RESONANCE RAMAN:2||SEQUENCE:2||POLYELECTROLYTE/NONELECTROLYTE SHELLS:2||polyimide:2||liquid crystal alignment layer:2||SOLUBLE POLYIMIDES:2||POLYBUTADIENECOATED ZIRCONIA:2||PRETILT ANGLES:2||CROSSSECTIONS:2||IMSMS:2||POLYISOPRENE COPOLYMERS:2||POLYIMIDE THINFILMS:2||POLYMER SURFACES:2||RAMAN:2||STEREOREGULAR PMMA:2||poly(tertbutyl methacrylate) (PtBMA):2||TIME:2||POLYIMIDE COMPOSITE:2||CARBOXYLATO COMPLEXES:2||AGOSTIC INTERACTIONS:2||MOLECULARSTRUCTURE:2||ALKENE:2||TRANSISTOR MEMORY:2||DEVICES:2||ORTHOGONALITY:2||molecular characterization:2||ORGANOSILICATE DIELECTRIC FILMS:2||AMPHIPHILES:2||Serotonin:2||Anodic stripping differential pulse voltammetry:2||transmission electron microtomography:2||LIQUIDCHROMATOGRAPHY ANALYSIS:2||PHASEDIAGRAM:2||CARBON NANOTUBES:2||TRANSFER MECHANISM:2||BINARY MIXTURES:2||REFLECTOMETRY:2||ROD:2||DROPS:2||CONSTANT:2||TRIBLOCK COPOLYMER:2||POLYMER VESICLES:2||CLICK CHEMISTRY:2||ARRAYS:2||COMPOSITES:2||MALDITOF MS:2||POLYMER THINFILMS:2||HYDROPHOBIC INTERACTION CHROMATOGRAPHY:2||retention mechanism:2||GRAZINGINCIDENCE:2||NANOPOROSITY:2||soluble poly(amic esteraltimide)s:2||DIFFERENTIAL SCANNING CALORIMETRY:2||RESIDUALSTRESS:2||CHEMICALCOMPOSITION:2||POLY(AMIC DIETHYL ESTER) PRECURSOR:2||POLY(DIMETHYL SILOXANES):2||MASS POLYSTYRENES:2||cyclic propylene carbonate:2||propylene oxide:2||ACETATE) TOLUENE SOLUTIONS:2||TRANSIENT GRATING METHOD:2||MASS DIFFUSION:2||MICROPHASE SEPARATION TRANSITION:2||POLYSTYRENES:2||POLYSILANE:2||CARBOHYDRATEBASED PHOSPHOLIPIDS:2||HELICAL STRANDS:2||FLUORESCENCE DETECTION:2||SENSITIVE DETERMINATION:2||COMPOSITE FILMS:2||microphase:2||3MERCAPTOPROPIONIC ACID:2||BUTADIENE BLOCK COPOLYMER:2||HYBRID POLYMERIC MICELLES:2||AQUEOUSMEDIA:2||CONTACTANGLE:2||TRANSISTORCIRCUITS:2||ABTYPE POLY(ETHERIMIDE)S:2||CORRELATION SPECTROSCOPY:2||GASPHASE CONFORMATIONS:2||DECANE:2||INFRAREDSPECTROSCOPY:2||MICELLIZATION:2||ENERGIES:2||ACID) PRECURSORS:2||PHOTOALIGNMENT:2||polymers:2||SUBSTRATE:2||carbon dioxide:2||oligomeric propylene carbonate:2||THERMALDIFFUSION:2||CRYSTAL:2||PHASETRANSITION:2||REFLECTIVITY:2||ANALOGS:2||supramolecular chemistry:2||LYSOPHOSPHATIDIC ACID:2||PHOSPHOCHOLINE:2||POLY(3HEXYLTHIOPHENE):2||Receptor:2||MODIFIED GOLD ELECTRODES:2||ASCORBICACID:2||HUMAN URINE:2||Hybrid Nanocomposite:2||Dielectric Constant:2||AU(111) ELECTRODES:2||NANOFILMS:2||HYDROPHOBIC CORES:2||DRIVEN:2||FLEXIBLE SIDECHAINS:2||MESOGEN:2||size exclusion chromatography:2||ORGANIZATION:2||POLY(LACTIC ACID):2||MOLECULAR ARCHITECTURE:2||COUPLER:2||POLYSTYRENE COPOLYMER:2||diffusion coefficient:2||XRAY REFLECTIVITY:2||temperature gradient interaction chromatography polystyryllithium:2||VISCOELASTIC PROPERTIES:2||polyisoprene:2||CRYSTALSTRUCTURES:2||POLYCARBONATE:2||MULTILAYERS:2||DEPOSITION:2||FULL ADSORPTION MECHANISMS:2||QUANTUM DOTS:2||CRITICAL ORDERING TRANSITION:2||CORE:2||PARACRYSTALLINE DISTORTION:2||PERFORATED LAYER PHASE:2||liposomes:2||phospholipids:2||UNILAMELLAR VESICLES:2||VOLTAMMETRIC DETERMINATION:2||Polyimide:2||FOURIERTRANSFORM:2||SURFACE:2||SIZE EXCLUSION CHROMATOGRAPHY:2||NEUTRON REFLECTIVITY:2||ORDERED STRUCTURE:2||RIGID ROD POLYMERS:2||DISPLACEMENT POLYMERIZATION:2||PHOTOSENSITIVE POLYIMIDE:2||EFFICIENCY:2||films:2||Polylactide:2||CHROMATOGRAPHIC CRITICAL CONDITION:2||RETENTION MECHANISM:2||COPPER PHTHALOCYANINE:2||C60:2||COPOLYMER:2||micelle:2||LINEAR POLYETHYLENE:2||LIQUIDS:2||ARMS:2||HIGHPERFORMANCE LIQUID:2||alternating copolyimides:2||PHASE SEPARATION:2||POLYMERCHAINS:2||STYRYLPYRIDINIUM:2||ANGLES:2||MOBILITY:2||PROBE:2||ACIDS:2||BLUE:2||POSITIONS:2||CYCLOPENTADIENYL:2||HIGHMOLECULARWEIGHT:2||FUELCELLS:2||TIN OXIDE:2||NANOCRYSTALS:2||SURFACE MICELLE FORMATION:2||DISORDER TRANSITION:2||BIREFRINGENCE:2||LIPIDCOMPOSITION:2||CONJUGATED POLYMERS:2||GLASSYCARBON ELECTRODE:2||ELECTROCHEMICAL DETECTION:2||MULTIPLE DETECTION:2||aromatic polyimides:2||MOLECULARWEIGHT HOMOPOLYMERS:2||BINARYMIXTURE:2||PATTERNS:2||photoluminescent polyimide:2||photosensitive polyimide:2||DEPENDENT MICELLIZATION:2||SPEED:2||synthesis:2||COIL BLOCKCOPOLYMERS:2||LIQUIDCRYSTALLINE ASSEMBLIES:2||OXIDE):2||molecular weight distribution:2||CONJUGATED POLYMER:2||polymer characterization:2||NONIONIC SURFACTANTS:2||STEREOREGULAR POLY(METHYL METHACRYLATE):2||structure:2||RODLIKE POLYIMIDE:2||FLEXIBLE POLYIMIDE:2||THERMAL IMIDIZATION:2||IN SITU RODCHAIN FORMATION:2||PHASESEPARATION:2||VINYL ETHER):2||EQUILIBRIUM:2||STRESS:2||STRUCTURAL RELAXATION:2||LIVING POLYMERIZATION:2||CONTAIN:2||SALT:2||WAVEGUIDE:2||XRAY DIFFRACTION:2||WALLED CARBON NANOTUBES:2||SILICON NANOWIRES:2||IR:2||DIELECTRIC THINFILMS:2||Selfassembled monolayer:2||PARAMETERS:2||Temperature gradient interaction chromatography:2||SOLIDSURFACES:2||FLOW:2||RATES:2||PRECURSORS:2||FILM BALANCE:2||SIDECHAINS:2||SUPRAMOLECULAR MATERIALS:2||CHAINS:2||POLYSTYRENE:39||ANIONICPOLYMERIZATION:34||GRADIENT INTERACTION CHROMATOGRAPHY:31||SEPARATION:27||BEHAVIOR:24||LIQUIDCHROMATOGRAPHY:22||POLYMERS:22||SIZEEXCLUSION CHROMATOGRAPHY:19||BLOCKCOPOLYMERS:17||DIBLOCK COPOLYMERS:17||THINFILMS:16||POLYISOPRENE:14||HPLC:13||SYNTHETICPOLYMERS:12||PERFORMANCE LIQUIDCHROMATOGRAPHY:11||DIBLOCK COPOLYMER:11||MOLECULARWEIGHT DISTRIBUTION:10||MACROMOLECULES:10||BLOCKCOPOLYMER:10||REVERSEDPHASE:10||RETENTION BEHAVIOR:10||MORPHOLOGY:9||MOLECULARWEIGHT:9||MELTS:9||AROMATIC POLYIMIDES:8||XRAYSCATTERING:8||polystyrene:8||MIXTURES:7||block copolymer:7||SURFACES:7||DEPENDENCE:7||COPOLYMERS:7||POLYMERIZATION:7||AIR/WATER INTERFACE:7||DEFINED BRUSH POLYIMIDE:6||TEMPERATURE:6||FULLY RODLIKE BACKBONE:6||MONOLAYERS:6||POLYIMIDES:6||CHAIN:6||COMPLEX POLYMERS:6||MOLECULARREORIENTATION:6||temperature gradient interaction chromatography:6||POLYMERFILMS:6||GELPERMEATION CHROMATOGRAPHY:6||ELUTION:6||ORDERDISORDER TRANSITION:6||SURFACEMORPHOLOGY:6||ORIENTATION:6||SYSTEMS:6||CRITICAL ADSORPTION POINT:6||LIGHTSCATTERING:5||PROBE DIFFUSION:5||POLYDISPERSITY:5||AIRWATERINTERFACE:5||MICROPHASE SEPARATION:5||GLASSTRANSITION:5||BLENDS:5||FILMS:5||ADSORPTION CHROMATOGRAPHY:5||MECHANISM:5||CO2:5||ETHYLENEOXIDE:5||ALIGNMENT:5||COMPLEXES:5||FRACTIONATION:5||MISCIBILITY:5||POLYMER CHARACTERIZATION:5||HEXAGONALLY PERFORATED LAYER:5||TRANSITION:5||FLIGHT MASSSPECTROMETRY:5||ARCHITECTURE:5||POLY(METHYL METHACRYLATE):5||ALTERNATING COPOLYMERIZATION:4||THICKNESS:4||THERMODYNAMICS:4||CRITICAL RANGE:4||ULTRATHIN POLYMERFILMS:4||DYNAMICS:4||CLIMATECHANGE:4||PHASE:4||GLASSTRANSITION TEMPERATURE:4||EPOXIDE:4||selfassembly:4||SPECTROSCOPY:4||SELFDIFFUSION:4||SCATTERING:4||OPTICALPROPERTIES:4||CATALYSTS:4||CHEMISTRY:4||SOLARCELLS:4||polyimides:4||polypyromellitimides:4||SEGMENTAL REORIENTATIONS:4||ADSORPTION:4||INTERFACE:4||POLYMERSOLUTIONS:4||TRACER DIFFUSION:4||OXIDE) DIBLOCK COPOLYMER:4||POLYSTYRENEBPOLY(METHYL METHACRYLATE):4||POLYMER BLENDS:4||SIMULATION:4||CHAIN ORIENTATION:4||STYRENE:4||TOF MASSSPECTROMETRY:4||WATER:4||DISPLAYS:4||OLIGOMERS:4||PEPTIDES:4||CYCLIC POLYSTYRENE:4||LATTICE CLUSTER THEORY:4||2NDHARMONIC GENERATION:4||LIQUIDCRYSTAL ALIGNMENT:4||MONTECARLO:4||LangmuirBlodgett film:3||ASSEMBLIES:3||chromatography:3||HOLOGRAPHIC RELAXATION SPECTROSCOPY:3||MULTIPLE MORPHOLOGIES:3||INTERACTION CHROMATOGRAPHY:3||NORMALPHASE:3||DIFFUSION:3||BRANCHED POLYSTYRENE:3||NANOPARTICLES:3||LITHOGRAPHY:3||POLYMER:3||LASERLIGHTSCATTERING:3||HIGH MOLECULARWEIGHT:3||CUBIC PHASE:3||AMPHIPHILIC BLOCKCOPOLYMERS:3||AQUEOUSSOLUTION:3||MODEL:3||FORCED RAYLEIGHSCATTERING:3||HYDRODYNAMIC PROPERTIES:3||4MIKTOARM STAR COPOLYMER:3||SYSTEM:3||PHASEBEHAVIOR:3||AQUEOUSSOLUTIONS:3||RHEOLOGY:3||LB film:3||2DIMENSIONAL LIQUIDCHROMATOGRAPHY:3||VISCOSITY:3||DIBLOCK COPOLYMER MELTS:3||ORDERORDER TRANSITION:3||GYROID PHASE:3||BINDING:3||BLOCK POLYELECTROLYTES:3||DERIVATIVES:3||MELT:3||PHASE LIQUIDCHROMATOGRAPHY:3||high temperature:3||ELEVATEDTEMPERATURE:3||RETENTION:3||MICELLE FORMATION:3||ELECTRONMICROSCOPY:3||Electrospray ionization:2||FRACTIONS:2||nalkanes:2||ISOCRATIC SEPARATION:2||ASSOCIATION:2||POLY(METHYL METHACRYLATE)S:2||2D correlation spectroscopy:2||CARBONATION:2||GLASSTRANSITION BEHAVIORS:2||MECHANICAL PROPERTIES:2||DIMENSIONS:2||POLYMER MIXTURES:2||ALUMINUM PORPHYRIN:2||LEAD STEARATE:2||FERROCENE:2||POLY(EPSILONCAPROLACTONE):2||DIAGRAM:2||nucleosides:2||Selective recognition by preconcentration:2||Electrochemical impedance spectroscopy:2||DOPAMINE:2||Silica:2||Silyl Ester:2||DIETHYL ESTER) PRECURSORS:2||SURFACE CHARACTERIZATION:2||MICROSTRUCTURE:2||polystyreneblockpolyisoprene:2||MICROPHASESEPARATED STRUCTURES:2||IMPEDANCE MEASUREMENTS:2||HEMEPROTEINS:2||SOLID SUBSTRATE:2||MOISTURE ABSORPTION:2||aromatic polyimide:2||INDUCED MORPHOLOGICALCHANGES:2||STABILITY:2||LC alignment layers:2||POLYPYROMELLITIMIDES:2||Ion mobility:2||Chiral polymer:2||OLIGOSACCHARIDES:2||OXIDE:2||SIDECHAIN:2||RETARDATION:2||functionality:2||temperature effects:2||phase transition:2||glass transition temperature:2||spincoated film:2||ESTER) PRECURSORS:2||PRECURSOR BLEND:2||Xray reflectivity:2||SIGMABONDS:2||aluminum porphyrin catalysts:2||METALLOPORPHYRIN:2||SILICON:2||MASSSPECTROMETRY ANALYSIS:2||STAR POLYMERS:2||SIZE DISTRIBUTIONS:2||GIANT VESICLES:2||POLY(3ALKYLTHIOPHENES):2||ADHESION:2||LIGHT:2||POLYSTYRENEBPOLYISOPRENE:2||HPLC fractionation:2||SILVER ELECTRODES:2||ENHANCED RESONANCE RAMAN:2||SEQUENCE:2||POLYELECTROLYTE/NONELECTROLYTE SHELLS:2||polyimide:2||liquid crystal alignment layer:2||SOLUBLE POLYIMIDES:2||POLYBUTADIENECOATED ZIRCONIA:2||PRETILT ANGLES:2||CROSSSECTIONS:2||IMSMS:2||POLYISOPRENE COPOLYMERS:2||POLYIMIDE THINFILMS:2||POLYMER SURFACES:2||RAMAN:2||STEREOREGULAR PMMA:2||poly(tertbutyl methacrylate) (PtBMA):2||TIME:2||POLYIMIDE COMPOSITE:2||CARBOXYLATO COMPLEXES:2||AGOSTIC INTERACTIONS:2||MOLECULARSTRUCTURE:2||ALKENE:2||TRANSISTOR MEMORY:2||DEVICES:2||ORTHOGONALITY:2||molecular characterization:2||ORGANOSILICATE DIELECTRIC FILMS:2||AMPHIPHILES:2||Serotonin:2||Anodic stripping differential pulse voltammetry:2||transmission electron microtomography:2||LIQUIDCHROMATOGRAPHY ANALYSIS:2||PHASEDIAGRAM:2||CARBON NANOTUBES:2||TRANSFER MECHANISM:2||BINARY MIXTURES:2||REFLECTOMETRY:2||ROD:2||DROPS:2||CONSTANT:2||TRIBLOCK COPOLYMER:2||POLYMER VESICLES:2||CLICK CHEMISTRY:2||ARRAYS:2||COMPOSITES:2||MALDITOF MS:2||POLYMER THINFILMS:2||HYDROPHOBIC INTERACTION CHROMATOGRAPHY:2||retention mechanism:2||GRAZINGINCIDENCE:2||NANOPOROSITY:2||soluble poly(amic esteraltimide)s:2||DIFFERENTIAL SCANNING CALORIMETRY:2||RESIDUALSTRESS:2||CHEMICALCOMPOSITION:2||POLY(AMIC DIETHYL ESTER) PRECURSOR:2||POLY(DIMETHYL SILOXANES):2||MASS POLYSTYRENES:2||cyclic propylene carbonate:2||propylene oxide:2||ACETATE) TOLUENE SOLUTIONS:2||TRANSIENT GRATING METHOD:2||MASS DIFFUSION:2||MICROPHASE SEPARATION TRANSITION:2||POLYSTYRENES:2||POLYSILANE:2||CARBOHYDRATEBASED PHOSPHOLIPIDS:2||HELICAL STRANDS:2||FLUORESCENCE DETECTION:2||SENSITIVE DETERMINATION:2||COMPOSITE FILMS:2||microphase:2||3MERCAPTOPROPIONIC ACID:2||BUTADIENE BLOCK COPOLYMER:2||HYBRID POLYMERIC MICELLES:2||AQUEOUSMEDIA:2||CONTACTANGLE:2||TRANSISTORCIRCUITS:2||ABTYPE POLY(ETHERIMIDE)S:2||CORRELATION SPECTROSCOPY:2||GASPHASE CONFORMATIONS:2||DECANE:2||INFRAREDSPECTROSCOPY:2||MICELLIZATION:2||ENERGIES:2||ACID) PRECURSORS:2||PHOTOALIGNMENT:2||polymers:2||SUBSTRATE:2||carbon dioxide:2||oligomeric propylene carbonate:2||THERMALDIFFUSION:2||CRYSTAL:2||PHASETRANSITION:2||REFLECTIVITY:2||ANALOGS:2||supramolecular chemistry:2||LYSOPHOSPHATIDIC ACID:2||PHOSPHOCHOLINE:2||POLY(3HEXYLTHIOPHENE):2||Receptor:2||MODIFIED GOLD ELECTRODES:2||ASCORBICACID:2||HUMAN URINE:2||Hybrid Nanocomposite:2||Dielectric Constant:2||AU(111) ELECTRODES:2||NANOFILMS:2||HYDROPHOBIC CORES:2||DRIVEN:2||FLEXIBLE SIDECHAINS:2||MESOGEN:2||size exclusion chromatography:2||ORGANIZATION:2||POLY(LACTIC ACID):2||MOLECULAR ARCHITECTURE:2||COUPLER:2||POLYSTYRENE COPOLYMER:2||diffusion coefficient:2||XRAY REFLECTIVITY:2||temperature gradient interaction chromatography polystyryllithium:2||VISCOELASTIC PROPERTIES:2||polyisoprene:2||CRYSTALSTRUCTURES:2||POLYCARBONATE:2||MULTILAYERS:2||DEPOSITION:2||FULL ADSORPTION MECHANISMS:2||QUANTUM DOTS:2||CRITICAL ORDERING TRANSITION:2||CORE:2||PARACRYSTALLINE DISTORTION:2||PERFORATED LAYER PHASE:2||liposomes:2||phospholipids:2||UNILAMELLAR VESICLES:2||VOLTAMMETRIC DETERMINATION:2||Polyimide:2||FOURIERTRANSFORM:2||SURFACE:2||SIZE EXCLUSION CHROMATOGRAPHY:2||NEUTRON REFLECTIVITY:2||ORDERED STRUCTURE:2||RIGID ROD POLYMERS:2||DISPLACEMENT POLYMERIZATION:2||PHOTOSENSITIVE POLYIMIDE:2||EFFICIENCY:2||films:2||Polylactide:2||CHROMATOGRAPHIC CRITICAL CONDITION:2||RETENTION MECHANISM:2||COPPER PHTHALOCYANINE:2||C60:2||COPOLYMER:2||micelle:2||LINEAR POLYETHYLENE:2||LIQUIDS:2||ARMS:2||HIGHPERFORMANCE LIQUID:2||alternating copolyimides:2||PHASE SEPARATION:2||POLYMERCHAINS:2||STYRYLPYRIDINIUM:2||ANGLES:2||MOBILITY:2||PROBE:2||ACIDS:2||BLUE:2||POSITIONS:2||CYCLOPENTADIENYL:2||HIGHMOLECULARWEIGHT:2||FUELCELLS:2||TIN OXIDE:2||NANOCRYSTALS:2||SURFACE MICELLE FORMATION:2||DISORDER TRANSITION:2||BIREFRINGENCE:2||LIPIDCOMPOSITION:2||CONJUGATED POLYMERS:2||GLASSYCARBON ELECTRODE:2||ELECTROCHEMICAL DETECTION:2||MULTIPLE DETECTION:2||aromatic polyimides:2||MOLECULARWEIGHT HOMOPOLYMERS:2||BINARYMIXTURE:2||PATTERNS:2||photoluminescent polyimide:2||photosensitive polyimide:2||DEPENDENT MICELLIZATION:2||SPEED:2||synthesis:2||COIL BLOCKCOPOLYMERS:2||LIQUIDCRYSTALLINE ASSEMBLIES:2||OXIDE):2||molecular weight distribution:2||CONJUGATED POLYMER:2||polymer characterization:2||NONIONIC SURFACTANTS:2||STEREOREGULAR POLY(METHYL METHACRYLATE):2||structure:2||RODLIKE POLYIMIDE:2||FLEXIBLE POLYIMIDE:2||THERMAL IMIDIZATION:2||IN SITU RODCHAIN FORMATION:2||PHASESEPARATION:2||VINYL ETHER):2||EQUILIBRIUM:2||STRESS:2||STRUCTURAL RELAXATION:2||LIVING POLYMERIZATION:2||CONTAIN:2||SALT:2||WAVEGUIDE:2||XRAY DIFFRACTION:2||WALLED CARBON NANOTUBES:2||SILICON NANOWIRES:2||IR:2||DIELECTRIC THINFILMS:2||Selfassembled monolayer:2||PARAMETERS:2||Temperature gradient interaction chromatography:2||SOLIDSURFACES:2||FLOW:2||RATES:2||PRECURSORS:2||FILM BALANCE:2||SIDECHAINS:2||SUPRAMOLECULAR MATERIALS:2||CHAINS:2||POLYSTYRENE:39||ANIONICPOLYMERIZATION:34||GRADIENT INTERACTION CHROMATOGRAPHY:31||SEPARATION:27||BEHAVIOR:24||LIQUIDCHROMATOGRAPHY:22||POLYMERS:22||SIZEEXCLUSION CHROMATOGRAPHY:19||BLOCKCOPOLYMERS:17||DIBLOCK COPOLYMERS:17||THINFILMS:16||POLYISOPRENE:14||HPLC:13||SYNTHETICPOLYMERS:12||PERFORMANCE LIQUIDCHROMATOGRAPHY:11||DIBLOCK COPOLYMER:11||MOLECULARWEIGHT DISTRIBUTION:10||MACROMOLECULES:10||BLOCKCOPOLYMER:10||REVERSEDPHASE:10||RETENTION BEHAVIOR:10||MORPHOLOGY:9||MOLECULARWEIGHT:9||MELTS:9||AROMATIC POLYIMIDES:8||XRAYSCATTERING:8||polystyrene:8||MIXTURES:7||block copolymer:7||SURFACES:7||DEPENDENCE:7||COPOLYMERS:7||POLYMERIZATION:7||AIR/WATER INTERFACE:7||DEFINED BRUSH POLYIMIDE:6||TEMPERATURE:6||FULLY RODLIKE BACKBONE:6||MONOLAYERS:6||POLYIMIDES:6||CHAIN:6||COMPLEX POLYMERS:6||MOLECULARREORIENTATION:6||temperature gradient interaction chromatography:6||POLYMERFILMS:6||GELPERMEATION CHROMATOGRAPHY:6||ELUTION:6||ORDERDISORDER TRANSITION:6||SURFACEMORPHOLOGY:6||ORIENTATION:6||SYSTEMS:6||CRITICAL ADSORPTION POINT:6||LIGHTSCATTERING:5||PROBE DIFFUSION:5||POLYDISPERSITY:5||AIRWATERINTERFACE:5||MICROPHASE SEPARATION:5||GLASSTRANSITION:5||BLENDS:5||FILMS:5||ADSORPTION CHROMATOGRAPHY:5||MECHANISM:5||CO2:5||ETHYLENEOXIDE:5||ALIGNMENT:5||COMPLEXES:5||FRACTIONATION:5||MISCIBILITY:5||POLYMER CHARACTERIZATION:5||HEXAGONALLY PERFORATED LAYER:5||TRANSITION:5||FLIGHT MASSSPECTROMETRY:5||ARCHITECTURE:5||POLY(METHYL METHACRYLATE):5||ALTERNATING COPOLYMERIZATION:4||THICKNESS:4||THERMODYNAMICS:4||CRITICAL RANGE:4||ULTRATHIN POLYMERFILMS:4||DYNAMICS:4||CLIMATECHANGE:4||PHASE:4||GLASSTRANSITION TEMPERATURE:4||EPOXIDE:4||selfassembly:4||SPECTROSCOPY:4||SELFDIFFUSION:4||SCATTERING:4||OPTICALPROPERTIES:4||CATALYSTS:4||CHEMISTRY:4||SOLARCELLS:4||polyimides:4||polypyromellitimides:4||SEGMENTAL REORIENTATIONS:4||ADSORPTION:4||INTERFACE:4||POLYMERSOLUTIONS:4||TRACER DIFFUSION:4||OXIDE) DIBLOCK COPOLYMER:4||POLYSTYRENEBPOLY(METHYL METHACRYLATE):4||POLYMER BLENDS:4||SIMULATION:4||CHAIN ORIENTATION:4||STYRENE:4||TOF MASSSPECTROMETRY:4||WATER:4||DISPLAYS:4||OLIGOMERS:4||PEPTIDES:4||CYCLIC POLYSTYRENE:4||LATTICE CLUSTER THEORY:4||2NDHARMONIC GENERATION:4||LIQUIDCRYSTAL ALIGNMENT:4||MONTECARLO:4||LangmuirBlodgett film:3||ASSEMBLIES:3||chromatography:3||HOLOGRAPHIC RELAXATION SPECTROSCOPY:3||MULTIPLE MORPHOLOGIES:3||INTERACTION CHROMATOGRAPHY:3||NORMALPHASE:3||DIFFUSION:3||BRANCHED POLYSTYRENE:3||NANOPARTICLES:3||LITHOGRAPHY:3||POLYMER:3||LASERLIGHTSCATTERING:3||HIGH MOLECULARWEIGHT:3||CUBIC PHASE:3||AMPHIPHILIC BLOCKCOPOLYMERS:3||AQUEOUSSOLUTION:3||MODEL:3||FORCED RAYLEIGHSCATTERING:3||HYDRODYNAMIC PROPERTIES:3||4MIKTOARM STAR COPOLYMER:3||SYSTEM:3||PHASEBEHAVIOR:3||AQUEOUSSOLUTIONS:3||RHEOLOGY:3||LB film:3||2DIMENSIONAL LIQUIDCHROMATOGRAPHY:3||VISCOSITY:3||DIBLOCK COPOLYMER MELTS:3||ORDERORDER TRANSITION:3||GYROID PHASE:3||BINDING:3||BLOCK POLYELECTROLYTES:3||DERIVATIVES:3||MELT:3||PHASE LIQUIDCHROMATOGRAPHY:3||high temperature:3||ELEVATEDTEMPERATURE:3||RETENTION:3||MICELLE FORMATION:3||ELECTRONMICROSCOPY:3||Electrospray ionization:2||FRACTIONS:2||nalkanes:2||ISOCRATIC SEPARATION:2||ASSOCIATION:2||POLY(METHYL METHACRYLATE)S:2||2D correlation spectroscopy:2||CARBONATION:2||GLASSTRANSITION BEHAVIORS:2||MECHANICAL PROPERTIES:2||DIMENSIONS:2||POLYMER MIXTURES:2||ALUMINUM PORPHYRIN:2||LEAD STEARATE:2||FERROCENE:2||POLY(EPSILONCAPROLACTONE):2||DIAGRAM:2||nucleosides:2||Selective recognition by preconcentration:2||Electrochemical impedance spectroscopy:2||DOPAMINE:2||Silica:2||Silyl Ester:2||DIETHYL ESTER) PRECURSORS:2||SURFACE CHARACTERIZATION:2||MICROSTRUCTURE:2||polystyreneblockpolyisoprene:2||MICROPHASESEPARATED STRUCTURES:2||IMPEDANCE MEASUREMENTS:2||HEMEPROTEINS:2||SOLID SUBSTRATE:2||MOISTURE ABSORPTION:2||aromatic polyimide:2||INDUCED MORPHOLOGICALCHANGES:2||STABILITY:2||LC alignment layers:2||POLYPYROMELLITIMIDES:2||Ion mobility:2||Chiral polymer:2||OLIGOSACCHARIDES:2||OXIDE:2||SIDECHAIN:2||RETARDATION:2||functionality:2||temperature effects:2||phase transition:2||glass transition temperature:2||spincoated film:2||ESTER) PRECURSORS:2||PRECURSOR BLEND:2||Xray reflectivity:2||SIGMABONDS:2||aluminum porphyrin catalysts:2||METALLOPORPHYRIN:2||SILICON:2||MASSSPECTROMETRY ANALYSIS:2||STAR POLYMERS:2||SIZE DISTRIBUTIONS:2||GIANT VESICLES:2||POLY(3ALKYLTHIOPHENES):2||ADHESION:2||LIGHT:2||POLYSTYRENEBPOLYISOPRENE:2||HPLC fractionation:2||SILVER ELECTRODES:2||ENHANCED RESONANCE RAMAN:2||SEQUENCE:2||POLYELECTROLYTE/NONELECTROLYTE SHELLS:2||polyimide:2||liquid crystal alignment layer:2||SOLUBLE POLYIMIDES:2||POLYBUTADIENECOATED ZIRCONIA:2||PRETILT ANGLES:2||CROSSSECTIONS:2||IMSMS:2||POLYISOPRENE COPOLYMERS:2||POLYIMIDE THINFILMS:2||POLYMER SURFACES:2||RAMAN:2||STEREOREGULAR PMMA:2||poly(tertbutyl methacrylate) (PtBMA):2||TIME:2||POLYIMIDE COMPOSITE:2||CARBOXYLATO COMPLEXES:2||AGOSTIC INTERACTIONS:2||MOLECULARSTRUCTURE:2||ALKENE:2||TRANSISTOR MEMORY:2||DEVICES:2||ORTHOGONALITY:2||molecular characterization:2||ORGANOSILICATE DIELECTRIC FILMS:2||AMPHIPHILES:2||Serotonin:2||Anodic stripping differential pulse voltammetry:2||transmission electron microtomography:2||LIQUIDCHROMATOGRAPHY ANALYSIS:2||PHASEDIAGRAM:2||CARBON NANOTUBES:2||TRANSFER MECHANISM:2||BINARY MIXTURES:2||REFLECTOMETRY:2||ROD:2||DROPS:2||CONSTANT:2||TRIBLOCK COPOLYMER:2||POLYMER VESICLES:2||CLICK CHEMISTRY:2||ARRAYS:2||COMPOSITES:2||MALDITOF MS:2||POLYMER THINFILMS:2||HYDROPHOBIC INTERACTION CHROMATOGRAPHY:2||retention mechanism:2||GRAZINGINCIDENCE:2||NANOPOROSITY:2||soluble poly(amic esteraltimide)s:2||DIFFERENTIAL SCANNING CALORIMETRY:2||RESIDUALSTRESS:2||CHEMICALCOMPOSITION:2||POLY(AMIC DIETHYL ESTER) PRECURSOR:2||POLY(DIMETHYL SILOXANES):2||MASS POLYSTYRENES:2||cyclic propylene carbonate:2||propylene oxide:2||ACETATE) TOLUENE SOLUTIONS:2||TRANSIENT GRATING METHOD:2||MASS DIFFUSION:2||MICROPHASE SEPARATION TRANSITION:2||POLYSTYRENES:2||POLYSILANE:2||CARBOHYDRATEBASED PHOSPHOLIPIDS:2||HELICAL STRANDS:2||FLUORESCENCE DETECTION:2||SENSITIVE DETERMINATION:2||COMPOSITE FILMS:2||microphase:2||3MERCAPTOPROPIONIC ACID:2||BUTADIENE BLOCK COPOLYMER:2||HYBRID POLYMERIC MICELLES:2||AQUEOUSMEDIA:2||CONTACTANGLE:2||TRANSISTORCIRCUITS:2||ABTYPE POLY(ETHERIMIDE)S:2||CORRELATION SPECTROSCOPY:2||GASPHASE CONFORMATIONS:2||DECANE:2||INFRAREDSPECTROSCOPY:2||MICELLIZATION:2||ENERGIES:2||ACID) PRECURSORS:2||PHOTOALIGNMENT:2||polymers:2||SUBSTRATE:2||carbon dioxide:2||oligomeric propylene carbonate:2||THERMALDIFFUSION:2||CRYSTAL:2||PHASETRANSITION:2||REFLECTIVITY:2||ANALOGS:2||supramolecular chemistry:2||LYSOPHOSPHATIDIC ACID:2||PHOSPHOCHOLINE:2||POLY(3HEXYLTHIOPHENE):2||Receptor:2||MODIFIED GOLD ELECTRODES:2||ASCORBICACID:2||HUMAN URINE:2||Hybrid Nanocomposite:2||Dielectric Constant:2||AU(111) ELECTRODES:2||NANOFILMS:2||HYDROPHOBIC CORES:2||DRIVEN:2||FLEXIBLE SIDECHAINS:2||MESOGEN:2||size exclusion chromatography:2||ORGANIZATION:2||POLY(LACTIC ACID):2||MOLECULAR ARCHITECTURE:2||COUPLER:2||POLYSTYRENE COPOLYMER:2||diffusion coefficient:2||XRAY REFLECTIVITY:2||temperature gradient interaction chromatography polystyryllithium:2||VISCOELASTIC PROPERTIES:2||polyisoprene:2||CRYSTALSTRUCTURES:2||POLYCARBONATE:2||MULTILAYERS:2||DEPOSITION:2||FULL ADSORPTION MECHANISMS:2||QUANTUM DOTS:2||CRITICAL ORDERING TRANSITION:2||CORE:2||PARACRYSTALLINE DISTORTION:2||PERFORATED LAYER PHASE:2||liposomes:2||phospholipids:2||UNILAMELLAR VESICLES:2||VOLTAMMETRIC DETERMINATION:2||Polyimide:2||FOURIERTRANSFORM:2||SURFACE:2||SIZE EXCLUSION CHROMATOGRAPHY:2||NEUTRON REFLECTIVITY:2||ORDERED STRUCTURE:2||RIGID ROD POLYMERS:2||DISPLACEMENT POLYMERIZATION:2||PHOTOSENSITIVE POLYIMIDE:2||EFFICIENCY:2||films:2||Polylactide:2||CHROMATOGRAPHIC CRITICAL CONDITION:2||RETENTION MECHANISM:2||COPPER PHTHALOCYANINE:2||C60:2||COPOLYMER:2||micelle:2||LINEAR POLYETHYLENE:2||LIQUIDS:2||ARMS:2||HIGHPERFORMANCE LIQUID:2||alternating copolyimides:2||PHASE SEPARATION:2||POLYMERCHAINS:2||STYRYLPYRIDINIUM:2||ANGLES:2||MOBILITY:2||PROBE:2||ACIDS:2||BLUE:2||POSITIONS:2||CYCLOPENTADIENYL:2||HIGHMOLECULARWEIGHT:2||FUELCELLS:2||TIN OXIDE:2||NANOCRYSTALS:2||SURFACE MICELLE FORMATION:2||DISORDER TRANSITION:2||BIREFRINGENCE:2||LIPIDCOMPOSITION:2||CONJUGATED POLYMERS:2||GLASSYCARBON ELECTRODE:2||ELECTROCHEMICAL DETECTION:2||MULTIPLE DETECTION:2||aromatic polyimides:2||MOLECULARWEIGHT HOMOPOLYMERS:2||BINARYMIXTURE:2||PATTERNS:2||photoluminescent polyimide:2||photosensitive polyimide:2||DEPENDENT MICELLIZATION:2||SPEED:2||synthesis:2||COIL BLOCKCOPOLYMERS:2||LIQUIDCRYSTALLINE ASSEMBLIES:2||OXIDE):2||molecular weight distribution:2||CONJUGATED POLYMER:2||polymer characterization:2||NONIONIC SURFACTANTS:2||STEREOREGULAR POLY(METHYL METHACRYLATE):2||structure:2||RODLIKE POLYIMIDE:2||FLEXIBLE POLYIMIDE:2||THERMAL IMIDIZATION:2||IN SITU RODCHAIN FORMATION:2||PHASESEPARATION:2||VINYL ETHER):2||EQUILIBRIUM:2||STRESS:2||STRUCTURAL RELAXATION:2||LIVING POLYMERIZATION:2||CONTAIN:2||SALT:2||WAVEGUIDE:2||XRAY DIFFRACTION:2||WALLED CARBON NANOTUBES:2||SILICON NANOWIRES:2||IR:2||DIELECTRIC THINFILMS:2||Selfassembled monolayer:2||PARAMETERS:2||Temperature gradient interaction chromatography:2||SOLIDSURFACES:2||FLOW:2||RATES:2||PRECURSORS:2||FILM BALANCE:2||SIDECHAINS:2||SUPRAMOLECULAR MATERIALS:2||CHAINS:2||POLYSTYRENE:39||ANIONICPOLYMERIZATION:34||GRADIENT INTERACTION CHROMATOGRAPHY:31||SEPARATION:27||BEHAVIOR:24||LIQUIDCHROMATOGRAPHY:22||POLYMERS:22||SIZEEXCLUSION CHROMATOGRAPHY:19||BLOCKCOPOLYMERS:17||DIBLOCK COPOLYMERS:17||THINFILMS:16||POLYISOPRENE:14||HPLC:13||SYNTHETICPOLYMERS:12||PERFORMANCE LIQUIDCHROMATOGRAPHY:11||DIBLOCK COPOLYMER:11||MOLECULARWEIGHT DISTRIBUTION:10||MACROMOLECULES:10||BLOCKCOPOLYMER:10||REVERSEDPHASE:10||RETENTION BEHAVIOR:10||MORPHOLOGY:9||MOLECULARWEIGHT:9||MELTS:9||AROMATIC POLYIMIDES:8||XRAYSCATTERING:8||polystyrene:8||MIXTURES:7||block copolymer:7||SURFACES:7||DEPENDENCE:7||COPOLYMERS:7||POLYMERIZATION:7||AIR/WATER INTERFACE:7||DEFINED BRUSH POLYIMIDE:6||TEMPERATURE:6||FULLY RODLIKE BACKBONE:6||MONOLAYERS:6||POLYIMIDES:6||CHAIN:6||COMPLEX POLYMERS:6||MOLECULARREORIENTATION:6||temperature gradient interaction chromatography:6||POLYMERFILMS:6||GELPERMEATION CHROMATOGRAPHY:6||ELUTION:6||ORDERDISORDER TRANSITION:6||SURFACEMORPHOLOGY:6||ORIENTATION:6||SYSTEMS:6||CRITICAL ADSORPTION POINT:6||LIGHTSCATTERING:5||PROBE DIFFUSION:5||POLYDISPERSITY:5||AIRWATERINTERFACE:5||MICROPHASE SEPARATION:5||GLASSTRANSITION:5||BLENDS:5||FILMS:5||ADSORPTION CHROMATOGRAPHY:5||MECHANISM:5||CO2:5||ETHYLENEOXIDE:5||ALIGNMENT:5||COMPLEXES:5||FRACTIONATION:5||MISCIBILITY:5||POLYMER CHARACTERIZATION:5||HEXAGONALLY PERFORATED LAYER:5||TRANSITION:5||FLIGHT MASSSPECTROMETRY:5||ARCHITECTURE:5||POLY(METHYL METHACRYLATE):5||ALTERNATING COPOLYMERIZATION:4||THICKNESS:4||THERMODYNAMICS:4||CRITICAL RANGE:4||ULTRATHIN POLYMERFILMS:4||DYNAMICS:4||CLIMATECHANGE:4||PHASE:4||GLASSTRANSITION TEMPERATURE:4||EPOXIDE:4||selfassembly:4||SPECTROSCOPY:4||SELFDIFFUSION:4||SCATTERING:4||OPTICALPROPERTIES:4||CATALYSTS:4||CHEMISTRY:4||SOLARCELLS:4||polyimides:4||polypyromellitimides:4||SEGMENTAL REORIENTATIONS:4||ADSORPTION:4||INTERFACE:4||POLYMERSOLUTIONS:4||TRACER DIFFUSION:4||OXIDE) DIBLOCK COPOLYMER:4||POLYSTYRENEBPOLY(METHYL METHACRYLATE):4||POLYMER BLENDS:4||SIMULATION:4||CHAIN ORIENTATION:4||STYRENE:4||TOF MASSSPECTROMETRY:4||WATER:4||DISPLAYS:4||OLIGOMERS:4||PEPTIDES:4||CYCLIC POLYSTYRENE:4||LATTICE CLUSTER THEORY:4||2NDHARMONIC GENERATION:4||LIQUIDCRYSTAL ALIGNMENT:4||MONTECARLO:4||LangmuirBlodgett film:3||ASSEMBLIES:3||chromatography:3||HOLOGRAPHIC RELAXATION SPECTROSCOPY:3||MULTIPLE MORPHOLOGIES:3||INTERACTION CHROMATOGRAPHY:3||NORMALPHASE:3||DIFFUSION:3||BRANCHED POLYSTYRENE:3||NANOPARTICLES:3||LITHOGRAPHY:3||POLYMER:3||LASERLIGHTSCATTERING:3||HIGH MOLECULARWEIGHT:3||CUBIC PHASE:3||AMPHIPHILIC BLOCKCOPOLYMERS:3||AQUEOUSSOLUTION:3||MODEL:3||FORCED RAYLEIGHSCATTERING:3||HYDRODYNAMIC PROPERTIES:3||4MIKTOARM STAR COPOLYMER:3||SYSTEM:3||PHASEBEHAVIOR:3||AQUEOUSSOLUTIONS:3||RHEOLOGY:3||LB film:3||2DIMENSIONAL LIQUIDCHROMATOGRAPHY:3||VISCOSITY:3||DIBLOCK COPOLYMER MELTS:3||ORDERORDER TRANSITION:3||GYROID PHASE:3||BINDING:3||BLOCK POLYELECTROLYTES:3||DERIVATIVES:3||MELT:3||PHASE LIQUIDCHROMATOGRAPHY:3||high temperature:3||ELEVATEDTEMPERATURE:3||RETENTION:3||MICELLE FORMATION:3||ELECTRONMICROSCOPY:3||Electrospray ionization:2||FRACTIONS:2||nalkanes:2||ISOCRATIC SEPARATION:2||ASSOCIATION:2||POLY(METHYL METHACRYLATE)S:2||2D correlation spectroscopy:2||CARBONATION:2||GLASSTRANSITION BEHAVIORS:2||MECHANICAL PROPERTIES:2||DIMENSIONS:2||POLYMER MIXTURES:2||ALUMINUM PORPHYRIN:2||LEAD STEARATE:2||FERROCENE:2||POLY(EPSILONCAPROLACTONE):2||DIAGRAM:2||nucleosides:2||Selective recognition by preconcentration:2||Electrochemical impedance spectroscopy:2||DOPAMINE:2||Silica:2||Silyl Ester:2||DIETHYL ESTER) PRECURSORS:2||SURFACE CHARACTERIZATION:2||MICROSTRUCTURE:2||polystyreneblockpolyisoprene:2||MICROPHASESEPARATED STRUCTURES:2||IMPEDANCE MEASUREMENTS:2||HEMEPROTEINS:2||SOLID SUBSTRATE:2||MOISTURE ABSORPTION:2||aromatic polyimide:2||INDUCED MORPHOLOGICALCHANGES:2||STABILITY:2||LC alignment layers:2||POLYPYROMELLITIMIDES:2||Ion mobility:2||Chiral polymer:2||OLIGOSACCHARIDES:2||OXIDE:2||SIDECHAIN:2||RETARDATION:2||functionality:2||temperature effects:2||phase transition:2||glass transition temperature:2||spincoated film:2||ESTER) PRECURSORS:2||PRECURSOR BLEND:2||Xray reflectivity:2||SIGMABONDS:2||aluminum porphyrin catalysts:2||METALLOPORPHYRIN:2||SILICON:2||MASSSPECTROMETRY ANALYSIS:2||STAR POLYMERS:2||SIZE DISTRIBUTIONS:2||GIANT VESICLES:2||POLY(3ALKYLTHIOPHENES):2||ADHESION:2||LIGHT:2||POLYSTYRENEBPOLYISOPRENE:2||HPLC fractionation:2||SILVER ELECTRODES:2||ENHANCED RESONANCE RAMAN:2||SEQUENCE:2||POLYELECTROLYTE/NONELECTROLYTE SHELLS:2||polyimide:2||liquid crystal alignment layer:2||SOLUBLE POLYIMIDES:2||POLYBUTADIENECOATED ZIRCONIA:2||PRETILT ANGLES:2||CROSSSECTIONS:2||IMSMS:2||POLYISOPRENE COPOLYMERS:2||POLYIMIDE THINFILMS:2||POLYMER SURFACES:2||RAMAN:2||STEREOREGULAR PMMA:2||poly(tertbutyl methacrylate) (PtBMA):2||TIME:2||POLYIMIDE COMPOSITE:2||CARBOXYLATO COMPLEXES:2||AGOSTIC INTERACTIONS:2||MOLECULARSTRUCTURE:2||ALKENE:2||TRANSISTOR MEMORY:2||DEVICES:2||ORTHOGONALITY:2||molecular characterization:2||ORGANOSILICATE DIELECTRIC FILMS:2||AMPHIPHILES:2||Serotonin:2||Anodic stripping differential pulse voltammetry:2||transmission electron microtomography:2||LIQUIDCHROMATOGRAPHY ANALYSIS:2||PHASEDIAGRAM:2||CARBON NANOTUBES:2||TRANSFER MECHANISM:2||BINARY MIXTURES:2||REFLECTOMETRY:2||ROD:2||DROPS:2||CONSTANT:2||TRIBLOCK COPOLYMER:2||POLYMER VESICLES:2||CLICK CHEMISTRY:2||ARRAYS:2||COMPOSITES:2||MALDITOF MS:2||POLYMER THINFILMS:2||HYDROPHOBIC INTERACTION CHROMATOGRAPHY:2||retention mechanism:2||GRAZINGINCIDENCE:2||NANOPOROSITY:2||soluble poly(amic esteraltimide)s:2||DIFFERENTIAL SCANNING CALORIMETRY:2||RESIDUALSTRESS:2||CHEMICALCOMPOSITION:2||POLY(AMIC DIETHYL ESTER) PRECURSOR:2||POLY(DIMETHYL SILOXANES):2||MASS POLYSTYRENES:2||cyclic propylene carbonate:2||propylene oxide:2||ACETATE) TOLUENE SOLUTIONS:2||TRANSIENT GRATING METHOD:2||MASS DIFFUSION:2||MICROPHASE SEPARATION TRANSITION:2||POLYSTYRENES:2||POLYSILANE:2||CARBOHYDRATEBASED PHOSPHOLIPIDS:2||HELICAL STRANDS:2||FLUORESCENCE DETECTION:2||SENSITIVE DETERMINATION:2||COMPOSITE FILMS:2||microphase:2||3MERCAPTOPROPIONIC ACID:2||BUTADIENE BLOCK COPOLYMER:2||HYBRID POLYMERIC MICELLES:2||AQUEOUSMEDIA:2||CONTACTANGLE:2||TRANSISTORCIRCUITS:2||ABTYPE POLY(ETHERIMIDE)S:2||CORRELATION SPECTROSCOPY:2||GASPHASE CONFORMATIONS:2||DECANE:2||INFRAREDSPECTROSCOPY:2||MICELLIZATION:2||ENERGIES:2||ACID) PRECURSORS:2||PHOTOALIGNMENT:2||polymers:2||SUBSTRATE:2||carbon dioxide:2||oligomeric propylene carbonate:2||THERMALDIFFUSION:2||CRYSTAL:2||PHASETRANSITION:2||REFLECTIVITY:2||ANALOGS:2||supramolecular chemistry:2||LYSOPHOSPHATIDIC ACID:2||PHOSPHOCHOLINE:2||POLY(3HEXYLTHIOPHENE):2||Receptor:2||MODIFIED GOLD ELECTRODES:2||ASCORBICACID:2||HUMAN URINE:2||Hybrid Nanocomposite:2||Dielectric Constant:2||AU(111) ELECTRODES:2||NANOFILMS:2||HYDROPHOBIC CORES:2||DRIVEN:2||FLEXIBLE SIDECHAINS:2||MESOGEN:2||size exclusion chromatography:2||ORGANIZATION:2||POLY(LACTIC ACID):2||MOLECULAR ARCHITECTURE:2||COUPLER:2||POLYSTYRENE COPOLYMER:2||diffusion coefficient:2||XRAY REFLECTIVITY:2||temperature gradient interaction chromatography polystyryllithium:2||VISCOELASTIC PROPERTIES:2||polyisoprene:2||CRYSTALSTRUCTURES:2||POLYCARBONATE:2||MULTILAYERS:2||DEPOSITION:2||FULL ADSORPTION MECHANISMS:2||QUANTUM DOTS:2||CRITICAL ORDERING TRANSITION:2||CORE:2||PARACRYSTALLINE DISTORTION:2||PERFORATED LAYER PHASE:2||liposomes:2||phospholipids:2||UNILAMELLAR VESICLES:2||VOLTAMMETRIC DETERMINATION:2||Polyimide:2||FOURIERTRANSFORM:2||SURFACE:2||SIZE EXCLUSION CHROMATOGRAPHY:2||NEUTRON REFLECTIVITY:2||ORDERED STRUCTURE:2||RIGID ROD POLYMERS:2||DISPLACEMENT POLYMERIZATION:2||PHOTOSENSITIVE POLYIMIDE:2||EFFICIENCY:2||films:2||Polylactide:2||CHROMATOGRAPHIC CRITICAL CONDITION:2||RETENTION MECHANISM:2||COPPER PHTHALOCYANINE:2||C60:2||COPOLYMER:2||micelle:2||LINEAR POLYETHYLENE:2||LIQUIDS:2||ARMS:2||HIGHPERFORMANCE LIQUID:2||alternating copolyimides:2||PHASE SEPARATION:2||POLYMERCHAINS:2||STYRYLPYRIDINIUM:2||ANGLES:2||MOBILITY:2||PROBE:2||ACIDS:2||BLUE:2||POSITIONS:2||CYCLOPENTADIENYL:2||HIGHMOLECULARWEIGHT:2||FUELCELLS:2||TIN OXIDE:2||NANOCRYSTALS:2||SURFACE MICELLE FORMATION:2||DISORDER TRANSITION:2||BIREFRINGENCE:2||LIPIDCOMPOSITION:2||CONJUGATED POLYMERS:2||GLASSYCARBON ELECTRODE:2||ELECTROCHEMICAL DETECTION:2||MULTIPLE DETECTION:2||aromatic polyimides:2||MOLECULARWEIGHT HOMOPOLYMERS:2||BINARYMIXTURE:2||PATTERNS:2||photoluminescent polyimide:2||photosensitive polyimide:2||DEPENDENT MICELLIZATION:2||SPEED:2||synthesis:2||COIL BLOCKCOPOLYMERS:2||LIQUIDCRYSTALLINE ASSEMBLIES:2||OXIDE):2||molecular weight distribution:2||CONJUGATED POLYMER:2||polymer characterization:2||NONIONIC SURFACTANTS:2||STEREOREGULAR POLY(METHYL METHACRYLATE):2||structure:2||RODLIKE POLYIMIDE:2||FLEXIBLE POLYIMIDE:2||THERMAL IMIDIZATION:2||IN SITU RODCHAIN FORMATION:2||PHASESEPARATION:2||VINYL ETHER):2||EQUILIBRIUM:2||STRESS:2||STRUCTURAL RELAXATION:2||LIVING POLYMERIZATION:2||CONTAIN:2||SALT:2||WAVEGUIDE:2||XRAY DIFFRACTION:2||WALLED CARBON NANOTUBES:2||SILICON NANOWIRES:2||IR:2||DIELECTRIC THINFILMS:2||Selfassembled monolayer:2||PARAMETERS:2||Temperature gradient interaction chromatography:2||SOLIDSURFACES:2||FLOW:2||RATES:2||PRECURSORS:2||FILM BALANCE:2||SIDECHAINS:2||SUPRAMOLECULAR MATERIALS:2||CHAINS:2||POLYSTYRENE:39||ANIONICPOLYMERIZATION:34||GRADIENT INTERACTION CHROMATOGRAPHY:31||SEPARATION:27||BEHAVIOR:24||LIQUIDCHROMATOGRAPHY:22||POLYMERS:22||SIZEEXCLUSION CHROMATOGRAPHY:19||BLOCKCOPOLYMERS:17||DIBLOCK COPOLYMERS:17||THINFILMS:16||POLYISOPRENE:14||HPLC:13||SYNTHETICPOLYMERS:12||PERFORMANCE LIQUIDCHROMATOGRAPHY:11||DIBLOCK COPOLYMER:11||MOLECULARWEIGHT DISTRIBUTION:10||MACROMOLECULES:10||BLOCKCOPOLYMER:10||REVERSEDPHASE:10||RETENTION BEHAVIOR:10||MORPHOLOGY:9||MOLECULARWEIGHT:9||MELTS:9||AROMATIC POLYIMIDES:8||XRAYSCATTERING:8||polystyrene:8||MIXTURES:7||block copolymer:7||SURFACES:7||DEPENDENCE:7||COPOLYMERS:7||POLYMERIZATION:7||AIR/WATER INTERFACE:7||DEFINED BRUSH POLYIMIDE:6||TEMPERATURE:6||FULLY RODLIKE BACKBONE:6||MONOLAYERS:6||POLYIMIDES:6||CHAIN:6||COMPLEX POLYMERS:6||MOLECULARREORIENTATION:6||temperature gradient interaction chromatography:6||POLYMERFILMS:6||GELPERMEATION CHROMATOGRAPHY:6||ELUTION:6||ORDERDISORDER TRANSITION:6||SURFACEMORPHOLOGY:6||ORIENTATION:6||SYSTEMS:6||CRITICAL ADSORPTION POINT:6||LIGHTSCATTERING:5||PROBE DIFFUSION:5||POLYDISPERSITY:5||AIRWATERINTERFACE:5||MICROPHASE SEPARATION:5||GLASSTRANSITION:5||BLENDS:5||FILMS:5||ADSORPTION CHROMATOGRAPHY:5||MECHANISM:5||CO2:5||ETHYLENEOXIDE:5||ALIGNMENT:5||COMPLEXES:5||FRACTIONATION:5||MISCIBILITY:5||POLYMER CHARACTERIZATION:5||HEXAGONALLY PERFORATED LAYER:5||TRANSITION:5||FLIGHT MASSSPECTROMETRY:5||ARCHITECTURE:5||POLY(METHYL METHACRYLATE):5||ALTERNATING COPOLYMERIZATION:4||THICKNESS:4||THERMODYNAMICS:4||CRITICAL RANGE:4||ULTRATHIN POLYMERFILMS:4||DYNAMICS:4||CLIMATECHANGE:4||PHASE:4||GLASSTRANSITION TEMPERATURE:4||EPOXIDE:4||selfassembly:4||SPECTROSCOPY:4||SELFDIFFUSION:4||SCATTERING:4||OPTICALPROPERTIES:4||CATALYSTS:4||CHEMISTRY:4||SOLARCELLS:4||polyimides:4||polypyromellitimides:4||SEGMENTAL REORIENTATIONS:4||ADSORPTION:4||INTERFACE:4||POLYMERSOLUTIONS:4||TRACER DIFFUSION:4||OXIDE) DIBLOCK COPOLYMER:4||POLYSTYRENEBPOLY(METHYL METHACRYLATE):4||POLYMER BLENDS:4||SIMULATION:4||CHAIN ORIENTATION:4||STYRENE:4||TOF MASSSPECTROMETRY:4||WATER:4||DISPLAYS:4||OLIGOMERS:4||PEPTIDES:4||CYCLIC POLYSTYRENE:4||LATTICE CLUSTER THEORY:4||2NDHARMONIC GENERATION:4||LIQUIDCRYSTAL ALIGNMENT:4||MONTECARLO:4||LangmuirBlodgett film:3||ASSEMBLIES:3||chromatography:3||HOLOGRAPHIC RELAXATION SPECTROSCOPY:3||MULTIPLE MORPHOLOGIES:3||INTERACTION CHROMATOGRAPHY:3||NORMALPHASE:3||DIFFUSION:3||BRANCHED POLYSTYRENE:3||NANOPARTICLES:3||LITHOGRAPHY:3||POLYMER:3||LASERLIGHTSCATTERING:3||HIGH MOLECULARWEIGHT:3||CUBIC PHASE:3||AMPHIPHILIC BLOCKCOPOLYMERS:3||AQUEOUSSOLUTION:3||MODEL:3||FORCED RAYLEIGHSCATTERING:3||HYDRODYNAMIC PROPERTIES:3||4MIKTOARM STAR COPOLYMER:3||SYSTEM:3||PHASEBEHAVIOR:3||AQUEOUSSOLUTIONS:3||RHEOLOGY:3||LB film:3||2DIMENSIONAL LIQUIDCHROMATOGRAPHY:3||VISCOSITY:3||DIBLOCK COPOLYMER MELTS:3||ORDERORDER TRANSITION:3||GYROID PHASE:3||BINDING:3||BLOCK POLYELECTROLYTES:3||DERIVATIVES:3||MELT:3||PHASE LIQUIDCHROMATOGRAPHY:3||high temperature:3||ELEVATEDTEMPERATURE:3||RETENTION:3||MICELLE FORMATION:3||ELECTRONMICROSCOPY:3||Electrospray ionization:2||FRACTIONS:2||nalkanes:2||ISOCRATIC SEPARATION:2||ASSOCIATION:2||POLY(METHYL METHACRYLATE)S:2||2D correlation spectroscopy:2||CARBONATION:2||GLASSTRANSITION BEHAVIORS:2||MECHANICAL PROPERTIES:2||DIMENSIONS:2||POLYMER MIXTURES:2||ALUMINUM PORPHYRIN:2||LEAD STEARATE:2||FERROCENE:2||POLY(EPSILONCAPROLACTONE):2||DIAGRAM:2||nucleosides:2||Selective recognition by preconcentration:2||Electrochemical impedance spectroscopy:2||DOPAMINE:2||Silica:2||Silyl Ester:2||DIETHYL ESTER) PRECURSORS:2||SURFACE CHARACTERIZATION:2||MICROSTRUCTURE:2||polystyreneblockpolyisoprene:2||MICROPHASESEPARATED STRUCTURES:2||IMPEDANCE MEASUREMENTS:2||HEMEPROTEINS:2||SOLID SUBSTRATE:2||MOISTURE ABSORPTION:2||aromatic polyimide:2||INDUCED MORPHOLOGICALCHANGES:2||STABILITY:2||LC alignment layers:2||POLYPYROMELLITIMIDES:2||Ion mobility:2||Chiral polymer:2||OLIGOSACCHARIDES:2||OXIDE:2||SIDECHAIN:2||RETARDATION:2||functionality:2||temperature effects:2||phase transition:2||glass transition temperature:2||spincoated film:2||ESTER) PRECURSORS:2||PRECURSOR BLEND:2||Xray reflectivity:2||SIGMABONDS:2||aluminum porphyrin catalysts:2||METALLOPORPHYRIN:2||SILICON:2||MASSSPECTROMETRY ANALYSIS:2||STAR POLYMERS:2||SIZE DISTRIBUTIONS:2||GIANT VESICLES:2||POLY(3ALKYLTHIOPHENES):2||ADHESION:2||LIGHT:2||POLYSTYRENEBPOLYISOPRENE:2||HPLC fractionation:2||SILVER ELECTRODES:2||ENHANCED RESONANCE RAMAN:2||SEQUENCE:2||POLYELECTROLYTE/NONELECTROLYTE SHELLS:2||polyimide:2||liquid crystal alignment layer:2||SOLUBLE POLYIMIDES:2||POLYBUTADIENECOATED ZIRCONIA:2||PRETILT ANGLES:2||CROSSSECTIONS:2||IMSMS:2||POLYISOPRENE COPOLYMERS:2||POLYIMIDE THINFILMS:2||POLYMER SURFACES:2||RAMAN:2||STEREOREGULAR PMMA:2||poly(tertbutyl methacrylate) (PtBMA):2||TIME:2||POLYIMIDE COMPOSITE:2||CARBOXYLATO COMPLEXES:2||AGOSTIC INTERACTIONS:2||MOLECULARSTRUCTURE:2||ALKENE:2||TRANSISTOR MEMORY:2||DEVICES:2||ORTHOGONALITY:2||molecular characterization:2||ORGANOSILICATE DIELECTRIC FILMS:2||AMPHIPHILES:2||Serotonin:2||Anodic stripping differential pulse voltammetry:2||transmission electron microtomography:2||LIQUIDCHROMATOGRAPHY ANALYSIS:2||PHASEDIAGRAM:2||CARBON NANOTUBES:2||TRANSFER MECHANISM:2||BINARY MIXTURES:2||REFLECTOMETRY:2||ROD:2||DROPS:2||CONSTANT:2||TRIBLOCK COPOLYMER:2||POLYMER VESICLES:2||CLICK CHEMISTRY:2||ARRAYS:2||COMPOSITES:2||MALDITOF MS:2||POLYMER THINFILMS:2||HYDROPHOBIC INTERACTION CHROMATOGRAPHY:2||retention mechanism:2||GRAZINGINCIDENCE:2||NANOPOROSITY:2||soluble poly(amic esteraltimide)s:2||DIFFERENTIAL SCANNING CALORIMETRY:2||RESIDUALSTRESS:2||CHEMICALCOMPOSITION:2||POLY(AMIC DIETHYL ESTER) PRECURSOR:2||POLY(DIMETHYL SILOXANES):2||MASS POLYSTYRENES:2||cyclic propylene carbonate:2||propylene oxide:2||ACETATE) TOLUENE SOLUTIONS:2||TRANSIENT GRATING METHOD:2||MASS DIFFUSION:2||MICROPHASE SEPARATION TRANSITION:2||POLYSTYRENES:2||POLYSILANE:2||CARBOHYDRATEBASED PHOSPHOLIPIDS:2||HELICAL STRANDS:2||FLUORESCENCE DETECTION:2||SENSITIVE DETERMINATION:2||COMPOSITE FILMS:2||microphase:2||3MERCAPTOPROPIONIC ACID:2||BUTADIENE BLOCK COPOLYMER:2||HYBRID POLYMERIC MICELLES:2||AQUEOUSMEDIA:2||CONTACTANGLE:2||TRANSISTORCIRCUITS:2||ABTYPE POLY(ETHERIMIDE)S:2||CORRELATION SPECTROSCOPY:2||GASPHASE CONFORMATIONS:2||DECANE:2||INFRAREDSPECTROSCOPY:2||MICELLIZATION:2||ENERGIES:2||ACID) PRECURSORS:2||PHOTOALIGNMENT:2||polymers:2||SUBSTRATE:2||carbon dioxide:2||oligomeric propylene carbonate:2||THERMALDIFFUSION:2||CRYSTAL:2||PHASETRANSITION:2||REFLECTIVITY:2||ANALOGS:2||supramolecular chemistry:2||LYSOPHOSPHATIDIC ACID:2||PHOSPHOCHOLINE:2||POLY(3HEXYLTHIOPHENE):2||Receptor:2||MODIFIED GOLD ELECTRODES:2||ASCORBICACID:2||HUMAN URINE:2||Hybrid Nanocomposite:2||Dielectric Constant:2||AU(111) ELECTRODES:2||NANOFILMS:2||HYDROPHOBIC CORES:2||DRIVEN:2||FLEXIBLE SIDECHAINS:2||MESOGEN:2||size exclusion chromatography:2||ORGANIZATION:2||POLY(LACTIC ACID):2||MOLECULAR ARCHITECTURE:2||COUPLER:2||POLYSTYRENE COPOLYMER:2||diffusion coefficient:2||XRAY REFLECTIVITY:2||temperature gradient interaction chromatography polystyryllithium:2||VISCOELASTIC PROPERTIES:2||polyisoprene:2||CRYSTALSTRUCTURES:2||POLYCARBONATE:2||MULTILAYERS:2||DEPOSITION:2||FULL ADSORPTION MECHANISMS:2||QUANTUM DOTS:2||CRITICAL ORDERING TRANSITION:2||CORE:2||PARACRYSTALLINE DISTORTION:2||PERFORATED LAYER PHASE:2||liposomes:2||phospholipids:2||UNILAMELLAR VESICLES:2||VOLTAMMETRIC DETERMINATION:2||Polyimide:2||FOURIERTRANSFORM:2||SURFACE:2||SIZE EXCLUSION CHROMATOGRAPHY:2||NEUTRON REFLECTIVITY:2||ORDERED STRUCTURE:2||RIGID ROD POLYMERS:2||DISPLACEMENT POLYMERIZATION:2||PHOTOSENSITIVE POLYIMIDE:2||EFFICIENCY:2||films:2||Polylactide:2||CHROMATOGRAPHIC CRITICAL CONDITION:2||RETENTION MECHANISM:2||COPPER PHTHALOCYANINE:2||C60:2||COPOLYMER:2||micelle:2||LINEAR POLYETHYLENE:2||LIQUIDS:2||ARMS:2||HIGHPERFORMANCE LIQUID:2||alternating copolyimides:2||PHASE SEPARATION:2||POLYMERCHAINS:2||STYRYLPYRIDINIUM:2||ANGLES:2||MOBILITY:2||PROBE:2||ACIDS:2||BLUE:2||POSITIONS:2||CYCLOPENTADIENYL:2||HIGHMOLECULARWEIGHT:2||FUELCELLS:2||TIN OXIDE:2||NANOCRYSTALS:2||SURFACE MICELLE FORMATION:2||DISORDER TRANSITION:2||BIREFRINGENCE:2||LIPIDCOMPOSITION:2||CONJUGATED POLYMERS:2||GLASSYCARBON ELECTRODE:2||ELECTROCHEMICAL DETECTION:2||MULTIPLE DETECTION:2||aromatic polyimides:2||MOLECULARWEIGHT HOMOPOLYMERS:2||BINARYMIXTURE:2||PATTERNS:2||photoluminescent polyimide:2||photosensitive polyimide:2||DEPENDENT MICELLIZATION:2||SPEED:2||synthesis:2||COIL BLOCKCOPOLYMERS:2||LIQUIDCRYSTALLINE ASSEMBLIES:2||OXIDE):2||molecular weight distribution:2||CONJUGATED POLYMER:2||polymer characterization:2||NONIONIC SURFACTANTS:2||STEREOREGULAR POLY(METHYL METHACRYLATE):2||structure:2||RODLIKE POLYIMIDE:2||FLEXIBLE POLYIMIDE:2||THERMAL IMIDIZATION:2||IN SITU RODCHAIN FORMATION:2||PHASESEPARATION:2||VINYL ETHER):2||EQUILIBRIUM:2||STRESS:2||STRUCTURAL RELAXATION:2||LIVING POLYMERIZATION:2||CONTAIN:2||SALT:2||WAVEGUIDE:2||XRAY DIFFRACTION:2||WALLED CARBON NANOTUBES:2||SILICON NANOWIRES:2||IR:2||DIELECTRIC THINFILMS:2||Selfassembled monolayer:2||PARAMETERS:2||Temperature gradient interaction chromatography:2||SOLIDSURFACES:2||FLOW:2||RATES:2||PRECURSORS:2||FILM BALANCE:2||SIDECHAINS:2||SUPRAMOLECULAR MATERIALS:2||CHAINS:2||POLYSTYRENE:39||ANIONICPOLYMERIZATION:34||GRADIENT INTERACTION CHROMATOGRAPHY:31||SEPARATION:27||BEHAVIOR:24||LIQUIDCHROMATOGRAPHY:22||POLYMERS:22||SIZEEXCLUSION CHROMATOGRAPHY:19||BLOCKCOPOLYMERS:17||DIBLOCK COPOLYMERS:17||THINFILMS:16||POLYISOPRENE:14||HPLC:13||SYNTHETICPOLYMERS:12||PERFORMANCE LIQUIDCHROMATOGRAPHY:11||DIBLOCK COPOLYMER:11||MOLECULARWEIGHT DISTRIBUTION:10||MACROMOLECULES:10||BLOCKCOPOLYMER:10||REVERSEDPHASE:10||RETENTION BEHAVIOR:10||MORPHOLOGY:9||MOLECULARWEIGHT:9||MELTS:9||AROMATIC POLYIMIDES:8||XRAYSCATTERING:8||polystyrene:8||MIXTURES:7||block copolymer:7||SURFACES:7||DEPENDENCE:7||COPOLYMERS:7||POLYMERIZATION:7||AIR/WATER INTERFACE:7||DEFINED BRUSH POLYIMIDE:6||TEMPERATURE:6||FULLY RODLIKE BACKBONE:6||MONOLAYERS:6||POLYIMIDES:6||CHAIN:6||COMPLEX POLYMERS:6||MOLECULARREORIENTATION:6||temperature gradient interaction chromatography:6||POLYMERFILMS:6||GELPERMEATION CHROMATOGRAPHY:6||ELUTION:6||ORDERDISORDER TRANSITION:6||SURFACEMORPHOLOGY:6||ORIENTATION:6||SYSTEMS:6||CRITICAL ADSORPTION POINT:6||LIGHTSCATTERING:5||PROBE DIFFUSION:5||POLYDISPERSITY:5||AIRWATERINTERFACE:5||MICROPHASE SEPARATION:5||GLASSTRANSITION:5||BLENDS:5||FILMS:5||ADSORPTION CHROMATOGRAPHY:5||MECHANISM:5||CO2:5||ETHYLENEOXIDE:5||ALIGNMENT:5||COMPLEXES:5||FRACTIONATION:5||MISCIBILITY:5||POLYMER CHARACTERIZATION:5||HEXAGONALLY PERFORATED LAYER:5||TRANSITION:5||FLIGHT MASSSPECTROMETRY:5||ARCHITECTURE:5||POLY(METHYL METHACRYLATE):5||ALTERNATING COPOLYMERIZATION:4||THICKNESS:4||THERMODYNAMICS:4||CRITICAL RANGE:4||ULTRATHIN POLYMERFILMS:4||DYNAMICS:4||CLIMATECHANGE:4||PHASE:4||GLASSTRANSITION TEMPERATURE:4||EPOXIDE:4||selfassembly:4||SPECTROSCOPY:4||SELFDIFFUSION:4||SCATTERING:4||OPTICALPROPERTIES:4||CATALYSTS:4||CHEMISTRY:4||SOLARCELLS:4||polyimides:4||polypyromellitimides:4||SEGMENTAL REORIENTATIONS:4||ADSORPTION:4||INTERFACE:4||POLYMERSOLUTIONS:4||TRACER DIFFUSION:4||OXIDE) DIBLOCK COPOLYMER:4||POLYSTYRENEBPOLY(METHYL METHACRYLATE):4||POLYMER BLENDS:4||SIMULATION:4||CHAIN ORIENTATION:4||STYRENE:4||TOF MASSSPECTROMETRY:4||WATER:4||DISPLAYS:4||OLIGOMERS:4||PEPTIDES:4||CYCLIC POLYSTYRENE:4||LATTICE CLUSTER THEORY:4||2NDHARMONIC GENERATION:4||LIQUIDCRYSTAL ALIGNMENT:4||MONTECARLO:4||LangmuirBlodgett film:3||ASSEMBLIES:3||chromatography:3||HOLOGRAPHIC RELAXATION SPECTROSCOPY:3||MULTIPLE MORPHOLOGIES:3||INTERACTION CHROMATOGRAPHY:3||NORMALPHASE:3||DIFFUSION:3||BRANCHED POLYSTYRENE:3||NANOPARTICLES:3||LITHOGRAPHY:3||POLYMER:3||LASERLIGHTSCATTERING:3||HIGH MOLECULARWEIGHT:3||CUBIC PHASE:3||AMPHIPHILIC BLOCKCOPOLYMERS:3||AQUEOUSSOLUTION:3||MODEL:3||FORCED RAYLEIGHSCATTERING:3||HYDRODYNAMIC PROPERTIES:3||4MIKTOARM STAR COPOLYMER:3||SYSTEM:3||PHASEBEHAVIOR:3||AQUEOUSSOLUTIONS:3||RHEOLOGY:3||LB film:3||2DIMENSIONAL LIQUIDCHROMATOGRAPHY:3||VISCOSITY:3||DIBLOCK COPOLYMER MELTS:3||ORDERORDER TRANSITION:3||GYROID PHASE:3||BINDING:3||BLOCK POLYELECTROLYTES:3||DERIVATIVES:3||MELT:3||PHASE LIQUIDCHROMATOGRAPHY:3||high temperature:3||ELEVATEDTEMPERATURE:3||RETENTION:3||MICELLE FORMATION:3||ELECTRONMICROSCOPY:3||Electrospray ionization:2||FRACTIONS:2||nalkanes:2||ISOCRATIC SEPARATION:2||ASSOCIATION:2||POLY(METHYL METHACRYLATE)S:2||2D correlation spectroscopy:2||CARBONATION:2||GLASSTRANSITION BEHAVIORS:2||MECHANICAL PROPERTIES:2||DIMENSIONS:2||POLYMER MIXTURES:2||ALUMINUM PORPHYRIN:2||LEAD STEARATE:2||FERROCENE:2||POLY(EPSILONCAPROLACTONE):2||DIAGRAM:2||nucleosides:2||Selective recognition by preconcentration:2||Electrochemical impedance spectroscopy:2||DOPAMINE:2||Silica:2||Silyl Ester:2||DIETHYL ESTER) PRECURSORS:2||SURFACE CHARACTERIZATION:2||MICROSTRUCTURE:2||polystyreneblockpolyisoprene:2||MICROPHASESEPARATED STRUCTURES:2||IMPEDANCE MEASUREMENTS:2||HEMEPROTEINS:2||SOLID SUBSTRATE:2||MOISTURE ABSORPTION:2||aromatic polyimide:2||INDUCED MORPHOLOGICALCHANGES:2||STABILITY:2||LC alignment layers:2||POLYPYROMELLITIMIDES:2||Ion mobility:2||Chiral polymer:2||OLIGOSACCHARIDES:2||OXIDE:2||SIDECHAIN:2||RETARDATION:2||functionality:2||temperature effects:2||phase transition:2||glass transition temperature:2||spincoated film:2||ESTER) PRECURSORS:2||PRECURSOR BLEND:2||Xray reflectivity:2||SIGMABONDS:2||aluminum porphyrin catalysts:2||METALLOPORPHYRIN:2||SILICON:2||MASSSPECTROMETRY ANALYSIS:2||STAR POLYMERS:2||SIZE DISTRIBUTIONS:2||GIANT VESICLES:2||POLY(3ALKYLTHIOPHENES):2||ADHESION:2||LIGHT:2||POLYSTYRENEBPOLYISOPRENE:2||HPLC fractionation:2||SILVER ELECTRODES:2||ENHANCED RESONANCE RAMAN:2||SEQUENCE:2||POLYELECTROLYTE/NONELECTROLYTE SHELLS:2||polyimide:2||liquid crystal alignment layer:2||SOLUBLE POLYIMIDES:2||POLYBUTADIENECOATED ZIRCONIA:2||PRETILT ANGLES:2||CROSSSECTIONS:2||IMSMS:2||POLYISOPRENE COPOLYMERS:2||POLYIMIDE THINFILMS:2||POLYMER SURFACES:2||RAMAN:2||STEREOREGULAR PMMA:2||poly(tertbutyl methacrylate) (PtBMA):2||TIME:2||POLYIMIDE COMPOSITE:2||CARBOXYLATO COMPLEXES:2||AGOSTIC INTERACTIONS:2||MOLECULARSTRUCTURE:2||ALKENE:2||TRANSISTOR MEMORY:2||DEVICES:2||ORTHOGONALITY:2||molecular characterization:2||ORGANOSILICATE DIELECTRIC FILMS:2||AMPHIPHILES:2||Serotonin:2||Anodic stripping differential pulse voltammetry:2||transmission electron microtomography:2||LIQUIDCHROMATOGRAPHY ANALYSIS:2||PHASEDIAGRAM:2||CARBON NANOTUBES:2||TRANSFER MECHANISM:2||BINARY MIXTURES:2||REFLECTOMETRY:2||ROD:2||DROPS:2||CONSTANT:2||TRIBLOCK COPOLYMER:2||POLYMER VESICLES:2||CLICK CHEMISTRY:2||ARRAYS:2||COMPOSITES:2||MALDITOF MS:2||POLYMER THINFILMS:2||HYDROPHOBIC INTERACTION CHROMATOGRAPHY:2||retention mechanism:2||GRAZINGINCIDENCE:2||NANOPOROSITY:2||soluble poly(amic esteraltimide)s:2||DIFFERENTIAL SCANNING CALORIMETRY:2||RESIDUALSTRESS:2||CHEMICALCOMPOSITION:2||POLY(AMIC DIETHYL ESTER) PRECURSOR:2||POLY(DIMETHYL SILOXANES):2||MASS POLYSTYRENES:2||cyclic propylene carbonate:2||propylene oxide:2||ACETATE) TOLUENE SOLUTIONS:2||TRANSIENT GRATING METHOD:2||MASS DIFFUSION:2||MICROPHASE SEPARATION TRANSITION:2||POLYSTYRENES:2||POLYSILANE:2||CARBOHYDRATEBASED PHOSPHOLIPIDS:2||HELICAL STRANDS:2||FLUORESCENCE DETECTION:2||SENSITIVE DETERMINATION:2||COMPOSITE FILMS:2||microphase:2||3MERCAPTOPROPIONIC ACID:2||BUTADIENE BLOCK COPOLYMER:2||HYBRID POLYMERIC MICELLES:2||AQUEOUSMEDIA:2||CONTACTANGLE:2||TRANSISTORCIRCUITS:2||ABTYPE POLY(ETHERIMIDE)S:2||CORRELATION SPECTROSCOPY:2||GASPHASE CONFORMATIONS:2||DECANE:2||INFRAREDSPECTROSCOPY:2||MICELLIZATION:2||ENERGIES:2||ACID) PRECURSORS:2||PHOTOALIGNMENT:2||polymers:2||SUBSTRATE:2||carbon dioxide:2||oligomeric propylene carbonate:2||THERMALDIFFUSION:2||CRYSTAL:2||PHASETRANSITION:2||REFLECTIVITY:2||ANALOGS:2||supramolecular chemistry:2||LYSOPHOSPHATIDIC ACID:2||PHOSPHOCHOLINE:2||POLY(3HEXYLTHIOPHENE):2||Receptor:2||MODIFIED GOLD ELECTRODES:2||ASCORBICACID:2||HUMAN URINE:2||Hybrid Nanocomposite:2||Dielectric Constant:2||AU(111) ELECTRODES:2||NANOFILMS:2||HYDROPHOBIC CORES:2||DRIVEN:2||FLEXIBLE SIDECHAINS:2||MESOGEN:2||size exclusion chromatography:2||ORGANIZATION:2||POLY(LACTIC ACID):2||MOLECULAR ARCHITECTURE:2||COUPLER:2||POLYSTYRENE COPOLYMER:2||diffusion coefficient:2||XRAY REFLECTIVITY:2||temperature gradient interaction chromatography polystyryllithium:2||VISCOELASTIC PROPERTIES:2||polyisoprene:2||CRYSTALSTRUCTURES:2||POLYCARBONATE:2||MULTILAYERS:2||DEPOSITION:2||FULL ADSORPTION MECHANISMS:2||QUANTUM DOTS:2||CRITICAL ORDERING TRANSITION:2||CORE:2||PARACRYSTALLINE DISTORTION:2||PERFORATED LAYER PHASE:2||liposomes:2||phospholipids:2||UNILAMELLAR VESICLES:2||VOLTAMMETRIC DETERMINATION:2||Polyimide:2||FOURIERTRANSFORM:2||SURFACE:2||SIZE EXCLUSION CHROMATOGRAPHY:2||NEUTRON REFLECTIVITY:2||ORDERED STRUCTURE:2||RIGID ROD POLYMERS:2||DISPLACEMENT POLYMERIZATION:2||PHOTOSENSITIVE POLYIMIDE:2||EFFICIENCY:2||films:2||Polylactide:2||CHROMATOGRAPHIC CRITICAL CONDITION:2||RETENTION MECHANISM:2||COPPER PHTHALOCYANINE:2||C60:2||COPOLYMER:2||micelle:2||LINEAR POLYETHYLENE:2||LIQUIDS:2||ARMS:2||HIGHPERFORMANCE LIQUID:2||alternating copolyimides:2||PHASE SEPARATION:2||POLYMERCHAINS:2||STYRYLPYRIDINIUM:2||ANGLES:2||MOBILITY:2||PROBE:2||ACIDS:2||BLUE:2||POSITIONS:2||CYCLOPENTADIENYL:2||HIGHMOLECULARWEIGHT:2||FUELCELLS:2||TIN OXIDE:2||NANOCRYSTALS:2||SURFACE MICELLE FORMATION:2||DISORDER TRANSITION:2||BIREFRINGENCE:2||LIPIDCOMPOSITION:2||CONJUGATED POLYMERS:2||GLASSYCARBON ELECTRODE:2||ELECTROCHEMICAL DETECTION:2||MULTIPLE DETECTION:2||aromatic polyimides:2||MOLECULARWEIGHT HOMOPOLYMERS:2||BINARYMIXTURE:2||PATTERNS:2||photoluminescent polyimide:2||photosensitive polyimide:2||DEPENDENT MICELLIZATION:2||SPEED:2||synthesis:2||COIL BLOCKCOPOLYMERS:2||LIQUIDCRYSTALLINE ASSEMBLIES:2||OXIDE):2||molecular weight distribution:2||CONJUGATED POLYMER:2||polymer characterization:2||NONIONIC SURFACTANTS:2||STEREOREGULAR POLY(METHYL METHACRYLATE):2||structure:2||RODLIKE POLYIMIDE:2||FLEXIBLE POLYIMIDE:2||THERMAL IMIDIZATION:2||IN SITU RODCHAIN FORMATION:2||PHASESEPARATION:2||VINYL ETHER):2||EQUILIBRIUM:2||STRESS:2||STRUCTURAL RELAXATION:2||LIVING POLYMERIZATION:2||CONTAIN:2||SALT:2||WAVEGUIDE:2||XRAY DIFFRACTION:2||WALLED CARBON NANOTUBES:2||SILICON NANOWIRES:2||IR:2||DIELECTRIC THINFILMS:2||Selfassembled monolayer:2||PARAMETERS:2||Temperature gradient interaction chromatography:2||SOLIDSURFACES:2||FLOW:2||RATES:2||PRECURSORS:2||FILM BALANCE:2||SIDECHAINS:2||SUPRAMOLECULAR MATERIALS:2||CHAINS:2||POLYSTYRENE:39||ANIONICPOLYMERIZATION:34||GRADIENT INTERACTION CHROMATOGRAPHY:31||SEPARATION:27||BEHAVIOR:24||LIQUIDCHROMATOGRAPHY:22||POLYMERS:22||SIZEEXCLUSION CHROMATOGRAPHY:19||BLOCKCOPOLYMERS:17||DIBLOCK COPOLYMERS:17||THINFILMS:16||POLYISOPRENE:14||HPLC:13||SYNTHETICPOLYMERS:12||PERFORMANCE LIQUIDCHROMATOGRAPHY:11||DIBLOCK COPOLYMER:11||MOLECULARWEIGHT DISTRIBUTION:10||MACROMOLECULES:10||BLOCKCOPOLYMER:10||REVERSEDPHASE:10||RETENTION BEHAVIOR:10||MORPHOLOGY:9||MOLECULARWEIGHT:9||MELTS:9||AROMATIC POLYIMIDES:8||XRAYSCATTERING:8||polystyrene:8||MIXTURES:7||block copolymer:7||SURFACES:7||DEPENDENCE:7||COPOLYMERS:7||POLYMERIZATION:7||AIR/WATER INTERFACE:7||DEFINED BRUSH POLYIMIDE:6||TEMPERATURE:6||FULLY RODLIKE BACKBONE:6||MONOLAYERS:6||POLYIMIDES:6||CHAIN:6||COMPLEX POLYMERS:6||MOLECULARREORIENTATION:6||temperature gradient interaction chromatography:6||POLYMERFILMS:6||GELPERMEATION CHROMATOGRAPHY:6||ELUTION:6||ORDERDISORDER TRANSITION:6||SURFACEMORPHOLOGY:6||ORIENTATION:6||SYSTEMS:6||CRITICAL ADSORPTION POINT:6||LIGHTSCATTERING:5||PROBE DIFFUSION:5||POLYDISPERSITY:5||AIRWATERINTERFACE:5||MICROPHASE SEPARATION:5||GLASSTRANSITION:5||BLENDS:5||FILMS:5||ADSORPTION CHROMATOGRAPHY:5||MECHANISM:5||CO2:5||ETHYLENEOXIDE:5||ALIGNMENT:5||COMPLEXES:5||FRACTIONATION:5||MISCIBILITY:5||POLYMER CHARACTERIZATION:5||HEXAGONALLY PERFORATED LAYER:5||TRANSITION:5||FLIGHT MASSSPECTROMETRY:5||ARCHITECTURE:5||POLY(METHYL METHACRYLATE):5||ALTERNATING COPOLYMERIZATION:4||THICKNESS:4||THERMODYNAMICS:4||CRITICAL RANGE:4||ULTRATHIN POLYMERFILMS:4||DYNAMICS:4||CLIMATECHANGE:4||PHASE:4||GLASSTRANSITION TEMPERATURE:4||EPOXIDE:4||selfassembly:4||SPECTROSCOPY:4||SELFDIFFUSION:4||SCATTERING:4||OPTICALPROPERTIES:4||CATALYSTS:4||CHEMISTRY:4||SOLARCELLS:4||polyimides:4||polypyromellitimides:4||SEGMENTAL REORIENTATIONS:4||ADSORPTION:4||INTERFACE:4||POLYMERSOLUTIONS:4||TRACER DIFFUSION:4||OXIDE) DIBLOCK COPOLYMER:4||POLYSTYRENEBPOLY(METHYL METHACRYLATE):4||POLYMER BLENDS:4||SIMULATION:4||CHAIN ORIENTATION:4||STYRENE:4||TOF MASSSPECTROMETRY:4||WATER:4||DISPLAYS:4||OLIGOMERS:4||PEPTIDES:4||CYCLIC POLYSTYRENE:4||LATTICE CLUSTER THEORY:4||2NDHARMONIC GENERATION:4||LIQUIDCRYSTAL ALIGNMENT:4||MONTECARLO:4||LangmuirBlodgett film:3||ASSEMBLIES:3||chromatography:3||HOLOGRAPHIC RELAXATION SPECTROSCOPY:3||MULTIPLE MORPHOLOGIES:3||INTERACTION CHROMATOGRAPHY:3||NORMALPHASE:3||DIFFUSION:3||BRANCHED POLYSTYRENE:3||NANOPARTICLES:3||LITHOGRAPHY:3||POLYMER:3||LASERLIGHTSCATTERING:3||HIGH MOLECULARWEIGHT:3||CUBIC PHASE:3||AMPHIPHILIC BLOCKCOPOLYMERS:3||AQUEOUSSOLUTION:3||MODEL:3||FORCED RAYLEIGHSCATTERING:3||HYDRODYNAMIC PROPERTIES:3||4MIKTOARM STAR COPOLYMER:3||SYSTEM:3||PHASEBEHAVIOR:3||AQUEOUSSOLUTIONS:3||RHEOLOGY:3||LB film:3||2DIMENSIONAL LIQUIDCHROMATOGRAPHY:3||VISCOSITY:3||DIBLOCK COPOLYMER MELTS:3||ORDERORDER TRANSITION:3||GYROID PHASE:3||BINDING:3||BLOCK POLYELECTROLYTES:3||DERIVATIVES:3||MELT:3||PHASE LIQUIDCHROMATOGRAPHY:3||high temperature:3||ELEVATEDTEMPERATURE:3||RETENTION:3||MICELLE FORMATION:3||ELECTRONMICROSCOPY:3||Electrospray ionization:2||FRACTIONS:2||nalkanes:2||ISOCRATIC SEPARATION:2||ASSOCIATION:2||POLY(METHYL METHACRYLATE)S:2||2D correlation spectroscopy:2||CARBONATION:2||GLASSTRANSITION BEHAVIORS:2||MECHANICAL PROPERTIES:2||DIMENSIONS:2||POLYMER MIXTURES:2||ALUMINUM PORPHYRIN:2||LEAD STEARATE:2||FERROCENE:2||POLY(EPSILONCAPROLACTONE):2||DIAGRAM:2||nucleosides:2||Selective recognition by preconcentration:2||Electrochemical impedance spectroscopy:2||DOPAMINE:2||Silica:2||Silyl Ester:2||DIETHYL ESTER) PRECURSORS:2||SURFACE CHARACTERIZATION:2||MICROSTRUCTURE:2||polystyreneblockpolyisoprene:2||MICROPHASESEPARATED STRUCTURES:2||IMPEDANCE MEASUREMENTS:2||HEMEPROTEINS:2||SOLID SUBSTRATE:2||MOISTURE ABSORPTION:2||aromatic polyimide:2||INDUCED MORPHOLOGICALCHANGES:2||STABILITY:2||LC alignment layers:2||POLYPYROMELLITIMIDES:2||Ion mobility:2||Chiral polymer:2||OLIGOSACCHARIDES:2||OXIDE:2||SIDECHAIN:2||RETARDATION:2||functionality:2||temperature effects:2||phase transition:2||glass transition temperature:2||spincoated film:2||ESTER) PRECURSORS:2||PRECURSOR BLEND:2||Xray reflectivity:2||SIGMABONDS:2||aluminum porphyrin catalysts:2||METALLOPORPHYRIN:2||SILICON:2||MASSSPECTROMETRY ANALYSIS:2||STAR POLYMERS:2||SIZE DISTRIBUTIONS:2||GIANT VESICLES:2||POLY(3ALKYLTHIOPHENES):2||ADHESION:2||LIGHT:2||POLYSTYRENEBPOLYISOPRENE:2||HPLC fractionation:2||SILVER ELECTRODES:2||ENHANCED RESONANCE RAMAN:2||SEQUENCE:2||POLYELECTROLYTE/NONELECTROLYTE SHELLS:2||polyimide:2||liquid crystal alignment layer:2||SOLUBLE POLYIMIDES:2||POLYBUTADIENECOATED ZIRCONIA:2||PRETILT ANGLES:2||CROSSSECTIONS:2||IMSMS:2||POLYISOPRENE COPOLYMERS:2||POLYIMIDE THINFILMS:2||POLYMER SURFACES:2||RAMAN:2||STEREOREGULAR PMMA:2||poly(tertbutyl methacrylate) (PtBMA):2||TIME:2||POLYIMIDE COMPOSITE:2||CARBOXYLATO COMPLEXES:2||AGOSTIC INTERACTIONS:2||MOLECULARSTRUCTURE:2||ALKENE:2||TRANSISTOR MEMORY:2||DEVICES:2||ORTHOGONALITY:2||molecular characterization:2||ORGANOSILICATE DIELECTRIC FILMS:2||AMPHIPHILES:2||Serotonin:2||Anodic stripping differential pulse voltammetry:2||transmission electron microtomography:2||LIQUIDCHROMATOGRAPHY ANALYSIS:2||PHASEDIAGRAM:2||CARBON NANOTUBES:2||TRANSFER MECHANISM:2||BINARY MIXTURES:2||REFLECTOMETRY:2||ROD:2||DROPS:2||CONSTANT:2||TRIBLOCK COPOLYMER:2||POLYMER VESICLES:2||CLICK CHEMISTRY:2||ARRAYS:2||COMPOSITES:2||MALDITOF MS:2||POLYMER THINFILMS:2||HYDROPHOBIC INTERACTION CHROMATOGRAPHY:2||retention mechanism:2||GRAZINGINCIDENCE:2||NANOPOROSITY:2||soluble poly(amic esteraltimide)s:2||DIFFERENTIAL SCANNING CALORIMETRY:2||RESIDUALSTRESS:2||CHEMICALCOMPOSITION:2||POLY(AMIC DIETHYL ESTER) PRECURSOR:2||POLY(DIMETHYL SILOXANES):2||MASS POLYSTYRENES:2||cyclic propylene carbonate:2||propylene oxide:2||ACETATE) TOLUENE SOLUTIONS:2||TRANSIENT GRATING METHOD:2||MASS DIFFUSION:2||MICROPHASE SEPARATION TRANSITION:2||POLYSTYRENES:2||POLYSILANE:2||CARBOHYDRATEBASED PHOSPHOLIPIDS:2||HELICAL STRANDS:2||FLUORESCENCE DETECTION:2||SENSITIVE DETERMINATION:2||COMPOSITE FILMS:2||microphase:2||3MERCAPTOPROPIONIC ACID:2||BUTADIENE BLOCK COPOLYMER:2||HYBRID POLYMERIC MICELLES:2||AQUEOUSMEDIA:2||CONTACTANGLE:2||TRANSISTORCIRCUITS:2||ABTYPE POLY(ETHERIMIDE)S:2||CORRELATION SPECTROSCOPY:2||GASPHASE CONFORMATIONS:2||DECANE:2||INFRAREDSPECTROSCOPY:2||MICELLIZATION:2||ENERGIES:2||ACID) PRECURSORS:2||PHOTOALIGNMENT:2||polymers:2||SUBSTRATE:2||carbon dioxide:2||oligomeric propylene carbonate:2||THERMALDIFFUSION:2||CRYSTAL:2||PHASETRANSITION:2||REFLECTIVITY:2||ANALOGS:2||supramolecular chemistry:2||LYSOPHOSPHATIDIC ACID:2||PHOSPHOCHOLINE:2||POLY(3HEXYLTHIOPHENE):2||Receptor:2||MODIFIED GOLD ELECTRODES:2||ASCORBICACID:2||HUMAN URINE:2||Hybrid Nanocomposite:2||Dielectric Constant:2||AU(111) ELECTRODES:2||NANOFILMS:2||HYDROPHOBIC CORES:2||DRIVEN:2||FLEXIBLE SIDECHAINS:2||MESOGEN:2||size exclusion chromatography:2||ORGANIZATION:2||POLY(LACTIC ACID):2||MOLECULAR ARCHITECTURE:2||COUPLER:2||POLYSTYRENE COPOLYMER:2||diffusion coefficient:2||XRAY REFLECTIVITY:2||temperature gradient interaction chromatography polystyryllithium:2||VISCOELASTIC PROPERTIES:2||polyisoprene:2||CRYSTALSTRUCTURES:2||POLYCARBONATE:2||MULTILAYERS:2||DEPOSITION:2||FULL ADSORPTION MECHANISMS:2||QUANTUM DOTS:2||CRITICAL ORDERING TRANSITION:2||CORE:2||PARACRYSTALLINE DISTORTION:2||PERFORATED LAYER PHASE:2||liposomes:2||phospholipids:2||UNILAMELLAR VESICLES:2||VOLTAMMETRIC DETERMINATION:2||Polyimide:2||FOURIERTRANSFORM:2||SURFACE:2||SIZE EXCLUSION CHROMATOGRAPHY:2||NEUTRON REFLECTIVITY:2||ORDERED STRUCTURE:2||RIGID ROD POLYMERS:2||DISPLACEMENT POLYMERIZATION:2||PHOTOSENSITIVE POLYIMIDE:2||EFFICIENCY:2||films:2||Polylactide:2||CHROMATOGRAPHIC CRITICAL CONDITION:2||RETENTION MECHANISM:2||COPPER PHTHALOCYANINE:2||C60:2||COPOLYMER:2||micelle:2||LINEAR POLYETHYLENE:2||LIQUIDS:2||ARMS:2||HIGHPERFORMANCE LIQUID:2||alternating copolyimides:2||PHASE SEPARATION:2||POLYMERCHAINS:2||STYRYLPYRIDINIUM:2||ANGLES:2||MOBILITY:2||PROBE:2||ACIDS:2||BLUE:2||POSITIONS:2||CYCLOPENTADIENYL:2||HIGHMOLECULARWEIGHT:2||FUELCELLS:2||TIN OXIDE:2||NANOCRYSTALS:2||SURFACE MICELLE FORMATION:2||DISORDER TRANSITION:2||BIREFRINGENCE:2||LIPIDCOMPOSITION:2||CONJUGATED POLYMERS:2||GLASSYCARBON ELECTRODE:2||ELECTROCHEMICAL DETECTION:2||MULTIPLE DETECTION:2||aromatic polyimides:2||MOLECULARWEIGHT HOMOPOLYMERS:2||BINARYMIXTURE:2||PATTERNS:2||photoluminescent polyimide:2||photosensitive polyimide:2||DEPENDENT MICELLIZATION:2||SPEED:2||synthesis:2||COIL BLOCKCOPOLYMERS:2||LIQUIDCRYSTALLINE ASSEMBLIES:2||OXIDE):2||molecular weight distribution:2||CONJUGATED POLYMER:2||polymer characterization:2||NONIONIC SURFACTANTS:2||STEREOREGULAR POLY(METHYL METHACRYLATE):2||structure:2||RODLIKE POLYIMIDE:2||FLEXIBLE POLYIMIDE:2||THERMAL IMIDIZATION:2||IN SITU RODCHAIN FORMATION:2||PHASESEPARATION:2||VINYL ETHER):2||EQUILIBRIUM:2||STRESS:2||STRUCTURAL RELAXATION:2||LIVING POLYMERIZATION:2||CONTAIN:2||SALT:2||WAVEGUIDE:2||XRAY DIFFRACTION:2||WALLED CARBON NANOTUBES:2||SILICON NANOWIRES:2||IR:2||DIELECTRIC THINFILMS:2||Selfassembled monolayer:2||PARAMETERS:2||Temperature gradient interaction chromatography:2||SOLIDSURFACES:2||FLOW:2||RATES:2||PRECURSORS:2||FILM BALANCE:2||SIDECHAINS:2||SUPRAMOLECULAR MATERIALS:2||CHAINS:2||POLYSTYRENE:39||ANIONICPOLYMERIZATION:34||GRADIENT INTERACTION CHROMATOGRAPHY:31||SEPARATION:27||BEHAVIOR:24||LIQUIDCHROMATOGRAPHY:22||POLYMERS:22||SIZEEXCLUSION CHROMATOGRAPHY:19||BLOCKCOPOLYMERS:17||DIBLOCK COPOLYMERS:17||THINFILMS:16||POLYISOPRENE:14||HPLC:13||SYNTHETICPOLYMERS:12||PERFORMANCE LIQUIDCHROMATOGRAPHY:11||DIBLOCK COPOLYMER:11||MOLECULARWEIGHT DISTRIBUTION:10||MACROMOLECULES:10||BLOCKCOPOLYMER:10||REVERSEDPHASE:10||RETENTION BEHAVIOR:10||MORPHOLOGY:9||MOLECULARWEIGHT:9||MELTS:9||AROMATIC POLYIMIDES:8||XRAYSCATTERING:8||polystyrene:8||MIXTURES:7||block copolymer:7||SURFACES:7||DEPENDENCE:7||COPOLYMERS:7||POLYMERIZATION:7||AIR/WATER INTERFACE:7||DEFINED BRUSH POLYIMIDE:6||TEMPERATURE:6||FULLY RODLIKE BACKBONE:6||MONOLAYERS:6||POLYIMIDES:6||CHAIN:6||COMPLEX POLYMERS:6||MOLECULARREORIENTATION:6||temperature gradient interaction chromatography:6||POLYMERFILMS:6||GELPERMEATION CHROMATOGRAPHY:6||ELUTION:6||ORDERDISORDER TRANSITION:6||SURFACEMORPHOLOGY:6||ORIENTATION:6||SYSTEMS:6||CRITICAL ADSORPTION POINT:6||LIGHTSCATTERING:5||PROBE DIFFUSION:5||POLYDISPERSITY:5||AIRWATERINTERFACE:5||MICROPHASE SEPARATION:5||GLASSTRANSITION:5||BLENDS:5||FILMS:5||ADSORPTION CHROMATOGRAPHY:5||MECHANISM:5||CO2:5||ETHYLENEOXIDE:5||ALIGNMENT:5||COMPLEXES:5||FRACTIONATION:5||MISCIBILITY:5||POLYMER CHARACTERIZATION:5||HEXAGONALLY PERFORATED LAYER:5||TRANSITION:5||FLIGHT MASSSPECTROMETRY:5||ARCHITECTURE:5||POLY(METHYL METHACRYLATE):5||ALTERNATING COPOLYMERIZATION:4||THICKNESS:4||THERMODYNAMICS:4||CRITICAL RANGE:4||ULTRATHIN POLYMERFILMS:4||DYNAMICS:4||CLIMATECHANGE:4||PHASE:4||GLASSTRANSITION TEMPERATURE:4||EPOXIDE:4||selfassembly:4||SPECTROSCOPY:4||SELFDIFFUSION:4||SCATTERING:4||OPTICALPROPERTIES:4||CATALYSTS:4||CHEMISTRY:4||SOLARCELLS:4||polyimides:4||polypyromellitimides:4||SEGMENTAL REORIENTATIONS:4||ADSORPTION:4||INTERFACE:4||POLYMERSOLUTIONS:4||TRACER DIFFUSION:4||OXIDE) DIBLOCK COPOLYMER:4||POLYSTYRENEBPOLY(METHYL METHACRYLATE):4||POLYMER BLENDS:4||SIMULATION:4||CHAIN ORIENTATION:4||STYRENE:4||TOF MASSSPECTROMETRY:4||WATER:4||DISPLAYS:4||OLIGOMERS:4||PEPTIDES:4||CYCLIC POLYSTYRENE:4||LATTICE CLUSTER THEORY:4||2NDHARMONIC GENERATION:4||LIQUIDCRYSTAL ALIGNMENT:4||MONTECARLO:4||LangmuirBlodgett film:3||ASSEMBLIES:3||chromatography:3||HOLOGRAPHIC RELAXATION SPECTROSCOPY:3||MULTIPLE MORPHOLOGIES:3||INTERACTION CHROMATOGRAPHY:3||NORMALPHASE:3||DIFFUSION:3||BRANCHED POLYSTYRENE:3||NANOPARTICLES:3||LITHOGRAPHY:3||POLYMER:3||LASERLIGHTSCATTERING:3||HIGH MOLECULARWEIGHT:3||CUBIC PHASE:3||AMPHIPHILIC BLOCKCOPOLYMERS:3||AQUEOUSSOLUTION:3||MODEL:3||FORCED RAYLEIGHSCATTERING:3||HYDRODYNAMIC PROPERTIES:3||4MIKTOARM STAR COPOLYMER:3||SYSTEM:3||PHASEBEHAVIOR:3||AQUEOUSSOLUTIONS:3||RHEOLOGY:3||LB film:3||2DIMENSIONAL LIQUIDCHROMATOGRAPHY:3||VISCOSITY:3||DIBLOCK COPOLYMER MELTS:3||ORDERORDER TRANSITION:3||GYROID PHASE:3||BINDING:3||BLOCK POLYELECTROLYTES:3||DERIVATIVES:3||MELT:3||PHASE LIQUIDCHROMATOGRAPHY:3||high temperature:3||ELEVATEDTEMPERATURE:3||RETENTION:3||MICELLE FORMATION:3||ELECTRONMICROSCOPY:3||Electrospray ionization:2||FRACTIONS:2||nalkanes:2||ISOCRATIC SEPARATION:2||ASSOCIATION:2||POLY(METHYL METHACRYLATE)S:2||2D correlation spectroscopy:2||CARBONATION:2||GLASSTRANSITION BEHAVIORS:2||MECHANICAL PROPERTIES:2||DIMENSIONS:2||POLYMER MIXTURES:2||ALUMINUM PORPHYRIN:2||LEAD STEARATE:2||FERROCENE:2||POLY(EPSILONCAPROLACTONE):2||DIAGRAM:2||nucleosides:2||Selective recognition by preconcentration:2||Electrochemical impedance spectroscopy:2||DOPAMINE:2||Silica:2||Silyl Ester:2||DIETHYL ESTER) PRECURSORS:2||SURFACE CHARACTERIZATION:2||MICROSTRUCTURE:2||polystyreneblockpolyisoprene:2||MICROPHASESEPARATED STRUCTURES:2||IMPEDANCE MEASUREMENTS:2||HEMEPROTEINS:2||SOLID SUBSTRATE:2||MOISTURE ABSORPTION:2||aromatic polyimide:2||INDUCED MORPHOLOGICALCHANGES:2||STABILITY:2||LC alignment layers:2||POLYPYROMELLITIMIDES:2||Ion mobility:2||Chiral polymer:2||OLIGOSACCHARIDES:2||OXIDE:2||SIDECHAIN:2||RETARDATION:2||functionality:2||temperature effects:2||phase transition:2||glass transition temperature:2||spincoated film:2||ESTER) PRECURSORS:2||PRECURSOR BLEND:2||Xray reflectivity:2||SIGMABONDS:2||aluminum porphyrin catalysts:2||METALLOPORPHYRIN:2||SILICON:2||MASSSPECTROMETRY ANALYSIS:2||STAR POLYMERS:2||SIZE DISTRIBUTIONS:2||GIANT VESICLES:2||POLY(3ALKYLTHIOPHENES):2||ADHESION:2||LIGHT:2||POLYSTYRENEBPOLYISOPRENE:2||HPLC fractionation:2||SILVER ELECTRODES:2||ENHANCED RESONANCE RAMAN:2||SEQUENCE:2||POLYELECTROLYTE/NONELECTROLYTE SHELLS:2||polyimide:2||liquid crystal alignment layer:2||SOLUBLE POLYIMIDES:2||POLYBUTADIENECOATED ZIRCONIA:2||PRETILT ANGLES:2||CROSSSECTIONS:2||IMSMS:2||POLYISOPRENE COPOLYMERS:2||POLYIMIDE THINFILMS:2||POLYMER SURFACES:2||RAMAN:2||STEREOREGULAR PMMA:2||poly(tertbutyl methacrylate) (PtBMA):2||TIME:2||POLYIMIDE COMPOSITE:2||CARBOXYLATO COMPLEXES:2||AGOSTIC INTERACTIONS:2||MOLECULARSTRUCTURE:2||ALKENE:2||TRANSISTOR MEMORY:2||DEVICES:2||ORTHOGONALITY:2||molecular characterization:2||ORGANOSILICATE DIELECTRIC FILMS:2||AMPHIPHILES:2||Serotonin:2||Anodic stripping differential pulse voltammetry:2||transmission electron microtomography:2||LIQUIDCHROMATOGRAPHY ANALYSIS:2||PHASEDIAGRAM:2||CARBON NANOTUBES:2||TRANSFER MECHANISM:2||BINARY MIXTURES:2||REFLECTOMETRY:2||ROD:2||DROPS:2||CONSTANT:2||TRIBLOCK COPOLYMER:2||POLYMER VESICLES:2||CLICK CHEMISTRY:2||ARRAYS:2||COMPOSITES:2||MALDITOF MS:2||POLYMER THINFILMS:2||HYDROPHOBIC INTERACTION CHROMATOGRAPHY:2||retention mechanism:2||GRAZINGINCIDENCE:2||NANOPOROSITY:2||soluble poly(amic esteraltimide)s:2||DIFFERENTIAL SCANNING CALORIMETRY:2||RESIDUALSTRESS:2||CHEMICALCOMPOSITION:2||POLY(AMIC DIETHYL ESTER) PRECURSOR:2||POLY(DIMETHYL SILOXANES):2||MASS POLYSTYRENES:2||cyclic propylene carbonate:2||propylene oxide:2||ACETATE) TOLUENE SOLUTIONS:2||TRANSIENT GRATING METHOD:2||MASS DIFFUSION:2||MICROPHASE SEPARATION TRANSITION:2||POLYSTYRENES:2||POLYSILANE:2||CARBOHYDRATEBASED PHOSPHOLIPIDS:2||HELICAL STRANDS:2||FLUORESCENCE DETECTION:2||SENSITIVE DETERMINATION:2||COMPOSITE FILMS:2||microphase:2||3MERCAPTOPROPIONIC ACID:2||BUTADIENE BLOCK COPOLYMER:2||HYBRID POLYMERIC MICELLES:2||AQUEOUSMEDIA:2||CONTACTANGLE:2||TRANSISTORCIRCUITS:2||ABTYPE POLY(ETHERIMIDE)S:2||CORRELATION SPECTROSCOPY:2||GASPHASE CONFORMATIONS:2||DECANE:2||INFRAREDSPECTROSCOPY:2||MICELLIZATION:2||ENERGIES:2||ACID) PRECURSORS:2||PHOTOALIGNMENT:2||polymers:2||SUBSTRATE:2||carbon dioxide:2||oligomeric propylene carbonate:2||THERMALDIFFUSION:2||CRYSTAL:2||PHASETRANSITION:2||REFLECTIVITY:2||ANALOGS:2||supramolecular chemistry:2||LYSOPHOSPHATIDIC ACID:2||PHOSPHOCHOLINE:2||POLY(3HEXYLTHIOPHENE):2||Receptor:2||MODIFIED GOLD ELECTRODES:2||ASCORBICACID:2||HUMAN URINE:2||Hybrid Nanocomposite:2||Dielectric Constant:2||AU(111) ELECTRODES:2||NANOFILMS:2||HYDROPHOBIC CORES:2||DRIVEN:2||FLEXIBLE SIDECHAINS:2||MESOGEN:2||size exclusion chromatography:2||ORGANIZATION:2||POLY(LACTIC ACID):2||MOLECULAR ARCHITECTURE:2||COUPLER:2||POLYSTYRENE COPOLYMER:2||diffusion coefficient:2||XRAY REFLECTIVITY:2||temperature gradient interaction chromatography polystyryllithium:2||VISCOELASTIC PROPERTIES:2||polyisoprene:2||CRYSTALSTRUCTURES:2||POLYCARBONATE:2||MULTILAYERS:2||DEPOSITION:2||FULL ADSORPTION MECHANISMS:2||QUANTUM DOTS:2||CRITICAL ORDERING TRANSITION:2||CORE:2||PARACRYSTALLINE DISTORTION:2||PERFORATED LAYER PHASE:2||liposomes:2||phospholipids:2||UNILAMELLAR VESICLES:2||VOLTAMMETRIC DETERMINATION:2||Polyimide:2||FOURIERTRANSFORM:2||SURFACE:2||SIZE EXCLUSION CHROMATOGRAPHY:2||NEUTRON REFLECTIVITY:2||ORDERED STRUCTURE:2||RIGID ROD POLYMERS:2||DISPLACEMENT POLYMERIZATION:2||PHOTOSENSITIVE POLYIMIDE:2||EFFICIENCY:2||films:2||Polylactide:2||CHROMATOGRAPHIC CRITICAL CONDITION:2||RETENTION MECHANISM:2||COPPER PHTHALOCYANINE:2||C60:2||COPOLYMER:2||micelle:2||LINEAR POLYETHYLENE:2||LIQUIDS:2||ARMS:2||HIGHPERFORMANCE LIQUID:2||alternating copolyimides:2||PHASE SEPARATION:2||POLYMERCHAINS:2||STYRYLPYRIDINIUM:2||ANGLES:2||MOBILITY:2||PROBE:2||ACIDS:2||BLUE:2||POSITIONS:2||CYCLOPENTADIENYL:2||HIGHMOLECULARWEIGHT:2||FUELCELLS:2||TIN OXIDE:2||NANOCRYSTALS:2||SURFACE MICELLE FORMATION:2||DISORDER TRANSITION:2||BIREFRINGENCE:2||LIPIDCOMPOSITION:2||CONJUGATED POLYMERS:2||GLASSYCARBON ELECTRODE:2||ELECTROCHEMICAL DETECTION:2||MULTIPLE DETECTION:2||aromatic polyimides:2||MOLECULARWEIGHT HOMOPOLYMERS:2||BINARYMIXTURE:2||PATTERNS:2||photoluminescent polyimide:2||photosensitive polyimide:2||DEPENDENT MICELLIZATION:2||SPEED:2||synthesis:2||COIL BLOCKCOPOLYMERS:2||LIQUIDCRYSTALLINE ASSEMBLIES:2||OXIDE):2||molecular weight distribution:2||CONJUGATED POLYMER:2||polymer characterization:2||NONIONIC SURFACTANTS:2||STEREOREGULAR POLY(METHYL METHACRYLATE):2||structure:2||RODLIKE POLYIMIDE:2||FLEXIBLE POLYIMIDE:2||THERMAL IMIDIZATION:2||IN SITU RODCHAIN FORMATION:2||PHASESEPARATION:2||VINYL ETHER):2||EQUILIBRIUM:2||STRESS:2||STRUCTURAL RELAXATION:2||LIVING POLYMERIZATION:2||CONTAIN:2||SALT:2||WAVEGUIDE:2||XRAY DIFFRACTION:2||WALLED CARBON NANOTUBES:2||SILICON NANOWIRES:2||IR:2||DIELECTRIC THINFILMS:2||Selfassembled monolayer:2||PARAMETERS:2||Temperature gradient interaction chromatography:2||SOLIDSURFACES:2||FLOW:2||RATES:2||PRECURSORS:2||FILM BALANCE:2||SIDECHAINS:2||SUPRAMOLECULAR MATERIALS:2||CHAINS:2||POLYSTYRENE:39||ANIONICPOLYMERIZATION:34||GRADIENT INTERACTION CHROMATOGRAPHY:31||SEPARATION:27||BEHAVIOR:24||LIQUIDCHROMATOGRAPHY:22||POLYMERS:22||SIZEEXCLUSION CHROMATOGRAPHY:19||BLOCKCOPOLYMERS:17||DIBLOCK COPOLYMERS:17||THINFILMS:16||POLYISOPRENE:14||HPLC:13||SYNTHETICPOLYMERS:12||PERFORMANCE LIQUIDCHROMATOGRAPHY:11||DIBLOCK COPOLYMER:11||MOLECULARWEIGHT DISTRIBUTION:10||MACROMOLECULES:10||BLOCKCOPOLYMER:10||REVERSEDPHASE:10||RETENTION BEHAVIOR:10||MORPHOLOGY:9||MOLECULARWEIGHT:9||MELTS:9||AROMATIC POLYIMIDES:8||XRAYSCATTERING:8||polystyrene:8||MIXTURES:7||block copolymer:7||SURFACES:7||DEPENDENCE:7||COPOLYMERS:7||POLYMERIZATION:7||AIR/WATER INTERFACE:7||DEFINED BRUSH POLYIMIDE:6||TEMPERATURE:6||FULLY RODLIKE BACKBONE:6||MONOLAYERS:6||POLYIMIDES:6||CHAIN:6||COMPLEX POLYMERS:6||MOLECULARREORIENTATION:6||temperature gradient interaction chromatography:6||POLYMERFILMS:6||GELPERMEATION CHROMATOGRAPHY:6||ELUTION:6||ORDERDISORDER TRANSITION:6||SURFACEMORPHOLOGY:6||ORIENTATION:6||SYSTEMS:6||CRITICAL ADSORPTION POINT:6||LIGHTSCATTERING:5||PROBE DIFFUSION:5||POLYDISPERSITY:5||AIRWATERINTERFACE:5||MICROPHASE SEPARATION:5||GLASSTRANSITION:5||BLENDS:5||FILMS:5||ADSORPTION CHROMATOGRAPHY:5||MECHANISM:5||CO2:5||ETHYLENEOXIDE:5||ALIGNMENT:5||COMPLEXES:5||FRACTIONATION:5||MISCIBILITY:5||POLYMER CHARACTERIZATION:5||HEXAGONALLY PERFORATED LAYER:5||TRANSITION:5||FLIGHT MASSSPECTROMETRY:5||ARCHITECTURE:5||POLY(METHYL METHACRYLATE):5||ALTERNATING COPOLYMERIZATION:4||THICKNESS:4||THERMODYNAMICS:4||CRITICAL RANGE:4||ULTRATHIN POLYMERFILMS:4||DYNAMICS:4||CLIMATECHANGE:4||PHASE:4||GLASSTRANSITION TEMPERATURE:4||EPOXIDE:4||selfassembly:4||SPECTROSCOPY:4||SELFDIFFUSION:4||SCATTERING:4||OPTICALPROPERTIES:4||CATALYSTS:4||CHEMISTRY:4||SOLARCELLS:4||polyimides:4||polypyromellitimides:4||SEGMENTAL REORIENTATIONS:4||ADSORPTION:4||INTERFACE:4||POLYMERSOLUTIONS:4||TRACER DIFFUSION:4||OXIDE) DIBLOCK COPOLYMER:4||POLYSTYRENEBPOLY(METHYL METHACRYLATE):4||POLYMER BLENDS:4||SIMULATION:4||CHAIN ORIENTATION:4||STYRENE:4||TOF MASSSPECTROMETRY:4||WATER:4||DISPLAYS:4||OLIGOMERS:4||PEPTIDES:4||CYCLIC POLYSTYRENE:4||LATTICE CLUSTER THEORY:4||2NDHARMONIC GENERATION:4||LIQUIDCRYSTAL ALIGNMENT:4||MONTECARLO:4||LangmuirBlodgett film:3||ASSEMBLIES:3||chromatography:3||HOLOGRAPHIC RELAXATION SPECTROSCOPY:3||MULTIPLE MORPHOLOGIES:3||INTERACTION CHROMATOGRAPHY:3||NORMALPHASE:3||DIFFUSION:3||BRANCHED POLYSTYRENE:3||NANOPARTICLES:3||LITHOGRAPHY:3||POLYMER:3||LASERLIGHTSCATTERING:3||HIGH MOLECULARWEIGHT:3||CUBIC PHASE:3||AMPHIPHILIC BLOCKCOPOLYMERS:3||AQUEOUSSOLUTION:3||MODEL:3||FORCED RAYLEIGHSCATTERING:3||HYDRODYNAMIC PROPERTIES:3||4MIKTOARM STAR COPOLYMER:3||SYSTEM:3||PHASEBEHAVIOR:3||AQUEOUSSOLUTIONS:3||RHEOLOGY:3||LB film:3||2DIMENSIONAL LIQUIDCHROMATOGRAPHY:3||VISCOSITY:3||DIBLOCK COPOLYMER MELTS:3||ORDERORDER TRANSITION:3||GYROID PHASE:3||BINDING:3||BLOCK POLYELECTROLYTES:3||DERIVATIVES:3||MELT:3||PHASE LIQUIDCHROMATOGRAPHY:3||high temperature:3||ELEVATEDTEMPERATURE:3||RETENTION:3||MICELLE FORMATION:3||ELECTRONMICROSCOPY:3||Electrospray ionization:2||FRACTIONS:2||nalkanes:2||ISOCRATIC SEPARATION:2||ASSOCIATION:2||POLY(METHYL METHACRYLATE)S:2||2D correlation spectroscopy:2||CARBONATION:2||GLASSTRANSITION BEHAVIORS:2||MECHANICAL PROPERTIES:2||DIMENSIONS:2||POLYMER MIXTURES:2||ALUMINUM PORPHYRIN:2||LEAD STEARATE:2||FERROCENE:2||POLY(EPSILONCAPROLACTONE):2||DIAGRAM:2||nucleosides:2||Selective recognition by preconcentration:2||Electrochemical impedance spectroscopy:2||DOPAMINE:2||Silica:2||Silyl Ester:2||DIETHYL ESTER) PRECURSORS:2||SURFACE CHARACTERIZATION:2||MICROSTRUCTURE:2||polystyreneblockpolyisoprene:2||MICROPHASESEPARATED STRUCTURES:2||IMPEDANCE MEASUREMENTS:2||HEMEPROTEINS:2||SOLID SUBSTRATE:2||MOISTURE ABSORPTION:2||aromatic polyimide:2||INDUCED MORPHOLOGICALCHANGES:2||STABILITY:2||LC alignment layers:2||POLYPYROMELLITIMIDES:2||Ion mobility:2||Chiral polymer:2||OLIGOSACCHARIDES:2||OXIDE:2||SIDECHAIN:2||RETARDATION:2||functionality:2||temperature effects:2||phase transition:2||glass transition temperature:2||spincoated film:2||ESTER) PRECURSORS:2||PRECURSOR BLEND:2||Xray reflectivity:2||SIGMABONDS:2||aluminum porphyrin catalysts:2||METALLOPORPHYRIN:2||SILICON:2||MASSSPECTROMETRY ANALYSIS:2||STAR POLYMERS:2||SIZE DISTRIBUTIONS:2||GIANT VESICLES:2||POLY(3ALKYLTHIOPHENES):2||ADHESION:2||LIGHT:2||POLYSTYRENEBPOLYISOPRENE:2||HPLC fractionation:2||SILVER ELECTRODES:2||ENHANCED RESONANCE RAMAN:2||SEQUENCE:2||POLYELECTROLYTE/NONELECTROLYTE SHELLS:2||polyimide:2||liquid crystal alignment layer:2||SOLUBLE POLYIMIDES:2||POLYBUTADIENECOATED ZIRCONIA:2||PRETILT ANGLES:2||CROSSSECTIONS:2||IMSMS:2||POLYISOPRENE COPOLYMERS:2||POLYIMIDE THINFILMS:2||POLYMER SURFACES:2||RAMAN:2||STEREOREGULAR PMMA:2||poly(tertbutyl methacrylate) (PtBMA):2||TIME:2||POLYIMIDE COMPOSITE:2||CARBOXYLATO COMPLEXES:2||AGOSTIC INTERACTIONS:2||MOLECULARSTRUCTURE:2||ALKENE:2||TRANSISTOR MEMORY:2||DEVICES:2||ORTHOGONALITY:2||molecular characterization:2||ORGANOSILICATE DIELECTRIC FILMS:2||AMPHIPHILES:2||Serotonin:2||Anodic stripping differential pulse voltammetry:2||transmission electron microtomography:2||LIQUIDCHROMATOGRAPHY ANALYSIS:2||PHASEDIAGRAM:2||CARBON NANOTUBES:2||TRANSFER MECHANISM:2||BINARY MIXTURES:2||REFLECTOMETRY:2||ROD:2||DROPS:2||CONSTANT:2||TRIBLOCK COPOLYMER:2||POLYMER VESICLES:2||CLICK CHEMISTRY:2||ARRAYS:2||COMPOSITES:2||MALDITOF MS:2||POLYMER THINFILMS:2||HYDROPHOBIC INTERACTION CHROMATOGRAPHY:2||retention mechanism:2||GRAZINGINCIDENCE:2||NANOPOROSITY:2||soluble poly(amic esteraltimide)s:2||DIFFERENTIAL SCANNING CALORIMETRY:2||RESIDUALSTRESS:2||CHEMICALCOMPOSITION:2||POLY(AMIC DIETHYL ESTER) PRECURSOR:2||POLY(DIMETHYL SILOXANES):2||MASS POLYSTYRENES:2||cyclic propylene carbonate:2||propylene oxide:2||ACETATE) TOLUENE SOLUTIONS:2||TRANSIENT GRATING METHOD:2||MASS DIFFUSION:2||MICROPHASE SEPARATION TRANSITION:2||POLYSTYRENES:2||POLYSILANE:2||CARBOHYDRATEBASED PHOSPHOLIPIDS:2||HELICAL STRANDS:2||FLUORESCENCE DETECTION:2||SENSITIVE DETERMINATION:2||COMPOSITE FILMS:2||microphase:2||3MERCAPTOPROPIONIC ACID:2||BUTADIENE BLOCK COPOLYMER:2||HYBRID POLYMERIC MICELLES:2||AQUEOUSMEDIA:2||CONTACTANGLE:2||TRANSISTORCIRCUITS:2||ABTYPE POLY(ETHERIMIDE)S:2||CORRELATION SPECTROSCOPY:2||GASPHASE CONFORMATIONS:2||DECANE:2||INFRAREDSPECTROSCOPY:2||MICELLIZATION:2||ENERGIES:2||ACID) PRECURSORS:2||PHOTOALIGNMENT:2||polymers:2||SUBSTRATE:2||carbon dioxide:2||oligomeric propylene carbonate:2||THERMALDIFFUSION:2||CRYSTAL:2||PHASETRANSITION:2||REFLECTIVITY:2||ANALOGS:2||supramolecular chemistry:2||LYSOPHOSPHATIDIC ACID:2||PHOSPHOCHOLINE:2||POLY(3HEXYLTHIOPHENE):2||Receptor:2||MODIFIED GOLD ELECTRODES:2||ASCORBICACID:2||HUMAN URINE:2||Hybrid Nanocomposite:2||Dielectric Constant:2||AU(111) ELECTRODES:2||NANOFILMS:2||HYDROPHOBIC CORES:2||DRIVEN:2||FLEXIBLE SIDECHAINS:2||MESOGEN:2||size exclusion chromatography:2||ORGANIZATION:2||POLY(LACTIC ACID):2||MOLECULAR ARCHITECTURE:2||COUPLER:2||POLYSTYRENE COPOLYMER:2||diffusion coefficient:2||XRAY REFLECTIVITY:2||temperature gradient interaction chromatography polystyryllithium:2||VISCOELASTIC PROPERTIES:2||polyisoprene:2||CRYSTALSTRUCTURES:2||POLYCARBONATE:2||MULTILAYERS:2||DEPOSITION:2||FULL ADSORPTION MECHANISMS:2||QUANTUM DOTS:2||CRITICAL ORDERING TRANSITION:2||CORE:2||PARACRYSTALLINE DISTORTION:2||PERFORATED LAYER PHASE:2||liposomes:2||phospholipids:2||UNILAMELLAR VESICLES:2||VOLTAMMETRIC DETERMINATION:2||Polyimide:2||FOURIERTRANSFORM:2||SURFACE:2||SIZE EXCLUSION CHROMATOGRAPHY:2||NEUTRON REFLECTIVITY:2||ORDERED STRUCTURE:2||RIGID ROD POLYMERS:2||DISPLACEMENT POLYMERIZATION:2||PHOTOSENSITIVE POLYIMIDE:2||EFFICIENCY:2||films:2||Polylactide:2||CHROMATOGRAPHIC CRITICAL CONDITION:2||RETENTION MECHANISM:2||COPPER PHTHALOCYANINE:2||C60:2||COPOLYMER:2||micelle:2||LINEAR POLYETHYLENE:2||LIQUIDS:2||ARMS:2||HIGHPERFORMANCE LIQUID:2||alternating copolyimides:2||PHASE SEPARATION:2||POLYMERCHAINS:2||STYRYLPYRIDINIUM:2||ANGLES:2||MOBILITY:2||PROBE:2||ACIDS:2||BLUE:2||POSITIONS:2||CYCLOPENTADIENYL:2||HIGHMOLECULARWEIGHT:2||FUELCELLS:2||TIN OXIDE:2||NANOCRYSTALS:2||SURFACE MICELLE FORMATION:2||DISORDER TRANSITION:2||BIREFRINGENCE:2||LIPIDCOMPOSITION:2||CONJUGATED POLYMERS:2||GLASSYCARBON ELECTRODE:2||ELECTROCHEMICAL DETECTION:2||MULTIPLE DETECTION:2||aromatic polyimides:2||MOLECULARWEIGHT HOMOPOLYMERS:2||BINARYMIXTURE:2||PATTERNS:2||photoluminescent polyimide:2||photosensitive polyimide:2||DEPENDENT MICELLIZATION:2||SPEED:2||synthesis:2||COIL BLOCKCOPOLYMERS:2||LIQUIDCRYSTALLINE ASSEMBLIES:2||OXIDE):2||molecular weight distribution:2||CONJUGATED POLYMER:2||polymer characterization:2||NONIONIC SURFACTANTS:2||STEREOREGULAR POLY(METHYL METHACRYLATE):2||structure:2||RODLIKE POLYIMIDE:2||FLEXIBLE POLYIMIDE:2||THERMAL IMIDIZATION:2||IN SITU RODCHAIN FORMATION:2||PHASESEPARATION:2||VINYL ETHER):2||EQUILIBRIUM:2||STRESS:2||STRUCTURAL RELAXATION:2||LIVING POLYMERIZATION:2||CONTAIN:2||SALT:2||WAVEGUIDE:2||XRAY DIFFRACTION:2||WALLED CARBON NANOTUBES:2||SILICON NANOWIRES:2||IR:2||DIELECTRIC THINFILMS:2||Selfassembled monolayer:2||PARAMETERS:2||Temperature gradient interaction chromatography:2||SOLIDSURFACES:2||FLOW:2||RATES:2||PRECURSORS:2||FILM BALANCE:2||SIDECHAINS:2||SUPRAMOLECULAR MATERIALS:2||CHAINS:2||POLYSTYRENE:39||ANIONICPOLYMERIZATION:34||GRADIENT INTERACTION CHROMATOGRAPHY:31||SEPARATION:27||BEHAVIOR:24||LIQUIDCHROMATOGRAPHY:22||POLYMERS:22||SIZEEXCLUSION CHROMATOGRAPHY:19||BLOCKCOPOLYMERS:17||DIBLOCK COPOLYMERS:17||THINFILMS:16||POLYISOPRENE:14||HPLC:13||SYNTHETICPOLYMERS:12||PERFORMANCE LIQUIDCHROMATOGRAPHY:11||DIBLOCK COPOLYMER:11||MOLECULARWEIGHT DISTRIBUTION:10||MACROMOLECULES:10||BLOCKCOPOLYMER:10||REVERSEDPHASE:10||RETENTION BEHAVIOR:10||MORPHOLOGY:9||MOLECULARWEIGHT:9||MELTS:9||AROMATIC POLYIMIDES:8||XRAYSCATTERING:8||polystyrene:8||MIXTURES:7||block copolymer:7||SURFACES:7||DEPENDENCE:7||COPOLYMERS:7||POLYMERIZATION:7||AIR/WATER INTERFACE:7||DEFINED BRUSH POLYIMIDE:6||TEMPERATURE:6||FULLY RODLIKE BACKBONE:6||MONOLAYERS:6||POLYIMIDES:6||CHAIN:6||COMPLEX POLYMERS:6||MOLECULARREORIENTATION:6||temperature gradient interaction chromatography:6||POLYMERFILMS:6||GELPERMEATION CHROMATOGRAPHY:6||ELUTION:6||ORDERDISORDER TRANSITION:6||SURFACEMORPHOLOGY:6||ORIENTATION:6||SYSTEMS:6||CRITICAL ADSORPTION POINT:6||LIGHTSCATTERING:5||PROBE DIFFUSION:5||POLYDISPERSITY:5||AIRWATERINTERFACE:5||MICROPHASE SEPARATION:5||GLASSTRANSITION:5||BLENDS:5||FILMS:5||ADSORPTION CHROMATOGRAPHY:5||MECHANISM:5||CO2:5||ETHYLENEOXIDE:5||ALIGNMENT:5||COMPLEXES:5||FRACTIONATION:5||MISCIBILITY:5||POLYMER CHARACTERIZATION:5||HEXAGONALLY PERFORATED LAYER:5||TRANSITION:5||FLIGHT MASSSPECTROMETRY:5||ARCHITECTURE:5||POLY(METHYL METHACRYLATE):5||ALTERNATING COPOLYMERIZATION:4||THICKNESS:4||THERMODYNAMICS:4||CRITICAL RANGE:4||ULTRATHIN POLYMERFILMS:4||DYNAMICS:4||CLIMATECHANGE:4||PHASE:4||GLASSTRANSITION TEMPERATURE:4||EPOXIDE:4||selfassembly:4||SPECTROSCOPY:4||SELFDIFFUSION:4||SCATTERING:4||OPTICALPROPERTIES:4||CATALYSTS:4||CHEMISTRY:4||SOLARCELLS:4||polyimides:4||polypyromellitimides:4||SEGMENTAL REORIENTATIONS:4||ADSORPTION:4||INTERFACE:4||POLYMERSOLUTIONS:4||TRACER DIFFUSION:4||OXIDE) DIBLOCK COPOLYMER:4||POLYSTYRENEBPOLY(METHYL METHACRYLATE):4||POLYMER BLENDS:4||SIMULATION:4||CHAIN ORIENTATION:4||STYRENE:4||TOF MASSSPECTROMETRY:4||WATER:4||DISPLAYS:4||OLIGOMERS:4||PEPTIDES:4||CYCLIC POLYSTYRENE:4||LATTICE CLUSTER THEORY:4||2NDHARMONIC GENERATION:4||LIQUIDCRYSTAL ALIGNMENT:4||MONTECARLO:4||LangmuirBlodgett film:3||ASSEMBLIES:3||chromatography:3||HOLOGRAPHIC RELAXATION SPECTROSCOPY:3||MULTIPLE MORPHOLOGIES:3||INTERACTION CHROMATOGRAPHY:3||NORMALPHASE:3||DIFFUSION:3||BRANCHED POLYSTYRENE:3||NANOPARTICLES:3||LITHOGRAPHY:3||POLYMER:3||LASERLIGHTSCATTERING:3||HIGH MOLECULARWEIGHT:3||CUBIC PHASE:3||AMPHIPHILIC BLOCKCOPOLYMERS:3||AQUEOUSSOLUTION:3||MODEL:3||FORCED RAYLEIGHSCATTERING:3||HYDRODYNAMIC PROPERTIES:3||4MIKTOARM STAR COPOLYMER:3||SYSTEM:3||PHASEBEHAVIOR:3||AQUEOUSSOLUTIONS:3||RHEOLOGY:3||LB film:3||2DIMENSIONAL LIQUIDCHROMATOGRAPHY:3||VISCOSITY:3||DIBLOCK COPOLYMER MELTS:3||ORDERORDER TRANSITION:3||GYROID PHASE:3||BINDING:3||BLOCK POLYELECTROLYTES:3||DERIVATIVES:3||MELT:3||PHASE LIQUIDCHROMATOGRAPHY:3||high temperature:3||ELEVATEDTEMPERATURE:3||RETENTION:3||MICELLE FORMATION:3||ELECTRONMICROSCOPY:3||Electrospray ionization:2||FRACTIONS:2||nalkanes:2||ISOCRATIC SEPARATION:2||ASSOCIATION:2||POLY(METHYL METHACRYLATE)S:2||2D correlation spectroscopy:2||CARBONATION:2||GLASSTRANSITION BEHAVIORS:2||MECHANICAL PROPERTIES:2||DIMENSIONS:2||POLYMER MIXTURES:2||ALUMINUM PORPHYRIN:2||LEAD STEARATE:2||FERROCENE:2||POLY(EPSILONCAPROLACTONE):2||DIAGRAM:2||nucleosides:2||Selective recognition by preconcentration:2||Electrochemical impedance spectroscopy:2||DOPAMINE:2||Silica:2||Silyl Ester:2||DIETHYL ESTER) PRECURSORS:2||SURFACE CHARACTERIZATION:2||MICROSTRUCTURE:2||polystyreneblockpolyisoprene:2||MICROPHASESEPARATED STRUCTURES:2||IMPEDANCE MEASUREMENTS:2||HEMEPROTEINS:2||SOLID SUBSTRATE:2||MOISTURE ABSORPTION:2||aromatic polyimide:2||INDUCED MORPHOLOGICALCHANGES:2||STABILITY:2||LC alignment layers:2||POLYPYROMELLITIMIDES:2||Ion mobility:2||Chiral polymer:2||OLIGOSACCHARIDES:2||OXIDE:2||SIDECHAIN:2||RETARDATION:2||functionality:2||temperature effects:2||phase transition:2||glass transition temperature:2||spincoated film:2||ESTER) PRECURSORS:2||PRECURSOR BLEND:2||Xray reflectivity:2||SIGMABONDS:2||aluminum porphyrin catalysts:2||METALLOPORPHYRIN:2||SILICON:2||MASSSPECTROMETRY ANALYSIS:2||STAR POLYMERS:2||SIZE DISTRIBUTIONS:2||GIANT VESICLES:2||POLY(3ALKYLTHIOPHENES):2||ADHESION:2||LIGHT:2||POLYSTYRENEBPOLYISOPRENE:2||HPLC fractionation:2||SILVER ELECTRODES:2||ENHANCED RESONANCE RAMAN:2||SEQUENCE:2||POLYELECTROLYTE/NONELECTROLYTE SHELLS:2||polyimide:2||liquid crystal alignment layer:2||SOLUBLE POLYIMIDES:2||POLYBUTADIENECOATED ZIRCONIA:2||PRETILT ANGLES:2||CROSSSECTIONS:2||IMSMS:2||POLYISOPRENE COPOLYMERS:2||POLYIMIDE THINFILMS:2||POLYMER SURFACES:2||RAMAN:2||STEREOREGULAR PMMA:2||poly(tertbutyl methacrylate) (PtBMA):2||TIME:2||POLYIMIDE COMPOSITE:2||CARBOXYLATO COMPLEXES:2||AGOSTIC INTERACTIONS:2||MOLECULARSTRUCTURE:2||ALKENE:2||TRANSISTOR MEMORY:2||DEVICES:2||ORTHOGONALITY:2||molecular characterization:2||ORGANOSILICATE DIELECTRIC FILMS:2||AMPHIPHILES:2||Serotonin:2||Anodic stripping differential pulse voltammetry:2||transmission electron microtomography:2||LIQUIDCHROMATOGRAPHY ANALYSIS:2||PHASEDIAGRAM:2||CARBON NANOTUBES:2||TRANSFER MECHANISM:2||BINARY MIXTURES:2||REFLECTOMETRY:2||ROD:2||DROPS:2||CONSTANT:2||TRIBLOCK COPOLYMER:2||POLYMER VESICLES:2||CLICK CHEMISTRY:2||ARRAYS:2||COMPOSITES:2||MALDITOF MS:2||POLYMER THINFILMS:2||HYDROPHOBIC INTERACTION CHROMATOGRAPHY:2||retention mechanism:2||GRAZINGINCIDENCE:2||NANOPOROSITY:2||soluble poly(amic esteraltimide)s:2||DIFFERENTIAL SCANNING CALORIMETRY:2||RESIDUALSTRESS:2||CHEMICALCOMPOSITION:2||POLY(AMIC DIETHYL ESTER) PRECURSOR:2||POLY(DIMETHYL SILOXANES):2||MASS POLYSTYRENES:2||cyclic propylene carbonate:2||propylene oxide:2||ACETATE) TOLUENE SOLUTIONS:2||TRANSIENT GRATING METHOD:2||MASS DIFFUSION:2||MICROPHASE SEPARATION TRANSITION:2||POLYSTYRENES:2||POLYSILANE:2||CARBOHYDRATEBASED PHOSPHOLIPIDS:2||HELICAL STRANDS:2||FLUORESCENCE DETECTION:2||SENSITIVE DETERMINATION:2||COMPOSITE FILMS:2||microphase:2||3MERCAPTOPROPIONIC ACID:2||BUTADIENE BLOCK COPOLYMER:2||HYBRID POLYMERIC MICELLES:2||AQUEOUSMEDIA:2||CONTACTANGLE:2||TRANSISTORCIRCUITS:2||ABTYPE POLY(ETHERIMIDE)S:2||CORRELATION SPECTROSCOPY:2||GASPHASE CONFORMATIONS:2||DECANE:2||INFRAREDSPECTROSCOPY:2||MICELLIZATION:2||ENERGIES:2||ACID) PRECURSORS:2||PHOTOALIGNMENT:2||polymers:2||SUBSTRATE:2||carbon dioxide:2||oligomeric propylene carbonate:2||THERMALDIFFUSION:2||CRYSTAL:2||PHASETRANSITION:2||REFLECTIVITY:2||ANALOGS:2||supramolecular chemistry:2||LYSOPHOSPHATIDIC ACID:2||PHOSPHOCHOLINE:2||POLY(3HEXYLTHIOPHENE):2||Receptor:2||MODIFIED GOLD ELECTRODES:2||ASCORBICACID:2||HUMAN URINE:2||Hybrid Nanocomposite:2||Dielectric Constant:2||AU(111) ELECTRODES:2||NANOFILMS:2||HYDROPHOBIC CORES:2||DRIVEN:2||FLEXIBLE SIDECHAINS:2||MESOGEN:2||size exclusion chromatography:2||ORGANIZATION:2||POLY(LACTIC ACID):2||MOLECULAR ARCHITECTURE:2||COUPLER:2||POLYSTYRENE COPOLYMER:2||diffusion coefficient:2||XRAY REFLECTIVITY:2||temperature gradient interaction chromatography polystyryllithium:2||VISCOELASTIC PROPERTIES:2||polyisoprene:2||CRYSTALSTRUCTURES:2||POLYCARBONATE:2||MULTILAYERS:2||DEPOSITION:2||FULL ADSORPTION MECHANISMS:2||QUANTUM DOTS:2||CRITICAL ORDERING TRANSITION:2||CORE:2||PARACRYSTALLINE DISTORTION:2||PERFORATED LAYER PHASE:2||liposomes:2||phospholipids:2||UNILAMELLAR VESICLES:2||VOLTAMMETRIC DETERMINATION:2||Polyimide:2||FOURIERTRANSFORM:2||SURFACE:2||SIZE EXCLUSION CHROMATOGRAPHY:2||NEUTRON REFLECTIVITY:2||ORDERED STRUCTURE:2||RIGID ROD POLYMERS:2||DISPLACEMENT POLYMERIZATION:2||PHOTOSENSITIVE POLYIMIDE:2||EFFICIENCY:2||films:2||Polylactide:2||CHROMATOGRAPHIC CRITICAL CONDITION:2||RETENTION MECHANISM:2||COPPER PHTHALOCYANINE:2||C60:2||COPOLYMER:2||micelle:2||LINEAR POLYETHYLENE:2||LIQUIDS:2||ARMS:2||HIGHPERFORMANCE LIQUID:2||alternating copolyimides:2||PHASE SEPARATION:2||POLYMERCHAINS:2||STYRYLPYRIDINIUM:2||ANGLES:2||MOBILITY:2||PROBE:2||ACIDS:2||BLUE:2||POSITIONS:2||CYCLOPENTADIENYL:2||HIGHMOLECULARWEIGHT:2||FUELCELLS:2||TIN OXIDE:2||NANOCRYSTALS:2||SURFACE MICELLE FORMATION:2||DISORDER TRANSITION:2||BIREFRINGENCE:2||LIPIDCOMPOSITION:2||CONJUGATED POLYMERS:2||GLASSYCARBON ELECTRODE:2||ELECTROCHEMICAL DETECTION:2||MULTIPLE DETECTION:2||aromatic polyimides:2||MOLECULARWEIGHT HOMOPOLYMERS:2||BINARYMIXTURE:2||PATTERNS:2||photoluminescent polyimide:2||photosensitive polyimide:2||DEPENDENT MICELLIZATION:2||SPEED:2||synthesis:2||COIL BLOCKCOPOLYMERS:2||LIQUIDCRYSTALLINE ASSEMBLIES:2||OXIDE):2||molecular weight distribution:2||CONJUGATED POLYMER:2||polymer characterization:2||NONIONIC SURFACTANTS:2||STEREOREGULAR POLY(METHYL METHACRYLATE):2||structure:2||RODLIKE POLYIMIDE:2||FLEXIBLE POLYIMIDE:2||THERMAL IMIDIZATION:2||IN SITU RODCHAIN FORMATION:2||PHASESEPARATION:2||VINYL ETHER):2||EQUILIBRIUM:2||STRESS:2||STRUCTURAL RELAXATION:2||LIVING POLYMERIZATION:2||CONTAIN:2||SALT:2||WAVEGUIDE:2||XRAY DIFFRACTION:2||WALLED CARBON NANOTUBES:2||SILICON NANOWIRES:2||IR:2||DIELECTRIC THINFILMS:2||Selfassembled monolayer:2||PARAMETERS:2||Temperature gradient interaction chromatography:2||SOLIDSURFACES:2||FLOW:2||RATES:2||PRECURSORS:2||FILM BALANCE:2||SIDECHAINS:2||SUPRAMOLECULAR MATERIALS:2||CHAINS:2||POLYSTYRENE:39||ANIONICPOLYMERIZATION:34||GRADIENT INTERACTION CHROMATOGRAPHY:31||SEPARATION:27||BEHAVIOR:24||LIQUIDCHROMATOGRAPHY:22||POLYMERS:22||SIZEEXCLUSION CHROMATOGRAPHY:19||BLOCKCOPOLYMERS:17||DIBLOCK COPOLYMERS:17||THINFILMS:16||POLYISOPRENE:14||HPLC:13||SYNTHETICPOLYMERS:12||PERFORMANCE LIQUIDCHROMATOGRAPHY:11||DIBLOCK COPOLYMER:11||MOLECULARWEIGHT DISTRIBUTION:10||MACROMOLECULES:10||BLOCKCOPOLYMER:10||REVERSEDPHASE:10||RETENTION BEHAVIOR:10||MORPHOLOGY:9||MOLECULARWEIGHT:9||MELTS:9||AROMATIC POLYIMIDES:8||XRAYSCATTERING:8||polystyrene:8||MIXTURES:7||block copolymer:7||SURFACES:7||DEPENDENCE:7||COPOLYMERS:7||POLYMERIZATION:7||AIR/WATER INTERFACE:7||DEFINED BRUSH POLYIMIDE:6||TEMPERATURE:6||FULLY RODLIKE BACKBONE:6||MONOLAYERS:6||POLYIMIDES:6||CHAIN:6||COMPLEX POLYMERS:6||MOLECULARREORIENTATION:6||temperature gradient interaction chromatography:6||POLYMERFILMS:6||GELPERMEATION CHROMATOGRAPHY:6||ELUTION:6||ORDERDISORDER TRANSITION:6||SURFACEMORPHOLOGY:6||ORIENTATION:6||SYSTEMS:6||CRITICAL ADSORPTION POINT:6||LIGHTSCATTERING:5||PROBE DIFFUSION:5||POLYDISPERSITY:5||AIRWATERINTERFACE:5||MICROPHASE SEPARATION:5||GLASSTRANSITION:5||BLENDS:5||FILMS:5||ADSORPTION CHROMATOGRAPHY:5||MECHANISM:5||CO2:5||ETHYLENEOXIDE:5||ALIGNMENT:5||COMPLEXES:5||FRACTIONATION:5||MISCIBILITY:5||POLYMER CHARACTERIZATION:5||HEXAGONALLY PERFORATED LAYER:5||TRANSITION:5||FLIGHT MASSSPECTROMETRY:5||ARCHITECTURE:5||POLY(METHYL METHACRYLATE):5||ALTERNATING COPOLYMERIZATION:4||THICKNESS:4||THERMODYNAMICS:4||CRITICAL RANGE:4||ULTRATHIN POLYMERFILMS:4||DYNAMICS:4||CLIMATECHANGE:4||PHASE:4||GLASSTRANSITION TEMPERATURE:4||EPOXIDE:4||selfassembly:4||SPECTROSCOPY:4||SELFDIFFUSION:4||SCATTERING:4||OPTICALPROPERTIES:4||CATALYSTS:4||CHEMISTRY:4||SOLARCELLS:4||polyimides:4||polypyromellitimides:4||SEGMENTAL REORIENTATIONS:4||ADSORPTION:4||INTERFACE:4||POLYMERSOLUTIONS:4||TRACER DIFFUSION:4||OXIDE) DIBLOCK COPOLYMER:4||POLYSTYRENEBPOLY(METHYL METHACRYLATE):4||POLYMER BLENDS:4||SIMULATION:4||CHAIN ORIENTATION:4||STYRENE:4||TOF MASSSPECTROMETRY:4||WATER:4||DISPLAYS:4||OLIGOMERS:4||PEPTIDES:4||CYCLIC POLYSTYRENE:4||LATTICE CLUSTER THEORY:4||2NDHARMONIC GENERATION:4||LIQUIDCRYSTAL ALIGNMENT:4||MONTECARLO:4||LangmuirBlodgett film:3||ASSEMBLIES:3||chromatography:3||HOLOGRAPHIC RELAXATION SPECTROSCOPY:3||MULTIPLE MORPHOLOGIES:3||INTERACTION CHROMATOGRAPHY:3||NORMALPHASE:3||DIFFUSION:3||BRANCHED POLYSTYRENE:3||NANOPARTICLES:3||LITHOGRAPHY:3||POLYMER:3||LASERLIGHTSCATTERING:3||HIGH MOLECULARWEIGHT:3||CUBIC PHASE:3||AMPHIPHILIC BLOCKCOPOLYMERS:3||AQUEOUSSOLUTION:3||MODEL:3||FORCED RAYLEIGHSCATTERING:3||HYDRODYNAMIC PROPERTIES:3||4MIKTOARM STAR COPOLYMER:3||SYSTEM:3||PHASEBEHAVIOR:3||AQUEOUSSOLUTIONS:3||RHEOLOGY:3||LB film:3||2DIMENSIONAL LIQUIDCHROMATOGRAPHY:3||VISCOSITY:3||DIBLOCK COPOLYMER MELTS:3||ORDERORDER TRANSITION:3||GYROID PHASE:3||BINDING:3||BLOCK POLYELECTROLYTES:3||DERIVATIVES:3||MELT:3||PHASE LIQUIDCHROMATOGRAPHY:3||high temperature:3||ELEVATEDTEMPERATURE:3||RETENTION:3||MICELLE FORMATION:3||ELECTRONMICROSCOPY:3||Electrospray ionization:2||FRACTIONS:2||nalkanes:2||ISOCRATIC SEPARATION:2||ASSOCIATION:2||POLY(METHYL METHACRYLATE)S:2||2D correlation spectroscopy:2||CARBONATION:2||GLASSTRANSITION BEHAVIORS:2||MECHANICAL PROPERTIES:2||DIMENSIONS:2||POLYMER MIXTURES:2||ALUMINUM PORPHYRIN:2||LEAD STEARATE:2||FERROCENE:2||POLY(EPSILONCAPROLACTONE):2||DIAGRAM:2||nucleosides:2||Selective recognition by preconcentration:2||Electrochemical impedance spectroscopy:2||DOPAMINE:2||Silica:2||Silyl Ester:2||DIETHYL ESTER) PRECURSORS:2||SURFACE CHARACTERIZATION:2||MICROSTRUCTURE:2||polystyreneblockpolyisoprene:2||MICROPHASESEPARATED STRUCTURES:2||IMPEDANCE MEASUREMENTS:2||HEMEPROTEINS:2||SOLID SUBSTRATE:2||MOISTURE ABSORPTION:2||aromatic polyimide:2||INDUCED MORPHOLOGICALCHANGES:2||STABILITY:2||LC alignment layers:2||POLYPYROMELLITIMIDES:2||Ion mobility:2||Chiral polymer:2||OLIGOSACCHARIDES:2||OXIDE:2||SIDECHAIN:2||RETARDATION:2||functionality:2||temperature effects:2||phase transition:2||glass transition temperature:2||spincoated film:2||ESTER) PRECURSORS:2||PRECURSOR BLEND:2||Xray reflectivity:2||SIGMABONDS:2||aluminum porphyrin catalysts:2||METALLOPORPHYRIN:2||SILICON:2||MASSSPECTROMETRY ANALYSIS:2||STAR POLYMERS:2||SIZE DISTRIBUTIONS:2||GIANT VESICLES:2||POLY(3ALKYLTHIOPHENES):2||ADHESION:2||LIGHT:2||POLYSTYRENEBPOLYISOPRENE:2||HPLC fractionation:2||SILVER ELECTRODES:2||ENHANCED RESONANCE RAMAN:2||SEQUENCE:2||POLYELECTROLYTE/NONELECTROLYTE SHELLS:2||polyimide:2||liquid crystal alignment layer:2||SOLUBLE POLYIMIDES:2||POLYBUTADIENECOATED ZIRCONIA:2||PRETILT ANGLES:2||CROSSSECTIONS:2||IMSMS:2||POLYISOPRENE COPOLYMERS:2||POLYIMIDE THINFILMS:2||POLYMER SURFACES:2||RAMAN:2||STEREOREGULAR PMMA:2||poly(tertbutyl methacrylate) (PtBMA):2||TIME:2||POLYIMIDE COMPOSITE:2||CARBOXYLATO COMPLEXES:2||AGOSTIC INTERACTIONS:2||MOLECULARSTRUCTURE:2||ALKENE:2||TRANSISTOR MEMORY:2||DEVICES:2||ORTHOGONALITY:2||molecular characterization:2||ORGANOSILICATE DIELECTRIC FILMS:2||AMPHIPHILES:2||Serotonin:2||Anodic stripping differential pulse voltammetry:2||transmission electron microtomography:2||LIQUIDCHROMATOGRAPHY ANALYSIS:2||PHASEDIAGRAM:2||CARBON NANOTUBES:2||TRANSFER MECHANISM:2||BINARY MIXTURES:2||REFLECTOMETRY:2||ROD:2||DROPS:2||CONSTANT:2||TRIBLOCK COPOLYMER:2||POLYMER VESICLES:2||CLICK CHEMISTRY:2||ARRAYS:2||COMPOSITES:2||MALDITOF MS:2||POLYMER THINFILMS:2||HYDROPHOBIC INTERACTION CHROMATOGRAPHY:2||retention mechanism:2||GRAZINGINCIDENCE:2||NANOPOROSITY:2||soluble poly(amic esteraltimide)s:2||DIFFERENTIAL SCANNING CALORIMETRY:2||RESIDUALSTRESS:2||CHEMICALCOMPOSITION:2||POLY(AMIC DIETHYL ESTER) PRECURSOR:2||POLY(DIMETHYL SILOXANES):2||MASS POLYSTYRENES:2||cyclic propylene carbonate:2||propylene oxide:2||ACETATE) TOLUENE SOLUTIONS:2||TRANSIENT GRATING METHOD:2||MASS DIFFUSION:2||MICROPHASE SEPARATION TRANSITION:2||POLYSTYRENES:2||POLYSILANE:2||CARBOHYDRATEBASED PHOSPHOLIPIDS:2||HELICAL STRANDS:2||FLUORESCENCE DETECTION:2||SENSITIVE DETERMINATION:2||COMPOSITE FILMS:2||microphase:2||3MERCAPTOPROPIONIC ACID:2||BUTADIENE BLOCK COPOLYMER:2||HYBRID POLYMERIC MICELLES:2||AQUEOUSMEDIA:2||CONTACTANGLE:2||TRANSISTORCIRCUITS:2||ABTYPE POLY(ETHERIMIDE)S:2||CORRELATION SPECTROSCOPY:2||GASPHASE CONFORMATIONS:2||DECANE:2||INFRAREDSPECTROSCOPY:2||MICELLIZATION:2||ENERGIES:2||ACID) PRECURSORS:2||PHOTOALIGNMENT:2||polymers:2||SUBSTRATE:2||carbon dioxide:2||oligomeric propylene carbonate:2||THERMALDIFFUSION:2||CRYSTAL:2||PHASETRANSITION:2||REFLECTIVITY:2||ANALOGS:2||supramolecular chemistry:2||LYSOPHOSPHATIDIC ACID:2||PHOSPHOCHOLINE:2||POLY(3HEXYLTHIOPHENE):2||Receptor:2||MODIFIED GOLD ELECTRODES:2||ASCORBICACID:2||HUMAN URINE:2||Hybrid Nanocomposite:2||Dielectric Constant:2||AU(111) ELECTRODES:2||NANOFILMS:2||HYDROPHOBIC CORES:2||DRIVEN:2||FLEXIBLE SIDECHAINS:2||MESOGEN:2||size exclusion chromatography:2||ORGANIZATION:2||POLY(LACTIC ACID):2||MOLECULAR ARCHITECTURE:2||COUPLER:2||POLYSTYRENE COPOLYMER:2||diffusion coefficient:2||XRAY REFLECTIVITY:2||temperature gradient interaction chromatography polystyryllithium:2||VISCOELASTIC PROPERTIES:2||polyisoprene:2||CRYSTALSTRUCTURES:2||POLYCARBONATE:2||MULTILAYERS:2||DEPOSITION:2||FULL ADSORPTION MECHANISMS:2||QUANTUM DOTS:2||CRITICAL ORDERING TRANSITION:2||CORE:2||PARACRYSTALLINE DISTORTION:2||PERFORATED LAYER PHASE:2||liposomes:2||phospholipids:2||UNILAMELLAR VESICLES:2||VOLTAMMETRIC DETERMINATION:2||Polyimide:2||FOURIERTRANSFORM:2||SURFACE:2||SIZE EXCLUSION CHROMATOGRAPHY:2||NEUTRON REFLECTIVITY:2||ORDERED STRUCTURE:2||RIGID ROD POLYMERS:2||DISPLACEMENT POLYMERIZATION:2||PHOTOSENSITIVE POLYIMIDE:2||EFFICIENCY:2||films:2||Polylactide:2||CHROMATOGRAPHIC CRITICAL CONDITION:2||RETENTION MECHANISM:2||COPPER PHTHALOCYANINE:2||C60:2||COPOLYMER:2||micelle:2||LINEAR POLYETHYLENE:2||LIQUIDS:2||ARMS:2||HIGHPERFORMANCE LIQUID:2||alternating copolyimides:2||PHASE SEPARATION:2||POLYMERCHAINS:2||STYRYLPYRIDINIUM:2||ANGLES:2||MOBILITY:2||PROBE:2||ACIDS:2||BLUE:2||POSITIONS:2||CYCLOPENTADIENYL:2||HIGHMOLECULARWEIGHT:2||FUELCELLS:2||TIN OXIDE:2||NANOCRYSTALS:2||SURFACE MICELLE FORMATION:2||DISORDER TRANSITION:2||BIREFRINGENCE:2||LIPIDCOMPOSITION:2||CONJUGATED POLYMERS:2||GLASSYCARBON ELECTRODE:2||ELECTROCHEMICAL DETECTION:2||MULTIPLE DETECTION:2||aromatic polyimides:2||MOLECULARWEIGHT HOMOPOLYMERS:2||BINARYMIXTURE:2||PATTERNS:2||photoluminescent polyimide:2||photosensitive polyimide:2||DEPENDENT MICELLIZATION:2||SPEED:2||synthesis:2||COIL BLOCKCOPOLYMERS:2||LIQUIDCRYSTALLINE ASSEMBLIES:2||OXIDE):2||molecular weight distribution:2||CONJUGATED POLYMER:2||polymer characterization:2||NONIONIC SURFACTANTS:2||STEREOREGULAR POLY(METHYL METHACRYLATE):2||structure:2||RODLIKE POLYIMIDE:2||FLEXIBLE POLYIMIDE:2||THERMAL IMIDIZATION:2||IN SITU RODCHAIN FORMATION:2||PHASESEPARATION:2||VINYL ETHER):2||EQUILIBRIUM:2||STRESS:2||STRUCTURAL RELAXATION:2||LIVING POLYMERIZATION:2||CONTAIN:2||SALT:2||WAVEGUIDE:2||XRAY DIFFRACTION:2||WALLED CARBON NANOTUBES:2||SILICON NANOWIRES:2||IR:2||DIELECTRIC THINFILMS:2||Selfassembled monolayer:2||PARAMETERS:2||Temperature gradient interaction chromatography:2||SOLIDSURFACES:2||FLOW:2||RATES:2||PRECURSORS:2||FILM BALANCE:2||SIDECHAINS:2||SUPRAMOLECULAR MATERIALS:2||CHAINS:2||POLYSTYRENE:39||ANIONICPOLYMERIZATION:34||GRADIENT INTERACTION CHROMATOGRAPHY:31||SEPARATION:27||BEHAVIOR:24||LIQUIDCHROMATOGRAPHY:22||POLYMERS:22||SIZEEXCLUSION CHROMATOGRAPHY:19||BLOCKCOPOLYMERS:17||DIBLOCK COPOLYMERS:17||THINFILMS:16||POLYISOPRENE:14||HPLC:13||SYNTHETICPOLYMERS:12||PERFORMANCE LIQUIDCHROMATOGRAPHY:11||DIBLOCK COPOLYMER:11||MOLECULARWEIGHT DISTRIBUTION:10||MACROMOLECULES:10||BLOCKCOPOLYMER:10||REVERSEDPHASE:10||RETENTION BEHAVIOR:10||MORPHOLOGY:9||MOLECULARWEIGHT:9||MELTS:9||AROMATIC POLYIMIDES:8||XRAYSCATTERING:8||polystyrene:8||MIXTURES:7||block copolymer:7||SURFACES:7||DEPENDENCE:7||COPOLYMERS:7||POLYMERIZATION:7||AIR/WATER INTERFACE:7||DEFINED BRUSH POLYIMIDE:6||TEMPERATURE:6||FULLY RODLIKE BACKBONE:6||MONOLAYERS:6||POLYIMIDES:6||CHAIN:6||COMPLEX POLYMERS:6||MOLECULARREORIENTATION:6||temperature gradient interaction chromatography:6||POLYMERFILMS:6||GELPERMEATION CHROMATOGRAPHY:6||ELUTION:6||ORDERDISORDER TRANSITION:6||SURFACEMORPHOLOGY:6||ORIENTATION:6||SYSTEMS:6||CRITICAL ADSORPTION POINT:6||LIGHTSCATTERING:5||PROBE DIFFUSION:5||POLYDISPERSITY:5||AIRWATERINTERFACE:5||MICROPHASE SEPARATION:5||GLASSTRANSITION:5||BLENDS:5||FILMS:5||ADSORPTION CHROMATOGRAPHY:5||MECHANISM:5||CO2:5||ETHYLENEOXIDE:5||ALIGNMENT:5||COMPLEXES:5||FRACTIONATION:5||MISCIBILITY:5||POLYMER CHARACTERIZATION:5||HEXAGONALLY PERFORATED LAYER:5||TRANSITION:5||FLIGHT MASSSPECTROMETRY:5||ARCHITECTURE:5||POLY(METHYL METHACRYLATE):5||ALTERNATING COPOLYMERIZATION:4||THICKNESS:4||THERMODYNAMICS:4||CRITICAL RANGE:4||ULTRATHIN POLYMERFILMS:4||DYNAMICS:4||CLIMATECHANGE:4||PHASE:4||GLASSTRANSITION TEMPERATURE:4||EPOXIDE:4||selfassembly:4||SPECTROSCOPY:4||SELFDIFFUSION:4||SCATTERING:4||OPTICALPROPERTIES:4||CATALYSTS:4||CHEMISTRY:4||SOLARCELLS:4||polyimides:4||polypyromellitimides:4||SEGMENTAL REORIENTATIONS:4||ADSORPTION:4||INTERFACE:4||POLYMERSOLUTIONS:4||TRACER DIFFUSION:4||OXIDE) DIBLOCK COPOLYMER:4||POLYSTYRENEBPOLY(METHYL METHACRYLATE):4||POLYMER BLENDS:4||SIMULATION:4||CHAIN ORIENTATION:4||STYRENE:4||TOF MASSSPECTROMETRY:4||WATER:4||DISPLAYS:4||OLIGOMERS:4||PEPTIDES:4||CYCLIC POLYSTYRENE:4||LATTICE CLUSTER THEORY:4||2NDHARMONIC GENERATION:4||LIQUIDCRYSTAL ALIGNMENT:4||MONTECARLO:4||LangmuirBlodgett film:3||ASSEMBLIES:3||chromatography:3||HOLOGRAPHIC RELAXATION SPECTROSCOPY:3||MULTIPLE MORPHOLOGIES:3||INTERACTION CHROMATOGRAPHY:3||NORMALPHASE:3||DIFFUSION:3||BRANCHED POLYSTYRENE:3||NANOPARTICLES:3||LITHOGRAPHY:3||POLYMER:3||LASERLIGHTSCATTERING:3||HIGH MOLECULARWEIGHT:3||CUBIC PHASE:3||AMPHIPHILIC BLOCKCOPOLYMERS:3||AQUEOUSSOLUTION:3||MODEL:3||FORCED RAYLEIGHSCATTERING:3||HYDRODYNAMIC PROPERTIES:3||4MIKTOARM STAR COPOLYMER:3||SYSTEM:3||PHASEBEHAVIOR:3||AQUEOUSSOLUTIONS:3||RHEOLOGY:3||LB film:3||2DIMENSIONAL LIQUIDCHROMATOGRAPHY:3||VISCOSITY:3||DIBLOCK COPOLYMER MELTS:3||ORDERORDER TRANSITION:3||GYROID PHASE:3||BINDING:3||BLOCK POLYELECTROLYTES:3||DERIVATIVES:3||MELT:3||PHASE LIQUIDCHROMATOGRAPHY:3||high temperature:3||ELEVATEDTEMPERATURE:3||RETENTION:3||MICELLE FORMATION:3||ELECTRONMICROSCOPY:3||Electrospray ionization:2||FRACTIONS:2||nalkanes:2||ISOCRATIC SEPARATION:2||ASSOCIATION:2||POLY(METHYL METHACRYLATE)S:2||2D correlation spectroscopy:2||CARBONATION:2||GLASSTRANSITION BEHAVIORS:2||MECHANICAL PROPERTIES:2||DIMENSIONS:2||POLYMER MIXTURES:2||ALUMINUM PORPHYRIN:2||LEAD STEARATE:2||FERROCENE:2||POLY(EPSILONCAPROLACTONE):2||DIAGRAM:2||nucleosides:2||Selective recognition by preconcentration:2||Electrochemical impedance spectroscopy:2||DOPAMINE:2||Silica:2||Silyl Ester:2||DIETHYL ESTER) PRECURSORS:2||SURFACE CHARACTERIZATION:2||MICROSTRUCTURE:2||polystyreneblockpolyisoprene:2||MICROPHASESEPARATED STRUCTURES:2||IMPEDANCE MEASUREMENTS:2||HEMEPROTEINS:2||SOLID SUBSTRATE:2||MOISTURE ABSORPTION:2||aromatic polyimide:2||INDUCED MORPHOLOGICALCHANGES:2||STABILITY:2||LC alignment layers:2||POLYPYROMELLITIMIDES:2||Ion mobility:2||Chiral polymer:2||OLIGOSACCHARIDES:2||OXIDE:2||SIDECHAIN:2||RETARDATION:2||functionality:2||temperature effects:2||phase transition:2||glass transition temperature:2||spincoated film:2||ESTER) PRECURSORS:2||PRECURSOR BLEND:2||Xray reflectivity:2||SIGMABONDS:2||aluminum porphyrin catalysts:2||METALLOPORPHYRIN:2||SILICON:2||MASSSPECTROMETRY ANALYSIS:2||STAR POLYMERS:2||SIZE DISTRIBUTIONS:2||GIANT VESICLES:2||POLY(3ALKYLTHIOPHENES):2||ADHESION:2||LIGHT:2||POLYSTYRENEBPOLYISOPRENE:2||HPLC fractionation:2||SILVER ELECTRODES:2||ENHANCED RESONANCE RAMAN:2||SEQUENCE:2||POLYELECTROLYTE/NONELECTROLYTE SHELLS:2||polyimide:2||liquid crystal alignment layer:2||SOLUBLE POLYIMIDES:2||POLYBUTADIENECOATED ZIRCONIA:2||PRETILT ANGLES:2||CROSSSECTIONS:2||IMSMS:2||POLYISOPRENE COPOLYMERS:2||POLYIMIDE THINFILMS:2||POLYMER SURFACES:2||RAMAN:2||STEREOREGULAR PMMA:2||poly(tertbutyl methacrylate) (PtBMA):2||TIME:2||POLYIMIDE COMPOSITE:2||CARBOXYLATO COMPLEXES:2||AGOSTIC INTERACTIONS:2||MOLECULARSTRUCTURE:2||ALKENE:2||TRANSISTOR MEMORY:2||DEVICES:2||ORTHOGONALITY:2||molecular characterization:2||ORGANOSILICATE DIELECTRIC FILMS:2||AMPHIPHILES:2||Serotonin:2||Anodic stripping differential pulse voltammetry:2||transmission electron microtomography:2||LIQUIDCHROMATOGRAPHY ANALYSIS:2||PHASEDIAGRAM:2||CARBON NANOTUBES:2||TRANSFER MECHANISM:2||BINARY MIXTURES:2||REFLECTOMETRY:2||ROD:2||DROPS:2||CONSTANT:2||TRIBLOCK COPOLYMER:2||POLYMER VESICLES:2||CLICK CHEMISTRY:2||ARRAYS:2||COMPOSITES:2||MALDITOF MS:2||POLYMER THINFILMS:2||HYDROPHOBIC INTERACTION CHROMATOGRAPHY:2||retention mechanism:2||GRAZINGINCIDENCE:2||NANOPOROSITY:2||soluble poly(amic esteraltimide)s:2||DIFFERENTIAL SCANNING CALORIMETRY:2||RESIDUALSTRESS:2||CHEMICALCOMPOSITION:2||POLY(AMIC DIETHYL ESTER) PRECURSOR:2||POLY(DIMETHYL SILOXANES):2||MASS POLYSTYRENES:2||cyclic propylene carbonate:2||propylene oxide:2||ACETATE) TOLUENE SOLUTIONS:2||TRANSIENT GRATING METHOD:2||MASS DIFFUSION:2||MICROPHASE SEPARATION TRANSITION:2||POLYSTYRENES:2||POLYSILANE:2||CARBOHYDRATEBASED PHOSPHOLIPIDS:2||HELICAL STRANDS:2||FLUORESCENCE DETECTION:2||SENSITIVE DETERMINATION:2||COMPOSITE FILMS:2||microphase:2||3MERCAPTOPROPIONIC ACID:2||BUTADIENE BLOCK COPOLYMER:2||HYBRID POLYMERIC MICELLES:2||AQUEOUSMEDIA:2||CONTACTANGLE:2||TRANSISTORCIRCUITS:2||ABTYPE POLY(ETHERIMIDE)S:2||CORRELATION SPECTROSCOPY:2||GASPHASE CONFORMATIONS:2||DECANE:2||INFRAREDSPECTROSCOPY:2||MICELLIZATION:2||ENERGIES:2||ACID) PRECURSORS:2||PHOTOALIGNMENT:2||polymers:2||SUBSTRATE:2||carbon dioxide:2||oligomeric propylene carbonate:2||THERMALDIFFUSION:2||CRYSTAL:2||PHASETRANSITION:2||REFLECTIVITY:2||ANALOGS:2||supramolecular chemistry:2||LYSOPHOSPHATIDIC ACID:2||PHOSPHOCHOLINE:2||POLY(3HEXYLTHIOPHENE):2||Receptor:2||MODIFIED GOLD ELECTRODES:2||ASCORBICACID:2||HUMAN URINE:2||Hybrid Nanocomposite:2||Dielectric Constant:2||AU(111) ELECTRODES:2||NANOFILMS:2||HYDROPHOBIC CORES:2||DRIVEN:2||FLEXIBLE SIDECHAINS:2||MESOGEN:2||size exclusion chromatography:2||ORGANIZATION:2||POLY(LACTIC ACID):2||MOLECULAR ARCHITECTURE:2||COUPLER:2||POLYSTYRENE COPOLYMER:2||diffusion coefficient:2||XRAY REFLECTIVITY:2||temperature gradient interaction chromatography polystyryllithium:2||VISCOELASTIC PROPERTIES:2||polyisoprene:2||CRYSTALSTRUCTURES:2||POLYCARBONATE:2||MULTILAYERS:2||DEPOSITION:2||FULL ADSORPTION MECHANISMS:2||QUANTUM DOTS:2||CRITICAL ORDERING TRANSITION:2||CORE:2||PARACRYSTALLINE DISTORTION:2||PERFORATED LAYER PHASE:2||liposomes:2||phospholipids:2||UNILAMELLAR VESICLES:2||VOLTAMMETRIC DETERMINATION:2||Polyimide:2||FOURIERTRANSFORM:2||SURFACE:2||SIZE EXCLUSION CHROMATOGRAPHY:2||NEUTRON REFLECTIVITY:2||ORDERED STRUCTURE:2||RIGID ROD POLYMERS:2||DISPLACEMENT POLYMERIZATION:2||PHOTOSENSITIVE POLYIMIDE:2||EFFICIENCY:2||films:2||Polylactide:2||CHROMATOGRAPHIC CRITICAL CONDITION:2||RETENTION MECHANISM:2||COPPER PHTHALOCYANINE:2||C60:2||COPOLYMER:2||micelle:2||LINEAR POLYETHYLENE:2||LIQUIDS:2||ARMS:2||HIGHPERFORMANCE LIQUID:2||alternating copolyimides:2||PHASE SEPARATION:2||POLYMERCHAINS:2||STYRYLPYRIDINIUM:2||ANGLES:2||MOBILITY:2||PROBE:2||ACIDS:2||BLUE:2||POSITIONS:2||CYCLOPENTADIENYL:2||HIGHMOLECULARWEIGHT:2||FUELCELLS:2||TIN OXIDE:2||NANOCRYSTALS:2||SURFACE MICELLE FORMATION:2||DISORDER TRANSITION:2||BIREFRINGENCE:2||LIPIDCOMPOSITION:2||CONJUGATED POLYMERS:2||GLASSYCARBON ELECTRODE:2||ELECTROCHEMICAL DETECTION:2||MULTIPLE DETECTION:2||aromatic polyimides:2||MOLECULARWEIGHT HOMOPOLYMERS:2||BINARYMIXTURE:2||PATTERNS:2||photoluminescent polyimide:2||photosensitive polyimide:2||DEPENDENT MICELLIZATION:2||SPEED:2||synthesis:2||COIL BLOCKCOPOLYMERS:2||LIQUIDCRYSTALLINE ASSEMBLIES:2||OXIDE):2||molecular weight distribution:2||CONJUGATED POLYMER:2||polymer characterization:2||NONIONIC SURFACTANTS:2||STEREOREGULAR POLY(METHYL METHACRYLATE):2||structure:2||RODLIKE POLYIMIDE:2||FLEXIBLE POLYIMIDE:2||THERMAL IMIDIZATION:2||IN SITU RODCHAIN FORMATION:2||PHASESEPARATION:2||VINYL ETHER):2||EQUILIBRIUM:2||STRESS:2||STRUCTURAL RELAXATION:2||LIVING POLYMERIZATION:2||CONTAIN:2||SALT:2||WAVEGUIDE:2||XRAY DIFFRACTION:2||WALLED CARBON NANOTUBES:2||SILICON NANOWIRES:2||IR:2||DIELECTRIC THINFILMS:2||Selfassembled monolayer:2||PARAMETERS:2||Temperature gradient interaction chromatography:2||SOLIDSURFACES:2||FLOW:2||RATES:2||PRECURSORS:2||FILM BALANCE:2||SIDECHAINS:2||SUPRAMOLECULAR MATERIALS:2||CHAINS:2||POLYSTYRENE:39||ANIONICPOLYMERIZATION:34||GRADIENT INTERACTION CHROMATOGRAPHY:31||SEPARATION:27||BEHAVIOR:24||LIQUIDCHROMATOGRAPHY:22||POLYMERS:22||SIZEEXCLUSION CHROMATOGRAPHY:19||BLOCKCOPOLYMERS:17||DIBLOCK COPOLYMERS:17||THINFILMS:16||POLYISOPRENE:14||HPLC:13||SYNTHETICPOLYMERS:12||PERFORMANCE LIQUIDCHROMATOGRAPHY:11||DIBLOCK COPOLYMER:11||MOLECULARWEIGHT DISTRIBUTION:10||MACROMOLECULES:10||BLOCKCOPOLYMER:10||REVERSEDPHASE:10||RETENTION BEHAVIOR:10||MORPHOLOGY:9||MOLECULARWEIGHT:9||MELTS:9||AROMATIC POLYIMIDES:8||XRAYSCATTERING:8||polystyrene:8||MIXTURES:7||block copolymer:7||SURFACES:7||DEPENDENCE:7||COPOLYMERS:7||POLYMERIZATION:7||AIR/WATER INTERFACE:7||DEFINED BRUSH POLYIMIDE:6||TEMPERATURE:6||FULLY RODLIKE BACKBONE:6||MONOLAYERS:6||POLYIMIDES:6||CHAIN:6||COMPLEX POLYMERS:6||MOLECULARREORIENTATION:6||temperature gradient interaction chromatography:6||POLYMERFILMS:6||GELPERMEATION CHROMATOGRAPHY:6||ELUTION:6||ORDERDISORDER TRANSITION:6||SURFACEMORPHOLOGY:6||ORIENTATION:6||SYSTEMS:6||CRITICAL ADSORPTION POINT:6||LIGHTSCATTERING:5||PROBE DIFFUSION:5||POLYDISPERSITY:5||AIRWATERINTERFACE:5||MICROPHASE SEPARATION:5||GLASSTRANSITION:5||BLENDS:5||FILMS:5||ADSORPTION CHROMATOGRAPHY:5||MECHANISM:5||CO2:5||ETHYLENEOXIDE:5||ALIGNMENT:5||COMPLEXES:5||FRACTIONATION:5||MISCIBILITY:5||POLYMER CHARACTERIZATION:5||HEXAGONALLY PERFORATED LAYER:5||TRANSITION:5||FLIGHT MASSSPECTROMETRY:5||ARCHITECTURE:5||POLY(METHYL METHACRYLATE):5||ALTERNATING COPOLYMERIZATION:4||THICKNESS:4||THERMODYNAMICS:4||CRITICAL RANGE:4||ULTRATHIN POLYMERFILMS:4||DYNAMICS:4||CLIMATECHANGE:4||PHASE:4||GLASSTRANSITION TEMPERATURE:4||EPOXIDE:4||selfassembly:4||SPECTROSCOPY:4||SELFDIFFUSION:4||SCATTERING:4||OPTICALPROPERTIES:4||CATALYSTS:4||CHEMISTRY:4||SOLARCELLS:4||polyimides:4||polypyromellitimides:4||SEGMENTAL REORIENTATIONS:4||ADSORPTION:4||INTERFACE:4||POLYMERSOLUTIONS:4||TRACER DIFFUSION:4||OXIDE) DIBLOCK COPOLYMER:4||POLYSTYRENEBPOLY(METHYL METHACRYLATE):4||POLYMER BLENDS:4||SIMULATION:4||CHAIN ORIENTATION:4||STYRENE:4||TOF MASSSPECTROMETRY:4||WATER:4||DISPLAYS:4||OLIGOMERS:4||PEPTIDES:4||CYCLIC POLYSTYRENE:4||LATTICE CLUSTER THEORY:4||2NDHARMONIC GENERATION:4||LIQUIDCRYSTAL ALIGNMENT:4||MONTECARLO:4||LangmuirBlodgett film:3||ASSEMBLIES:3||chromatography:3||HOLOGRAPHIC RELAXATION SPECTROSCOPY:3||MULTIPLE MORPHOLOGIES:3||INTERACTION CHROMATOGRAPHY:3||NORMALPHASE:3||DIFFUSION:3||BRANCHED POLYSTYRENE:3||NANOPARTICLES:3||LITHOGRAPHY:3||POLYMER:3||LASERLIGHTSCATTERING:3||HIGH MOLECULARWEIGHT:3||CUBIC PHASE:3||AMPHIPHILIC BLOCKCOPOLYMERS:3||AQUEOUSSOLUTION:3||MODEL:3||FORCED RAYLEIGHSCATTERING:3||HYDRODYNAMIC PROPERTIES:3||4MIKTOARM STAR COPOLYMER:3||SYSTEM:3||PHASEBEHAVIOR:3||AQUEOUSSOLUTIONS:3||RHEOLOGY:3||LB film:3||2DIMENSIONAL LIQUIDCHROMATOGRAPHY:3||VISCOSITY:3||DIBLOCK COPOLYMER MELTS:3||ORDERORDER TRANSITION:3||GYROID PHASE:3||BINDING:3||BLOCK POLYELECTROLYTES:3||DERIVATIVES:3||MELT:3||PHASE LIQUIDCHROMATOGRAPHY:3||high temperature:3||ELEVATEDTEMPERATURE:3||RETENTION:3||MICELLE FORMATION:3||ELECTRONMICROSCOPY:3||Electrospray ionization:2||FRACTIONS:2||nalkanes:2||ISOCRATIC SEPARATION:2||ASSOCIATION:2||POLY(METHYL METHACRYLATE)S:2||2D correlation spectroscopy:2||CARBONATION:2||GLASSTRANSITION BEHAVIORS:2||MECHANICAL PROPERTIES:2||DIMENSIONS:2||POLYMER MIXTURES:2||ALUMINUM PORPHYRIN:2||LEAD STEARATE:2||FERROCENE:2||POLY(EPSILONCAPROLACTONE):2||DIAGRAM:2||nucleosides:2||Selective recognition by preconcentration:2||Electrochemical impedance spectroscopy:2||DOPAMINE:2||Silica:2||Silyl Ester:2||DIETHYL ESTER) PRECURSORS:2||SURFACE CHARACTERIZATION:2||MICROSTRUCTURE:2||polystyreneblockpolyisoprene:2||MICROPHASESEPARATED STRUCTURES:2||IMPEDANCE MEASUREMENTS:2||HEMEPROTEINS:2||SOLID SUBSTRATE:2||MOISTURE ABSORPTION:2||aromatic polyimide:2||INDUCED MORPHOLOGICALCHANGES:2||STABILITY:2||LC alignment layers:2||POLYPYROMELLITIMIDES:2||Ion mobility:2||Chiral polymer:2||OLIGOSACCHARIDES:2||OXIDE:2||SIDECHAIN:2||RETARDATION:2||functionality:2||temperature effects:2||phase transition:2||glass transition temperature:2||spincoated film:2||ESTER) PRECURSORS:2||PRECURSOR BLEND:2||Xray reflectivity:2||SIGMABONDS:2||aluminum porphyrin catalysts:2||METALLOPORPHYRIN:2||SILICON:2||MASSSPECTROMETRY ANALYSIS:2||STAR POLYMERS:2||SIZE DISTRIBUTIONS:2||GIANT VESICLES:2||POLY(3ALKYLTHIOPHENES):2||ADHESION:2||LIGHT:2||POLYSTYRENEBPOLYISOPRENE:2||HPLC fractionation:2||SILVER ELECTRODES:2||ENHANCED RESONANCE RAMAN:2||SEQUENCE:2||POLYELECTROLYTE/NONELECTROLYTE SHELLS:2||polyimide:2||liquid crystal alignment layer:2||SOLUBLE POLYIMIDES:2||POLYBUTADIENECOATED ZIRCONIA:2||PRETILT ANGLES:2||CROSSSECTIONS:2||IMSMS:2||POLYISOPRENE COPOLYMERS:2||POLYIMIDE THINFILMS:2||POLYMER SURFACES:2||RAMAN:2||STEREOREGULAR PMMA:2||poly(tertbutyl methacrylate) (PtBMA):2||TIME:2||POLYIMIDE COMPOSITE:2||CARBOXYLATO COMPLEXES:2||AGOSTIC INTERACTIONS:2||MOLECULARSTRUCTURE:2||ALKENE:2||TRANSISTOR MEMORY:2||DEVICES:2||ORTHOGONALITY:2||molecular characterization:2||ORGANOSILICATE DIELECTRIC FILMS:2||AMPHIPHILES:2||Serotonin:2||Anodic stripping differential pulse voltammetry:2||transmission electron microtomography:2||LIQUIDCHROMATOGRAPHY ANALYSIS:2||PHASEDIAGRAM:2||CARBON NANOTUBES:2||TRANSFER MECHANISM:2||BINARY MIXTURES:2||REFLECTOMETRY:2||ROD:2||DROPS:2||CONSTANT:2||TRIBLOCK COPOLYMER:2||POLYMER VESICLES:2||CLICK CHEMISTRY:2||ARRAYS:2||COMPOSITES:2||MALDITOF MS:2||POLYMER THINFILMS:2||HYDROPHOBIC INTERACTION CHROMATOGRAPHY:2||retention mechanism:2||GRAZINGINCIDENCE:2||NANOPOROSITY:2||soluble poly(amic esteraltimide)s:2||DIFFERENTIAL SCANNING CALORIMETRY:2||RESIDUALSTRESS:2||CHEMICALCOMPOSITION:2||POLY(AMIC DIETHYL ESTER) PRECURSOR:2||POLY(DIMETHYL SILOXANES):2||MASS POLYSTYRENES:2||cyclic propylene carbonate:2||propylene oxide:2||ACETATE) TOLUENE SOLUTIONS:2||TRANSIENT GRATING METHOD:2||MASS DIFFUSION:2||MICROPHASE SEPARATION TRANSITION:2||POLYSTYRENES:2||POLYSILANE:2||CARBOHYDRATEBASED PHOSPHOLIPIDS:2||HELICAL STRANDS:2||FLUORESCENCE DETECTION:2||SENSITIVE DETERMINATION:2||COMPOSITE FILMS:2||microphase:2||3MERCAPTOPROPIONIC ACID:2||BUTADIENE BLOCK COPOLYMER:2||HYBRID POLYMERIC MICELLES:2||AQUEOUSMEDIA:2||CONTACTANGLE:2||TRANSISTORCIRCUITS:2||ABTYPE POLY(ETHERIMIDE)S:2||CORRELATION SPECTROSCOPY:2||GASPHASE CONFORMATIONS:2||DECANE:2||INFRAREDSPECTROSCOPY:2||MICELLIZATION:2||ENERGIES:2||ACID) PRECURSORS:2||PHOTOALIGNMENT:2||polymers:2||SUBSTRATE:2||carbon dioxide:2||oligomeric propylene carbonate:2||THERMALDIFFUSION:2||CRYSTAL:2||PHASETRANSITION:2||REFLECTIVITY:2||ANALOGS:2||supramolecular chemistry:2||LYSOPHOSPHATIDIC ACID:2||PHOSPHOCHOLINE:2||POLY(3HEXYLTHIOPHENE):2||Receptor:2||MODIFIED GOLD ELECTRODES:2||ASCORBICACID:2||HUMAN URINE:2||Hybrid Nanocomposite:2||Dielectric Constant:2||AU(111) ELECTRODES:2||NANOFILMS:2||HYDROPHOBIC CORES:2||DRIVEN:2||FLEXIBLE SIDECHAINS:2||MESOGEN:2||size exclusion chromatography:2||ORGANIZATION:2||POLY(LACTIC ACID):2||MOLECULAR ARCHITECTURE:2||COUPLER:2||POLYSTYRENE COPOLYMER:2||diffusion coefficient:2||XRAY REFLECTIVITY:2||temperature gradient interaction chromatography polystyryllithium:2||VISCOELASTIC PROPERTIES:2||polyisoprene:2||CRYSTALSTRUCTURES:2||POLYCARBONATE:2||MULTILAYERS:2||DEPOSITION:2||FULL ADSORPTION MECHANISMS:2||QUANTUM DOTS:2||CRITICAL ORDERING TRANSITION:2||CORE:2||PARACRYSTALLINE DISTORTION:2||PERFORATED LAYER PHASE:2||liposomes:2||phospholipids:2||UNILAMELLAR VESICLES:2||VOLTAMMETRIC DETERMINATION:2||Polyimide:2||FOURIERTRANSFORM:2||SURFACE:2||SIZE EXCLUSION CHROMATOGRAPHY:2||NEUTRON REFLECTIVITY:2||ORDERED STRUCTURE:2||RIGID ROD POLYMERS:2||DISPLACEMENT POLYMERIZATION:2||PHOTOSENSITIVE POLYIMIDE:2||EFFICIENCY:2||films:2||Polylactide:2||CHROMATOGRAPHIC CRITICAL CONDITION:2||RETENTION MECHANISM:2||COPPER PHTHALOCYANINE:2||C60:2||COPOLYMER:2||micelle:2||LINEAR POLYETHYLENE:2||LIQUIDS:2||ARMS:2||HIGHPERFORMANCE LIQUID:2||alternating copolyimides:2||PHASE SEPARATION:2||POLYMERCHAINS:2||STYRYLPYRIDINIUM:2||ANGLES:2||MOBILITY:2||PROBE:2||ACIDS:2||BLUE:2||POSITIONS:2||CYCLOPENTADIENYL:2||HIGHMOLECULARWEIGHT:2||FUELCELLS:2||TIN OXIDE:2||NANOCRYSTALS:2||SURFACE MICELLE FORMATION:2||DISORDER TRANSITION:2||BIREFRINGENCE:2||LIPIDCOMPOSITION:2||CONJUGATED POLYMERS:2||GLASSYCARBON ELECTRODE:2||ELECTROCHEMICAL DETECTION:2||MULTIPLE DETECTION:2||aromatic polyimides:2||MOLECULARWEIGHT HOMOPOLYMERS:2||BINARYMIXTURE:2||PATTERNS:2||photoluminescent polyimide:2||photosensitive polyimide:2||DEPENDENT MICELLIZATION:2||SPEED:2||synthesis:2||COIL BLOCKCOPOLYMERS:2||LIQUIDCRYSTALLINE ASSEMBLIES:2||OXIDE):2||molecular weight distribution:2||CONJUGATED POLYMER:2||polymer characterization:2||NONIONIC SURFACTANTS:2||STEREOREGULAR POLY(METHYL METHACRYLATE):2||structure:2||RODLIKE POLYIMIDE:2||FLEXIBLE POLYIMIDE:2||THERMAL IMIDIZATION:2||IN SITU RODCHAIN FORMATION:2||PHASESEPARATION:2||VINYL ETHER):2||EQUILIBRIUM:2||STRESS:2||STRUCTURAL RELAXATION:2||LIVING POLYMERIZATION:2||CONTAIN:2||SALT:2||WAVEGUIDE:2||XRAY DIFFRACTION:2||WALLED CARBON NANOTUBES:2||SILICON NANOWIRES:2||IR:2||DIELECTRIC THINFILMS:2||Selfassembled monolayer:2||PARAMETERS:2||Temperature gradient interaction chromatography:2||SOLIDSURFACES:2||FLOW:2||RATES:2||PRECURSORS:2||FILM BALANCE:2||SIDECHAINS:2||SUPRAMOLECULAR MATERIALS:2||CHAINS:2||POLYSTYRENE:39||ANIONICPOLYMERIZATION:34||GRADIENT INTERACTION CHROMATOGRAPHY:31||SEPARATION:27||BEHAVIOR:24||LIQUIDCHROMATOGRAPHY:22||POLYMERS:22||SIZEEXCLUSION CHROMATOGRAPHY:19||BLOCKCOPOLYMERS:17||DIBLOCK COPOLYMERS:17||THINFILMS:16||POLYISOPRENE:14||HPLC:13||SYNTHETICPOLYMERS:12||PERFORMANCE LIQUIDCHROMATOGRAPHY:11||DIBLOCK COPOLYMER:11||MOLECULARWEIGHT DISTRIBUTION:10||MACROMOLECULES:10||BLOCKCOPOLYMER:10||REVERSEDPHASE:10||RETENTION BEHAVIOR:10||MORPHOLOGY:9||MOLECULARWEIGHT:9||MELTS:9||AROMATIC POLYIMIDES:8||XRAYSCATTERING:8||polystyrene:8||MIXTURES:7||block copolymer:7||SURFACES:7||DEPENDENCE:7||COPOLYMERS:7||POLYMERIZATION:7||AIR/WATER INTERFACE:7||DEFINED BRUSH POLYIMIDE:6||TEMPERATURE:6||FULLY RODLIKE BACKBONE:6||MONOLAYERS:6||POLYIMIDES:6||CHAIN:6||COMPLEX POLYMERS:6||MOLECULARREORIENTATION:6||temperature gradient interaction chromatography:6||POLYMERFILMS:6||GELPERMEATION CHROMATOGRAPHY:6||ELUTION:6||ORDERDISORDER TRANSITION:6||SURFACEMORPHOLOGY:6||ORIENTATION:6||SYSTEMS:6||CRITICAL ADSORPTION POINT:6||LIGHTSCATTERING:5||PROBE DIFFUSION:5||POLYDISPERSITY:5||AIRWATERINTERFACE:5||MICROPHASE SEPARATION:5||GLASSTRANSITION:5||BLENDS:5||FILMS:5||ADSORPTION CHROMATOGRAPHY:5||MECHANISM:5||CO2:5||ETHYLENEOXIDE:5||ALIGNMENT:5||COMPLEXES:5||FRACTIONATION:5||MISCIBILITY:5||POLYMER CHARACTERIZATION:5||HEXAGONALLY PERFORATED LAYER:5||TRANSITION:5||FLIGHT MASSSPECTROMETRY:5||ARCHITECTURE:5||POLY(METHYL METHACRYLATE):5||ALTERNATING COPOLYMERIZATION:4||THICKNESS:4||THERMODYNAMICS:4||CRITICAL RANGE:4||ULTRATHIN POLYMERFILMS:4||DYNAMICS:4||CLIMATECHANGE:4||PHASE:4||GLASSTRANSITION TEMPERATURE:4||EPOXIDE:4||selfassembly:4||SPECTROSCOPY:4||SELFDIFFUSION:4||SCATTERING:4||OPTICALPROPERTIES:4||CATALYSTS:4||CHEMISTRY:4||SOLARCELLS:4||polyimides:4||polypyromellitimides:4||SEGMENTAL REORIENTATIONS:4||ADSORPTION:4||INTERFACE:4||POLYMERSOLUTIONS:4||TRACER DIFFUSION:4||OXIDE) DIBLOCK COPOLYMER:4||POLYSTYRENEBPOLY(METHYL METHACRYLATE):4||POLYMER BLENDS:4||SIMULATION:4||CHAIN ORIENTATION:4||STYRENE:4||TOF MASSSPECTROMETRY:4||WATER:4||DISPLAYS:4||OLIGOMERS:4||PEPTIDES:4||CYCLIC POLYSTYRENE:4||LATTICE CLUSTER THEORY:4||2NDHARMONIC GENERATION:4||LIQUIDCRYSTAL ALIGNMENT:4||MONTECARLO:4||LangmuirBlodgett film:3||ASSEMBLIES:3||chromatography:3||HOLOGRAPHIC RELAXATION SPECTROSCOPY:3||MULTIPLE MORPHOLOGIES:3||INTERACTION CHROMATOGRAPHY:3||NORMALPHASE:3||DIFFUSION:3||BRANCHED POLYSTYRENE:3||NANOPARTICLES:3||LITHOGRAPHY:3||POLYMER:3||LASERLIGHTSCATTERING:3||HIGH MOLECULARWEIGHT:3||CUBIC PHASE:3||AMPHIPHILIC BLOCKCOPOLYMERS:3||AQUEOUSSOLUTION:3||MODEL:3||FORCED RAYLEIGHSCATTERING:3||HYDRODYNAMIC PROPERTIES:3||4MIKTOARM STAR COPOLYMER:3||SYSTEM:3||PHASEBEHAVIOR:3||AQUEOUSSOLUTIONS:3||RHEOLOGY:3||LB film:3||2DIMENSIONAL LIQUIDCHROMATOGRAPHY:3||VISCOSITY:3||DIBLOCK COPOLYMER MELTS:3||ORDERORDER TRANSITION:3||GYROID PHASE:3||BINDING:3||BLOCK POLYELECTROLYTES:3||DERIVATIVES:3||MELT:3||PHASE LIQUIDCHROMATOGRAPHY:3||high temperature:3||ELEVATEDTEMPERATURE:3||RETENTION:3||MICELLE FORMATION:3||ELECTRONMICROSCOPY:3||Electrospray ionization:2||FRACTIONS:2||nalkanes:2||ISOCRATIC SEPARATION:2||ASSOCIATION:2||POLY(METHYL METHACRYLATE)S:2||2D correlation spectroscopy:2||CARBONATION:2||GLASSTRANSITION BEHAVIORS:2||MECHANICAL PROPERTIES:2||DIMENSIONS:2||POLYMER MIXTURES:2||ALUMINUM PORPHYRIN:2||LEAD STEARATE:2||FERROCENE:2||POLY(EPSILONCAPROLACTONE):2||DIAGRAM:2||nucleosides:2||Selective recognition by preconcentration:2||Electrochemical impedance spectroscopy:2||DOPAMINE:2||Silica:2||Silyl Ester:2||DIETHYL ESTER) PRECURSORS:2||SURFACE CHARACTERIZATION:2||MICROSTRUCTURE:2||polystyreneblockpolyisoprene:2||MICROPHASESEPARATED STRUCTURES:2||IMPEDANCE MEASUREMENTS:2||HEMEPROTEINS:2||SOLID SUBSTRATE:2||MOISTURE ABSORPTION:2||aromatic polyimide:2||INDUCED MORPHOLOGICALCHANGES:2||STABILITY:2||LC alignment layers:2||POLYPYROMELLITIMIDES:2||Ion mobility:2||Chiral polymer:2||OLIGOSACCHARIDES:2||OXIDE:2||SIDECHAIN:2||RETARDATION:2||functionality:2||temperature effects:2||phase transition:2||glass transition temperature:2||spincoated film:2||ESTER) PRECURSORS:2||PRECURSOR BLEND:2||Xray reflectivity:2||SIGMABONDS:2||aluminum porphyrin catalysts:2||METALLOPORPHYRIN:2||SILICON:2||MASSSPECTROMETRY ANALYSIS:2||STAR POLYMERS:2||SIZE DISTRIBUTIONS:2||GIANT VESICLES:2||POLY(3ALKYLTHIOPHENES):2||ADHESION:2||LIGHT:2||POLYSTYRENEBPOLYISOPRENE:2||HPLC fractionation:2||SILVER ELECTRODES:2||ENHANCED RESONANCE RAMAN:2||SEQUENCE:2||POLYELECTROLYTE/NONELECTROLYTE SHELLS:2||polyimide:2||liquid crystal alignment layer:2||SOLUBLE POLYIMIDES:2||POLYBUTADIENECOATED ZIRCONIA:2||PRETILT ANGLES:2||CROSSSECTIONS:2||IMSMS:2||POLYISOPRENE COPOLYMERS:2||POLYIMIDE THINFILMS:2||POLYMER SURFACES:2||RAMAN:2||STEREOREGULAR PMMA:2||poly(tertbutyl methacrylate) (PtBMA):2||TIME:2||POLYIMIDE COMPOSITE:2||CARBOXYLATO COMPLEXES:2||AGOSTIC INTERACTIONS:2||MOLECULARSTRUCTURE:2||ALKENE:2||TRANSISTOR MEMORY:2||DEVICES:2||ORTHOGONALITY:2||molecular characterization:2||ORGANOSILICATE DIELECTRIC FILMS:2||AMPHIPHILES:2||Serotonin:2||Anodic stripping differential pulse voltammetry:2||transmission electron microtomography:2||LIQUIDCHROMATOGRAPHY ANALYSIS:2||PHASEDIAGRAM:2||CARBON NANOTUBES:2||TRANSFER MECHANISM:2||BINARY MIXTURES:2||REFLECTOMETRY:2||ROD:2||DROPS:2||CONSTANT:2||TRIBLOCK COPOLYMER:2||POLYMER VESICLES:2||CLICK CHEMISTRY:2||ARRAYS:2||COMPOSITES:2||MALDITOF MS:2||POLYMER THINFILMS:2||HYDROPHOBIC INTERACTION CHROMATOGRAPHY:2||retention mechanism:2||GRAZINGINCIDENCE:2||NANOPOROSITY:2||soluble poly(amic esteraltimide)s:2||DIFFERENTIAL SCANNING CALORIMETRY:2||RESIDUALSTRESS:2||CHEMICALCOMPOSITION:2||POLY(AMIC DIETHYL ESTER) PRECURSOR:2||POLY(DIMETHYL SILOXANES):2||MASS POLYSTYRENES:2||cyclic propylene carbonate:2||propylene oxide:2||ACETATE) TOLUENE SOLUTIONS:2||TRANSIENT GRATING METHOD:2||MASS DIFFUSION:2||MICROPHASE SEPARATION TRANSITION:2||POLYSTYRENES:2||POLYSILANE:2||CARBOHYDRATEBASED PHOSPHOLIPIDS:2||HELICAL STRANDS:2||FLUORESCENCE DETECTION:2||SENSITIVE DETERMINATION:2||COMPOSITE FILMS:2||microphase:2||3MERCAPTOPROPIONIC ACID:2||BUTADIENE BLOCK COPOLYMER:2||HYBRID POLYMERIC MICELLES:2||AQUEOUSMEDIA:2||CONTACTANGLE:2||TRANSISTORCIRCUITS:2||ABTYPE POLY(ETHERIMIDE)S:2||CORRELATION SPECTROSCOPY:2||GASPHASE CONFORMATIONS:2||DECANE:2||INFRAREDSPECTROSCOPY:2||MICELLIZATION:2||ENERGIES:2||ACID) PRECURSORS:2||PHOTOALIGNMENT:2||polymers:2||SUBSTRATE:2||carbon dioxide:2||oligomeric propylene carbonate:2||THERMALDIFFUSION:2||CRYSTAL:2||PHASETRANSITION:2||REFLECTIVITY:2||ANALOGS:2||supramolecular chemistry:2||LYSOPHOSPHATIDIC ACID:2||PHOSPHOCHOLINE:2||POLY(3HEXYLTHIOPHENE):2||Receptor:2||MODIFIED GOLD ELECTRODES:2||ASCORBICACID:2||HUMAN URINE:2||Hybrid Nanocomposite:2||Dielectric Constant:2||AU(111) ELECTRODES:2||NANOFILMS:2||HYDROPHOBIC CORES:2||DRIVEN:2||FLEXIBLE SIDECHAINS:2||MESOGEN:2||size exclusion chromatography:2||ORGANIZATION:2||POLY(LACTIC ACID):2||MOLECULAR ARCHITECTURE:2||COUPLER:2||POLYSTYRENE COPOLYMER:2||diffusion coefficient:2||XRAY REFLECTIVITY:2||temperature gradient interaction chromatography polystyryllithium:2||VISCOELASTIC PROPERTIES:2||polyisoprene:2||CRYSTALSTRUCTURES:2||POLYCARBONATE:2||MULTILAYERS:2||DEPOSITION:2||FULL ADSORPTION MECHANISMS:2||QUANTUM DOTS:2||CRITICAL ORDERING TRANSITION:2||CORE:2||PARACRYSTALLINE DISTORTION:2||PERFORATED LAYER PHASE:2||liposomes:2||phospholipids:2||UNILAMELLAR VESICLES:2||VOLTAMMETRIC DETERMINATION:2||Polyimide:2||FOURIERTRANSFORM:2||SURFACE:2||SIZE EXCLUSION CHROMATOGRAPHY:2||NEUTRON REFLECTIVITY:2||ORDERED STRUCTURE:2||RIGID ROD POLYMERS:2||DISPLACEMENT POLYMERIZATION:2||PHOTOSENSITIVE POLYIMIDE:2||EFFICIENCY:2||films:2||Polylactide:2||CHROMATOGRAPHIC CRITICAL CONDITION:2||RETENTION MECHANISM:2||COPPER PHTHALOCYANINE:2||C60:2||COPOLYMER:2||micelle:2||LINEAR POLYETHYLENE:2||LIQUIDS:2||ARMS:2||HIGHPERFORMANCE LIQUID:2||alternating copolyimides:2||PHASE SEPARATION:2||POLYMERCHAINS:2||STYRYLPYRIDINIUM:2||ANGLES:2||MOBILITY:2||PROBE:2||ACIDS:2||BLUE:2||POSITIONS:2||CYCLOPENTADIENYL:2||HIGHMOLECULARWEIGHT:2||FUELCELLS:2||TIN OXIDE:2||NANOCRYSTALS:2||SURFACE MICELLE FORMATION:2||DISORDER TRANSITION:2||BIREFRINGENCE:2||LIPIDCOMPOSITION:2||CONJUGATED POLYMERS:2||GLASSYCARBON ELECTRODE:2||ELECTROCHEMICAL DETECTION:2||MULTIPLE DETECTION:2||aromatic polyimides:2||MOLECULARWEIGHT HOMOPOLYMERS:2||BINARYMIXTURE:2||PATTERNS:2||photoluminescent polyimide:2||photosensitive polyimide:2||DEPENDENT MICELLIZATION:2||SPEED:2||synthesis:2||COIL BLOCKCOPOLYMERS:2||LIQUIDCRYSTALLINE ASSEMBLIES:2||OXIDE):2||molecular weight distribution:2||CONJUGATED POLYMER:2||polymer characterization:2||NONIONIC SURFACTANTS:2||STEREOREGULAR POLY(METHYL METHACRYLATE):2||structure:2||RODLIKE POLYIMIDE:2||FLEXIBLE POLYIMIDE:2||THERMAL IMIDIZATION:2||IN SITU RODCHAIN FORMATION:2||PHASESEPARATION:2||VINYL ETHER):2||EQUILIBRIUM:2||STRESS:2||STRUCTURAL RELAXATION:2||LIVING POLYMERIZATION:2||CONTAIN:2||SALT:2||WAVEGUIDE:2||XRAY DIFFRACTION:2||WALLED CARBON NANOTUBES:2||SILICON NANOWIRES:2||IR:2||DIELECTRIC THINFILMS:2||Selfassembled monolayer:2||PARAMETERS:2||Temperature gradient interaction chromatography:2||SOLIDSURFACES:2||FLOW:2||RATES:2||PRECURSORS:2||FILM BALANCE:2||SIDECHAINS:2||SUPRAMOLECULAR MATERIALS:2||CHAINS:2||POLYSTYRENE:39||ANIONICPOLYMERIZATION:34||GRADIENT INTERACTION CHROMATOGRAPHY:31||SEPARATION:27||BEHAVIOR:24||LIQUIDCHROMATOGRAPHY:22||POLYMERS:22||SIZEEXCLUSION CHROMATOGRAPHY:19||BLOCKCOPOLYMERS:17||DIBLOCK COPOLYMERS:17||THINFILMS:16||POLYISOPRENE:14||HPLC:13||SYNTHETICPOLYMERS:12||PERFORMANCE LIQUIDCHROMATOGRAPHY:11||DIBLOCK COPOLYMER:11||MOLECULARWEIGHT DISTRIBUTION:10||MACROMOLECULES:10||BLOCKCOPOLYMER:10||REVERSEDPHASE:10||RETENTION BEHAVIOR:10||MORPHOLOGY:9||MOLECULARWEIGHT:9||MELTS:9||AROMATIC POLYIMIDES:8||XRAYSCATTERING:8||polystyrene:8||MIXTURES:7||block copolymer:7||SURFACES:7||DEPENDENCE:7||COPOLYMERS:7||POLYMERIZATION:7||AIR/WATER INTERFACE:7||DEFINED BRUSH POLYIMIDE:6||TEMPERATURE:6||FULLY RODLIKE BACKBONE:6||MONOLAYERS:6||POLYIMIDES:6||CHAIN:6||COMPLEX POLYMERS:6||MOLECULARREORIENTATION:6||temperature gradient interaction chromatography:6||POLYMERFILMS:6||GELPERMEATION CHROMATOGRAPHY:6||ELUTION:6||ORDERDISORDER TRANSITION:6||SURFACEMORPHOLOGY:6||ORIENTATION:6||SYSTEMS:6||CRITICAL ADSORPTION POINT:6||LIGHTSCATTERING:5||PROBE DIFFUSION:5||POLYDISPERSITY:5||AIRWATERINTERFACE:5||MICROPHASE SEPARATION:5||GLASSTRANSITION:5||BLENDS:5||FILMS:5||ADSORPTION CHROMATOGRAPHY:5||MECHANISM:5||CO2:5||ETHYLENEOXIDE:5||ALIGNMENT:5||COMPLEXES:5||FRACTIONATION:5||MISCIBILITY:5||POLYMER CHARACTERIZATION:5||HEXAGONALLY PERFORATED LAYER:5||TRANSITION:5||FLIGHT MASSSPECTROMETRY:5||ARCHITECTURE:5||POLY(METHYL METHACRYLATE):5||ALTERNATING COPOLYMERIZATION:4||THICKNESS:4||THERMODYNAMICS:4||CRITICAL RANGE:4||ULTRATHIN POLYMERFILMS:4||DYNAMICS:4||CLIMATECHANGE:4||PHASE:4||GLASSTRANSITION TEMPERATURE:4||EPOXIDE:4||selfassembly:4||SPECTROSCOPY:4||SELFDIFFUSION:4||SCATTERING:4||OPTICALPROPERTIES:4||CATALYSTS:4||CHEMISTRY:4||SOLARCELLS:4||polyimides:4||polypyromellitimides:4||SEGMENTAL REORIENTATIONS:4||ADSORPTION:4||INTERFACE:4||POLYMERSOLUTIONS:4||TRACER DIFFUSION:4||OXIDE) DIBLOCK COPOLYMER:4||POLYSTYRENEBPOLY(METHYL METHACRYLATE):4||POLYMER BLENDS:4||SIMULATION:4||CHAIN ORIENTATION:4||STYRENE:4||TOF MASSSPECTROMETRY:4||WATER:4||DISPLAYS:4||OLIGOMERS:4||PEPTIDES:4||CYCLIC POLYSTYRENE:4||LATTICE CLUSTER THEORY:4||2NDHARMONIC GENERATION:4||LIQUIDCRYSTAL ALIGNMENT:4||MONTECARLO:4||LangmuirBlodgett film:3||ASSEMBLIES:3||chromatography:3||HOLOGRAPHIC RELAXATION SPECTROSCOPY:3||MULTIPLE MORPHOLOGIES:3||INTERACTION CHROMATOGRAPHY:3||NORMALPHASE:3||DIFFUSION:3||BRANCHED POLYSTYRENE:3||NANOPARTICLES:3||LITHOGRAPHY:3||POLYMER:3||LASERLIGHTSCATTERING:3||HIGH MOLECULARWEIGHT:3||CUBIC PHASE:3||AMPHIPHILIC BLOCKCOPOLYMERS:3||AQUEOUSSOLUTION:3||MODEL:3||FORCED RAYLEIGHSCATTERING:3||HYDRODYNAMIC PROPERTIES:3||4MIKTOARM STAR COPOLYMER:3||SYSTEM:3||PHASEBEHAVIOR:3||AQUEOUSSOLUTIONS:3||RHEOLOGY:3||LB film:3||2DIMENSIONAL LIQUIDCHROMATOGRAPHY:3||VISCOSITY:3||DIBLOCK COPOLYMER MELTS:3||ORDERORDER TRANSITION:3||GYROID PHASE:3||BINDING:3||BLOCK POLYELECTROLYTES:3||DERIVATIVES:3||MELT:3||PHASE LIQUIDCHROMATOGRAPHY:3||high temperature:3||ELEVATEDTEMPERATURE:3||RETENTION:3||MICELLE FORMATION:3||ELECTRONMICROSCOPY:3||Electrospray ionization:2||FRACTIONS:2||nalkanes:2||ISOCRATIC SEPARATION:2||ASSOCIATION:2||POLY(METHYL METHACRYLATE)S:2||2D correlation spectroscopy:2||CARBONATION:2||GLASSTRANSITION BEHAVIORS:2||MECHANICAL PROPERTIES:2||DIMENSIONS:2||POLYMER MIXTURES:2||ALUMINUM PORPHYRIN:2||LEAD STEARATE:2||FERROCENE:2||POLY(EPSILONCAPROLACTONE):2||DIAGRAM:2||nucleosides:2||Selective recognition by preconcentration:2||Electrochemical impedance spectroscopy:2||DOPAMINE:2||Silica:2||Silyl Ester:2||DIETHYL ESTER) PRECURSORS:2||SURFACE CHARACTERIZATION:2||MICROSTRUCTURE:2||polystyreneblockpolyisoprene:2||MICROPHASESEPARATED STRUCTURES:2||IMPEDANCE MEASUREMENTS:2||HEMEPROTEINS:2||SOLID SUBSTRATE:2||MOISTURE ABSORPTION:2||aromatic polyimide:2||INDUCED MORPHOLOGICALCHANGES:2||STABILITY:2||LC alignment layers:2||POLYPYROMELLITIMIDES:2||Ion mobility:2||Chiral polymer:2||OLIGOSACCHARIDES:2||OXIDE:2||SIDECHAIN:2||RETARDATION:2||functionality:2||temperature effects:2||phase transition:2||glass transition temperature:2||spincoated film:2||ESTER) PRECURSORS:2||PRECURSOR BLEND:2||Xray reflectivity:2||SIGMABONDS:2||aluminum porphyrin catalysts:2||METALLOPORPHYRIN:2||SILICON:2||MASSSPECTROMETRY ANALYSIS:2||STAR POLYMERS:2||SIZE DISTRIBUTIONS:2||GIANT VESICLES:2||POLY(3ALKYLTHIOPHENES):2||ADHESION:2||LIGHT:2||POLYSTYRENEBPOLYISOPRENE:2||HPLC fractionation:2||SILVER ELECTRODES:2||ENHANCED RESONANCE RAMAN:2||SEQUENCE:2||POLYELECTROLYTE/NONELECTROLYTE SHELLS:2||polyimide:2||liquid crystal alignment layer:2||SOLUBLE POLYIMIDES:2||POLYBUTADIENECOATED ZIRCONIA:2||PRETILT ANGLES:2||CROSSSECTIONS:2||IMSMS:2||POLYISOPRENE COPOLYMERS:2||POLYIMIDE THINFILMS:2||POLYMER SURFACES:2||RAMAN:2||STEREOREGULAR PMMA:2||poly(tertbutyl methacrylate) (PtBMA):2||TIME:2||POLYIMIDE COMPOSITE:2||CARBOXYLATO COMPLEXES:2||AGOSTIC INTERACTIONS:2||MOLECULARSTRUCTURE:2||ALKENE:2||TRANSISTOR MEMORY:2||DEVICES:2||ORTHOGONALITY:2||molecular characterization:2||ORGANOSILICATE DIELECTRIC FILMS:2||AMPHIPHILES:2||Serotonin:2||Anodic stripping differential pulse voltammetry:2||transmission electron microtomography:2||LIQUIDCHROMATOGRAPHY ANALYSIS:2||PHASEDIAGRAM:2||CARBON NANOTUBES:2||TRANSFER MECHANISM:2||BINARY MIXTURES:2||REFLECTOMETRY:2||ROD:2||DROPS:2||CONSTANT:2||TRIBLOCK COPOLYMER:2||POLYMER VESICLES:2||CLICK CHEMISTRY:2||ARRAYS:2||COMPOSITES:2||MALDITOF MS:2||POLYMER THINFILMS:2||HYDROPHOBIC INTERACTION CHROMATOGRAPHY:2||retention mechanism:2||GRAZINGINCIDENCE:2||NANOPOROSITY:2||soluble poly(amic esteraltimide)s:2||DIFFERENTIAL SCANNING CALORIMETRY:2||RESIDUALSTRESS:2||CHEMICALCOMPOSITION:2||POLY(AMIC DIETHYL ESTER) PRECURSOR:2||POLY(DIMETHYL SILOXANES):2||MASS POLYSTYRENES:2||cyclic propylene carbonate:2||propylene oxide:2||ACETATE) TOLUENE SOLUTIONS:2||TRANSIENT GRATING METHOD:2||MASS DIFFUSION:2||MICROPHASE SEPARATION TRANSITION:2||POLYSTYRENES:2||POLYSILANE:2||CARBOHYDRATEBASED PHOSPHOLIPIDS:2||HELICAL STRANDS:2||FLUORESCENCE DETECTION:2||SENSITIVE DETERMINATION:2||COMPOSITE FILMS:2||microphase:2||3MERCAPTOPROPIONIC ACID:2||BUTADIENE BLOCK COPOLYMER:2||HYBRID POLYMERIC MICELLES:2||AQUEOUSMEDIA:2||CONTACTANGLE:2||TRANSISTORCIRCUITS:2||ABTYPE POLY(ETHERIMIDE)S:2||CORRELATION SPECTROSCOPY:2||GASPHASE CONFORMATIONS:2||DECANE:2||INFRAREDSPECTROSCOPY:2||MICELLIZATION:2||ENERGIES:2||ACID) PRECURSORS:2||PHOTOALIGNMENT:2||polymers:2||SUBSTRATE:2||carbon dioxide:2||oligomeric propylene carbonate:2||THERMALDIFFUSION:2||CRYSTAL:2||PHASETRANSITION:2||REFLECTIVITY:2||ANALOGS:2||supramolecular chemistry:2||LYSOPHOSPHATIDIC ACID:2||PHOSPHOCHOLINE:2||POLY(3HEXYLTHIOPHENE):2||Receptor:2||MODIFIED GOLD ELECTRODES:2||ASCORBICACID:2||HUMAN URINE:2||Hybrid Nanocomposite:2||Dielectric Constant:2||AU(111) ELECTRODES:2||NANOFILMS:2||HYDROPHOBIC CORES:2||DRIVEN:2||FLEXIBLE SIDECHAINS:2||MESOGEN:2||size exclusion chromatography:2||ORGANIZATION:2||POLY(LACTIC ACID):2||MOLECULAR ARCHITECTURE:2||COUPLER:2||POLYSTYRENE COPOLYMER:2||diffusion coefficient:2||XRAY REFLECTIVITY:2||temperature gradient interaction chromatography polystyryllithium:2||VISCOELASTIC PROPERTIES:2||polyisoprene:2||CRYSTALSTRUCTURES:2||POLYCARBONATE:2||MULTILAYERS:2||DEPOSITION:2||FULL ADSORPTION MECHANISMS:2||QUANTUM DOTS:2||CRITICAL ORDERING TRANSITION:2||CORE:2||PARACRYSTALLINE DISTORTION:2||PERFORATED LAYER PHASE:2||liposomes:2||phospholipids:2||UNILAMELLAR VESICLES:2||VOLTAMMETRIC DETERMINATION:2||Polyimide:2||FOURIERTRANSFORM:2||SURFACE:2||SIZE EXCLUSION CHROMATOGRAPHY:2||NEUTRON REFLECTIVITY:2||ORDERED STRUCTURE:2||RIGID ROD POLYMERS:2||DISPLACEMENT POLYMERIZATION:2||PHOTOSENSITIVE POLYIMIDE:2||EFFICIENCY:2||films:2||Polylactide:2||CHROMATOGRAPHIC CRITICAL CONDITION:2||RETENTION MECHANISM:2||COPPER PHTHALOCYANINE:2||C60:2||COPOLYMER:2||micelle:2||LINEAR POLYETHYLENE:2||LIQUIDS:2||ARMS:2||HIGHPERFORMANCE LIQUID:2||alternating copolyimides:2||PHASE SEPARATION:2||POLYMERCHAINS:2||STYRYLPYRIDINIUM:2||ANGLES:2||MOBILITY:2||PROBE:2||ACIDS:2||BLUE:2||POSITIONS:2||CYCLOPENTADIENYL:2||HIGHMOLECULARWEIGHT:2||FUELCELLS:2||TIN OXIDE:2||NANOCRYSTALS:2||SURFACE MICELLE FORMATION:2||DISORDER TRANSITION:2||BIREFRINGENCE:2||LIPIDCOMPOSITION:2||CONJUGATED POLYMERS:2||GLASSYCARBON ELECTRODE:2||ELECTROCHEMICAL DETECTION:2||MULTIPLE DETECTION:2||aromatic polyimides:2||MOLECULARWEIGHT HOMOPOLYMERS:2||BINARYMIXTURE:2||PATTERNS:2||photoluminescent polyimide:2||photosensitive polyimide:2||DEPENDENT MICELLIZATION:2||SPEED:2||synthesis:2||COIL BLOCKCOPOLYMERS:2||LIQUIDCRYSTALLINE ASSEMBLIES:2||OXIDE):2||molecular weight distribution:2||CONJUGATED POLYMER:2||polymer characterization:2||NONIONIC SURFACTANTS:2||STEREOREGULAR POLY(METHYL METHACRYLATE):2||structure:2||RODLIKE POLYIMIDE:2||FLEXIBLE POLYIMIDE:2||THERMAL IMIDIZATION:2||IN SITU RODCHAIN FORMATION:2||PHASESEPARATION:2||VINYL ETHER):2||EQUILIBRIUM:2||STRESS:2||STRUCTURAL RELAXATION:2||LIVING POLYMERIZATION:2||CONTAIN:2||SALT:2||WAVEGUIDE:2||XRAY DIFFRACTION:2||WALLED CARBON NANOTUBES:2||SILICON NANOWIRES:2||IR:2||DIELECTRIC THINFILMS:2||Selfassembled monolayer:2||PARAMETERS:2||Temperature gradient interaction chromatography:2||SOLIDSURFACES:2||FLOW:2||RATES:2||PRECURSORS:2||FILM BALANCE:2||SIDECHAINS:2||SUPRAMOLECULAR MATERIALS:2||CHAINS:2||POLYSTYRENE:39||ANIONICPOLYMERIZATION:34||GRADIENT INTERACTION CHROMATOGRAPHY:31||SEPARATION:27||BEHAVIOR:24||LIQUIDCHROMATOGRAPHY:22||POLYMERS:22||SIZEEXCLUSION CHROMATOGRAPHY:19||BLOCKCOPOLYMERS:17||DIBLOCK COPOLYMERS:17||THINFILMS:16||POLYISOPRENE:14||HPLC:13||SYNTHETICPOLYMERS:12||PERFORMANCE LIQUIDCHROMATOGRAPHY:11||DIBLOCK COPOLYMER:11||MOLECULARWEIGHT DISTRIBUTION:10||MACROMOLECULES:10||BLOCKCOPOLYMER:10||REVERSEDPHASE:10||RETENTION BEHAVIOR:10||MORPHOLOGY:9||MOLECULARWEIGHT:9||MELTS:9||AROMATIC POLYIMIDES:8||XRAYSCATTERING:8||polystyrene:8||MIXTURES:7||block copolymer:7||SURFACES:7||DEPENDENCE:7||COPOLYMERS:7||POLYMERIZATION:7||AIR/WATER INTERFACE:7||DEFINED BRUSH POLYIMIDE:6||TEMPERATURE:6||FULLY RODLIKE BACKBONE:6||MONOLAYERS:6||POLYIMIDES:6||CHAIN:6||COMPLEX POLYMERS:6||MOLECULARREORIENTATION:6||temperature gradient interaction chromatography:6||POLYMERFILMS:6||GELPERMEATION CHROMATOGRAPHY:6||ELUTION:6||ORDERDISORDER TRANSITION:6||SURFACEMORPHOLOGY:6||ORIENTATION:6||SYSTEMS:6||CRITICAL ADSORPTION POINT:6||LIGHTSCATTERING:5||PROBE DIFFUSION:5||POLYDISPERSITY:5||AIRWATERINTERFACE:5||MICROPHASE SEPARATION:5||GLASSTRANSITION:5||BLENDS:5||FILMS:5||ADSORPTION CHROMATOGRAPHY:5||MECHANISM:5||CO2:5||ETHYLENEOXIDE:5||ALIGNMENT:5||COMPLEXES:5||FRACTIONATION:5||MISCIBILITY:5||POLYMER CHARACTERIZATION:5||HEXAGONALLY PERFORATED LAYER:5||TRANSITION:5||FLIGHT MASSSPECTROMETRY:5||ARCHITECTURE:5||POLY(METHYL METHACRYLATE):5||ALTERNATING COPOLYMERIZATION:4||THICKNESS:4||THERMODYNAMICS:4||CRITICAL RANGE:4||ULTRATHIN POLYMERFILMS:4||DYNAMICS:4||CLIMATECHANGE:4||PHASE:4||GLASSTRANSITION TEMPERATURE:4||EPOXIDE:4||selfassembly:4||SPECTROSCOPY:4||SELFDIFFUSION:4||SCATTERING:4||OPTICALPROPERTIES:4||CATALYSTS:4||CHEMISTRY:4||SOLARCELLS:4||polyimides:4||polypyromellitimides:4||SEGMENTAL REORIENTATIONS:4||ADSORPTION:4||INTERFACE:4||POLYMERSOLUTIONS:4||TRACER DIFFUSION:4||OXIDE) DIBLOCK COPOLYMER:4||POLYSTYRENEBPOLY(METHYL METHACRYLATE):4||POLYMER BLENDS:4||SIMULATION:4||CHAIN ORIENTATION:4||STYRENE:4||TOF MASSSPECTROMETRY:4||WATER:4||DISPLAYS:4||OLIGOMERS:4||PEPTIDES:4||CYCLIC POLYSTYRENE:4||LATTICE CLUSTER THEORY:4||2NDHARMONIC GENERATION:4||LIQUIDCRYSTAL ALIGNMENT:4||MONTECARLO:4||LangmuirBlodgett film:3||ASSEMBLIES:3||chromatography:3||HOLOGRAPHIC RELAXATION SPECTROSCOPY:3||MULTIPLE MORPHOLOGIES:3||INTERACTION CHROMATOGRAPHY:3||NORMALPHASE:3||DIFFUSION:3||BRANCHED POLYSTYRENE:3||NANOPARTICLES:3||LITHOGRAPHY:3||POLYMER:3||LASERLIGHTSCATTERING:3||HIGH MOLECULARWEIGHT:3||CUBIC PHASE:3||AMPHIPHILIC BLOCKCOPOLYMERS:3||AQUEOUSSOLUTION:3||MODEL:3||FORCED RAYLEIGHSCATTERING:3||HYDRODYNAMIC PROPERTIES:3||4MIKTOARM STAR COPOLYMER:3||SYSTEM:3||PHASEBEHAVIOR:3||AQUEOUSSOLUTIONS:3||RHEOLOGY:3||LB film:3||2DIMENSIONAL LIQUIDCHROMATOGRAPHY:3||VISCOSITY:3||DIBLOCK COPOLYMER MELTS:3||ORDERORDER TRANSITION:3||GYROID PHASE:3||BINDING:3||BLOCK POLYELECTROLYTES:3||DERIVATIVES:3||MELT:3||PHASE LIQUIDCHROMATOGRAPHY:3||high temperature:3||ELEVATEDTEMPERATURE:3||RETENTION:3||MICELLE FORMATION:3||ELECTRONMICROSCOPY:3||Electrospray ionization:2||FRACTIONS:2||nalkanes:2||ISOCRATIC SEPARATION:2||ASSOCIATION:2||POLY(METHYL METHACRYLATE)S:2||2D correlation spectroscopy:2||CARBONATION:2||GLASSTRANSITION BEHAVIORS:2||MECHANICAL PROPERTIES:2||DIMENSIONS:2||POLYMER MIXTURES:2||ALUMINUM PORPHYRIN:2||LEAD STEARATE:2||FERROCENE:2||POLY(EPSILONCAPROLACTONE):2||DIAGRAM:2||nucleosides:2||Selective recognition by preconcentration:2||Electrochemical impedance spectroscopy:2||DOPAMINE:2||Silica:2||Silyl Ester:2||DIETHYL ESTER) PRECURSORS:2||SURFACE CHARACTERIZATION:2||MICROSTRUCTURE:2||polystyreneblockpolyisoprene:2||MICROPHASESEPARATED STRUCTURES:2||IMPEDANCE MEASUREMENTS:2||HEMEPROTEINS:2||SOLID SUBSTRATE:2||MOISTURE ABSORPTION:2||aromatic polyimide:2||INDUCED MORPHOLOGICALCHANGES:2||STABILITY:2||LC alignment layers:2||POLYPYROMELLITIMIDES:2||Ion mobility:2||Chiral polymer:2||OLIGOSACCHARIDES:2||OXIDE:2||SIDECHAIN:2||RETARDATION:2||functionality:2||temperature effects:2||phase transition:2||glass transition temperature:2||spincoated film:2||ESTER) PRECURSORS:2||PRECURSOR BLEND:2||Xray reflectivity:2||SIGMABONDS:2||aluminum porphyrin catalysts:2||METALLOPORPHYRIN:2||SILICON:2||MASSSPECTROMETRY ANALYSIS:2||STAR POLYMERS:2||SIZE DISTRIBUTIONS:2||GIANT VESICLES:2||POLY(3ALKYLTHIOPHENES):2||ADHESION:2||LIGHT:2||POLYSTYRENEBPOLYISOPRENE:2||HPLC fractionation:2||SILVER ELECTRODES:2||ENHANCED RESONANCE RAMAN:2||SEQUENCE:2||POLYELECTROLYTE/NONELECTROLYTE SHELLS:2||polyimide:2||liquid crystal alignment layer:2||SOLUBLE POLYIMIDES:2||POLYBUTADIENECOATED ZIRCONIA:2||PRETILT ANGLES:2||CROSSSECTIONS:2||IMSMS:2||POLYISOPRENE COPOLYMERS:2||POLYIMIDE THINFILMS:2||POLYMER SURFACES:2||RAMAN:2||STEREOREGULAR PMMA:2||poly(tertbutyl methacrylate) (PtBMA):2||TIME:2||POLYIMIDE COMPOSITE:2||CARBOXYLATO COMPLEXES:2||AGOSTIC INTERACTIONS:2||MOLECULARSTRUCTURE:2||ALKENE:2||TRANSISTOR MEMORY:2||DEVICES:2||ORTHOGONALITY:2||molecular characterization:2||ORGANOSILICATE DIELECTRIC FILMS:2||AMPHIPHILES:2||Serotonin:2||Anodic stripping differential pulse voltammetry:2||transmission electron microtomography:2||LIQUIDCHROMATOGRAPHY ANALYSIS:2||PHASEDIAGRAM:2||CARBON NANOTUBES:2||TRANSFER MECHANISM:2||BINARY MIXTURES:2||REFLECTOMETRY:2||ROD:2||DROPS:2||CONSTANT:2||TRIBLOCK COPOLYMER:2||POLYMER VESICLES:2||CLICK CHEMISTRY:2||ARRAYS:2||COMPOSITES:2||MALDITOF MS:2||POLYMER THINFILMS:2||HYDROPHOBIC INTERACTION CHROMATOGRAPHY:2||retention mechanism:2||GRAZINGINCIDENCE:2||NANOPOROSITY:2||soluble poly(amic esteraltimide)s:2||DIFFERENTIAL SCANNING CALORIMETRY:2||RESIDUALSTRESS:2||CHEMICALCOMPOSITION:2||POLY(AMIC DIETHYL ESTER) PRECURSOR:2||POLY(DIMETHYL SILOXANES):2||MASS POLYSTYRENES:2||cyclic propylene carbonate:2||propylene oxide:2||ACETATE) TOLUENE SOLUTIONS:2||TRANSIENT GRATING METHOD:2||MASS DIFFUSION:2||MICROPHASE SEPARATION TRANSITION:2||POLYSTYRENES:2||POLYSILANE:2||CARBOHYDRATEBASED PHOSPHOLIPIDS:2||HELICAL STRANDS:2||FLUORESCENCE DETECTION:2||SENSITIVE DETERMINATION:2||COMPOSITE FILMS:2||microphase:2||3MERCAPTOPROPIONIC ACID:2||BUTADIENE BLOCK COPOLYMER:2||HYBRID POLYMERIC MICELLES:2||AQUEOUSMEDIA:2||CONTACTANGLE:2||TRANSISTORCIRCUITS:2||ABTYPE POLY(ETHERIMIDE)S:2||CORRELATION SPECTROSCOPY:2||GASPHASE CONFORMATIONS:2||DECANE:2||INFRAREDSPECTROSCOPY:2||MICELLIZATION:2||ENERGIES:2||ACID) PRECURSORS:2||PHOTOALIGNMENT:2||polymers:2||SUBSTRATE:2||carbon dioxide:2||oligomeric propylene carbonate:2||THERMALDIFFUSION:2||CRYSTAL:2||PHASETRANSITION:2||REFLECTIVITY:2||ANALOGS:2||supramolecular chemistry:2||LYSOPHOSPHATIDIC ACID:2||PHOSPHOCHOLINE:2||POLY(3HEXYLTHIOPHENE):2||Receptor:2||MODIFIED GOLD ELECTRODES:2||ASCORBICACID:2||HUMAN URINE:2||Hybrid Nanocomposite:2||Dielectric Constant:2||AU(111) ELECTRODES:2||NANOFILMS:2||HYDROPHOBIC CORES:2||DRIVEN:2||FLEXIBLE SIDECHAINS:2||MESOGEN:2||size exclusion chromatography:2||ORGANIZATION:2||POLY(LACTIC ACID):2||MOLECULAR ARCHITECTURE:2||COUPLER:2||POLYSTYRENE COPOLYMER:2||diffusion coefficient:2||XRAY REFLECTIVITY:2||temperature gradient interaction chromatography polystyryllithium:2||VISCOELASTIC PROPERTIES:2||polyisoprene:2||CRYSTALSTRUCTURES:2||POLYCARBONATE:2||MULTILAYERS:2||DEPOSITION:2||FULL ADSORPTION MECHANISMS:2||QUANTUM DOTS:2||CRITICAL ORDERING TRANSITION:2||CORE:2||PARACRYSTALLINE DISTORTION:2||PERFORATED LAYER PHASE:2||liposomes:2||phospholipids:2||UNILAMELLAR VESICLES:2||VOLTAMMETRIC DETERMINATION:2||Polyimide:2||FOURIERTRANSFORM:2||SURFACE:2||SIZE EXCLUSION CHROMATOGRAPHY:2||NEUTRON REFLECTIVITY:2||ORDERED STRUCTURE:2||RIGID ROD POLYMERS:2||DISPLACEMENT POLYMERIZATION:2||PHOTOSENSITIVE POLYIMIDE:2||EFFICIENCY:2||films:2||Polylactide:2||CHROMATOGRAPHIC CRITICAL CONDITION:2||RETENTION MECHANISM:2||COPPER PHTHALOCYANINE:2||C60:2||COPOLYMER:2||micelle:2||LINEAR POLYETHYLENE:2||LIQUIDS:2||ARMS:2||HIGHPERFORMANCE LIQUID:2||alternating copolyimides:2||PHASE SEPARATION:2||POLYMERCHAINS:2||STYRYLPYRIDINIUM:2||ANGLES:2||MOBILITY:2||PROBE:2||ACIDS:2||BLUE:2||POSITIONS:2||CYCLOPENTADIENYL:2||HIGHMOLECULARWEIGHT:2||FUELCELLS:2||TIN OXIDE:2||NANOCRYSTALS:2||SURFACE MICELLE FORMATION:2||DISORDER TRANSITION:2||BIREFRINGENCE:2||LIPIDCOMPOSITION:2||CONJUGATED POLYMERS:2||GLASSYCARBON ELECTRODE:2||ELECTROCHEMICAL DETECTION:2||MULTIPLE DETECTION:2||aromatic polyimides:2||MOLECULARWEIGHT HOMOPOLYMERS:2||BINARYMIXTURE:2||PATTERNS:2||photoluminescent polyimide:2||photosensitive polyimide:2||DEPENDENT MICELLIZATION:2||SPEED:2||synthesis:2||COIL BLOCKCOPOLYMERS:2||LIQUIDCRYSTALLINE ASSEMBLIES:2||OXIDE):2||molecular weight distribution:2||CONJUGATED POLYMER:2||polymer characterization:2||NONIONIC SURFACTANTS:2||STEREOREGULAR POLY(METHYL METHACRYLATE):2||structure:2||RODLIKE POLYIMIDE:2||FLEXIBLE POLYIMIDE:2||THERMAL IMIDIZATION:2||IN SITU RODCHAIN FORMATION:2||PHASESEPARATION:2||VINYL ETHER):2||EQUILIBRIUM:2||STRESS:2||STRUCTURAL RELAXATION:2||LIVING POLYMERIZATION:2||CONTAIN:2||SALT:2||WAVEGUIDE:2||XRAY DIFFRACTION:2||WALLED CARBON NANOTUBES:2||SILICON NANOWIRES:2||IR:2||DIELECTRIC THINFILMS:2||Selfassembled monolayer:2||PARAMETERS:2||Temperature gradient interaction chromatography:2||SOLIDSURFACES:2||FLOW:2||RATES:2||PRECURSORS:2||FILM BALANCE:2||SIDECHAINS:2||SUPRAMOLECULAR MATERIALS:2||CHAINS:2||POLYSTYRENE:39||ANIONICPOLYMERIZATION:34||GRADIENT INTERACTION CHROMATOGRAPHY:31||SEPARATION:27||BEHAVIOR:24||LIQUIDCHROMATOGRAPHY:22||POLYMERS:22||SIZEEXCLUSION CHROMATOGRAPHY:19||BLOCKCOPOLYMERS:17||DIBLOCK COPOLYMERS:17||THINFILMS:16||POLYISOPRENE:14||HPLC:13||SYNTHETICPOLYMERS:12||PERFORMANCE LIQUIDCHROMATOGRAPHY:11||DIBLOCK COPOLYMER:11||MOLECULARWEIGHT DISTRIBUTION:10||MACROMOLECULES:10||BLOCKCOPOLYMER:10||REVERSEDPHASE:10||RETENTION BEHAVIOR:10||MORPHOLOGY:9||MOLECULARWEIGHT:9||MELTS:9||AROMATIC POLYIMIDES:8||XRAYSCATTERING:8||polystyrene:8||MIXTURES:7||block copolymer:7||SURFACES:7||DEPENDENCE:7||COPOLYMERS:7||POLYMERIZATION:7||AIR/WATER INTERFACE:7||DEFINED BRUSH POLYIMIDE:6||TEMPERATURE:6||FULLY RODLIKE BACKBONE:6||MONOLAYERS:6||POLYIMIDES:6||CHAIN:6||COMPLEX POLYMERS:6||MOLECULARREORIENTATION:6||temperature gradient interaction chromatography:6||POLYMERFILMS:6||GELPERMEATION CHROMATOGRAPHY:6||ELUTION:6||ORDERDISORDER TRANSITION:6||SURFACEMORPHOLOGY:6||ORIENTATION:6||SYSTEMS:6||CRITICAL ADSORPTION POINT:6||LIGHTSCATTERING:5||PROBE DIFFUSION:5||POLYDISPERSITY:5||AIRWATERINTERFACE:5||MICROPHASE SEPARATION:5||GLASSTRANSITION:5||BLENDS:5||FILMS:5||ADSORPTION CHROMATOGRAPHY:5||MECHANISM:5||CO2:5||ETHYLENEOXIDE:5||ALIGNMENT:5||COMPLEXES:5||FRACTIONATION:5||MISCIBILITY:5||POLYMER CHARACTERIZATION:5||HEXAGONALLY PERFORATED LAYER:5||TRANSITION:5||FLIGHT MASSSPECTROMETRY:5||ARCHITECTURE:5||POLY(METHYL METHACRYLATE):5||ALTERNATING COPOLYMERIZATION:4||THICKNESS:4||THERMODYNAMICS:4||CRITICAL RANGE:4||ULTRATHIN POLYMERFILMS:4||DYNAMICS:4||CLIMATECHANGE:4||PHASE:4||GLASSTRANSITION TEMPERATURE:4||EPOXIDE:4||selfassembly:4||SPECTROSCOPY:4||SELFDIFFUSION:4||SCATTERING:4||OPTICALPROPERTIES:4||CATALYSTS:4||CHEMISTRY:4||SOLARCELLS:4||polyimides:4||polypyromellitimides:4||SEGMENTAL REORIENTATIONS:4||ADSORPTION:4||INTERFACE:4||POLYMERSOLUTIONS:4||TRACER DIFFUSION:4||OXIDE) DIBLOCK COPOLYMER:4||POLYSTYRENEBPOLY(METHYL METHACRYLATE):4||POLYMER BLENDS:4||SIMULATION:4||CHAIN ORIENTATION:4||STYRENE:4||TOF MASSSPECTROMETRY:4||WATER:4||DISPLAYS:4||OLIGOMERS:4||PEPTIDES:4||CYCLIC POLYSTYRENE:4||LATTICE CLUSTER THEORY:4||2NDHARMONIC GENERATION:4||LIQUIDCRYSTAL ALIGNMENT:4||MONTECARLO:4||LangmuirBlodgett film:3||ASSEMBLIES:3||chromatography:3||HOLOGRAPHIC RELAXATION SPECTROSCOPY:3||MULTIPLE MORPHOLOGIES:3||INTERACTION CHROMATOGRAPHY:3||NORMALPHASE:3||DIFFUSION:3||BRANCHED POLYSTYRENE:3||NANOPARTICLES:3||LITHOGRAPHY:3||POLYMER:3||LASERLIGHTSCATTERING:3||HIGH MOLECULARWEIGHT:3||CUBIC PHASE:3||AMPHIPHILIC BLOCKCOPOLYMERS:3||AQUEOUSSOLUTION:3||MODEL:3||FORCED RAYLEIGHSCATTERING:3||HYDRODYNAMIC PROPERTIES:3||4MIKTOARM STAR COPOLYMER:3||SYSTEM:3||PHASEBEHAVIOR:3||AQUEOUSSOLUTIONS:3||RHEOLOGY:3||LB film:3||2DIMENSIONAL LIQUIDCHROMATOGRAPHY:3||VISCOSITY:3||DIBLOCK COPOLYMER MELTS:3||ORDERORDER TRANSITION:3||GYROID PHASE:3||BINDING:3||BLOCK POLYELECTROLYTES:3||DERIVATIVES:3||MELT:3||PHASE LIQUIDCHROMATOGRAPHY:3||high temperature:3||ELEVATEDTEMPERATURE:3||RETENTION:3||MICELLE FORMATION:3||ELECTRONMICROSCOPY:3||Electrospray ionization:2||FRACTIONS:2||nalkanes:2||ISOCRATIC SEPARATION:2||ASSOCIATION:2||POLY(METHYL METHACRYLATE)S:2||2D correlation spectroscopy:2||CARBONATION:2||GLASSTRANSITION BEHAVIORS:2||MECHANICAL PROPERTIES:2||DIMENSIONS:2||POLYMER MIXTURES:2||ALUMINUM PORPHYRIN:2||LEAD STEARATE:2||FERROCENE:2||POLY(EPSILONCAPROLACTONE):2||DIAGRAM:2||nucleosides:2||Selective recognition by preconcentration:2||Electrochemical impedance spectroscopy:2||DOPAMINE:2||Silica:2||Silyl Ester:2||DIETHYL ESTER) PRECURSORS:2||SURFACE CHARACTERIZATION:2||MICROSTRUCTURE:2||polystyreneblockpolyisoprene:2||MICROPHASESEPARATED STRUCTURES:2||IMPEDANCE MEASUREMENTS:2||HEMEPROTEINS:2||SOLID SUBSTRATE:2||MOISTURE ABSORPTION:2||aromatic polyimide:2||INDUCED MORPHOLOGICALCHANGES:2||STABILITY:2||LC alignment layers:2||POLYPYROMELLITIMIDES:2||Ion mobility:2||Chiral polymer:2||OLIGOSACCHARIDES:2||OXIDE:2||SIDECHAIN:2||RETARDATION:2||functionality:2||temperature effects:2||phase transition:2||glass transition temperature:2||spincoated film:2||ESTER) PRECURSORS:2||PRECURSOR BLEND:2||Xray reflectivity:2||SIGMABONDS:2||aluminum porphyrin catalysts:2||METALLOPORPHYRIN:2||SILICON:2||MASSSPECTROMETRY ANALYSIS:2||STAR POLYMERS:2||SIZE DISTRIBUTIONS:2||GIANT VESICLES:2||POLY(3ALKYLTHIOPHENES):2||ADHESION:2||LIGHT:2||POLYSTYRENEBPOLYISOPRENE:2||HPLC fractionation:2||SILVER ELECTRODES:2||ENHANCED RESONANCE RAMAN:2||SEQUENCE:2||POLYELECTROLYTE/NONELECTROLYTE SHELLS:2||polyimide:2||liquid crystal alignment layer:2||SOLUBLE POLYIMIDES:2||POLYBUTADIENECOATED ZIRCONIA:2||PRETILT ANGLES:2||CROSSSECTIONS:2||IMSMS:2||POLYISOPRENE COPOLYMERS:2||POLYIMIDE THINFILMS:2||POLYMER SURFACES:2||RAMAN:2||STEREOREGULAR PMMA:2||poly(tertbutyl methacrylate) (PtBMA):2||TIME:2||POLYIMIDE COMPOSITE:2||CARBOXYLATO COMPLEXES:2||AGOSTIC INTERACTIONS:2||MOLECULARSTRUCTURE:2||ALKENE:2||TRANSISTOR MEMORY:2||DEVICES:2||ORTHOGONALITY:2||molecular characterization:2||ORGANOSILICATE DIELECTRIC FILMS:2||AMPHIPHILES:2||Serotonin:2||Anodic stripping differential pulse voltammetry:2||transmission electron microtomography:2||LIQUIDCHROMATOGRAPHY ANALYSIS:2||PHASEDIAGRAM:2||CARBON NANOTUBES:2||TRANSFER MECHANISM:2||BINARY MIXTURES:2||REFLECTOMETRY:2||ROD:2||DROPS:2||CONSTANT:2||TRIBLOCK COPOLYMER:2||POLYMER VESICLES:2||CLICK CHEMISTRY:2||ARRAYS:2||COMPOSITES:2||MALDITOF MS:2||POLYMER THINFILMS:2||HYDROPHOBIC INTERACTION CHROMATOGRAPHY:2||retention mechanism:2||GRAZINGINCIDENCE:2||NANOPOROSITY:2||soluble poly(amic esteraltimide)s:2||DIFFERENTIAL SCANNING CALORIMETRY:2||RESIDUALSTRESS:2||CHEMICALCOMPOSITION:2||POLY(AMIC DIETHYL ESTER) PRECURSOR:2||POLY(DIMETHYL SILOXANES):2||MASS POLYSTYRENES:2||cyclic propylene carbonate:2||propylene oxide:2||ACETATE) TOLUENE SOLUTIONS:2||TRANSIENT GRATING METHOD:2||MASS DIFFUSION:2||MICROPHASE SEPARATION TRANSITION:2||POLYSTYRENES:2||POLYSILANE:2||CARBOHYDRATEBASED PHOSPHOLIPIDS:2||HELICAL STRANDS:2||FLUORESCENCE DETECTION:2||SENSITIVE DETERMINATION:2||COMPOSITE FILMS:2||microphase:2||3MERCAPTOPROPIONIC ACID:2||BUTADIENE BLOCK COPOLYMER:2||HYBRID POLYMERIC MICELLES:2||AQUEOUSMEDIA:2||CONTACTANGLE:2||TRANSISTORCIRCUITS:2||ABTYPE POLY(ETHERIMIDE)S:2||CORRELATION SPECTROSCOPY:2||GASPHASE CONFORMATIONS:2||DECANE:2||INFRAREDSPECTROSCOPY:2||MICELLIZATION:2||ENERGIES:2||ACID) PRECURSORS:2||PHOTOALIGNMENT:2||polymers:2||SUBSTRATE:2||carbon dioxide:2||oligomeric propylene carbonate:2||THERMALDIFFUSION:2||CRYSTAL:2||PHASETRANSITION:2||REFLECTIVITY:2||ANALOGS:2||supramolecular chemistry:2||LYSOPHOSPHATIDIC ACID:2||PHOSPHOCHOLINE:2||POLY(3HEXYLTHIOPHENE):2||Receptor:2||MODIFIED GOLD ELECTRODES:2||ASCORBICACID:2||HUMAN URINE:2||Hybrid Nanocomposite:2||Dielectric Constant:2||AU(111) ELECTRODES:2||NANOFILMS:2||HYDROPHOBIC CORES:2||DRIVEN:2||FLEXIBLE SIDECHAINS:2||MESOGEN:2||size exclusion chromatography:2||ORGANIZATION:2||POLY(LACTIC ACID):2||MOLECULAR ARCHITECTURE:2||COUPLER:2||POLYSTYRENE COPOLYMER:2||diffusion coefficient:2||XRAY REFLECTIVITY:2||temperature gradient interaction chromatography polystyryllithium:2||VISCOELASTIC PROPERTIES:2||polyisoprene:2||CRYSTALSTRUCTURES:2||POLYCARBONATE:2||MULTILAYERS:2||DEPOSITION:2||FULL ADSORPTION MECHANISMS:2||QUANTUM DOTS:2||CRITICAL ORDERING TRANSITION:2||CORE:2||PARACRYSTALLINE DISTORTION:2||PERFORATED LAYER PHASE:2||liposomes:2||phospholipids:2||UNILAMELLAR VESICLES:2||VOLTAMMETRIC DETERMINATION:2||Polyimide:2||FOURIERTRANSFORM:2||SURFACE:2||SIZE EXCLUSION CHROMATOGRAPHY:2||NEUTRON REFLECTIVITY:2||ORDERED STRUCTURE:2||RIGID ROD POLYMERS:2||DISPLACEMENT POLYMERIZATION:2||PHOTOSENSITIVE POLYIMIDE:2||EFFICIENCY:2||films:2||Polylactide:2||CHROMATOGRAPHIC CRITICAL CONDITION:2||RETENTION MECHANISM:2||COPPER PHTHALOCYANINE:2||C60:2||COPOLYMER:2||micelle:2||LINEAR POLYETHYLENE:2||LIQUIDS:2||ARMS:2||HIGHPERFORMANCE LIQUID:2||alternating copolyimides:2||PHASE SEPARATION:2||POLYMERCHAINS:2||STYRYLPYRIDINIUM:2||ANGLES:2||MOBILITY:2||PROBE:2||ACIDS:2||BLUE:2||POSITIONS:2||CYCLOPENTADIENYL:2||HIGHMOLECULARWEIGHT:2||FUELCELLS:2||TIN OXIDE:2||NANOCRYSTALS:2||SURFACE MICELLE FORMATION:2||DISORDER TRANSITION:2||BIREFRINGENCE:2||LIPIDCOMPOSITION:2||CONJUGATED POLYMERS:2||GLASSYCARBON ELECTRODE:2||ELECTROCHEMICAL DETECTION:2||MULTIPLE DETECTION:2||aromatic polyimides:2||MOLECULARWEIGHT HOMOPOLYMERS:2||BINARYMIXTURE:2||PATTERNS:2||photoluminescent polyimide:2||photosensitive polyimide:2||DEPENDENT MICELLIZATION:2||SPEED:2||synthesis:2||COIL BLOCKCOPOLYMERS:2||LIQUIDCRYSTALLINE ASSEMBLIES:2||OXIDE):2||molecular weight distribution:2||CONJUGATED POLYMER:2||polymer characterization:2||NONIONIC SURFACTANTS:2||STEREOREGULAR POLY(METHYL METHACRYLATE):2||structure:2||RODLIKE POLYIMIDE:2||FLEXIBLE POLYIMIDE:2||THERMAL IMIDIZATION:2||IN SITU RODCHAIN FORMATION:2||PHASESEPARATION:2||VINYL ETHER):2||EQUILIBRIUM:2||STRESS:2||STRUCTURAL RELAXATION:2||LIVING POLYMERIZATION:2||CONTAIN:2||SALT:2||WAVEGUIDE:2||XRAY DIFFRACTION:2||WALLED CARBON NANOTUBES:2||SILICON NANOWIRES:2||IR:2||DIELECTRIC THINFILMS:2||Selfassembled monolayer:2||PARAMETERS:2||Temperature gradient interaction chromatography:2||SOLIDSURFACES:2||FLOW:2||RATES:2||PRECURSORS:2||FILM BALANCE:2||SIDECHAINS:2||SUPRAMOLECULAR MATERIALS:2||CHAINS:2||POLYSTYRENE:39||ANIONICPOLYMERIZATION:34||GRADIENT INTERACTION CHROMATOGRAPHY:31||SEPARATION:27||BEHAVIOR:24||LIQUIDCHROMATOGRAPHY:22||POLYMERS:22||SIZEEXCLUSION CHROMATOGRAPHY:19||BLOCKCOPOLYMERS:17||DIBLOCK COPOLYMERS:17||THINFILMS:16||POLYISOPRENE:14||HPLC:13||SYNTHETICPOLYMERS:12||PERFORMANCE LIQUIDCHROMATOGRAPHY:11||DIBLOCK COPOLYMER:11||MOLECULARWEIGHT DISTRIBUTION:10||MACROMOLECULES:10||BLOCKCOPOLYMER:10||REVERSEDPHASE:10||RETENTION BEHAVIOR:10||MORPHOLOGY:9||MOLECULARWEIGHT:9||MELTS:9||AROMATIC POLYIMIDES:8||XRAYSCATTERING:8||polystyrene:8||MIXTURES:7||block copolymer:7||SURFACES:7||DEPENDENCE:7||COPOLYMERS:7||POLYMERIZATION:7||AIR/WATER INTERFACE:7||DEFINED BRUSH POLYIMIDE:6||TEMPERATURE:6||FULLY RODLIKE BACKBONE:6||MONOLAYERS:6||POLYIMIDES:6||CHAIN:6||COMPLEX POLYMERS:6||MOLECULARREORIENTATION:6||temperature gradient interaction chromatography:6||POLYMERFILMS:6||GELPERMEATION CHROMATOGRAPHY:6||ELUTION:6||ORDERDISORDER TRANSITION:6||SURFACEMORPHOLOGY:6||ORIENTATION:6||SYSTEMS:6||CRITICAL ADSORPTION POINT:6||LIGHTSCATTERING:5||PROBE DIFFUSION:5||POLYDISPERSITY:5||AIRWATERINTERFACE:5||MICROPHASE SEPARATION:5||GLASSTRANSITION:5||BLENDS:5||FILMS:5||ADSORPTION CHROMATOGRAPHY:5||MECHANISM:5||CO2:5||ETHYLENEOXIDE:5||ALIGNMENT:5||COMPLEXES:5||FRACTIONATION:5||MISCIBILITY:5||POLYMER CHARACTERIZATION:5||HEXAGONALLY PERFORATED LAYER:5||TRANSITION:5||FLIGHT MASSSPECTROMETRY:5||ARCHITECTURE:5||POLY(METHYL METHACRYLATE):5||ALTERNATING COPOLYMERIZATION:4||THICKNESS:4||THERMODYNAMICS:4||CRITICAL RANGE:4||ULTRATHIN POLYMERFILMS:4||DYNAMICS:4||CLIMATECHANGE:4||PHASE:4||GLASSTRANSITION TEMPERATURE:4||EPOXIDE:4||selfassembly:4||SPECTROSCOPY:4||SELFDIFFUSION:4||SCATTERING:4||OPTICALPROPERTIES:4||CATALYSTS:4||CHEMISTRY:4||SOLARCELLS:4||polyimides:4||polypyromellitimides:4||SEGMENTAL REORIENTATIONS:4||ADSORPTION:4||INTERFACE:4||POLYMERSOLUTIONS:4||TRACER DIFFUSION:4||OXIDE) DIBLOCK COPOLYMER:4||POLYSTYRENEBPOLY(METHYL METHACRYLATE):4||POLYMER BLENDS:4||SIMULATION:4||CHAIN ORIENTATION:4||STYRENE:4||TOF MASSSPECTROMETRY:4||WATER:4||DISPLAYS:4||OLIGOMERS:4||PEPTIDES:4||CYCLIC POLYSTYRENE:4||LATTICE CLUSTER THEORY:4||2NDHARMONIC GENERATION:4||LIQUIDCRYSTAL ALIGNMENT:4||MONTECARLO:4||LangmuirBlodgett film:3||ASSEMBLIES:3||chromatography:3||HOLOGRAPHIC RELAXATION SPECTROSCOPY:3||MULTIPLE MORPHOLOGIES:3||INTERACTION CHROMATOGRAPHY:3||NORMALPHASE:3||DIFFUSION:3||BRANCHED POLYSTYRENE:3||NANOPARTICLES:3||LITHOGRAPHY:3||POLYMER:3||LASERLIGHTSCATTERING:3||HIGH MOLECULARWEIGHT:3||CUBIC PHASE:3||AMPHIPHILIC BLOCKCOPOLYMERS:3||AQUEOUSSOLUTION:3||MODEL:3||FORCED RAYLEIGHSCATTERING:3||HYDRODYNAMIC PROPERTIES:3||4MIKTOARM STAR COPOLYMER:3||SYSTEM:3||PHASEBEHAVIOR:3||AQUEOUSSOLUTIONS:3||RHEOLOGY:3||LB film:3||2DIMENSIONAL LIQUIDCHROMATOGRAPHY:3||VISCOSITY:3||DIBLOCK COPOLYMER MELTS:3||ORDERORDER TRANSITION:3||GYROID PHASE:3||BINDING:3||BLOCK POLYELECTROLYTES:3||DERIVATIVES:3||MELT:3||PHASE LIQUIDCHROMATOGRAPHY:3||high temperature:3||ELEVATEDTEMPERATURE:3||RETENTION:3||MICELLE FORMATION:3||ELECTRONMICROSCOPY:3||Electrospray ionization:2||FRACTIONS:2||nalkanes:2||ISOCRATIC SEPARATION:2||ASSOCIATION:2||POLY(METHYL METHACRYLATE)S:2||2D correlation spectroscopy:2||CARBONATION:2||GLASSTRANSITION BEHAVIORS:2||MECHANICAL PROPERTIES:2||DIMENSIONS:2||POLYMER MIXTURES:2||ALUMINUM PORPHYRIN:2||LEAD STEARATE:2||FERROCENE:2||POLY(EPSILONCAPROLACTONE):2||DIAGRAM:2||nucleosides:2||Selective recognition by preconcentration:2||Electrochemical impedance spectroscopy:2||DOPAMINE:2||Silica:2||Silyl Ester:2||DIETHYL ESTER) PRECURSORS:2||SURFACE CHARACTERIZATION:2||MICROSTRUCTURE:2||polystyreneblockpolyisoprene:2||MICROPHASESEPARATED STRUCTURES:2||IMPEDANCE MEASUREMENTS:2||HEMEPROTEINS:2||SOLID SUBSTRATE:2||MOISTURE ABSORPTION:2||aromatic polyimide:2||INDUCED MORPHOLOGICALCHANGES:2||STABILITY:2||LC alignment layers:2||POLYPYROMELLITIMIDES:2||Ion mobility:2||Chiral polymer:2||OLIGOSACCHARIDES:2||OXIDE:2||SIDECHAIN:2||RETARDATION:2||functionality:2||temperature effects:2||phase transition:2||glass transition temperature:2||spincoated film:2||ESTER) PRECURSORS:2||PRECURSOR BLEND:2||Xray reflectivity:2||SIGMABONDS:2||aluminum porphyrin catalysts:2||METALLOPORPHYRIN:2||SILICON:2||MASSSPECTROMETRY ANALYSIS:2||STAR POLYMERS:2||SIZE DISTRIBUTIONS:2||GIANT VESICLES:2||POLY(3ALKYLTHIOPHENES):2||ADHESION:2||LIGHT:2||POLYSTYRENEBPOLYISOPRENE:2||HPLC fractionation:2||SILVER ELECTRODES:2||ENHANCED RESONANCE RAMAN:2||SEQUENCE:2||POLYELECTROLYTE/NONELECTROLYTE SHELLS:2||polyimide:2||liquid crystal alignment layer:2||SOLUBLE POLYIMIDES:2||POLYBUTADIENECOATED ZIRCONIA:2||PRETILT ANGLES:2||CROSSSECTIONS:2||IMSMS:2||POLYISOPRENE COPOLYMERS:2||POLYIMIDE THINFILMS:2||POLYMER SURFACES:2||RAMAN:2||STEREOREGULAR PMMA:2||poly(tertbutyl methacrylate) (PtBMA):2||TIME:2||POLYIMIDE COMPOSITE:2||CARBOXYLATO COMPLEXES:2||AGOSTIC INTERACTIONS:2||MOLECULARSTRUCTURE:2||ALKENE:2||TRANSISTOR MEMORY:2||DEVICES:2||ORTHOGONALITY:2||molecular characterization:2||ORGANOSILICATE DIELECTRIC FILMS:2||AMPHIPHILES:2||Serotonin:2||Anodic stripping differential pulse voltammetry:2||transmission electron microtomography:2||LIQUIDCHROMATOGRAPHY ANALYSIS:2||PHASEDIAGRAM:2||CARBON NANOTUBES:2||TRANSFER MECHANISM:2||BINARY MIXTURES:2||REFLECTOMETRY:2||ROD:2||DROPS:2||CONSTANT:2||TRIBLOCK COPOLYMER:2||POLYMER VESICLES:2||CLICK CHEMISTRY:2||ARRAYS:2||COMPOSITES:2||MALDITOF MS:2||POLYMER THINFILMS:2||HYDROPHOBIC INTERACTION CHROMATOGRAPHY:2||retention mechanism:2||GRAZINGINCIDENCE:2||NANOPOROSITY:2||soluble poly(amic esteraltimide)s:2||DIFFERENTIAL SCANNING CALORIMETRY:2||RESIDUALSTRESS:2||CHEMICALCOMPOSITION:2||POLY(AMIC DIETHYL ESTER) PRECURSOR:2||POLY(DIMETHYL SILOXANES):2||MASS POLYSTYRENES:2||cyclic propylene carbonate:2||propylene oxide:2||ACETATE) TOLUENE SOLUTIONS:2||TRANSIENT GRATING METHOD:2||MASS DIFFUSION:2||MICROPHASE SEPARATION TRANSITION:2||POLYSTYRENES:2||POLYSILANE:2||CARBOHYDRATEBASED PHOSPHOLIPIDS:2||HELICAL STRANDS:2||FLUORESCENCE DETECTION:2||SENSITIVE DETERMINATION:2||COMPOSITE FILMS:2||microphase:2||3MERCAPTOPROPIONIC ACID:2||BUTADIENE BLOCK COPOLYMER:2||HYBRID POLYMERIC MICELLES:2||AQUEOUSMEDIA:2||CONTACTANGLE:2||TRANSISTORCIRCUITS:2||ABTYPE POLY(ETHERIMIDE)S:2||CORRELATION SPECTROSCOPY:2||GASPHASE CONFORMATIONS:2||DECANE:2||INFRAREDSPECTROSCOPY:2||MICELLIZATION:2||ENERGIES:2||ACID) PRECURSORS:2||PHOTOALIGNMENT:2||polymers:2||SUBSTRATE:2||carbon dioxide:2||oligomeric propylene carbonate:2||THERMALDIFFUSION:2||CRYSTAL:2||PHASETRANSITION:2||REFLECTIVITY:2||ANALOGS:2||supramolecular chemistry:2||LYSOPHOSPHATIDIC ACID:2||PHOSPHOCHOLINE:2||POLY(3HEXYLTHIOPHENE):2||Receptor:2||MODIFIED GOLD ELECTRODES:2||ASCORBICACID:2||HUMAN URINE:2||Hybrid Nanocomposite:2||Dielectric Constant:2||AU(111) ELECTRODES:2||NANOFILMS:2||HYDROPHOBIC CORES:2||DRIVEN:2||FLEXIBLE SIDECHAINS:2||MESOGEN:2||size exclusion chromatography:2||ORGANIZATION:2||POLY(LACTIC ACID):2||MOLECULAR ARCHITECTURE:2||COUPLER:2||POLYSTYRENE COPOLYMER:2||diffusion coefficient:2||XRAY REFLECTIVITY:2||temperature gradient interaction chromatography polystyryllithium:2||VISCOELASTIC PROPERTIES:2||polyisoprene:2||CRYSTALSTRUCTURES:2||POLYCARBONATE:2||MULTILAYERS:2||DEPOSITION:2||FULL ADSORPTION MECHANISMS:2||QUANTUM DOTS:2||CRITICAL ORDERING TRANSITION:2||CORE:2||PARACRYSTALLINE DISTORTION:2||PERFORATED LAYER PHASE:2||liposomes:2||phospholipids:2||UNILAMELLAR VESICLES:2||VOLTAMMETRIC DETERMINATION:2||Polyimide:2||FOURIERTRANSFORM:2||SURFACE:2||SIZE EXCLUSION CHROMATOGRAPHY:2||NEUTRON REFLECTIVITY:2||ORDERED STRUCTURE:2||RIGID ROD POLYMERS:2||DISPLACEMENT POLYMERIZATION:2||PHOTOSENSITIVE POLYIMIDE:2||EFFICIENCY:2||films:2||Polylactide:2||CHROMATOGRAPHIC CRITICAL CONDITION:2||RETENTION MECHANISM:2||COPPER PHTHALOCYANINE:2||C60:2||COPOLYMER:2||micelle:2||LINEAR POLYETHYLENE:2||LIQUIDS:2||ARMS:2||HIGHPERFORMANCE LIQUID:2||alternating copolyimides:2||PHASE SEPARATION:2||POLYMERCHAINS:2||STYRYLPYRIDINIUM:2||ANGLES:2||MOBILITY:2||PROBE:2||ACIDS:2||BLUE:2||POSITIONS:2||CYCLOPENTADIENYL:2||HIGHMOLECULARWEIGHT:2||FUELCELLS:2||TIN OXIDE:2||NANOCRYSTALS:2||SURFACE MICELLE FORMATION:2||DISORDER TRANSITION:2||BIREFRINGENCE:2||LIPIDCOMPOSITION:2||CONJUGATED POLYMERS:2||GLASSYCARBON ELECTRODE:2||ELECTROCHEMICAL DETECTION:2||MULTIPLE DETECTION:2||aromatic polyimides:2||MOLECULARWEIGHT HOMOPOLYMERS:2||BINARYMIXTURE:2||PATTERNS:2||photoluminescent polyimide:2||photosensitive polyimide:2||DEPENDENT MICELLIZATION:2||SPEED:2||synthesis:2||COIL BLOCKCOPOLYMERS:2||LIQUIDCRYSTALLINE ASSEMBLIES:2||OXIDE):2||molecular weight distribution:2||CONJUGATED POLYMER:2||polymer characterization:2||NONIONIC SURFACTANTS:2||STEREOREGULAR POLY(METHYL METHACRYLATE):2||structure:2||RODLIKE POLYIMIDE:2||FLEXIBLE POLYIMIDE:2||THERMAL IMIDIZATION:2||IN SITU RODCHAIN FORMATION:2||PHASESEPARATION:2||VINYL ETHER):2||EQUILIBRIUM:2||STRESS:2||STRUCTURAL RELAXATION:2||LIVING POLYMERIZATION:2||CONTAIN:2||SALT:2||WAVEGUIDE:2||XRAY DIFFRACTION:2||WALLED CARBON NANOTUBES:2||SILICON NANOWIRES:2||IR:2||DIELECTRIC THINFILMS:2||Selfassembled monolayer:2||PARAMETERS:2||Temperature gradient interaction chromatography:2||SOLIDSURFACES:2||FLOW:2||RATES:2||PRECURSORS:2||FILM BALANCE:2||SIDECHAINS:2||SUPRAMOLECULAR MATERIALS:2||CHAINS:2||POLYSTYRENE:39||ANIONICPOLYMERIZATION:34||GRADIENT INTERACTION CHROMATOGRAPHY:31||SEPARATION:27||BEHAVIOR:24||LIQUIDCHROMATOGRAPHY:22||POLYMERS:22||SIZEEXCLUSION CHROMATOGRAPHY:19||BLOCKCOPOLYMERS:17||DIBLOCK COPOLYMERS:17||THINFILMS:16||POLYISOPRENE:14||HPLC:13||SYNTHETICPOLYMERS:12||PERFORMANCE LIQUIDCHROMATOGRAPHY:11||DIBLOCK COPOLYMER:11||MOLECULARWEIGHT DISTRIBUTION:10||MACROMOLECULES:10||BLOCKCOPOLYMER:10||REVERSEDPHASE:10||RETENTION BEHAVIOR:10||MORPHOLOGY:9||MOLECULARWEIGHT:9||MELTS:9||AROMATIC POLYIMIDES:8||XRAYSCATTERING:8||polystyrene:8||MIXTURES:7||block copolymer:7||SURFACES:7||DEPENDENCE:7||COPOLYMERS:7||POLYMERIZATION:7||AIR/WATER INTERFACE:7||DEFINED BRUSH POLYIMIDE:6||TEMPERATURE:6||FULLY RODLIKE BACKBONE:6||MONOLAYERS:6||POLYIMIDES:6||CHAIN:6||COMPLEX POLYMERS:6||MOLECULARREORIENTATION:6||temperature gradient interaction chromatography:6||POLYMERFILMS:6||GELPERMEATION CHROMATOGRAPHY:6||ELUTION:6||ORDERDISORDER TRANSITION:6||SURFACEMORPHOLOGY:6||ORIENTATION:6||SYSTEMS:6||CRITICAL ADSORPTION POINT:6||LIGHTSCATTERING:5||PROBE DIFFUSION:5||POLYDISPERSITY:5||AIRWATERINTERFACE:5||MICROPHASE SEPARATION:5||GLASSTRANSITION:5||BLENDS:5||FILMS:5||ADSORPTION CHROMATOGRAPHY:5||MECHANISM:5||CO2:5||ETHYLENEOXIDE:5||ALIGNMENT:5||COMPLEXES:5||FRACTIONATION:5||MISCIBILITY:5||POLYMER CHARACTERIZATION:5||HEXAGONALLY PERFORATED LAYER:5||TRANSITION:5||FLIGHT MASSSPECTROMETRY:5||ARCHITECTURE:5||POLY(METHYL METHACRYLATE):5||ALTERNATING COPOLYMERIZATION:4||THICKNESS:4||THERMODYNAMICS:4||CRITICAL RANGE:4||ULTRATHIN POLYMERFILMS:4||DYNAMICS:4||CLIMATECHANGE:4||PHASE:4||GLASSTRANSITION TEMPERATURE:4||EPOXIDE:4||selfassembly:4||SPECTROSCOPY:4||SELFDIFFUSION:4||SCATTERING:4||OPTICALPROPERTIES:4||CATALYSTS:4||CHEMISTRY:4||SOLARCELLS:4||polyimides:4||polypyromellitimides:4||SEGMENTAL REORIENTATIONS:4||ADSORPTION:4||INTERFACE:4||POLYMERSOLUTIONS:4||TRACER DIFFUSION:4||OXIDE) DIBLOCK COPOLYMER:4||POLYSTYRENEBPOLY(METHYL METHACRYLATE):4||POLYMER BLENDS:4||SIMULATION:4||CHAIN ORIENTATION:4||STYRENE:4||TOF MASSSPECTROMETRY:4||WATER:4||DISPLAYS:4||OLIGOMERS:4||PEPTIDES:4||CYCLIC POLYSTYRENE:4||LATTICE CLUSTER THEORY:4||2NDHARMONIC GENERATION:4||LIQUIDCRYSTAL ALIGNMENT:4||MONTECARLO:4||LangmuirBlodgett film:3||ASSEMBLIES:3||chromatography:3||HOLOGRAPHIC RELAXATION SPECTROSCOPY:3||MULTIPLE MORPHOLOGIES:3||INTERACTION CHROMATOGRAPHY:3||NORMALPHASE:3||DIFFUSION:3||BRANCHED POLYSTYRENE:3||NANOPARTICLES:3||LITHOGRAPHY:3||POLYMER:3||LASERLIGHTSCATTERING:3||HIGH MOLECULARWEIGHT:3||CUBIC PHASE:3||AMPHIPHILIC BLOCKCOPOLYMERS:3||AQUEOUSSOLUTION:3||MODEL:3||FORCED RAYLEIGHSCATTERING:3||HYDRODYNAMIC PROPERTIES:3||4MIKTOARM STAR COPOLYMER:3||SYSTEM:3||PHASEBEHAVIOR:3||AQUEOUSSOLUTIONS:3||RHEOLOGY:3||LB film:3||2DIMENSIONAL LIQUIDCHROMATOGRAPHY:3||VISCOSITY:3||DIBLOCK COPOLYMER MELTS:3||ORDERORDER TRANSITION:3||GYROID PHASE:3||BINDING:3||BLOCK POLYELECTROLYTES:3||DERIVATIVES:3||MELT:3||PHASE LIQUIDCHROMATOGRAPHY:3||high temperature:3||ELEVATEDTEMPERATURE:3||RETENTION:3||MICELLE FORMATION:3||ELECTRONMICROSCOPY:3||Electrospray ionization:2||FRACTIONS:2||nalkanes:2||ISOCRATIC SEPARATION:2||ASSOCIATION:2||POLY(METHYL METHACRYLATE)S:2||2D correlation spectroscopy:2||CARBONATION:2||GLASSTRANSITION BEHAVIORS:2||MECHANICAL PROPERTIES:2||DIMENSIONS:2||POLYMER MIXTURES:2||ALUMINUM PORPHYRIN:2||LEAD STEARATE:2||FERROCENE:2||POLY(EPSILONCAPROLACTONE):2||DIAGRAM:2||nucleosides:2||Selective recognition by preconcentration:2||Electrochemical impedance spectroscopy:2||DOPAMINE:2||Silica:2||Silyl Ester:2||DIETHYL ESTER) PRECURSORS:2||SURFACE CHARACTERIZATION:2||MICROSTRUCTURE:2||polystyreneblockpolyisoprene:2||MICROPHASESEPARATED STRUCTURES:2||IMPEDANCE MEASUREMENTS:2||HEMEPROTEINS:2||SOLID SUBSTRATE:2||MOISTURE ABSORPTION:2||aromatic polyimide:2||INDUCED MORPHOLOGICALCHANGES:2||STABILITY:2||LC alignment layers:2||POLYPYROMELLITIMIDES:2||Ion mobility:2||Chiral polymer:2||OLIGOSACCHARIDES:2||OXIDE:2||SIDECHAIN:2||RETARDATION:2||functionality:2||temperature effects:2||phase transition:2||glass transition temperature:2||spincoated film:2||ESTER) PRECURSORS:2||PRECURSOR BLEND:2||Xray reflectivity:2||SIGMABONDS:2||aluminum porphyrin catalysts:2||METALLOPORPHYRIN:2||SILICON:2||MASSSPECTROMETRY ANALYSIS:2||STAR POLYMERS:2||SIZE DISTRIBUTIONS:2||GIANT VESICLES:2||POLY(3ALKYLTHIOPHENES):2||ADHESION:2||LIGHT:2||POLYSTYRENEBPOLYISOPRENE:2||HPLC fractionation:2||SILVER ELECTRODES:2||ENHANCED RESONANCE RAMAN:2||SEQUENCE:2||POLYELECTROLYTE/NONELECTROLYTE SHELLS:2||polyimide:2||liquid crystal alignment layer:2||SOLUBLE POLYIMIDES:2||POLYBUTADIENECOATED ZIRCONIA:2||PRETILT ANGLES:2||CROSSSECTIONS:2||IMSMS:2||POLYISOPRENE COPOLYMERS:2||POLYIMIDE THINFILMS:2||POLYMER SURFACES:2||RAMAN:2||STEREOREGULAR PMMA:2||poly(tertbutyl methacrylate) (PtBMA):2||TIME:2||POLYIMIDE COMPOSITE:2||CARBOXYLATO COMPLEXES:2||AGOSTIC INTERACTIONS:2||MOLECULARSTRUCTURE:2||ALKENE:2||TRANSISTOR MEMORY:2||DEVICES:2||ORTHOGONALITY:2||molecular characterization:2||ORGANOSILICATE DIELECTRIC FILMS:2||AMPHIPHILES:2||Serotonin:2||Anodic stripping differential pulse voltammetry:2||transmission electron microtomography:2||LIQUIDCHROMATOGRAPHY ANALYSIS:2||PHASEDIAGRAM:2||CARBON NANOTUBES:2||TRANSFER MECHANISM:2||BINARY MIXTURES:2||REFLECTOMETRY:2||ROD:2||DROPS:2||CONSTANT:2||TRIBLOCK COPOLYMER:2||POLYMER VESICLES:2||CLICK CHEMISTRY:2||ARRAYS:2||COMPOSITES:2||MALDITOF MS:2||POLYMER THINFILMS:2||HYDROPHOBIC INTERACTION CHROMATOGRAPHY:2||retention mechanism:2||GRAZINGINCIDENCE:2||NANOPOROSITY:2||soluble poly(amic esteraltimide)s:2||DIFFERENTIAL SCANNING CALORIMETRY:2||RESIDUALSTRESS:2||CHEMICALCOMPOSITION:2||POLY(AMIC DIETHYL ESTER) PRECURSOR:2||POLY(DIMETHYL SILOXANES):2||MASS POLYSTYRENES:2||cyclic propylene carbonate:2||propylene oxide:2||ACETATE) TOLUENE SOLUTIONS:2||TRANSIENT GRATING METHOD:2||MASS DIFFUSION:2||MICROPHASE SEPARATION TRANSITION:2||POLYSTYRENES:2||POLYSILANE:2||CARBOHYDRATEBASED PHOSPHOLIPIDS:2||HELICAL STRANDS:2||FLUORESCENCE DETECTION:2||SENSITIVE DETERMINATION:2||COMPOSITE FILMS:2||microphase:2||3MERCAPTOPROPIONIC ACID:2||BUTADIENE BLOCK COPOLYMER:2||HYBRID POLYMERIC MICELLES:2||AQUEOUSMEDIA:2||CONTACTANGLE:2||TRANSISTORCIRCUITS:2||ABTYPE POLY(ETHERIMIDE)S:2||CORRELATION SPECTROSCOPY:2||GASPHASE CONFORMATIONS:2||DECANE:2||INFRAREDSPECTROSCOPY:2||MICELLIZATION:2||ENERGIES:2||ACID) PRECURSORS:2||PHOTOALIGNMENT:2||polymers:2||SUBSTRATE:2||carbon dioxide:2||oligomeric propylene carbonate:2||THERMALDIFFUSION:2||CRYSTAL:2||PHASETRANSITION:2||REFLECTIVITY:2||ANALOGS:2||supramolecular chemistry:2||LYSOPHOSPHATIDIC ACID:2||PHOSPHOCHOLINE:2||POLY(3HEXYLTHIOPHENE):2||Receptor:2||MODIFIED GOLD ELECTRODES:2||ASCORBICACID:2||HUMAN URINE:2||Hybrid Nanocomposite:2||Dielectric Constant:2||AU(111) ELECTRODES:2||NANOFILMS:2||HYDROPHOBIC CORES:2||DRIVEN:2||FLEXIBLE SIDECHAINS:2||MESOGEN:2||size exclusion chromatography:2||ORGANIZATION:2||POLY(LACTIC ACID):2||MOLECULAR ARCHITECTURE:2||COUPLER:2||POLYSTYRENE COPOLYMER:2||diffusion coefficient:2||XRAY REFLECTIVITY:2||temperature gradient interaction chromatography polystyryllithium:2||VISCOELASTIC PROPERTIES:2||polyisoprene:2||CRYSTALSTRUCTURES:2||POLYCARBONATE:2||MULTILAYERS:2||DEPOSITION:2||FULL ADSORPTION MECHANISMS:2||QUANTUM DOTS:2||CRITICAL ORDERING TRANSITION:2||CORE:2||PARACRYSTALLINE DISTORTION:2||PERFORATED LAYER PHASE:2||liposomes:2||phospholipids:2||UNILAMELLAR VESICLES:2||VOLTAMMETRIC DETERMINATION:2||Polyimide:2||FOURIERTRANSFORM:2||SURFACE:2||SIZE EXCLUSION CHROMATOGRAPHY:2||NEUTRON REFLECTIVITY:2||ORDERED STRUCTURE:2||RIGID ROD POLYMERS:2||DISPLACEMENT POLYMERIZATION:2||PHOTOSENSITIVE POLYIMIDE:2||EFFICIENCY:2||films:2||Polylactide:2||CHROMATOGRAPHIC CRITICAL CONDITION:2||RETENTION MECHANISM:2||COPPER PHTHALOCYANINE:2||C60:2||COPOLYMER:2||micelle:2||LINEAR POLYETHYLENE:2||LIQUIDS:2||ARMS:2||HIGHPERFORMANCE LIQUID:2||alternating copolyimides:2||PHASE SEPARATION:2||POLYMERCHAINS:2||STYRYLPYRIDINIUM:2||ANGLES:2||MOBILITY:2||PROBE:2||ACIDS:2||BLUE:2||POSITIONS:2||CYCLOPENTADIENYL:2||HIGHMOLECULARWEIGHT:2||FUELCELLS:2||TIN OXIDE:2||NANOCRYSTALS:2||SURFACE MICELLE FORMATION:2||DISORDER TRANSITION:2||BIREFRINGENCE:2||LIPIDCOMPOSITION:2||CONJUGATED POLYMERS:2||GLASSYCARBON ELECTRODE:2||ELECTROCHEMICAL DETECTION:2||MULTIPLE DETECTION:2||aromatic polyimides:2||MOLECULARWEIGHT HOMOPOLYMERS:2||BINARYMIXTURE:2||PATTERNS:2||photoluminescent polyimide:2||photosensitive polyimide:2||DEPENDENT MICELLIZATION:2||SPEED:2||synthesis:2||COIL BLOCKCOPOLYMERS:2||LIQUIDCRYSTALLINE ASSEMBLIES:2||OXIDE):2||molecular weight distribution:2||CONJUGATED POLYMER:2||polymer characterization:2||NONIONIC SURFACTANTS:2||STEREOREGULAR POLY(METHYL METHACRYLATE):2||structure:2||RODLIKE POLYIMIDE:2||FLEXIBLE POLYIMIDE:2||THERMAL IMIDIZATION:2||IN SITU RODCHAIN FORMATION:2||PHASESEPARATION:2||VINYL ETHER):2||EQUILIBRIUM:2||STRESS:2||STRUCTURAL RELAXATION:2||LIVING POLYMERIZATION:2||CONTAIN:2||SALT:2||WAVEGUIDE:2||XRAY DIFFRACTION:2||WALLED CARBON NANOTUBES:2||SILICON NANOWIRES:2||IR:2||DIELECTRIC THINFILMS:2||Selfassembled monolayer:2||PARAMETERS:2||Temperature gradient interaction chromatography:2||SOLIDSURFACES:2||FLOW:2||RATES:2||PRECURSORS:2||FILM BALANCE:2||SIDECHAINS:2||SUPRAMOLECULAR MATERIALS:2||CHAINS:2||POLYSTYRENE:39||ANIONICPOLYMERIZATION:34||GRADIENT INTERACTION CHROMATOGRAPHY:31||SEPARATION:27||BEHAVIOR:24||LIQUIDCHROMATOGRAPHY:22||POLYMERS:22||SIZEEXCLUSION CHROMATOGRAPHY:19||BLOCKCOPOLYMERS:17||DIBLOCK COPOLYMERS:17||THINFILMS:16||POLYISOPRENE:14||HPLC:13||SYNTHETICPOLYMERS:12||PERFORMANCE LIQUIDCHROMATOGRAPHY:11||DIBLOCK COPOLYMER:11||MOLECULARWEIGHT DISTRIBUTION:10||MACROMOLECULES:10||BLOCKCOPOLYMER:10||REVERSEDPHASE:10||RETENTION BEHAVIOR:10||MORPHOLOGY:9||MOLECULARWEIGHT:9||MELTS:9||AROMATIC POLYIMIDES:8||XRAYSCATTERING:8||polystyrene:8||MIXTURES:7||block copolymer:7||SURFACES:7||DEPENDENCE:7||COPOLYMERS:7||POLYMERIZATION:7||AIR/WATER INTERFACE:7||DEFINED BRUSH POLYIMIDE:6||TEMPERATURE:6||FULLY RODLIKE BACKBONE:6||MONOLAYERS:6||POLYIMIDES:6||CHAIN:6||COMPLEX POLYMERS:6||MOLECULARREORIENTATION:6||temperature gradient interaction chromatography:6||POLYMERFILMS:6||GELPERMEATION CHROMATOGRAPHY:6||ELUTION:6||ORDERDISORDER TRANSITION:6||SURFACEMORPHOLOGY:6||ORIENTATION:6||SYSTEMS:6||CRITICAL ADSORPTION POINT:6||LIGHTSCATTERING:5||PROBE DIFFUSION:5||POLYDISPERSITY:5||AIRWATERINTERFACE:5||MICROPHASE SEPARATION:5||GLASSTRANSITION:5||BLENDS:5||FILMS:5||ADSORPTION CHROMATOGRAPHY:5||MECHANISM:5||CO2:5||ETHYLENEOXIDE:5||ALIGNMENT:5||COMPLEXES:5||FRACTIONATION:5||MISCIBILITY:5||POLYMER CHARACTERIZATION:5||HEXAGONALLY PERFORATED LAYER:5||TRANSITION:5||FLIGHT MASSSPECTROMETRY:5||ARCHITECTURE:5||POLY(METHYL METHACRYLATE):5||ALTERNATING COPOLYMERIZATION:4||THICKNESS:4||THERMODYNAMICS:4||CRITICAL RANGE:4||ULTRATHIN POLYMERFILMS:4||DYNAMICS:4||CLIMATECHANGE:4||PHASE:4||GLASSTRANSITION TEMPERATURE:4||EPOXIDE:4||selfassembly:4||SPECTROSCOPY:4||SELFDIFFUSION:4||SCATTERING:4||OPTICALPROPERTIES:4||CATALYSTS:4||CHEMISTRY:4||SOLARCELLS:4||polyimides:4||polypyromellitimides:4||SEGMENTAL REORIENTATIONS:4||ADSORPTION:4||INTERFACE:4||POLYMERSOLUTIONS:4||TRACER DIFFUSION:4||OXIDE) DIBLOCK COPOLYMER:4||POLYSTYRENEBPOLY(METHYL METHACRYLATE):4||POLYMER BLENDS:4||SIMULATION:4||CHAIN ORIENTATION:4||STYRENE:4||TOF MASSSPECTROMETRY:4||WATER:4||DISPLAYS:4||OLIGOMERS:4||PEPTIDES:4||CYCLIC POLYSTYRENE:4||LATTICE CLUSTER THEORY:4||2NDHARMONIC GENERATION:4||LIQUIDCRYSTAL ALIGNMENT:4||MONTECARLO:4||LangmuirBlodgett film:3||ASSEMBLIES:3||chromatography:3||HOLOGRAPHIC RELAXATION SPECTROSCOPY:3||MULTIPLE MORPHOLOGIES:3||INTERACTION CHROMATOGRAPHY:3||NORMALPHASE:3||DIFFUSION:3||BRANCHED POLYSTYRENE:3||NANOPARTICLES:3||LITHOGRAPHY:3||POLYMER:3||LASERLIGHTSCATTERING:3||HIGH MOLECULARWEIGHT:3||CUBIC PHASE:3||AMPHIPHILIC BLOCKCOPOLYMERS:3||AQUEOUSSOLUTION:3||MODEL:3||FORCED RAYLEIGHSCATTERING:3||HYDRODYNAMIC PROPERTIES:3||4MIKTOARM STAR COPOLYMER:3||SYSTEM:3||PHASEBEHAVIOR:3||AQUEOUSSOLUTIONS:3||RHEOLOGY:3||LB film:3||2DIMENSIONAL LIQUIDCHROMATOGRAPHY:3||VISCOSITY:3||DIBLOCK COPOLYMER MELTS:3||ORDERORDER TRANSITION:3||GYROID PHASE:3||BINDING:3||BLOCK POLYELECTROLYTES:3||DERIVATIVES:3||MELT:3||PHASE LIQUIDCHROMATOGRAPHY:3||high temperature:3||ELEVATEDTEMPERATURE:3||RETENTION:3||MICELLE FORMATION:3||ELECTRONMICROSCOPY:3||Electrospray ionization:2||FRACTIONS:2||nalkanes:2||ISOCRATIC SEPARATION:2||ASSOCIATION:2||POLY(METHYL METHACRYLATE)S:2||2D correlation spectroscopy:2||CARBONATION:2||GLASSTRANSITION BEHAVIORS:2||MECHANICAL PROPERTIES:2||DIMENSIONS:2||POLYMER MIXTURES:2||ALUMINUM PORPHYRIN:2||LEAD STEARATE:2||FERROCENE:2||POLY(EPSILONCAPROLACTONE):2||DIAGRAM:2||nucleosides:2||Selective recognition by preconcentration:2||Electrochemical impedance spectroscopy:2||DOPAMINE:2||Silica:2||Silyl Ester:2||DIETHYL ESTER) PRECURSORS:2||SURFACE CHARACTERIZATION:2||MICROSTRUCTURE:2||polystyreneblockpolyisoprene:2||MICROPHASESEPARATED STRUCTURES:2||IMPEDANCE MEASUREMENTS:2||HEMEPROTEINS:2||SOLID SUBSTRATE:2||MOISTURE ABSORPTION:2||aromatic polyimide:2||INDUCED MORPHOLOGICALCHANGES:2||STABILITY:2||LC alignment layers:2||POLYPYROMELLITIMIDES:2||Ion mobility:2||Chiral polymer:2||OLIGOSACCHARIDES:2||OXIDE:2||SIDECHAIN:2||RETARDATION:2||functionality:2||temperature effects:2||phase transition:2||glass transition temperature:2||spincoated film:2||ESTER) PRECURSORS:2||PRECURSOR BLEND:2||Xray reflectivity:2||SIGMABONDS:2||aluminum porphyrin catalysts:2||METALLOPORPHYRIN:2||SILICON:2||MASSSPECTROMETRY ANALYSIS:2||STAR POLYMERS:2||SIZE DISTRIBUTIONS:2||GIANT VESICLES:2||POLY(3ALKYLTHIOPHENES):2||ADHESION:2||LIGHT:2||POLYSTYRENEBPOLYISOPRENE:2||HPLC fractionation:2||SILVER ELECTRODES:2||ENHANCED RESONANCE RAMAN:2||SEQUENCE:2||POLYELECTROLYTE/NONELECTROLYTE SHELLS:2||polyimide:2||liquid crystal alignment layer:2||SOLUBLE POLYIMIDES:2||POLYBUTADIENECOATED ZIRCONIA:2||PRETILT ANGLES:2||CROSSSECTIONS:2||IMSMS:2||POLYISOPRENE COPOLYMERS:2||POLYIMIDE THINFILMS:2||POLYMER SURFACES:2||RAMAN:2||STEREOREGULAR PMMA:2||poly(tertbutyl methacrylate) (PtBMA):2||TIME:2||POLYIMIDE COMPOSITE:2||CARBOXYLATO COMPLEXES:2||AGOSTIC INTERACTIONS:2||MOLECULARSTRUCTURE:2||ALKENE:2||TRANSISTOR MEMORY:2||DEVICES:2||ORTHOGONALITY:2||molecular characterization:2||ORGANOSILICATE DIELECTRIC FILMS:2||AMPHIPHILES:2||Serotonin:2||Anodic stripping differential pulse voltammetry:2||transmission electron microtomography:2||LIQUIDCHROMATOGRAPHY ANALYSIS:2||PHASEDIAGRAM:2||CARBON NANOTUBES:2||TRANSFER MECHANISM:2||BINARY MIXTURES:2||REFLECTOMETRY:2||ROD:2||DROPS:2||CONSTANT:2||TRIBLOCK COPOLYMER:2||POLYMER VESICLES:2||CLICK CHEMISTRY:2||ARRAYS:2||COMPOSITES:2||MALDITOF MS:2||POLYMER THINFILMS:2||HYDROPHOBIC INTERACTION CHROMATOGRAPHY:2||retention mechanism:2||GRAZINGINCIDENCE:2||NANOPOROSITY:2||soluble poly(amic esteraltimide)s:2||DIFFERENTIAL SCANNING CALORIMETRY:2||RESIDUALSTRESS:2||CHEMICALCOMPOSITION:2||POLY(AMIC DIETHYL ESTER) PRECURSOR:2||POLY(DIMETHYL SILOXANES):2||MASS POLYSTYRENES:2||cyclic propylene carbonate:2||propylene oxide:2||ACETATE) TOLUENE SOLUTIONS:2||TRANSIENT GRATING METHOD:2||MASS DIFFUSION:2||MICROPHASE SEPARATION TRANSITION:2||POLYSTYRENES:2||POLYSILANE:2||CARBOHYDRATEBASED PHOSPHOLIPIDS:2||HELICAL STRANDS:2||FLUORESCENCE DETECTION:2||SENSITIVE DETERMINATION:2||COMPOSITE FILMS:2||microphase:2||3MERCAPTOPROPIONIC ACID:2||BUTADIENE BLOCK COPOLYMER:2||HYBRID POLYMERIC MICELLES:2||AQUEOUSMEDIA:2||CONTACTANGLE:2||TRANSISTORCIRCUITS:2||ABTYPE POLY(ETHERIMIDE)S:2||CORRELATION SPECTROSCOPY:2||GASPHASE CONFORMATIONS:2||DECANE:2||INFRAREDSPECTROSCOPY:2||MICELLIZATION:2||ENERGIES:2||ACID) PRECURSORS:2||PHOTOALIGNMENT:2||polymers:2||SUBSTRATE:2||carbon dioxide:2||oligomeric propylene carbonate:2||THERMALDIFFUSION:2||CRYSTAL:2||PHASETRANSITION:2||REFLECTIVITY:2||ANALOGS:2||supramolecular chemistry:2||LYSOPHOSPHATIDIC ACID:2||PHOSPHOCHOLINE:2||POLY(3HEXYLTHIOPHENE):2||Receptor:2||MODIFIED GOLD ELECTRODES:2||ASCORBICACID:2||HUMAN URINE:2||Hybrid Nanocomposite:2||Dielectric Constant:2||AU(111) ELECTRODES:2||NANOFILMS:2||HYDROPHOBIC CORES:2||DRIVEN:2||FLEXIBLE SIDECHAINS:2||MESOGEN:2||size exclusion chromatography:2||ORGANIZATION:2||POLY(LACTIC ACID):2||MOLECULAR ARCHITECTURE:2||COUPLER:2||POLYSTYRENE COPOLYMER:2||diffusion coefficient:2||XRAY REFLECTIVITY:2||temperature gradient interaction chromatography polystyryllithium:2||VISCOELASTIC PROPERTIES:2||polyisoprene:2||CRYSTALSTRUCTURES:2||POLYCARBONATE:2||MULTILAYERS:2||DEPOSITION:2||FULL ADSORPTION MECHANISMS:2||QUANTUM DOTS:2||CRITICAL ORDERING TRANSITION:2||CORE:2||PARACRYSTALLINE DISTORTION:2||PERFORATED LAYER PHASE:2||liposomes:2||phospholipids:2||UNILAMELLAR VESICLES:2||VOLTAMMETRIC DETERMINATION:2||Polyimide:2||FOURIERTRANSFORM:2||SURFACE:2||SIZE EXCLUSION CHROMATOGRAPHY:2||NEUTRON REFLECTIVITY:2||ORDERED STRUCTURE:2||RIGID ROD POLYMERS:2||DISPLACEMENT POLYMERIZATION:2||PHOTOSENSITIVE POLYIMIDE:2||EFFICIENCY:2||films:2||Polylactide:2||CHROMATOGRAPHIC CRITICAL CONDITION:2||RETENTION MECHANISM:2||COPPER PHTHALOCYANINE:2||C60:2||COPOLYMER:2||micelle:2||LINEAR POLYETHYLENE:2||LIQUIDS:2||ARMS:2||HIGHPERFORMANCE LIQUID:2||alternating copolyimides:2||PHASE SEPARATION:2||POLYMERCHAINS:2||STYRYLPYRIDINIUM:2||ANGLES:2||MOBILITY:2||PROBE:2||ACIDS:2||BLUE:2||POSITIONS:2||CYCLOPENTADIENYL:2||HIGHMOLECULARWEIGHT:2||FUELCELLS:2||TIN OXIDE:2||NANOCRYSTALS:2||SURFACE MICELLE FORMATION:2||DISORDER TRANSITION:2||BIREFRINGENCE:2||LIPIDCOMPOSITION:2||CONJUGATED POLYMERS:2||GLASSYCARBON ELECTRODE:2||ELECTROCHEMICAL DETECTION:2||MULTIPLE DETECTION:2||aromatic polyimides:2||MOLECULARWEIGHT HOMOPOLYMERS:2||BINARYMIXTURE:2||PATTERNS:2||photoluminescent polyimide:2||photosensitive polyimide:2||DEPENDENT MICELLIZATION:2||SPEED:2||synthesis:2||COIL BLOCKCOPOLYMERS:2||LIQUIDCRYSTALLINE ASSEMBLIES:2||OXIDE):2||molecular weight distribution:2||CONJUGATED POLYMER:2||polymer characterization:2||NONIONIC SURFACTANTS:2||STEREOREGULAR POLY(METHYL METHACRYLATE):2||structure:2||RODLIKE POLYIMIDE:2||FLEXIBLE POLYIMIDE:2||THERMAL IMIDIZATION:2||IN SITU RODCHAIN FORMATION:2||PHASESEPARATION:2||VINYL ETHER):2||EQUILIBRIUM:2||STRESS:2||STRUCTURAL RELAXATION:2||LIVING POLYMERIZATION:2||CONTAIN:2||SALT:2||WAVEGUIDE:2||XRAY DIFFRACTION:2||WALLED CARBON NANOTUBES:2||SILICON NANOWIRES:2||IR:2||DIELECTRIC THINFILMS:2||Selfassembled monolayer:2||PARAMETERS:2||Temperature gradient interaction chromatography:2||SOLIDSURFACES:2||FLOW:2||RATES:2||PRECURSORS:2||FILM BALANCE:2||SIDECHAINS:2||SUPRAMOLECULAR MATERIALS:2||CHAINS:2||POLYSTYRENE:39||ANIONICPOLYMERIZATION:34||GRADIENT INTERACTION CHROMATOGRAPHY:31||SEPARATION:27||BEHAVIOR:24||LIQUIDCHROMATOGRAPHY:22||POLYMERS:22||SIZEEXCLUSION CHROMATOGRAPHY:19||BLOCKCOPOLYMERS:17||DIBLOCK COPOLYMERS:17||THINFILMS:16||POLYISOPRENE:14||HPLC:13||SYNTHETICPOLYMERS:12||PERFORMANCE LIQUIDCHROMATOGRAPHY:11||DIBLOCK COPOLYMER:11||MOLECULARWEIGHT DISTRIBUTION:10||MACROMOLECULES:10||BLOCKCOPOLYMER:10||REVERSEDPHASE:10||RETENTION BEHAVIOR:10||MORPHOLOGY:9||MOLECULARWEIGHT:9||MELTS:9||AROMATIC POLYIMIDES:8||XRAYSCATTERING:8||polystyrene:8||MIXTURES:7||block copolymer:7||SURFACES:7||DEPENDENCE:7||COPOLYMERS:7||POLYMERIZATION:7||AIR/WATER INTERFACE:7||DEFINED BRUSH POLYIMIDE:6||TEMPERATURE:6||FULLY RODLIKE BACKBONE:6||MONOLAYERS:6||POLYIMIDES:6||CHAIN:6||COMPLEX POLYMERS:6||MOLECULARREORIENTATION:6||temperature gradient interaction chromatography:6||POLYMERFILMS:6||GELPERMEATION CHROMATOGRAPHY:6||ELUTION:6||ORDERDISORDER TRANSITION:6||SURFACEMORPHOLOGY:6||ORIENTATION:6||SYSTEMS:6||CRITICAL ADSORPTION POINT:6||LIGHTSCATTERING:5||PROBE DIFFUSION:5||POLYDISPERSITY:5||AIRWATERINTERFACE:5||MICROPHASE SEPARATION:5||GLASSTRANSITION:5||BLENDS:5||FILMS:5||ADSORPTION CHROMATOGRAPHY:5||MECHANISM:5||CO2:5||ETHYLENEOXIDE:5||ALIGNMENT:5||COMPLEXES:5||FRACTIONATION:5||MISCIBILITY:5||POLYMER CHARACTERIZATION:5||HEXAGONALLY PERFORATED LAYER:5||TRANSITION:5||FLIGHT MASSSPECTROMETRY:5||ARCHITECTURE:5||POLY(METHYL METHACRYLATE):5||ALTERNATING COPOLYMERIZATION:4||THICKNESS:4||THERMODYNAMICS:4||CRITICAL RANGE:4||ULTRATHIN POLYMERFILMS:4||DYNAMICS:4||CLIMATECHANGE:4||PHASE:4||GLASSTRANSITION TEMPERATURE:4||EPOXIDE:4||selfassembly:4||SPECTROSCOPY:4||SELFDIFFUSION:4||SCATTERING:4||OPTICALPROPERTIES:4||CATALYSTS:4||CHEMISTRY:4||SOLARCELLS:4||polyimides:4||polypyromellitimides:4||SEGMENTAL REORIENTATIONS:4||ADSORPTION:4||INTERFACE:4||POLYMERSOLUTIONS:4||TRACER DIFFUSION:4||OXIDE) DIBLOCK COPOLYMER:4||POLYSTYRENEBPOLY(METHYL METHACRYLATE):4||POLYMER BLENDS:4||SIMULATION:4||CHAIN ORIENTATION:4||STYRENE:4||TOF MASSSPECTROMETRY:4||WATER:4||DISPLAYS:4||OLIGOMERS:4||PEPTIDES:4||CYCLIC POLYSTYRENE:4||LATTICE CLUSTER THEORY:4||2NDHARMONIC GENERATION:4||LIQUIDCRYSTAL ALIGNMENT:4||MONTECARLO:4||LangmuirBlodgett film:3||ASSEMBLIES:3||chromatography:3||HOLOGRAPHIC RELAXATION SPECTROSCOPY:3||MULTIPLE MORPHOLOGIES:3||INTERACTION CHROMATOGRAPHY:3||NORMALPHASE:3||DIFFUSION:3||BRANCHED POLYSTYRENE:3||NANOPARTICLES:3||LITHOGRAPHY:3||POLYMER:3||LASERLIGHTSCATTERING:3||HIGH MOLECULARWEIGHT:3||CUBIC PHASE:3||AMPHIPHILIC BLOCKCOPOLYMERS:3||AQUEOUSSOLUTION:3||MODEL:3||FORCED RAYLEIGHSCATTERING:3||HYDRODYNAMIC PROPERTIES:3||4MIKTOARM STAR COPOLYMER:3||SYSTEM:3||PHASEBEHAVIOR:3||AQUEOUSSOLUTIONS:3||RHEOLOGY:3||LB film:3||2DIMENSIONAL LIQUIDCHROMATOGRAPHY:3||VISCOSITY:3||DIBLOCK COPOLYMER MELTS:3||ORDERORDER TRANSITION:3||GYROID PHASE:3||BINDING:3||BLOCK POLYELECTROLYTES:3||DERIVATIVES:3||MELT:3||PHASE LIQUIDCHROMATOGRAPHY:3||high temperature:3||ELEVATEDTEMPERATURE:3||RETENTION:3||MICELLE FORMATION:3||ELECTRONMICROSCOPY:3||Electrospray ionization:2||FRACTIONS:2||nalkanes:2||ISOCRATIC SEPARATION:2||ASSOCIATION:2||POLY(METHYL METHACRYLATE)S:2||2D correlation spectroscopy:2||CARBONATION:2||GLASSTRANSITION BEHAVIORS:2||MECHANICAL PROPERTIES:2||DIMENSIONS:2||POLYMER MIXTURES:2||ALUMINUM PORPHYRIN:2||LEAD STEARATE:2||FERROCENE:2||POLY(EPSILONCAPROLACTONE):2||DIAGRAM:2||nucleosides:2||Selective recognition by preconcentration:2||Electrochemical impedance spectroscopy:2||DOPAMINE:2||Silica:2||Silyl Ester:2||DIETHYL ESTER) PRECURSORS:2||SURFACE CHARACTERIZATION:2||MICROSTRUCTURE:2||polystyreneblockpolyisoprene:2||MICROPHASESEPARATED STRUCTURES:2||IMPEDANCE MEASUREMENTS:2||HEMEPROTEINS:2||SOLID SUBSTRATE:2||MOISTURE ABSORPTION:2||aromatic polyimide:2||INDUCED MORPHOLOGICALCHANGES:2||STABILITY:2||LC alignment layers:2||POLYPYROMELLITIMIDES:2||Ion mobility:2||Chiral polymer:2||OLIGOSACCHARIDES:2||OXIDE:2||SIDECHAIN:2||RETARDATION:2||functionality:2||temperature effects:2||phase transition:2||glass transition temperature:2||spincoated film:2||ESTER) PRECURSORS:2||PRECURSOR BLEND:2||Xray reflectivity:2||SIGMABONDS:2||aluminum porphyrin catalysts:2||METALLOPORPHYRIN:2||SILICON:2||MASSSPECTROMETRY ANALYSIS:2||STAR POLYMERS:2||SIZE DISTRIBUTIONS:2||GIANT VESICLES:2||POLY(3ALKYLTHIOPHENES):2||ADHESION:2||LIGHT:2||POLYSTYRENEBPOLYISOPRENE:2||HPLC fractionation:2||SILVER ELECTRODES:2||ENHANCED RESONANCE RAMAN:2||SEQUENCE:2||POLYELECTROLYTE/NONELECTROLYTE SHELLS:2||polyimide:2||liquid crystal alignment layer:2||SOLUBLE POLYIMIDES:2||POLYBUTADIENECOATED ZIRCONIA:2||PRETILT ANGLES:2||CROSSSECTIONS:2||IMSMS:2||POLYISOPRENE COPOLYMERS:2||POLYIMIDE THINFILMS:2||POLYMER SURFACES:2||RAMAN:2||STEREOREGULAR PMMA:2||poly(tertbutyl methacrylate) (PtBMA):2||TIME:2||POLYIMIDE COMPOSITE:2||CARBOXYLATO COMPLEXES:2||AGOSTIC INTERACTIONS:2||MOLECULARSTRUCTURE:2||ALKENE:2||TRANSISTOR MEMORY:2||DEVICES:2||ORTHOGONALITY:2||molecular characterization:2||ORGANOSILICATE DIELECTRIC FILMS:2||AMPHIPHILES:2||Serotonin:2||Anodic stripping differential pulse voltammetry:2||transmission electron microtomography:2||LIQUIDCHROMATOGRAPHY ANALYSIS:2||PHASEDIAGRAM:2||CARBON NANOTUBES:2||TRANSFER MECHANISM:2||BINARY MIXTURES:2||REFLECTOMETRY:2||ROD:2||DROPS:2||CONSTANT:2||TRIBLOCK COPOLYMER:2||POLYMER VESICLES:2||CLICK CHEMISTRY:2||ARRAYS:2||COMPOSITES:2||MALDITOF MS:2||POLYMER THINFILMS:2||HYDROPHOBIC INTERACTION CHROMATOGRAPHY:2||retention mechanism:2||GRAZINGINCIDENCE:2||NANOPOROSITY:2||soluble poly(amic esteraltimide)s:2||DIFFERENTIAL SCANNING CALORIMETRY:2||RESIDUALSTRESS:2||CHEMICALCOMPOSITION:2||POLY(AMIC DIETHYL ESTER) PRECURSOR:2||POLY(DIMETHYL SILOXANES):2||MASS POLYSTYRENES:2||cyclic propylene carbonate:2||propylene oxide:2||ACETATE) TOLUENE SOLUTIONS:2||TRANSIENT GRATING METHOD:2||MASS DIFFUSION:2||MICROPHASE SEPARATION TRANSITION:2||POLYSTYRENES:2||POLYSILANE:2||CARBOHYDRATEBASED PHOSPHOLIPIDS:2||HELICAL STRANDS:2||FLUORESCENCE DETECTION:2||SENSITIVE DETERMINATION:2||COMPOSITE FILMS:2||microphase:2||3MERCAPTOPROPIONIC ACID:2||BUTADIENE BLOCK COPOLYMER:2||HYBRID POLYMERIC MICELLES:2||AQUEOUSMEDIA:2||CONTACTANGLE:2||TRANSISTORCIRCUITS:2||ABTYPE POLY(ETHERIMIDE)S:2||CORRELATION SPECTROSCOPY:2||GASPHASE CONFORMATIONS:2||DECANE:2||INFRAREDSPECTROSCOPY:2||MICELLIZATION:2||ENERGIES:2||ACID) PRECURSORS:2||PHOTOALIGNMENT:2||polymers:2||SUBSTRATE:2||carbon dioxide:2||oligomeric propylene carbonate:2||THERMALDIFFUSION:2||CRYSTAL:2||PHASETRANSITION:2||REFLECTIVITY:2||ANALOGS:2||supramolecular chemistry:2||LYSOPHOSPHATIDIC ACID:2||PHOSPHOCHOLINE:2||POLY(3HEXYLTHIOPHENE):2||Receptor:2||MODIFIED GOLD ELECTRODES:2||ASCORBICACID:2||HUMAN URINE:2||Hybrid Nanocomposite:2||Dielectric Constant:2||AU(111) ELECTRODES:2||NANOFILMS:2||HYDROPHOBIC CORES:2||DRIVEN:2||FLEXIBLE SIDECHAINS:2||MESOGEN:2||size exclusion chromatography:2||ORGANIZATION:2||POLY(LACTIC ACID):2||MOLECULAR ARCHITECTURE:2||COUPLER:2||POLYSTYRENE COPOLYMER:2||diffusion coefficient:2||XRAY REFLECTIVITY:2||temperature gradient interaction chromatography polystyryllithium:2||VISCOELASTIC PROPERTIES:2||polyisoprene:2||CRYSTALSTRUCTURES:2||POLYCARBONATE:2||MULTILAYERS:2||DEPOSITION:2||FULL ADSORPTION MECHANISMS:2||QUANTUM DOTS:2||CRITICAL ORDERING TRANSITION:2||CORE:2||PARACRYSTALLINE DISTORTION:2||PERFORATED LAYER PHASE:2||liposomes:2||phospholipids:2||UNILAMELLAR VESICLES:2||VOLTAMMETRIC DETERMINATION:2||Polyimide:2||FOURIERTRANSFORM:2||SURFACE:2||SIZE EXCLUSION CHROMATOGRAPHY:2||NEUTRON REFLECTIVITY:2||ORDERED STRUCTURE:2||RIGID ROD POLYMERS:2||DISPLACEMENT POLYMERIZATION:2||PHOTOSENSITIVE POLYIMIDE:2||EFFICIENCY:2||films:2||Polylactide:2||CHROMATOGRAPHIC CRITICAL CONDITION:2||RETENTION MECHANISM:2||COPPER PHTHALOCYANINE:2||C60:2||COPOLYMER:2||micelle:2||LINEAR POLYETHYLENE:2||LIQUIDS:2||ARMS:2||HIGHPERFORMANCE LIQUID:2||alternating copolyimides:2||PHASE SEPARATION:2||POLYMERCHAINS:2||STYRYLPYRIDINIUM:2||ANGLES:2||MOBILITY:2||PROBE:2||ACIDS:2||BLUE:2||POSITIONS:2||CYCLOPENTADIENYL:2||HIGHMOLECULARWEIGHT:2||FUELCELLS:2||TIN OXIDE:2||NANOCRYSTALS:2||SURFACE MICELLE FORMATION:2||DISORDER TRANSITION:2||BIREFRINGENCE:2||LIPIDCOMPOSITION:2||CONJUGATED POLYMERS:2||GLASSYCARBON ELECTRODE:2||ELECTROCHEMICAL DETECTION:2||MULTIPLE DETECTION:2||aromatic polyimides:2||MOLECULARWEIGHT HOMOPOLYMERS:2||BINARYMIXTURE:2||PATTERNS:2||photoluminescent polyimide:2||photosensitive polyimide:2||DEPENDENT MICELLIZATION:2||SPEED:2||synthesis:2||COIL BLOCKCOPOLYMERS:2||LIQUIDCRYSTALLINE ASSEMBLIES:2||OXIDE):2||molecular weight distribution:2||CONJUGATED POLYMER:2||polymer characterization:2||NONIONIC SURFACTANTS:2||STEREOREGULAR POLY(METHYL METHACRYLATE):2||structure:2||RODLIKE POLYIMIDE:2||FLEXIBLE POLYIMIDE:2||THERMAL IMIDIZATION:2||IN SITU RODCHAIN FORMATION:2||PHASESEPARATION:2||VINYL ETHER):2||EQUILIBRIUM:2||STRESS:2||STRUCTURAL RELAXATION:2||LIVING POLYMERIZATION:2||CONTAIN:2||SALT:2||WAVEGUIDE:2||XRAY DIFFRACTION:2||WALLED CARBON NANOTUBES:2||SILICON NANOWIRES:2||IR:2||DIELECTRIC THINFILMS:2||Selfassembled monolayer:2||PARAMETERS:2||Temperature gradient interaction chromatography:2||SOLIDSURFACES:2||FLOW:2||RATES:2||PRECURSORS:2||FILM BALANCE:2||SIDECHAINS:2||SUPRAMOLECULAR MATERIALS:2||CHAINS:2||POLYSTYRENE:39||ANIONICPOLYMERIZATION:34||GRADIENT INTERACTION CHROMATOGRAPHY:31||SEPARATION:27||BEHAVIOR:24||LIQUIDCHROMATOGRAPHY:22||POLYMERS:22||SIZEEXCLUSION CHROMATOGRAPHY:19||BLOCKCOPOLYMERS:17||DIBLOCK COPOLYMERS:17||THINFILMS:16||POLYISOPRENE:14||HPLC:13||SYNTHETICPOLYMERS:12||PERFORMANCE LIQUIDCHROMATOGRAPHY:11||DIBLOCK COPOLYMER:11||MOLECULARWEIGHT DISTRIBUTION:10||MACROMOLECULES:10||BLOCKCOPOLYMER:10||REVERSEDPHASE:10||RETENTION BEHAVIOR:10||MORPHOLOGY:9||MOLECULARWEIGHT:9||MELTS:9||AROMATIC POLYIMIDES:8||XRAYSCATTERING:8||polystyrene:8||MIXTURES:7||block copolymer:7||SURFACES:7||DEPENDENCE:7||COPOLYMERS:7||POLYMERIZATION:7||AIR/WATER INTERFACE:7||DEFINED BRUSH POLYIMIDE:6||TEMPERATURE:6||FULLY RODLIKE BACKBONE:6||MONOLAYERS:6||POLYIMIDES:6||CHAIN:6||COMPLEX POLYMERS:6||MOLECULARREORIENTATION:6||temperature gradient interaction chromatography:6||POLYMERFILMS:6||GELPERMEATION CHROMATOGRAPHY:6||ELUTION:6||ORDERDISORDER TRANSITION:6||SURFACEMORPHOLOGY:6||ORIENTATION:6||SYSTEMS:6||CRITICAL ADSORPTION POINT:6||LIGHTSCATTERING:5||PROBE DIFFUSION:5||POLYDISPERSITY:5||AIRWATERINTERFACE:5||MICROPHASE SEPARATION:5||GLASSTRANSITION:5||BLENDS:5||FILMS:5||ADSORPTION CHROMATOGRAPHY:5||MECHANISM:5||CO2:5||ETHYLENEOXIDE:5||ALIGNMENT:5||COMPLEXES:5||FRACTIONATION:5||MISCIBILITY:5||POLYMER CHARACTERIZATION:5||HEXAGONALLY PERFORATED LAYER:5||TRANSITION:5||FLIGHT MASSSPECTROMETRY:5||ARCHITECTURE:5||POLY(METHYL METHACRYLATE):5||ALTERNATING COPOLYMERIZATION:4||THICKNESS:4||THERMODYNAMICS:4||CRITICAL RANGE:4||ULTRATHIN POLYMERFILMS:4||DYNAMICS:4||CLIMATECHANGE:4||PHASE:4||GLASSTRANSITION TEMPERATURE:4||EPOXIDE:4||selfassembly:4||SPECTROSCOPY:4||SELFDIFFUSION:4||SCATTERING:4||OPTICALPROPERTIES:4||CATALYSTS:4||CHEMISTRY:4||SOLARCELLS:4||polyimides:4||polypyromellitimides:4||SEGMENTAL REORIENTATIONS:4||ADSORPTION:4||INTERFACE:4||POLYMERSOLUTIONS:4||TRACER DIFFUSION:4||OXIDE) DIBLOCK COPOLYMER:4||POLYSTYRENEBPOLY(METHYL METHACRYLATE):4||POLYMER BLENDS:4||SIMULATION:4||CHAIN ORIENTATION:4||STYRENE:4||TOF MASSSPECTROMETRY:4||WATER:4||DISPLAYS:4||OLIGOMERS:4||PEPTIDES:4||CYCLIC POLYSTYRENE:4||LATTICE CLUSTER THEORY:4||2NDHARMONIC GENERATION:4||LIQUIDCRYSTAL ALIGNMENT:4||MONTECARLO:4||LangmuirBlodgett film:3||ASSEMBLIES:3||chromatography:3||HOLOGRAPHIC RELAXATION SPECTROSCOPY:3||MULTIPLE MORPHOLOGIES:3||INTERACTION CHROMATOGRAPHY:3||NORMALPHASE:3||DIFFUSION:3||BRANCHED POLYSTYRENE:3||NANOPARTICLES:3||LITHOGRAPHY:3||POLYMER:3||LASERLIGHTSCATTERING:3||HIGH MOLECULARWEIGHT:3||CUBIC PHASE:3||AMPHIPHILIC BLOCKCOPOLYMERS:3||AQUEOUSSOLUTION:3||MODEL:3||FORCED RAYLEIGHSCATTERING:3||HYDRODYNAMIC PROPERTIES:3||4MIKTOARM STAR COPOLYMER:3||SYSTEM:3||PHASEBEHAVIOR:3||AQUEOUSSOLUTIONS:3||RHEOLOGY:3||LB film:3||2DIMENSIONAL LIQUIDCHROMATOGRAPHY:3||VISCOSITY:3||DIBLOCK COPOLYMER MELTS:3||ORDERORDER TRANSITION:3||GYROID PHASE:3||BINDING:3||BLOCK POLYELECTROLYTES:3||DERIVATIVES:3||MELT:3||PHASE LIQUIDCHROMATOGRAPHY:3||high temperature:3||ELEVATEDTEMPERATURE:3||RETENTION:3||MICELLE FORMATION:3||ELECTRONMICROSCOPY:3||Electrospray ionization:2||FRACTIONS:2||nalkanes:2||ISOCRATIC SEPARATION:2||ASSOCIATION:2||POLY(METHYL METHACRYLATE)S:2||2D correlation spectroscopy:2||CARBONATION:2||GLASSTRANSITION BEHAVIORS:2||MECHANICAL PROPERTIES:2||DIMENSIONS:2||POLYMER MIXTURES:2||ALUMINUM PORPHYRIN:2||LEAD STEARATE:2||FERROCENE:2||POLY(EPSILONCAPROLACTONE):2||DIAGRAM:2||nucleosides:2||Selective recognition by preconcentration:2||Electrochemical impedance spectroscopy:2||DOPAMINE:2||Silica:2||Silyl Ester:2||DIETHYL ESTER) PRECURSORS:2||SURFACE CHARACTERIZATION:2||MICROSTRUCTURE:2||polystyreneblockpolyisoprene:2||MICROPHASESEPARATED STRUCTURES:2||IMPEDANCE MEASUREMENTS:2||HEMEPROTEINS:2||SOLID SUBSTRATE:2||MOISTURE ABSORPTION:2||aromatic polyimide:2||INDUCED MORPHOLOGICALCHANGES:2||STABILITY:2||LC alignment layers:2||POLYPYROMELLITIMIDES:2||Ion mobility:2||Chiral polymer:2||OLIGOSACCHARIDES:2||OXIDE:2||SIDECHAIN:2||RETARDATION:2||functionality:2||temperature effects:2||phase transition:2||glass transition temperature:2||spincoated film:2||ESTER) PRECURSORS:2||PRECURSOR BLEND:2||Xray reflectivity:2||SIGMABONDS:2||aluminum porphyrin catalysts:2||METALLOPORPHYRIN:2||SILICON:2||MASSSPECTROMETRY ANALYSIS:2||STAR POLYMERS:2||SIZE DISTRIBUTIONS:2||GIANT VESICLES:2||POLY(3ALKYLTHIOPHENES):2||ADHESION:2||LIGHT:2||POLYSTYRENEBPOLYISOPRENE:2||HPLC fractionation:2||SILVER ELECTRODES:2||ENHANCED RESONANCE RAMAN:2||SEQUENCE:2||POLYELECTROLYTE/NONELECTROLYTE SHELLS:2||polyimide:2||liquid crystal alignment layer:2||SOLUBLE POLYIMIDES:2||POLYBUTADIENECOATED ZIRCONIA:2||PRETILT ANGLES:2||CROSSSECTIONS:2||IMSMS:2||POLYISOPRENE COPOLYMERS:2||POLYIMIDE THINFILMS:2||POLYMER SURFACES:2||RAMAN:2||STEREOREGULAR PMMA:2||poly(tertbutyl methacrylate) (PtBMA):2||TIME:2||POLYIMIDE COMPOSITE:2||CARBOXYLATO COMPLEXES:2||AGOSTIC INTERACTIONS:2||MOLECULARSTRUCTURE:2||ALKENE:2||TRANSISTOR MEMORY:2||DEVICES:2||ORTHOGONALITY:2||molecular characterization:2||ORGANOSILICATE DIELECTRIC FILMS:2||AMPHIPHILES:2||Serotonin:2||Anodic stripping differential pulse voltammetry:2||transmission electron microtomography:2||LIQUIDCHROMATOGRAPHY ANALYSIS:2||PHASEDIAGRAM:2||CARBON NANOTUBES:2||TRANSFER MECHANISM:2||BINARY MIXTURES:2||REFLECTOMETRY:2||ROD:2||DROPS:2||CONSTANT:2||TRIBLOCK COPOLYMER:2||POLYMER VESICLES:2||CLICK CHEMISTRY:2||ARRAYS:2||COMPOSITES:2||MALDITOF MS:2||POLYMER THINFILMS:2||HYDROPHOBIC INTERACTION CHROMATOGRAPHY:2||retention mechanism:2||GRAZINGINCIDENCE:2||NANOPOROSITY:2||soluble poly(amic esteraltimide)s:2||DIFFERENTIAL SCANNING CALORIMETRY:2||RESIDUALSTRESS:2||CHEMICALCOMPOSITION:2||POLY(AMIC DIETHYL ESTER) PRECURSOR:2||POLY(DIMETHYL SILOXANES):2||MASS POLYSTYRENES:2||cyclic propylene carbonate:2||propylene oxide:2||ACETATE) TOLUENE SOLUTIONS:2||TRANSIENT GRATING METHOD:2||MASS DIFFUSION:2||MICROPHASE SEPARATION TRANSITION:2||POLYSTYRENES:2||POLYSILANE:2||CARBOHYDRATEBASED PHOSPHOLIPIDS:2||HELICAL STRANDS:2||FLUORESCENCE DETECTION:2||SENSITIVE DETERMINATION:2||COMPOSITE FILMS:2||microphase:2||3MERCAPTOPROPIONIC ACID:2||BUTADIENE BLOCK COPOLYMER:2||HYBRID POLYMERIC MICELLES:2||AQUEOUSMEDIA:2||CONTACTANGLE:2||TRANSISTORCIRCUITS:2||ABTYPE POLY(ETHERIMIDE)S:2||CORRELATION SPECTROSCOPY:2||GASPHASE CONFORMATIONS:2||DECANE:2||INFRAREDSPECTROSCOPY:2||MICELLIZATION:2||ENERGIES:2||ACID) PRECURSORS:2||PHOTOALIGNMENT:2||polymers:2||SUBSTRATE:2||carbon dioxide:2||oligomeric propylene carbonate:2||THERMALDIFFUSION:2||CRYSTAL:2||PHASETRANSITION:2||REFLECTIVITY:2||ANALOGS:2||supramolecular chemistry:2||LYSOPHOSPHATIDIC ACID:2||PHOSPHOCHOLINE:2||POLY(3HEXYLTHIOPHENE):2||Receptor:2||MODIFIED GOLD ELECTRODES:2||ASCORBICACID:2||HUMAN URINE:2||Hybrid Nanocomposite:2||Dielectric Constant:2||AU(111) ELECTRODES:2||NANOFILMS:2||HYDROPHOBIC CORES:2||DRIVEN:2||FLEXIBLE SIDECHAINS:2||MESOGEN:2||size exclusion chromatography:2||ORGANIZATION:2||POLY(LACTIC ACID):2||MOLECULAR ARCHITECTURE:2||COUPLER:2||POLYSTYRENE COPOLYMER:2||diffusion coefficient:2||XRAY REFLECTIVITY:2||temperature gradient interaction chromatography polystyryllithium:2||VISCOELASTIC PROPERTIES:2||polyisoprene:2||CRYSTALSTRUCTURES:2||POLYCARBONATE:2||MULTILAYERS:2||DEPOSITION:2||FULL ADSORPTION MECHANISMS:2||QUANTUM DOTS:2||CRITICAL ORDERING TRANSITION:2||CORE:2||PARACRYSTALLINE DISTORTION:2||PERFORATED LAYER PHASE:2||liposomes:2||phospholipids:2||UNILAMELLAR VESICLES:2||VOLTAMMETRIC DETERMINATION:2||Polyimide:2||FOURIERTRANSFORM:2||SURFACE:2||SIZE EXCLUSION CHROMATOGRAPHY:2||NEUTRON REFLECTIVITY:2||ORDERED STRUCTURE:2||RIGID ROD POLYMERS:2||DISPLACEMENT POLYMERIZATION:2||PHOTOSENSITIVE POLYIMIDE:2||EFFICIENCY:2||films:2||Polylactide:2||CHROMATOGRAPHIC CRITICAL CONDITION:2||RETENTION MECHANISM:2||COPPER PHTHALOCYANINE:2||C60:2||COPOLYMER:2||micelle:2||LINEAR POLYETHYLENE:2||LIQUIDS:2||ARMS:2||HIGHPERFORMANCE LIQUID:2||alternating copolyimides:2||PHASE SEPARATION:2||POLYMERCHAINS:2||STYRYLPYRIDINIUM:2||ANGLES:2||MOBILITY:2||PROBE:2||ACIDS:2||BLUE:2||POSITIONS:2||CYCLOPENTADIENYL:2||HIGHMOLECULARWEIGHT:2||FUELCELLS:2||TIN OXIDE:2||NANOCRYSTALS:2||SURFACE MICELLE FORMATION:2||DISORDER TRANSITION:2||BIREFRINGENCE:2||LIPIDCOMPOSITION:2||CONJUGATED POLYMERS:2||GLASSYCARBON ELECTRODE:2||ELECTROCHEMICAL DETECTION:2||MULTIPLE DETECTION:2||aromatic polyimides:2||MOLECULARWEIGHT HOMOPOLYMERS:2||BINARYMIXTURE:2||PATTERNS:2||photoluminescent polyimide:2||photosensitive polyimide:2||DEPENDENT MICELLIZATION:2||SPEED:2||synthesis:2||COIL BLOCKCOPOLYMERS:2||LIQUIDCRYSTALLINE ASSEMBLIES:2||OXIDE):2||molecular weight distribution:2||CONJUGATED POLYMER:2||polymer characterization:2||NONIONIC SURFACTANTS:2||STEREOREGULAR POLY(METHYL METHACRYLATE):2||structure:2||RODLIKE POLYIMIDE:2||FLEXIBLE POLYIMIDE:2||THERMAL IMIDIZATION:2||IN SITU RODCHAIN FORMATION:2||PHASESEPARATION:2||VINYL ETHER):2||EQUILIBRIUM:2||STRESS:2||STRUCTURAL RELAXATION:2||LIVING POLYMERIZATION:2||CONTAIN:2||SALT:2||WAVEGUIDE:2||XRAY DIFFRACTION:2||WALLED CARBON NANOTUBES:2||SILICON NANOWIRES:2||IR:2||DIELECTRIC THINFILMS:2||Selfassembled monolayer:2||PARAMETERS:2||Temperature gradient interaction chromatography:2||SOLIDSURFACES:2||FLOW:2||RATES:2||PRECURSORS:2||FILM BALANCE:2||SIDECHAINS:2||SUPRAMOLECULAR MATERIALS:2||CHAINS:2||POLYSTYRENE:39||ANIONICPOLYMERIZATION:34||GRADIENT INTERACTION CHROMATOGRAPHY:31||SEPARATION:27||BEHAVIOR:24||LIQUIDCHROMATOGRAPHY:22||POLYMERS:22||SIZEEXCLUSION CHROMATOGRAPHY:19||BLOCKCOPOLYMERS:17||DIBLOCK COPOLYMERS:17||THINFILMS:16||POLYISOPRENE:14||HPLC:13||SYNTHETICPOLYMERS:12||PERFORMANCE LIQUIDCHROMATOGRAPHY:11||DIBLOCK COPOLYMER:11||MOLECULARWEIGHT DISTRIBUTION:10||MACROMOLECULES:10||BLOCKCOPOLYMER:10||REVERSEDPHASE:10||RETENTION BEHAVIOR:10||MORPHOLOGY:9||MOLECULARWEIGHT:9||MELTS:9||AROMATIC POLYIMIDES:8||XRAYSCATTERING:8||polystyrene:8||MIXTURES:7||block copolymer:7||SURFACES:7||DEPENDENCE:7||COPOLYMERS:7||POLYMERIZATION:7||AIR/WATER INTERFACE:7||DEFINED BRUSH POLYIMIDE:6||TEMPERATURE:6||FULLY RODLIKE BACKBONE:6||MONOLAYERS:6||POLYIMIDES:6||CHAIN:6||COMPLEX POLYMERS:6||MOLECULARREORIENTATION:6||temperature gradient interaction chromatography:6||POLYMERFILMS:6||GELPERMEATION CHROMATOGRAPHY:6||ELUTION:6||ORDERDISORDER TRANSITION:6||SURFACEMORPHOLOGY:6||ORIENTATION:6||SYSTEMS:6||CRITICAL ADSORPTION POINT:6||LIGHTSCATTERING:5||PROBE DIFFUSION:5||POLYDISPERSITY:5||AIRWATERINTERFACE:5||MICROPHASE SEPARATION:5||GLASSTRANSITION:5||BLENDS:5||FILMS:5||ADSORPTION CHROMATOGRAPHY:5||MECHANISM:5||CO2:5||ETHYLENEOXIDE:5||ALIGNMENT:5||COMPLEXES:5||FRACTIONATION:5||MISCIBILITY:5||POLYMER CHARACTERIZATION:5||HEXAGONALLY PERFORATED LAYER:5||TRANSITION:5||FLIGHT MASSSPECTROMETRY:5||ARCHITECTURE:5||POLY(METHYL METHACRYLATE):5||ALTERNATING COPOLYMERIZATION:4||THICKNESS:4||THERMODYNAMICS:4||CRITICAL RANGE:4||ULTRATHIN POLYMERFILMS:4||DYNAMICS:4||CLIMATECHANGE:4||PHASE:4||GLASSTRANSITION TEMPERATURE:4||EPOXIDE:4||selfassembly:4||SPECTROSCOPY:4||SELFDIFFUSION:4||SCATTERING:4||OPTICALPROPERTIES:4||CATALYSTS:4||CHEMISTRY:4||SOLARCELLS:4||polyimides:4||polypyromellitimides:4||SEGMENTAL REORIENTATIONS:4||ADSORPTION:4||INTERFACE:4||POLYMERSOLUTIONS:4||TRACER DIFFUSION:4||OXIDE) DIBLOCK COPOLYMER:4||POLYSTYRENEBPOLY(METHYL METHACRYLATE):4||POLYMER BLENDS:4||SIMULATION:4||CHAIN ORIENTATION:4||STYRENE:4||TOF MASSSPECTROMETRY:4||WATER:4||DISPLAYS:4||OLIGOMERS:4||PEPTIDES:4||CYCLIC POLYSTYRENE:4||LATTICE CLUSTER THEORY:4||2NDHARMONIC GENERATION:4||LIQUIDCRYSTAL ALIGNMENT:4||MONTECARLO:4||LangmuirBlodgett film:3||ASSEMBLIES:3||chromatography:3||HOLOGRAPHIC RELAXATION SPECTROSCOPY:3||MULTIPLE MORPHOLOGIES:3||INTERACTION CHROMATOGRAPHY:3||NORMALPHASE:3||DIFFUSION:3||BRANCHED POLYSTYRENE:3||NANOPARTICLES:3||LITHOGRAPHY:3||POLYMER:3||LASERLIGHTSCATTERING:3||HIGH MOLECULARWEIGHT:3||CUBIC PHASE:3||AMPHIPHILIC BLOCKCOPOLYMERS:3||AQUEOUSSOLUTION:3||MODEL:3||FORCED RAYLEIGHSCATTERING:3||HYDRODYNAMIC PROPERTIES:3||4MIKTOARM STAR COPOLYMER:3||SYSTEM:3||PHASEBEHAVIOR:3||AQUEOUSSOLUTIONS:3||RHEOLOGY:3||LB film:3||2DIMENSIONAL LIQUIDCHROMATOGRAPHY:3||VISCOSITY:3||DIBLOCK COPOLYMER MELTS:3||ORDERORDER TRANSITION:3||GYROID PHASE:3||BINDING:3||BLOCK POLYELECTROLYTES:3||DERIVATIVES:3||MELT:3||PHASE LIQUIDCHROMATOGRAPHY:3||high temperature:3||ELEVATEDTEMPERATURE:3||RETENTION:3||MICELLE FORMATION:3||ELECTRONMICROSCOPY:3||Electrospray ionization:2||FRACTIONS:2||nalkanes:2||ISOCRATIC SEPARATION:2||ASSOCIATION:2||POLY(METHYL METHACRYLATE)S:2||2D correlation spectroscopy:2||CARBONATION:2||GLASSTRANSITION BEHAVIORS:2||MECHANICAL PROPERTIES:2||DIMENSIONS:2||POLYMER MIXTURES:2||ALUMINUM PORPHYRIN:2||LEAD STEARATE:2||FERROCENE:2||POLY(EPSILONCAPROLACTONE):2||DIAGRAM:2||nucleosides:2||Selective recognition by preconcentration:2||Electrochemical impedance spectroscopy:2||DOPAMINE:2||Silica:2||Silyl Ester:2||DIETHYL ESTER) PRECURSORS:2||SURFACE CHARACTERIZATION:2||MICROSTRUCTURE:2||polystyreneblockpolyisoprene:2||MICROPHASESEPARATED STRUCTURES:2||IMPEDANCE MEASUREMENTS:2||HEMEPROTEINS:2||SOLID SUBSTRATE:2||MOISTURE ABSORPTION:2||aromatic polyimide:2||INDUCED MORPHOLOGICALCHANGES:2||STABILITY:2||LC alignment layers:2||POLYPYROMELLITIMIDES:2||Ion mobility:2||Chiral polymer:2||OLIGOSACCHARIDES:2||OXIDE:2||SIDECHAIN:2||RETARDATION:2||functionality:2||temperature effects:2||phase transition:2||glass transition temperature:2||spincoated film:2||ESTER) PRECURSORS:2||PRECURSOR BLEND:2||Xray reflectivity:2||SIGMABONDS:2||aluminum porphyrin catalysts:2||METALLOPORPHYRIN:2||SILICON:2||MASSSPECTROMETRY ANALYSIS:2||STAR POLYMERS:2||SIZE DISTRIBUTIONS:2||GIANT VESICLES:2||POLY(3ALKYLTHIOPHENES):2||ADHESION:2||LIGHT:2||POLYSTYRENEBPOLYISOPRENE:2||HPLC fractionation:2||SILVER ELECTRODES:2||ENHANCED RESONANCE RAMAN:2||SEQUENCE:2||POLYELECTROLYTE/NONELECTROLYTE SHELLS:2||polyimide:2||liquid crystal alignment layer:2||SOLUBLE POLYIMIDES:2||POLYBUTADIENECOATED ZIRCONIA:2||PRETILT ANGLES:2||CROSSSECTIONS:2||IMSMS:2||POLYISOPRENE COPOLYMERS:2||POLYIMIDE THINFILMS:2||POLYMER SURFACES:2||RAMAN:2||STEREOREGULAR PMMA:2||poly(tertbutyl methacrylate) (PtBMA):2||TIME:2||POLYIMIDE COMPOSITE:2||CARBOXYLATO COMPLEXES:2||AGOSTIC INTERACTIONS:2||MOLECULARSTRUCTURE:2||ALKENE:2||TRANSISTOR MEMORY:2||DEVICES:2||ORTHOGONALITY:2||molecular characterization:2||ORGANOSILICATE DIELECTRIC FILMS:2||AMPHIPHILES:2||Serotonin:2||Anodic stripping differential pulse voltammetry:2||transmission electron microtomography:2||LIQUIDCHROMATOGRAPHY ANALYSIS:2||PHASEDIAGRAM:2||CARBON NANOTUBES:2||TRANSFER MECHANISM:2||BINARY MIXTURES:2||REFLECTOMETRY:2||ROD:2||DROPS:2||CONSTANT:2||TRIBLOCK COPOLYMER:2||POLYMER VESICLES:2||CLICK CHEMISTRY:2||ARRAYS:2||COMPOSITES:2||MALDITOF MS:2||POLYMER THINFILMS:2||HYDROPHOBIC INTERACTION CHROMATOGRAPHY:2||retention mechanism:2||GRAZINGINCIDENCE:2||NANOPOROSITY:2||soluble poly(amic esteraltimide)s:2||DIFFERENTIAL SCANNING CALORIMETRY:2||RESIDUALSTRESS:2||CHEMICALCOMPOSITION:2||POLY(AMIC DIETHYL ESTER) PRECURSOR:2||POLY(DIMETHYL SILOXANES):2||MASS POLYSTYRENES:2||cyclic propylene carbonate:2||propylene oxide:2||ACETATE) TOLUENE SOLUTIONS:2||TRANSIENT GRATING METHOD:2||MASS DIFFUSION:2||MICROPHASE SEPARATION TRANSITION:2||POLYSTYRENES:2||POLYSILANE:2||CARBOHYDRATEBASED PHOSPHOLIPIDS:2||HELICAL STRANDS:2||FLUORESCENCE DETECTION:2||SENSITIVE DETERMINATION:2||COMPOSITE FILMS:2||microphase:2||3MERCAPTOPROPIONIC ACID:2||BUTADIENE BLOCK COPOLYMER:2||HYBRID POLYMERIC MICELLES:2||AQUEOUSMEDIA:2||CONTACTANGLE:2||TRANSISTORCIRCUITS:2||ABTYPE POLY(ETHERIMIDE)S:2||CORRELATION SPECTROSCOPY:2||GASPHASE CONFORMATIONS:2||DECANE:2||INFRAREDSPECTROSCOPY:2||MICELLIZATION:2||ENERGIES:2||ACID) PRECURSORS:2||PHOTOALIGNMENT:2||polymers:2||SUBSTRATE:2||carbon dioxide:2||oligomeric propylene carbonate:2||THERMALDIFFUSION:2||CRYSTAL:2||PHASETRANSITION:2||REFLECTIVITY:2||ANALOGS:2||supramolecular chemistry:2||LYSOPHOSPHATIDIC ACID:2||PHOSPHOCHOLINE:2||POLY(3HEXYLTHIOPHENE):2||Receptor:2||MODIFIED GOLD ELECTRODES:2||ASCORBICACID:2||HUMAN URINE:2||Hybrid Nanocomposite:2||Dielectric Constant:2||AU(111) ELECTRODES:2||NANOFILMS:2||HYDROPHOBIC CORES:2||DRIVEN:2||FLEXIBLE SIDECHAINS:2||MESOGEN:2||size exclusion chromatography:2||ORGANIZATION:2||POLY(LACTIC ACID):2||MOLECULAR ARCHITECTURE:2||COUPLER:2||POLYSTYRENE COPOLYMER:2||diffusion coefficient:2||XRAY REFLECTIVITY:2||temperature gradient interaction chromatography polystyryllithium:2||VISCOELASTIC PROPERTIES:2||polyisoprene:2||CRYSTALSTRUCTURES:2||POLYCARBONATE:2||MULTILAYERS:2||DEPOSITION:2||FULL ADSORPTION MECHANISMS:2||QUANTUM DOTS:2||CRITICAL ORDERING TRANSITION:2||CORE:2||PARACRYSTALLINE DISTORTION:2||PERFORATED LAYER PHASE:2||liposomes:2||phospholipids:2||UNILAMELLAR VESICLES:2||VOLTAMMETRIC DETERMINATION:2||Polyimide:2||FOURIERTRANSFORM:2||SURFACE:2||SIZE EXCLUSION CHROMATOGRAPHY:2||NEUTRON REFLECTIVITY:2||ORDERED STRUCTURE:2||RIGID ROD POLYMERS:2||DISPLACEMENT POLYMERIZATION:2||PHOTOSENSITIVE POLYIMIDE:2||EFFICIENCY:2||films:2||Polylactide:2||CHROMATOGRAPHIC CRITICAL CONDITION:2||RETENTION MECHANISM:2||COPPER PHTHALOCYANINE:2||C60:2||COPOLYMER:2||micelle:2||LINEAR POLYETHYLENE:2||LIQUIDS:2||ARMS:2||HIGHPERFORMANCE LIQUID:2||alternating copolyimides:2||PHASE SEPARATION:2||POLYMERCHAINS:2||STYRYLPYRIDINIUM:2||ANGLES:2||MOBILITY:2||PROBE:2||ACIDS:2||BLUE:2||POSITIONS:2||CYCLOPENTADIENYL:2||HIGHMOLECULARWEIGHT:2||FUELCELLS:2||TIN OXIDE:2||NANOCRYSTALS:2||SURFACE MICELLE FORMATION:2||DISORDER TRANSITION:2||BIREFRINGENCE:2||LIPIDCOMPOSITION:2||CONJUGATED POLYMERS:2||GLASSYCARBON ELECTRODE:2||ELECTROCHEMICAL DETECTION:2||MULTIPLE DETECTION:2||aromatic polyimides:2||MOLECULARWEIGHT HOMOPOLYMERS:2||BINARYMIXTURE:2||PATTERNS:2||photoluminescent polyimide:2||photosensitive polyimide:2||DEPENDENT MICELLIZATION:2||SPEED:2||synthesis:2||COIL BLOCKCOPOLYMERS:2||LIQUIDCRYSTALLINE ASSEMBLIES:2||OXIDE):2||molecular weight distribution:2||CONJUGATED POLYMER:2||polymer characterization:2||NONIONIC SURFACTANTS:2||STEREOREGULAR POLY(METHYL METHACRYLATE):2||structure:2||RODLIKE POLYIMIDE:2||FLEXIBLE POLYIMIDE:2||THERMAL IMIDIZATION:2||IN SITU RODCHAIN FORMATION:2||PHASESEPARATION:2||VINYL ETHER):2||EQUILIBRIUM:2||STRESS:2||STRUCTURAL RELAXATION:2||LIVING POLYMERIZATION:2||CONTAIN:2||SALT:2||WAVEGUIDE:2||XRAY DIFFRACTION:2||WALLED CARBON NANOTUBES:2||SILICON NANOWIRES:2||IR:2||DIELECTRIC THINFILMS:2||Selfassembled monolayer:2||PARAMETERS:2||Temperature gradient interaction chromatography:2||SOLIDSURFACES:2||FLOW:2||RATES:2||PRECURSORS:2||FILM BALANCE:2||SIDECHAINS:2||SUPRAMOLECULAR MATERIALS:2||CHAINS:2||POLYSTYRENE:39||ANIONICPOLYMERIZATION:34||GRADIENT INTERACTION CHROMATOGRAPHY:31||SEPARATION:27||BEHAVIOR:24||LIQUIDCHROMATOGRAPHY:22||POLYMERS:22||SIZEEXCLUSION CHROMATOGRAPHY:19||BLOCKCOPOLYMERS:17||DIBLOCK COPOLYMERS:17||THINFILMS:16||POLYISOPRENE:14||HPLC:13||SYNTHETICPOLYMERS:12||PERFORMANCE LIQUIDCHROMATOGRAPHY:11||DIBLOCK COPOLYMER:11||MOLECULARWEIGHT DISTRIBUTION:10||MACROMOLECULES:10||BLOCKCOPOLYMER:10||REVERSEDPHASE:10||RETENTION BEHAVIOR:10||MORPHOLOGY:9||MOLECULARWEIGHT:9||MELTS:9||AROMATIC POLYIMIDES:8||XRAYSCATTERING:8||polystyrene:8||MIXTURES:7||block copolymer:7||SURFACES:7||DEPENDENCE:7||COPOLYMERS:7||POLYMERIZATION:7||AIR/WATER INTERFACE:7||DEFINED BRUSH POLYIMIDE:6||TEMPERATURE:6||FULLY RODLIKE BACKBONE:6||MONOLAYERS:6||POLYIMIDES:6||CHAIN:6||COMPLEX POLYMERS:6||MOLECULARREORIENTATION:6||temperature gradient interaction chromatography:6||POLYMERFILMS:6||GELPERMEATION CHROMATOGRAPHY:6||ELUTION:6||ORDERDISORDER TRANSITION:6||SURFACEMORPHOLOGY:6||ORIENTATION:6||SYSTEMS:6||CRITICAL ADSORPTION POINT:6||LIGHTSCATTERING:5||PROBE DIFFUSION:5||POLYDISPERSITY:5||AIRWATERINTERFACE:5||MICROPHASE SEPARATION:5||GLASSTRANSITION:5||BLENDS:5||FILMS:5||ADSORPTION CHROMATOGRAPHY:5||MECHANISM:5||CO2:5||ETHYLENEOXIDE:5||ALIGNMENT:5||COMPLEXES:5||FRACTIONATION:5||MISCIBILITY:5||POLYMER CHARACTERIZATION:5||HEXAGONALLY PERFORATED LAYER:5||TRANSITION:5||FLIGHT MASSSPECTROMETRY:5||ARCHITECTURE:5||POLY(METHYL METHACRYLATE):5||ALTERNATING COPOLYMERIZATION:4||THICKNESS:4||THERMODYNAMICS:4||CRITICAL RANGE:4||ULTRATHIN POLYMERFILMS:4||DYNAMICS:4||CLIMATECHANGE:4||PHASE:4||GLASSTRANSITION TEMPERATURE:4||EPOXIDE:4||selfassembly:4||SPECTROSCOPY:4||SELFDIFFUSION:4||SCATTERING:4||OPTICALPROPERTIES:4||CATALYSTS:4||CHEMISTRY:4||SOLARCELLS:4||polyimides:4||polypyromellitimides:4||SEGMENTAL REORIENTATIONS:4||ADSORPTION:4||INTERFACE:4||POLYMERSOLUTIONS:4||TRACER DIFFUSION:4||OXIDE) DIBLOCK COPOLYMER:4||POLYSTYRENEBPOLY(METHYL METHACRYLATE):4||POLYMER BLENDS:4||SIMULATION:4||CHAIN ORIENTATION:4||STYRENE:4||TOF MASSSPECTROMETRY:4||WATER:4||DISPLAYS:4||OLIGOMERS:4||PEPTIDES:4||CYCLIC POLYSTYRENE:4||LATTICE CLUSTER THEORY:4||2NDHARMONIC GENERATION:4||LIQUIDCRYSTAL ALIGNMENT:4||MONTECARLO:4||LangmuirBlodgett film:3||ASSEMBLIES:3||chromatography:3||HOLOGRAPHIC RELAXATION SPECTROSCOPY:3||MULTIPLE MORPHOLOGIES:3||INTERACTION CHROMATOGRAPHY:3||NORMALPHASE:3||DIFFUSION:3||BRANCHED POLYSTYRENE:3||NANOPARTICLES:3||LITHOGRAPHY:3||POLYMER:3||LASERLIGHTSCATTERING:3||HIGH MOLECULARWEIGHT:3||CUBIC PHASE:3||AMPHIPHILIC BLOCKCOPOLYMERS:3||AQUEOUSSOLUTION:3||MODEL:3||FORCED RAYLEIGHSCATTERING:3||HYDRODYNAMIC PROPERTIES:3||4MIKTOARM STAR COPOLYMER:3||SYSTEM:3||PHASEBEHAVIOR:3||AQUEOUSSOLUTIONS:3||RHEOLOGY:3||LB film:3||2DIMENSIONAL LIQUIDCHROMATOGRAPHY:3||VISCOSITY:3||DIBLOCK COPOLYMER MELTS:3||ORDERORDER TRANSITION:3||GYROID PHASE:3||BINDING:3||BLOCK POLYELECTROLYTES:3||DERIVATIVES:3||MELT:3||PHASE LIQUIDCHROMATOGRAPHY:3||high temperature:3||ELEVATEDTEMPERATURE:3||RETENTION:3||MICELLE FORMATION:3||ELECTRONMICROSCOPY:3||Electrospray ionization:2||FRACTIONS:2||nalkanes:2||ISOCRATIC SEPARATION:2||ASSOCIATION:2||POLY(METHYL METHACRYLATE)S:2||2D correlation spectroscopy:2||CARBONATION:2||GLASSTRANSITION BEHAVIORS:2||MECHANICAL PROPERTIES:2||DIMENSIONS:2||POLYMER MIXTURES:2||ALUMINUM PORPHYRIN:2||LEAD STEARATE:2||FERROCENE:2||POLY(EPSILONCAPROLACTONE):2||DIAGRAM:2||nucleosides:2||Selective recognition by preconcentration:2||Electrochemical impedance spectroscopy:2||DOPAMINE:2||Silica:2||Silyl Ester:2||DIETHYL ESTER) PRECURSORS:2||SURFACE CHARACTERIZATION:2||MICROSTRUCTURE:2||polystyreneblockpolyisoprene:2||MICROPHASESEPARATED STRUCTURES:2||IMPEDANCE MEASUREMENTS:2||HEMEPROTEINS:2||SOLID SUBSTRATE:2||MOISTURE ABSORPTION:2||aromatic polyimide:2||INDUCED MORPHOLOGICALCHANGES:2||STABILITY:2||LC alignment layers:2||POLYPYROMELLITIMIDES:2||Ion mobility:2||Chiral polymer:2||OLIGOSACCHARIDES:2||OXIDE:2||SIDECHAIN:2||RETARDATION:2||functionality:2||temperature effects:2||phase transition:2||glass transition temperature:2||spincoated film:2||ESTER) PRECURSORS:2||PRECURSOR BLEND:2||Xray reflectivity:2||SIGMABONDS:2||aluminum porphyrin catalysts:2||METALLOPORPHYRIN:2||SILICON:2||MASSSPECTROMETRY ANALYSIS:2||STAR POLYMERS:2||SIZE DISTRIBUTIONS:2||GIANT VESICLES:2||POLY(3ALKYLTHIOPHENES):2||ADHESION:2||LIGHT:2||POLYSTYRENEBPOLYISOPRENE:2||HPLC fractionation:2||SILVER ELECTRODES:2||ENHANCED RESONANCE RAMAN:2||SEQUENCE:2||POLYELECTROLYTE/NONELECTROLYTE SHELLS:2||polyimide:2||liquid crystal alignment layer:2||SOLUBLE POLYIMIDES:2||POLYBUTADIENECOATED ZIRCONIA:2||PRETILT ANGLES:2||CROSSSECTIONS:2||IMSMS:2||POLYISOPRENE COPOLYMERS:2||POLYIMIDE THINFILMS:2||POLYMER SURFACES:2||RAMAN:2||STEREOREGULAR PMMA:2||poly(tertbutyl methacrylate) (PtBMA):2||TIME:2||POLYIMIDE COMPOSITE:2||CARBOXYLATO COMPLEXES:2||AGOSTIC INTERACTIONS:2||MOLECULARSTRUCTURE:2||ALKENE:2||TRANSISTOR MEMORY:2||DEVICES:2||ORTHOGONALITY:2||molecular characterization:2||ORGANOSILICATE DIELECTRIC FILMS:2||AMPHIPHILES:2||Serotonin:2||Anodic stripping differential pulse voltammetry:2||transmission electron microtomography:2||LIQUIDCHROMATOGRAPHY ANALYSIS:2||PHASEDIAGRAM:2||CARBON NANOTUBES:2||TRANSFER MECHANISM:2||BINARY MIXTURES:2||REFLECTOMETRY:2||ROD:2||DROPS:2||CONSTANT:2||TRIBLOCK COPOLYMER:2||POLYMER VESICLES:2||CLICK CHEMISTRY:2||ARRAYS:2||COMPOSITES:2||MALDITOF MS:2||POLYMER THINFILMS:2||HYDROPHOBIC INTERACTION CHROMATOGRAPHY:2||retention mechanism:2||GRAZINGINCIDENCE:2||NANOPOROSITY:2||soluble poly(amic esteraltimide)s:2||DIFFERENTIAL SCANNING CALORIMETRY:2||RESIDUALSTRESS:2||CHEMICALCOMPOSITION:2||POLY(AMIC DIETHYL ESTER) PRECURSOR:2||POLY(DIMETHYL SILOXANES):2||MASS POLYSTYRENES:2||cyclic propylene carbonate:2||propylene oxide:2||ACETATE) TOLUENE SOLUTIONS:2||TRANSIENT GRATING METHOD:2||MASS DIFFUSION:2||MICROPHASE SEPARATION TRANSITION:2||POLYSTYRENES:2||POLYSILANE:2||CARBOHYDRATEBASED PHOSPHOLIPIDS:2||HELICAL STRANDS:2||FLUORESCENCE DETECTION:2||SENSITIVE DETERMINATION:2||COMPOSITE FILMS:2||microphase:2||3MERCAPTOPROPIONIC ACID:2||BUTADIENE BLOCK COPOLYMER:2||HYBRID POLYMERIC MICELLES:2||AQUEOUSMEDIA:2||CONTACTANGLE:2||TRANSISTORCIRCUITS:2||ABTYPE POLY(ETHERIMIDE)S:2||CORRELATION SPECTROSCOPY:2||GASPHASE CONFORMATIONS:2||DECANE:2||INFRAREDSPECTROSCOPY:2||MICELLIZATION:2||ENERGIES:2||ACID) PRECURSORS:2||PHOTOALIGNMENT:2||polymers:2||SUBSTRATE:2||carbon dioxide:2||oligomeric propylene carbonate:2||THERMALDIFFUSION:2||CRYSTAL:2||PHASETRANSITION:2||REFLECTIVITY:2||ANALOGS:2||supramolecular chemistry:2||LYSOPHOSPHATIDIC ACID:2||PHOSPHOCHOLINE:2||POLY(3HEXYLTHIOPHENE):2||Receptor:2||MODIFIED GOLD ELECTRODES:2||ASCORBICACID:2||HUMAN URINE:2||Hybrid Nanocomposite:2||Dielectric Constant:2||AU(111) ELECTRODES:2||NANOFILMS:2||HYDROPHOBIC CORES:2||DRIVEN:2||FLEXIBLE SIDECHAINS:2||MESOGEN:2||size exclusion chromatography:2||ORGANIZATION:2||POLY(LACTIC ACID):2||MOLECULAR ARCHITECTURE:2||COUPLER:2||POLYSTYRENE COPOLYMER:2||diffusion coefficient:2||XRAY REFLECTIVITY:2||temperature gradient interaction chromatography polystyryllithium:2||VISCOELASTIC PROPERTIES:2||polyisoprene:2||CRYSTALSTRUCTURES:2||POLYCARBONATE:2||MULTILAYERS:2||DEPOSITION:2||FULL ADSORPTION MECHANISMS:2||QUANTUM DOTS:2||CRITICAL ORDERING TRANSITION:2||CORE:2||PARACRYSTALLINE DISTORTION:2||PERFORATED LAYER PHASE:2||liposomes:2||phospholipids:2||UNILAMELLAR VESICLES:2||VOLTAMMETRIC DETERMINATION:2||Polyimide:2||FOURIERTRANSFORM:2||SURFACE:2||SIZE EXCLUSION CHROMATOGRAPHY:2||NEUTRON REFLECTIVITY:2||ORDERED STRUCTURE:2||RIGID ROD POLYMERS:2||DISPLACEMENT POLYMERIZATION:2||PHOTOSENSITIVE POLYIMIDE:2||EFFICIENCY:2||films:2||Polylactide:2||CHROMATOGRAPHIC CRITICAL CONDITION:2||RETENTION MECHANISM:2||COPPER PHTHALOCYANINE:2||C60:2||COPOLYMER:2||micelle:2||LINEAR POLYETHYLENE:2||LIQUIDS:2||ARMS:2||HIGHPERFORMANCE LIQUID:2||alternating copolyimides:2||PHASE SEPARATION:2||POLYMERCHAINS:2||STYRYLPYRIDINIUM:2||ANGLES:2||MOBILITY:2||PROBE:2||ACIDS:2||BLUE:2||POSITIONS:2||CYCLOPENTADIENYL:2||HIGHMOLECULARWEIGHT:2||FUELCELLS:2||TIN OXIDE:2||NANOCRYSTALS:2||SURFACE MICELLE FORMATION:2||DISORDER TRANSITION:2||BIREFRINGENCE:2||LIPIDCOMPOSITION:2||CONJUGATED POLYMERS:2||GLASSYCARBON ELECTRODE:2||ELECTROCHEMICAL DETECTION:2||MULTIPLE DETECTION:2||aromatic polyimides:2||MOLECULARWEIGHT HOMOPOLYMERS:2||BINARYMIXTURE:2||PATTERNS:2||photoluminescent polyimide:2||photosensitive polyimide:2||DEPENDENT MICELLIZATION:2||SPEED:2||synthesis:2||COIL BLOCKCOPOLYMERS:2||LIQUIDCRYSTALLINE ASSEMBLIES:2||OXIDE):2||molecular weight distribution:2||CONJUGATED POLYMER:2||polymer characterization:2||NONIONIC SURFACTANTS:2||STEREOREGULAR POLY(METHYL METHACRYLATE):2||structure:2||RODLIKE POLYIMIDE:2||FLEXIBLE POLYIMIDE:2||THERMAL IMIDIZATION:2||IN SITU RODCHAIN FORMATION:2||PHASESEPARATION:2||VINYL ETHER):2||EQUILIBRIUM:2||STRESS:2||STRUCTURAL RELAXATION:2||LIVING POLYMERIZATION:2||CONTAIN:2||SALT:2||WAVEGUIDE:2||XRAY DIFFRACTION:2||WALLED CARBON NANOTUBES:2||SILICON NANOWIRES:2||IR:2||DIELECTRIC THINFILMS:2||Selfassembled monolayer:2||PARAMETERS:2||Temperature gradient interaction chromatography:2||SOLIDSURFACES:2||FLOW:2||RATES:2||PRECURSORS:2||FILM BALANCE:2||SIDECHAINS:2||SUPRAMOLECULAR MATERIALS:2||CHAINS:2||POLYSTYRENE:39||ANIONICPOLYMERIZATION:34||GRADIENT INTERACTION CHROMATOGRAPHY:31||SEPARATION:27||BEHAVIOR:24||LIQUIDCHROMATOGRAPHY:22||POLYMERS:22||SIZEEXCLUSION CHROMATOGRAPHY:19||BLOCKCOPOLYMERS:17||DIBLOCK COPOLYMERS:17||THINFILMS:16||POLYISOPRENE:14||HPLC:13||SYNTHETICPOLYMERS:12||PERFORMANCE LIQUIDCHROMATOGRAPHY:11||DIBLOCK COPOLYMER:11||MOLECULARWEIGHT DISTRIBUTION:10||MACROMOLECULES:10||BLOCKCOPOLYMER:10||REVERSEDPHASE:10||RETENTION BEHAVIOR:10||MORPHOLOGY:9||MOLECULARWEIGHT:9||MELTS:9||AROMATIC POLYIMIDES:8||XRAYSCATTERING:8||polystyrene:8||MIXTURES:7||block copolymer:7||SURFACES:7||DEPENDENCE:7||COPOLYMERS:7||POLYMERIZATION:7||AIR/WATER INTERFACE:7||DEFINED BRUSH POLYIMIDE:6||TEMPERATURE:6||FULLY RODLIKE BACKBONE:6||MONOLAYERS:6||POLYIMIDES:6||CHAIN:6||COMPLEX POLYMERS:6||MOLECULARREORIENTATION:6||temperature gradient interaction chromatography:6||POLYMERFILMS:6||GELPERMEATION CHROMATOGRAPHY:6||ELUTION:6||ORDERDISORDER TRANSITION:6||SURFACEMORPHOLOGY:6||ORIENTATION:6||SYSTEMS:6||CRITICAL ADSORPTION POINT:6||LIGHTSCATTERING:5||PROBE DIFFUSION:5||POLYDISPERSITY:5||AIRWATERINTERFACE:5||MICROPHASE SEPARATION:5||GLASSTRANSITION:5||BLENDS:5||FILMS:5||ADSORPTION CHROMATOGRAPHY:5||MECHANISM:5||CO2:5||ETHYLENEOXIDE:5||ALIGNMENT:5||COMPLEXES:5||FRACTIONATION:5||MISCIBILITY:5||POLYMER CHARACTERIZATION:5||HEXAGONALLY PERFORATED LAYER:5||TRANSITION:5||FLIGHT MASSSPECTROMETRY:5||ARCHITECTURE:5||POLY(METHYL METHACRYLATE):5||ALTERNATING COPOLYMERIZATION:4||THICKNESS:4||THERMODYNAMICS:4||CRITICAL RANGE:4||ULTRATHIN POLYMERFILMS:4||DYNAMICS:4||CLIMATECHANGE:4||PHASE:4||GLASSTRANSITION TEMPERATURE:4||EPOXIDE:4||selfassembly:4||SPECTROSCOPY:4||SELFDIFFUSION:4||SCATTERING:4||OPTICALPROPERTIES:4||CATALYSTS:4||CHEMISTRY:4||SOLARCELLS:4||polyimides:4||polypyromellitimides:4||SEGMENTAL REORIENTATIONS:4||ADSORPTION:4||INTERFACE:4||POLYMERSOLUTIONS:4||TRACER DIFFUSION:4||OXIDE) DIBLOCK COPOLYMER:4||POLYSTYRENEBPOLY(METHYL METHACRYLATE):4||POLYMER BLENDS:4||SIMULATION:4||CHAIN ORIENTATION:4||STYRENE:4||TOF MASSSPECTROMETRY:4||WATER:4||DISPLAYS:4||OLIGOMERS:4||PEPTIDES:4||CYCLIC POLYSTYRENE:4||LATTICE CLUSTER THEORY:4||2NDHARMONIC GENERATION:4||LIQUIDCRYSTAL ALIGNMENT:4||MONTECARLO:4||LangmuirBlodgett film:3||ASSEMBLIES:3||chromatography:3||HOLOGRAPHIC RELAXATION SPECTROSCOPY:3||MULTIPLE MORPHOLOGIES:3||INTERACTION CHROMATOGRAPHY:3||NORMALPHASE:3||DIFFUSION:3||BRANCHED POLYSTYRENE:3||NANOPARTICLES:3||LITHOGRAPHY:3||POLYMER:3||LASERLIGHTSCATTERING:3||HIGH MOLECULARWEIGHT:3||CUBIC PHASE:3||AMPHIPHILIC BLOCKCOPOLYMERS:3||AQUEOUSSOLUTION:3||MODEL:3||FORCED RAYLEIGHSCATTERING:3||HYDRODYNAMIC PROPERTIES:3||4MIKTOARM STAR COPOLYMER:3||SYSTEM:3||PHASEBEHAVIOR:3||AQUEOUSSOLUTIONS:3||RHEOLOGY:3||LB film:3||2DIMENSIONAL LIQUIDCHROMATOGRAPHY:3||VISCOSITY:3||DIBLOCK COPOLYMER MELTS:3||ORDERORDER TRANSITION:3||GYROID PHASE:3||BINDING:3||BLOCK POLYELECTROLYTES:3||DERIVATIVES:3||MELT:3||PHASE LIQUIDCHROMATOGRAPHY:3||high temperature:3||ELEVATEDTEMPERATURE:3||RETENTION:3||MICELLE FORMATION:3||ELECTRONMICROSCOPY:3||Electrospray ionization:2||FRACTIONS:2||nalkanes:2||ISOCRATIC SEPARATION:2||ASSOCIATION:2||POLY(METHYL METHACRYLATE)S:2||2D correlation spectroscopy:2||CARBONATION:2||GLASSTRANSITION BEHAVIORS:2||MECHANICAL PROPERTIES:2||DIMENSIONS:2||POLYMER MIXTURES:2||ALUMINUM PORPHYRIN:2||LEAD STEARATE:2||FERROCENE:2||POLY(EPSILONCAPROLACTONE):2||DIAGRAM:2||nucleosides:2||Selective recognition by preconcentration:2||Electrochemical impedance spectroscopy:2||DOPAMINE:2||Silica:2||Silyl Ester:2||DIETHYL ESTER) PRECURSORS:2||SURFACE CHARACTERIZATION:2||MICROSTRUCTURE:2||polystyreneblockpolyisoprene:2||MICROPHASESEPARATED STRUCTURES:2||IMPEDANCE MEASUREMENTS:2||HEMEPROTEINS:2||SOLID SUBSTRATE:2||MOISTURE ABSORPTION:2||aromatic polyimide:2||INDUCED MORPHOLOGICALCHANGES:2||STABILITY:2||LC alignment layers:2||POLYPYROMELLITIMIDES:2||Ion mobility:2||Chiral polymer:2||OLIGOSACCHARIDES:2||OXIDE:2||SIDECHAIN:2||RETARDATION:2||functionality:2||temperature effects:2||phase transition:2||glass transition temperature:2||spincoated film:2||ESTER) PRECURSORS:2||PRECURSOR BLEND:2||Xray reflectivity:2||SIGMABONDS:2||aluminum porphyrin catalysts:2||METALLOPORPHYRIN:2||SILICON:2||MASSSPECTROMETRY ANALYSIS:2||STAR POLYMERS:2||SIZE DISTRIBUTIONS:2||GIANT VESICLES:2||POLY(3ALKYLTHIOPHENES):2||ADHESION:2||LIGHT:2||POLYSTYRENEBPOLYISOPRENE:2||HPLC fractionation:2||SILVER ELECTRODES:2||ENHANCED RESONANCE RAMAN:2||SEQUENCE:2||POLYELECTROLYTE/NONELECTROLYTE SHELLS:2||polyimide:2||liquid crystal alignment layer:2||SOLUBLE POLYIMIDES:2||POLYBUTADIENECOATED ZIRCONIA:2||PRETILT ANGLES:2||CROSSSECTIONS:2||IMSMS:2||POLYISOPRENE COPOLYMERS:2||POLYIMIDE THINFILMS:2||POLYMER SURFACES:2||RAMAN:2||STEREOREGULAR PMMA:2||poly(tertbutyl methacrylate) (PtBMA):2||TIME:2||POLYIMIDE COMPOSITE:2||CARBOXYLATO COMPLEXES:2||AGOSTIC INTERACTIONS:2||MOLECULARSTRUCTURE:2||ALKENE:2||TRANSISTOR MEMORY:2||DEVICES:2||ORTHOGONALITY:2||molecular characterization:2||ORGANOSILICATE DIELECTRIC FILMS:2||AMPHIPHILES:2||Serotonin:2||Anodic stripping differential pulse voltammetry:2||transmission electron microtomography:2||LIQUIDCHROMATOGRAPHY ANALYSIS:2||PHASEDIAGRAM:2||CARBON NANOTUBES:2||TRANSFER MECHANISM:2||BINARY MIXTURES:2||REFLECTOMETRY:2||ROD:2||DROPS:2||CONSTANT:2||TRIBLOCK COPOLYMER:2||POLYMER VESICLES:2||CLICK CHEMISTRY:2||ARRAYS:2||COMPOSITES:2||MALDITOF MS:2||POLYMER THINFILMS:2||HYDROPHOBIC INTERACTION CHROMATOGRAPHY:2||retention mechanism:2||GRAZINGINCIDENCE:2||NANOPOROSITY:2||soluble poly(amic esteraltimide)s:2||DIFFERENTIAL SCANNING CALORIMETRY:2||RESIDUALSTRESS:2||CHEMICALCOMPOSITION:2||POLY(AMIC DIETHYL ESTER) PRECURSOR:2||POLY(DIMETHYL SILOXANES):2||MASS POLYSTYRENES:2||cyclic propylene carbonate:2||propylene oxide:2||ACETATE) TOLUENE SOLUTIONS:2||TRANSIENT GRATING METHOD:2||MASS DIFFUSION:2||MICROPHASE SEPARATION TRANSITION:2||POLYSTYRENES:2||POLYSILANE:2||CARBOHYDRATEBASED PHOSPHOLIPIDS:2||HELICAL STRANDS:2||FLUORESCENCE DETECTION:2||SENSITIVE DETERMINATION:2||COMPOSITE FILMS:2||microphase:2||3MERCAPTOPROPIONIC ACID:2||BUTADIENE BLOCK COPOLYMER:2||HYBRID POLYMERIC MICELLES:2||AQUEOUSMEDIA:2||CONTACTANGLE:2||TRANSISTORCIRCUITS:2||ABTYPE POLY(ETHERIMIDE)S:2||CORRELATION SPECTROSCOPY:2||GASPHASE CONFORMATIONS:2||DECANE:2||INFRAREDSPECTROSCOPY:2||MICELLIZATION:2||ENERGIES:2||ACID) PRECURSORS:2||PHOTOALIGNMENT:2||polymers:2||SUBSTRATE:2||carbon dioxide:2||oligomeric propylene carbonate:2||THERMALDIFFUSION:2||CRYSTAL:2||PHASETRANSITION:2||REFLECTIVITY:2||ANALOGS:2||supramolecular chemistry:2||LYSOPHOSPHATIDIC ACID:2||PHOSPHOCHOLINE:2||POLY(3HEXYLTHIOPHENE):2||Receptor:2||MODIFIED GOLD ELECTRODES:2||ASCORBICACID:2||HUMAN URINE:2||Hybrid Nanocomposite:2||Dielectric Constant:2||AU(111) ELECTRODES:2||NANOFILMS:2||HYDROPHOBIC CORES:2||DRIVEN:2||FLEXIBLE SIDECHAINS:2||MESOGEN:2||size exclusion chromatography:2||ORGANIZATION:2||POLY(LACTIC ACID):2||MOLECULAR ARCHITECTURE:2||COUPLER:2||POLYSTYRENE COPOLYMER:2||diffusion coefficient:2||XRAY REFLECTIVITY:2||temperature gradient interaction chromatography polystyryllithium:2||VISCOELASTIC PROPERTIES:2||polyisoprene:2||CRYSTALSTRUCTURES:2||POLYCARBONATE:2||MULTILAYERS:2||DEPOSITION:2||FULL ADSORPTION MECHANISMS:2||QUANTUM DOTS:2||CRITICAL ORDERING TRANSITION:2||CORE:2||PARACRYSTALLINE DISTORTION:2||PERFORATED LAYER PHASE:2||liposomes:2||phospholipids:2||UNILAMELLAR VESICLES:2||VOLTAMMETRIC DETERMINATION:2||Polyimide:2||FOURIERTRANSFORM:2||SURFACE:2||SIZE EXCLUSION CHROMATOGRAPHY:2||NEUTRON REFLECTIVITY:2||ORDERED STRUCTURE:2||RIGID ROD POLYMERS:2||DISPLACEMENT POLYMERIZATION:2||PHOTOSENSITIVE POLYIMIDE:2||EFFICIENCY:2||films:2||Polylactide:2||CHROMATOGRAPHIC CRITICAL CONDITION:2||RETENTION MECHANISM:2||COPPER PHTHALOCYANINE:2||C60:2||COPOLYMER:2||micelle:2||LINEAR POLYETHYLENE:2||LIQUIDS:2||ARMS:2||HIGHPERFORMANCE LIQUID:2||alternating copolyimides:2||PHASE SEPARATION:2||POLYMERCHAINS:2||STYRYLPYRIDINIUM:2||ANGLES:2||MOBILITY:2||PROBE:2||ACIDS:2||BLUE:2||POSITIONS:2||CYCLOPENTADIENYL:2||HIGHMOLECULARWEIGHT:2||FUELCELLS:2||TIN OXIDE:2||NANOCRYSTALS:2||SURFACE MICELLE FORMATION:2||DISORDER TRANSITION:2||BIREFRINGENCE:2||LIPIDCOMPOSITION:2||CONJUGATED POLYMERS:2||GLASSYCARBON ELECTRODE:2||ELECTROCHEMICAL DETECTION:2||MULTIPLE DETECTION:2||aromatic polyimides:2||MOLECULARWEIGHT HOMOPOLYMERS:2||BINARYMIXTURE:2||PATTERNS:2||photoluminescent polyimide:2||photosensitive polyimide:2||DEPENDENT MICELLIZATION:2||SPEED:2||synthesis:2||COIL BLOCKCOPOLYMERS:2||LIQUIDCRYSTALLINE ASSEMBLIES:2||OXIDE):2||molecular weight distribution:2||CONJUGATED POLYMER:2||polymer characterization:2||NONIONIC SURFACTANTS:2||STEREOREGULAR POLY(METHYL METHACRYLATE):2||structure:2||RODLIKE POLYIMIDE:2||FLEXIBLE POLYIMIDE:2||THERMAL IMIDIZATION:2||IN SITU RODCHAIN FORMATION:2||PHASESEPARATION:2||VINYL ETHER):2||EQUILIBRIUM:2||STRESS:2||STRUCTURAL RELAXATION:2||LIVING POLYMERIZATION:2||CONTAIN:2||SALT:2||WAVEGUIDE:2||XRAY DIFFRACTION:2||WALLED CARBON NANOTUBES:2||SILICON NANOWIRES:2||IR:2||DIELECTRIC THINFILMS:2||Selfassembled monolayer:2||PARAMETERS:2||Temperature gradient interaction chromatography:2||SOLIDSURFACES:2||FLOW:2||RATES:2||PRECURSORS:2||FILM BALANCE:2||SIDECHAINS:2||SUPRAMOLECULAR MATERIALS:2||CHAINS:2||POLYSTYRENE:39||ANIONICPOLYMERIZATION:34||GRADIENT INTERACTION CHROMATOGRAPHY:31||SEPARATION:27||BEHAVIOR:24||LIQUIDCHROMATOGRAPHY:22||POLYMERS:22||SIZEEXCLUSION CHROMATOGRAPHY:19||BLOCKCOPOLYMERS:17||DIBLOCK COPOLYMERS:17||THINFILMS:16||POLYISOPRENE:14||HPLC:13||SYNTHETICPOLYMERS:12||PERFORMANCE LIQUIDCHROMATOGRAPHY:11||DIBLOCK COPOLYMER:11||MOLECULARWEIGHT DISTRIBUTION:10||MACROMOLECULES:10||BLOCKCOPOLYMER:10||REVERSEDPHASE:10||RETENTION BEHAVIOR:10||MORPHOLOGY:9||MOLECULARWEIGHT:9||MELTS:9||AROMATIC POLYIMIDES:8||XRAYSCATTERING:8||polystyrene:8||MIXTURES:7||block copolymer:7||SURFACES:7||DEPENDENCE:7||COPOLYMERS:7||POLYMERIZATION:7||AIR/WATER INTERFACE:7||DEFINED BRUSH POLYIMIDE:6||TEMPERATURE:6||FULLY RODLIKE BACKBONE:6||MONOLAYERS:6||POLYIMIDES:6||CHAIN:6||COMPLEX POLYMERS:6||MOLECULARREORIENTATION:6||temperature gradient interaction chromatography:6||POLYMERFILMS:6||GELPERMEATION CHROMATOGRAPHY:6||ELUTION:6||ORDERDISORDER TRANSITION:6||SURFACEMORPHOLOGY:6||ORIENTATION:6||SYSTEMS:6||CRITICAL ADSORPTION POINT:6||LIGHTSCATTERING:5||PROBE DIFFUSION:5||POLYDISPERSITY:5||AIRWATERINTERFACE:5||MICROPHASE SEPARATION:5||GLASSTRANSITION:5||BLENDS:5||FILMS:5||ADSORPTION CHROMATOGRAPHY:5||MECHANISM:5||CO2:5||ETHYLENEOXIDE:5||ALIGNMENT:5||COMPLEXES:5||FRACTIONATION:5||MISCIBILITY:5||POLYMER CHARACTERIZATION:5||HEXAGONALLY PERFORATED LAYER:5||TRANSITION:5||FLIGHT MASSSPECTROMETRY:5||ARCHITECTURE:5||POLY(METHYL METHACRYLATE):5||ALTERNATING COPOLYMERIZATION:4||THICKNESS:4||THERMODYNAMICS:4||CRITICAL RANGE:4||ULTRATHIN POLYMERFILMS:4||DYNAMICS:4||CLIMATECHANGE:4||PHASE:4||GLASSTRANSITION TEMPERATURE:4||EPOXIDE:4||selfassembly:4||SPECTROSCOPY:4||SELFDIFFUSION:4||SCATTERING:4||OPTICALPROPERTIES:4||CATALYSTS:4||CHEMISTRY:4||SOLARCELLS:4||polyimides:4||polypyromellitimides:4||SEGMENTAL REORIENTATIONS:4||ADSORPTION:4||INTERFACE:4||POLYMERSOLUTIONS:4||TRACER DIFFUSION:4||OXIDE) DIBLOCK COPOLYMER:4||POLYSTYRENEBPOLY(METHYL METHACRYLATE):4||POLYMER BLENDS:4||SIMULATION:4||CHAIN ORIENTATION:4||STYRENE:4||TOF MASSSPECTROMETRY:4||WATER:4||DISPLAYS:4||OLIGOMERS:4||PEPTIDES:4||CYCLIC POLYSTYRENE:4||LATTICE CLUSTER THEORY:4||2NDHARMONIC GENERATION:4||LIQUIDCRYSTAL ALIGNMENT:4||MONTECARLO:4||LangmuirBlodgett film:3||ASSEMBLIES:3||chromatography:3||HOLOGRAPHIC RELAXATION SPECTROSCOPY:3||MULTIPLE MORPHOLOGIES:3||INTERACTION CHROMATOGRAPHY:3||NORMALPHASE:3||DIFFUSION:3||BRANCHED POLYSTYRENE:3||NANOPARTICLES:3||LITHOGRAPHY:3||POLYMER:3||LASERLIGHTSCATTERING:3||HIGH MOLECULARWEIGHT:3||CUBIC PHASE:3||AMPHIPHILIC BLOCKCOPOLYMERS:3||AQUEOUSSOLUTION:3||MODEL:3||FORCED RAYLEIGHSCATTERING:3||HYDRODYNAMIC PROPERTIES:3||4MIKTOARM STAR COPOLYMER:3||SYSTEM:3||PHASEBEHAVIOR:3||AQUEOUSSOLUTIONS:3||RHEOLOGY:3||LB film:3||2DIMENSIONAL LIQUIDCHROMATOGRAPHY:3||VISCOSITY:3||DIBLOCK COPOLYMER MELTS:3||ORDERORDER TRANSITION:3||GYROID PHASE:3||BINDING:3||BLOCK POLYELECTROLYTES:3||DERIVATIVES:3||MELT:3||PHASE LIQUIDCHROMATOGRAPHY:3||high temperature:3||ELEVATEDTEMPERATURE:3||RETENTION:3||MICELLE FORMATION:3||ELECTRONMICROSCOPY:3||Electrospray ionization:2||FRACTIONS:2||nalkanes:2||ISOCRATIC SEPARATION:2||ASSOCIATION:2||POLY(METHYL METHACRYLATE)S:2||2D correlation spectroscopy:2||CARBONATION:2||GLASSTRANSITION BEHAVIORS:2||MECHANICAL PROPERTIES:2||DIMENSIONS:2||POLYMER MIXTURES:2||ALUMINUM PORPHYRIN:2||LEAD STEARATE:2||FERROCENE:2||POLY(EPSILONCAPROLACTONE):2||DIAGRAM:2||nucleosides:2||Selective recognition by preconcentration:2||Electrochemical impedance spectroscopy:2||DOPAMINE:2||Silica:2||Silyl Ester:2||DIETHYL ESTER) PRECURSORS:2||SURFACE CHARACTERIZATION:2||MICROSTRUCTURE:2||polystyreneblockpolyisoprene:2||MICROPHASESEPARATED STRUCTURES:2||IMPEDANCE MEASUREMENTS:2||HEMEPROTEINS:2||SOLID SUBSTRATE:2||MOISTURE ABSORPTION:2||aromatic polyimide:2||INDUCED MORPHOLOGICALCHANGES:2||STABILITY:2||LC alignment layers:2||POLYPYROMELLITIMIDES:2||Ion mobility:2||Chiral polymer:2||OLIGOSACCHARIDES:2||OXIDE:2||SIDECHAIN:2||RETARDATION:2||functionality:2||temperature effects:2||phase transition:2||glass transition temperature:2||spincoated film:2||ESTER) PRECURSORS:2||PRECURSOR BLEND:2||Xray reflectivity:2||SIGMABONDS:2||aluminum porphyrin catalysts:2||METALLOPORPHYRIN:2||SILICON:2||MASSSPECTROMETRY ANALYSIS:2||STAR POLYMERS:2||SIZE DISTRIBUTIONS:2||GIANT VESICLES:2||POLY(3ALKYLTHIOPHENES):2||ADHESION:2||LIGHT:2||POLYSTYRENEBPOLYISOPRENE:2||HPLC fractionation:2||SILVER ELECTRODES:2||ENHANCED RESONANCE RAMAN:2||SEQUENCE:2||POLYELECTROLYTE/NONELECTROLYTE SHELLS:2||polyimide:2||liquid crystal alignment layer:2||SOLUBLE POLYIMIDES:2||POLYBUTADIENECOATED ZIRCONIA:2||PRETILT ANGLES:2||CROSSSECTIONS:2||IMSMS:2||POLYISOPRENE COPOLYMERS:2||POLYIMIDE THINFILMS:2||POLYMER SURFACES:2||RAMAN:2||STEREOREGULAR PMMA:2||poly(tertbutyl methacrylate) (PtBMA):2||TIME:2||POLYIMIDE COMPOSITE:2||CARBOXYLATO COMPLEXES:2||AGOSTIC INTERACTIONS:2||MOLECULARSTRUCTURE:2||ALKENE:2||TRANSISTOR MEMORY:2||DEVICES:2||ORTHOGONALITY:2||molecular characterization:2||ORGANOSILICATE DIELECTRIC FILMS:2||AMPHIPHILES:2||Serotonin:2||Anodic stripping differential pulse voltammetry:2||transmission electron microtomography:2||LIQUIDCHROMATOGRAPHY ANALYSIS:2||PHASEDIAGRAM:2||CARBON NANOTUBES:2||TRANSFER MECHANISM:2||BINARY MIXTURES:2||REFLECTOMETRY:2||ROD:2||DROPS:2||CONSTANT:2||TRIBLOCK COPOLYMER:2||POLYMER VESICLES:2||CLICK CHEMISTRY:2||ARRAYS:2||COMPOSITES:2||MALDITOF MS:2||POLYMER THINFILMS:2||HYDROPHOBIC INTERACTION CHROMATOGRAPHY:2||retention mechanism:2||GRAZINGINCIDENCE:2||NANOPOROSITY:2||soluble poly(amic esteraltimide)s:2||DIFFERENTIAL SCANNING CALORIMETRY:2||RESIDUALSTRESS:2||CHEMICALCOMPOSITION:2||POLY(AMIC DIETHYL ESTER) PRECURSOR:2||POLY(DIMETHYL SILOXANES):2||MASS POLYSTYRENES:2||cyclic propylene carbonate:2||propylene oxide:2||ACETATE) TOLUENE SOLUTIONS:2||TRANSIENT GRATING METHOD:2||MASS DIFFUSION:2||MICROPHASE SEPARATION TRANSITION:2||POLYSTYRENES:2||POLYSILANE:2||CARBOHYDRATEBASED PHOSPHOLIPIDS:2||HELICAL STRANDS:2||FLUORESCENCE DETECTION:2||SENSITIVE DETERMINATION:2||COMPOSITE FILMS:2||microphase:2||3MERCAPTOPROPIONIC ACID:2||BUTADIENE BLOCK COPOLYMER:2||HYBRID POLYMERIC MICELLES:2||AQUEOUSMEDIA:2||CONTACTANGLE:2||TRANSISTORCIRCUITS:2||ABTYPE POLY(ETHERIMIDE)S:2||CORRELATION SPECTROSCOPY:2||GASPHASE CONFORMATIONS:2||DECANE:2||INFRAREDSPECTROSCOPY:2||MICELLIZATION:2||ENERGIES:2||ACID) PRECURSORS:2||PHOTOALIGNMENT:2||polymers:2||SUBSTRATE:2||carbon dioxide:2||oligomeric propylene carbonate:2||THERMALDIFFUSION:2||CRYSTAL:2||PHASETRANSITION:2||REFLECTIVITY:2||ANALOGS:2||supramolecular chemistry:2||LYSOPHOSPHATIDIC ACID:2||PHOSPHOCHOLINE:2||POLY(3HEXYLTHIOPHENE):2||Receptor:2||MODIFIED GOLD ELECTRODES:2||ASCORBICACID:2||HUMAN URINE:2||Hybrid Nanocomposite:2||Dielectric Constant:2||AU(111) ELECTRODES:2||NANOFILMS:2||HYDROPHOBIC CORES:2||DRIVEN:2||FLEXIBLE SIDECHAINS:2||MESOGEN:2||size exclusion chromatography:2||ORGANIZATION:2||POLY(LACTIC ACID):2||MOLECULAR ARCHITECTURE:2||COUPLER:2||POLYSTYRENE COPOLYMER:2||diffusion coefficient:2||XRAY REFLECTIVITY:2||temperature gradient interaction chromatography polystyryllithium:2||VISCOELASTIC PROPERTIES:2||polyisoprene:2||CRYSTALSTRUCTURES:2||POLYCARBONATE:2||MULTILAYERS:2||DEPOSITION:2||FULL ADSORPTION MECHANISMS:2||QUANTUM DOTS:2||CRITICAL ORDERING TRANSITION:2||CORE:2||PARACRYSTALLINE DISTORTION:2||PERFORATED LAYER PHASE:2||liposomes:2||phospholipids:2||UNILAMELLAR VESICLES:2||VOLTAMMETRIC DETERMINATION:2||Polyimide:2||FOURIERTRANSFORM:2||SURFACE:2||SIZE EXCLUSION CHROMATOGRAPHY:2||NEUTRON REFLECTIVITY:2||ORDERED STRUCTURE:2||RIGID ROD POLYMERS:2||DISPLACEMENT POLYMERIZATION:2||PHOTOSENSITIVE POLYIMIDE:2||EFFICIENCY:2||films:2||Polylactide:2||CHROMATOGRAPHIC CRITICAL CONDITION:2||RETENTION MECHANISM:2||COPPER PHTHALOCYANINE:2||C60:2||COPOLYMER:2||micelle:2||LINEAR POLYETHYLENE:2||LIQUIDS:2||ARMS:2||HIGHPERFORMANCE LIQUID:2||alternating copolyimides:2||PHASE SEPARATION:2||POLYMERCHAINS:2||STYRYLPYRIDINIUM:2||ANGLES:2||MOBILITY:2||PROBE:2||ACIDS:2||BLUE:2||POSITIONS:2||CYCLOPENTADIENYL:2||HIGHMOLECULARWEIGHT:2||FUELCELLS:2||TIN OXIDE:2||NANOCRYSTALS:2||SURFACE MICELLE FORMATION:2||DISORDER TRANSITION:2||BIREFRINGENCE:2||LIPIDCOMPOSITION:2||CONJUGATED POLYMERS:2||GLASSYCARBON ELECTRODE:2||ELECTROCHEMICAL DETECTION:2||MULTIPLE DETECTION:2||aromatic polyimides:2||MOLECULARWEIGHT HOMOPOLYMERS:2||BINARYMIXTURE:2||PATTERNS:2||photoluminescent polyimide:2||photosensitive polyimide:2||DEPENDENT MICELLIZATION:2||SPEED:2||synthesis:2||COIL BLOCKCOPOLYMERS:2||LIQUIDCRYSTALLINE ASSEMBLIES:2||OXIDE):2||molecular weight distribution:2||CONJUGATED POLYMER:2||polymer characterization:2||NONIONIC SURFACTANTS:2||STEREOREGULAR POLY(METHYL METHACRYLATE):2||structure:2||RODLIKE POLYIMIDE:2||FLEXIBLE POLYIMIDE:2||THERMAL IMIDIZATION:2||IN SITU RODCHAIN FORMATION:2||PHASESEPARATION:2||VINYL ETHER):2||EQUILIBRIUM:2||STRESS:2||STRUCTURAL RELAXATION:2||LIVING POLYMERIZATION:2||CONTAIN:2||SALT:2||WAVEGUIDE:2||XRAY DIFFRACTION:2||WALLED CARBON NANOTUBES:2||SILICON NANOWIRES:2||IR:2||DIELECTRIC THINFILMS:2||Selfassembled monolayer:2||PARAMETERS:2||Temperature gradient interaction chromatography:2||SOLIDSURFACES:2||FLOW:2||RATES:2||PRECURSORS:2||FILM BALANCE:2||SIDECHAINS:2||SUPRAMOLECULAR MATERIALS:2||CHAINS:2||POLYSTYRENE:39||ANIONICPOLYMERIZATION:34||GRADIENT INTERACTION CHROMATOGRAPHY:31||SEPARATION:27||BEHAVIOR:24||LIQUIDCHROMATOGRAPHY:22||POLYMERS:22||SIZEEXCLUSION CHROMATOGRAPHY:19||BLOCKCOPOLYMERS:17||DIBLOCK COPOLYMERS:17||THINFILMS:16||POLYISOPRENE:14||HPLC:13||SYNTHETICPOLYMERS:12||PERFORMANCE LIQUIDCHROMATOGRAPHY:11||DIBLOCK COPOLYMER:11||MOLECULARWEIGHT DISTRIBUTION:10||MACROMOLECULES:10||BLOCKCOPOLYMER:10||REVERSEDPHASE:10||RETENTION BEHAVIOR:10||MORPHOLOGY:9||MOLECULARWEIGHT:9||MELTS:9||AROMATIC POLYIMIDES:8||XRAYSCATTERING:8||polystyrene:8||MIXTURES:7||block copolymer:7||SURFACES:7||DEPENDENCE:7||COPOLYMERS:7||POLYMERIZATION:7||AIR/WATER INTERFACE:7||DEFINED BRUSH POLYIMIDE:6||TEMPERATURE:6||FULLY RODLIKE BACKBONE:6||MONOLAYERS:6||POLYIMIDES:6||CHAIN:6||COMPLEX POLYMERS:6||MOLECULARREORIENTATION:6||temperature gradient interaction chromatography:6||POLYMERFILMS:6||GELPERMEATION CHROMATOGRAPHY:6||ELUTION:6||ORDERDISORDER TRANSITION:6||SURFACEMORPHOLOGY:6||ORIENTATION:6||SYSTEMS:6||CRITICAL ADSORPTION POINT:6||LIGHTSCATTERING:5||PROBE DIFFUSION:5||POLYDISPERSITY:5||AIRWATERINTERFACE:5||MICROPHASE SEPARATION:5||GLASSTRANSITION:5||BLENDS:5||FILMS:5||ADSORPTION CHROMATOGRAPHY:5||MECHANISM:5||CO2:5||ETHYLENEOXIDE:5||ALIGNMENT:5||COMPLEXES:5||FRACTIONATION:5||MISCIBILITY:5||POLYMER CHARACTERIZATION:5||HEXAGONALLY PERFORATED LAYER:5||TRANSITION:5||FLIGHT MASSSPECTROMETRY:5||ARCHITECTURE:5||POLY(METHYL METHACRYLATE):5||ALTERNATING COPOLYMERIZATION:4||THICKNESS:4||THERMODYNAMICS:4||CRITICAL RANGE:4||ULTRATHIN POLYMERFILMS:4||DYNAMICS:4||CLIMATECHANGE:4||PHASE:4||GLASSTRANSITION TEMPERATURE:4||EPOXIDE:4||selfassembly:4||SPECTROSCOPY:4||SELFDIFFUSION:4||SCATTERING:4||OPTICALPROPERTIES:4||CATALYSTS:4||CHEMISTRY:4||SOLARCELLS:4||polyimides:4||polypyromellitimides:4||SEGMENTAL REORIENTATIONS:4||ADSORPTION:4||INTERFACE:4||POLYMERSOLUTIONS:4||TRACER DIFFUSION:4||OXIDE) DIBLOCK COPOLYMER:4||POLYSTYRENEBPOLY(METHYL METHACRYLATE):4||POLYMER BLENDS:4||SIMULATION:4||CHAIN ORIENTATION:4||STYRENE:4||TOF MASSSPECTROMETRY:4||WATER:4||DISPLAYS:4||OLIGOMERS:4||PEPTIDES:4||CYCLIC POLYSTYRENE:4||LATTICE CLUSTER THEORY:4||2NDHARMONIC GENERATION:4||LIQUIDCRYSTAL ALIGNMENT:4||MONTECARLO:4||LangmuirBlodgett film:3||ASSEMBLIES:3||chromatography:3||HOLOGRAPHIC RELAXATION SPECTROSCOPY:3||MULTIPLE MORPHOLOGIES:3||INTERACTION CHROMATOGRAPHY:3||NORMALPHASE:3||DIFFUSION:3||BRANCHED POLYSTYRENE:3||NANOPARTICLES:3||LITHOGRAPHY:3||POLYMER:3||LASERLIGHTSCATTERING:3||HIGH MOLECULARWEIGHT:3||CUBIC PHASE:3||AMPHIPHILIC BLOCKCOPOLYMERS:3||AQUEOUSSOLUTION:3||MODEL:3||FORCED RAYLEIGHSCATTERING:3||HYDRODYNAMIC PROPERTIES:3||4MIKTOARM STAR COPOLYMER:3||SYSTEM:3||PHASEBEHAVIOR:3||AQUEOUSSOLUTIONS:3||RHEOLOGY:3||LB film:3||2DIMENSIONAL LIQUIDCHROMATOGRAPHY:3||VISCOSITY:3||DIBLOCK COPOLYMER MELTS:3||ORDERORDER TRANSITION:3||GYROID PHASE:3||BINDING:3||BLOCK POLYELECTROLYTES:3||DERIVATIVES:3||MELT:3||PHASE LIQUIDCHROMATOGRAPHY:3||high temperature:3||ELEVATEDTEMPERATURE:3||RETENTION:3||MICELLE FORMATION:3||ELECTRONMICROSCOPY:3||Electrospray ionization:2||FRACTIONS:2||nalkanes:2||ISOCRATIC SEPARATION:2||ASSOCIATION:2||POLY(METHYL METHACRYLATE)S:2||2D correlation spectroscopy:2||CARBONATION:2||GLASSTRANSITION BEHAVIORS:2||MECHANICAL PROPERTIES:2||DIMENSIONS:2||POLYMER MIXTURES:2||ALUMINUM PORPHYRIN:2||LEAD STEARATE:2||FERROCENE:2||POLY(EPSILONCAPROLACTONE):2||DIAGRAM:2||nucleosides:2||Selective recognition by preconcentration:2||Electrochemical impedance spectroscopy:2||DOPAMINE:2||Silica:2||Silyl Ester:2||DIETHYL ESTER) PRECURSORS:2||SURFACE CHARACTERIZATION:2||MICROSTRUCTURE:2||polystyreneblockpolyisoprene:2||MICROPHASESEPARATED STRUCTURES:2||IMPEDANCE MEASUREMENTS:2||HEMEPROTEINS:2||SOLID SUBSTRATE:2||MOISTURE ABSORPTION:2||aromatic polyimide:2||INDUCED MORPHOLOGICALCHANGES:2||STABILITY:2||LC alignment layers:2||POLYPYROMELLITIMIDES:2||Ion mobility:2||Chiral polymer:2||OLIGOSACCHARIDES:2||OXIDE:2||SIDECHAIN:2||RETARDATION:2||functionality:2||temperature effects:2||phase transition:2||glass transition temperature:2||spincoated film:2||ESTER) PRECURSORS:2||PRECURSOR BLEND:2||Xray reflectivity:2||SIGMABONDS:2||aluminum porphyrin catalysts:2||METALLOPORPHYRIN:2||SILICON:2||MASSSPECTROMETRY ANALYSIS:2||STAR POLYMERS:2||SIZE DISTRIBUTIONS:2||GIANT VESICLES:2||POLY(3ALKYLTHIOPHENES):2||ADHESION:2||LIGHT:2||POLYSTYRENEBPOLYISOPRENE:2||HPLC fractionation:2||SILVER ELECTRODES:2||ENHANCED RESONANCE RAMAN:2||SEQUENCE:2||POLYELECTROLYTE/NONELECTROLYTE SHELLS:2||polyimide:2||liquid crystal alignment layer:2||SOLUBLE POLYIMIDES:2||POLYBUTADIENECOATED ZIRCONIA:2||PRETILT ANGLES:2||CROSSSECTIONS:2||IMSMS:2||POLYISOPRENE COPOLYMERS:2||POLYIMIDE THINFILMS:2||POLYMER SURFACES:2||RAMAN:2||STEREOREGULAR PMMA:2||poly(tertbutyl methacrylate) (PtBMA):2||TIME:2||POLYIMIDE COMPOSITE:2||CARBOXYLATO COMPLEXES:2||AGOSTIC INTERACTIONS:2||MOLECULARSTRUCTURE:2||ALKENE:2||TRANSISTOR MEMORY:2||DEVICES:2||ORTHOGONALITY:2||molecular characterization:2||ORGANOSILICATE DIELECTRIC FILMS:2||AMPHIPHILES:2||Serotonin:2||Anodic stripping differential pulse voltammetry:2||transmission electron microtomography:2||LIQUIDCHROMATOGRAPHY ANALYSIS:2||PHASEDIAGRAM:2||CARBON NANOTUBES:2||TRANSFER MECHANISM:2||BINARY MIXTURES:2||REFLECTOMETRY:2||ROD:2||DROPS:2||CONSTANT:2||TRIBLOCK COPOLYMER:2||POLYMER VESICLES:2||CLICK CHEMISTRY:2||ARRAYS:2||COMPOSITES:2||MALDITOF MS:2||POLYMER THINFILMS:2||HYDROPHOBIC INTERACTION CHROMATOGRAPHY:2||retention mechanism:2||GRAZINGINCIDENCE:2||NANOPOROSITY:2||soluble poly(amic esteraltimide)s:2||DIFFERENTIAL SCANNING CALORIMETRY:2||RESIDUALSTRESS:2||CHEMICALCOMPOSITION:2||POLY(AMIC DIETHYL ESTER) PRECURSOR:2||POLY(DIMETHYL SILOXANES):2||MASS POLYSTYRENES:2||cyclic propylene carbonate:2||propylene oxide:2||ACETATE) TOLUENE SOLUTIONS:2||TRANSIENT GRATING METHOD:2||MASS DIFFUSION:2||MICROPHASE SEPARATION TRANSITION:2||POLYSTYRENES:2||POLYSILANE:2||CARBOHYDRATEBASED PHOSPHOLIPIDS:2||HELICAL STRANDS:2||FLUORESCENCE DETECTION:2||SENSITIVE DETERMINATION:2||COMPOSITE FILMS:2||microphase:2||3MERCAPTOPROPIONIC ACID:2||BUTADIENE BLOCK COPOLYMER:2||HYBRID POLYMERIC MICELLES:2||AQUEOUSMEDIA:2||CONTACTANGLE:2||TRANSISTORCIRCUITS:2||ABTYPE POLY(ETHERIMIDE)S:2||CORRELATION SPECTROSCOPY:2||GASPHASE CONFORMATIONS:2||DECANE:2||INFRAREDSPECTROSCOPY:2||MICELLIZATION:2||ENERGIES:2||ACID) PRECURSORS:2||PHOTOALIGNMENT:2||polymers:2||SUBSTRATE:2||carbon dioxide:2||oligomeric propylene carbonate:2||THERMALDIFFUSION:2||CRYSTAL:2||PHASETRANSITION:2||REFLECTIVITY:2||ANALOGS:2||supramolecular chemistry:2||LYSOPHOSPHATIDIC ACID:2||PHOSPHOCHOLINE:2||POLY(3HEXYLTHIOPHENE):2||Receptor:2||MODIFIED GOLD ELECTRODES:2||ASCORBICACID:2||HUMAN URINE:2||Hybrid Nanocomposite:2||Dielectric Constant:2||AU(111) ELECTRODES:2||NANOFILMS:2||HYDROPHOBIC CORES:2||DRIVEN:2||FLEXIBLE SIDECHAINS:2||MESOGEN:2||size exclusion chromatography:2||ORGANIZATION:2||POLY(LACTIC ACID):2||MOLECULAR ARCHITECTURE:2||COUPLER:2||POLYSTYRENE COPOLYMER:2||diffusion coefficient:2||XRAY REFLECTIVITY:2||temperature gradient interaction chromatography polystyryllithium:2||VISCOELASTIC PROPERTIES:2||polyisoprene:2||CRYSTALSTRUCTURES:2||POLYCARBONATE:2||MULTILAYERS:2||DEPOSITION:2||FULL ADSORPTION MECHANISMS:2||QUANTUM DOTS:2||CRITICAL ORDERING TRANSITION:2||CORE:2||PARACRYSTALLINE DISTORTION:2||PERFORATED LAYER PHASE:2||liposomes:2||phospholipids:2||UNILAMELLAR VESICLES:2||VOLTAMMETRIC DETERMINATION:2||Polyimide:2||FOURIERTRANSFORM:2||SURFACE:2||SIZE EXCLUSION CHROMATOGRAPHY:2||NEUTRON REFLECTIVITY:2||ORDERED STRUCTURE:2||RIGID ROD POLYMERS:2||DISPLACEMENT POLYMERIZATION:2||PHOTOSENSITIVE POLYIMIDE:2||EFFICIENCY:2||films:2||Polylactide:2||CHROMATOGRAPHIC CRITICAL CONDITION:2||RETENTION MECHANISM:2||COPPER PHTHALOCYANINE:2||C60:2||COPOLYMER:2||micelle:2||LINEAR POLYETHYLENE:2||LIQUIDS:2||ARMS:2||HIGHPERFORMANCE LIQUID:2||alternating copolyimides:2||PHASE SEPARATION:2||POLYMERCHAINS:2||STYRYLPYRIDINIUM:2||ANGLES:2||MOBILITY:2||PROBE:2||ACIDS:2||BLUE:2||POSITIONS:2||CYCLOPENTADIENYL:2||HIGHMOLECULARWEIGHT:2||FUELCELLS:2||TIN OXIDE:2||NANOCRYSTALS:2||SURFACE MICELLE FORMATION:2||DISORDER TRANSITION:2||BIREFRINGENCE:2||LIPIDCOMPOSITION:2||CONJUGATED POLYMERS:2||GLASSYCARBON ELECTRODE:2||ELECTROCHEMICAL DETECTION:2||MULTIPLE DETECTION:2||aromatic polyimides:2||MOLECULARWEIGHT HOMOPOLYMERS:2||BINARYMIXTURE:2||PATTERNS:2||photoluminescent polyimide:2||photosensitive polyimide:2||DEPENDENT MICELLIZATION:2||SPEED:2||synthesis:2||COIL BLOCKCOPOLYMERS:2||LIQUIDCRYSTALLINE ASSEMBLIES:2||OXIDE):2||molecular weight distribution:2||CONJUGATED POLYMER:2||polymer characterization:2||NONIONIC SURFACTANTS:2||STEREOREGULAR POLY(METHYL METHACRYLATE):2||structure:2||RODLIKE POLYIMIDE:2||FLEXIBLE POLYIMIDE:2||THERMAL IMIDIZATION:2||IN SITU RODCHAIN FORMATION:2||PHASESEPARATION:2||VINYL ETHER):2||EQUILIBRIUM:2||STRESS:2||STRUCTURAL RELAXATION:2||LIVING POLYMERIZATION:2||CONTAIN:2||SALT:2||WAVEGUIDE:2||XRAY DIFFRACTION:2||WALLED CARBON NANOTUBES:2||SILICON NANOWIRES:2||IR:2||DIELECTRIC THINFILMS:2||Selfassembled monolayer:2||PARAMETERS:2||Temperature gradient interaction chromatography:2||SOLIDSURFACES:2||FLOW:2||RATES:2||PRECURSORS:2||FILM BALANCE:2||SIDECHAINS:2||SUPRAMOLECULAR MATERIALS:2||CHAINS:2||POLYSTYRENE:39||ANIONICPOLYMERIZATION:34||GRADIENT INTERACTION CHROMATOGRAPHY:31||SEPARATION:27||BEHAVIOR:24||LIQUIDCHROMATOGRAPHY:22||POLYMERS:22||SIZEEXCLUSION CHROMATOGRAPHY:19||BLOCKCOPOLYMERS:17||DIBLOCK COPOLYMERS:17||THINFILMS:16||POLYISOPRENE:14||HPLC:13||SYNTHETICPOLYMERS:12||PERFORMANCE LIQUIDCHROMATOGRAPHY:11||DIBLOCK COPOLYMER:11||MOLECULARWEIGHT DISTRIBUTION:10||MACROMOLECULES:10||BLOCKCOPOLYMER:10||REVERSEDPHASE:10||RETENTION BEHAVIOR:10||MORPHOLOGY:9||MOLECULARWEIGHT:9||MELTS:9||AROMATIC POLYIMIDES:8||XRAYSCATTERING:8||polystyrene:8||MIXTURES:7||block copolymer:7||SURFACES:7||DEPENDENCE:7||COPOLYMERS:7||POLYMERIZATION:7||AIR/WATER INTERFACE:7||DEFINED BRUSH POLYIMIDE:6||TEMPERATURE:6||FULLY RODLIKE BACKBONE:6||MONOLAYERS:6||POLYIMIDES:6||CHAIN:6||COMPLEX POLYMERS:6||MOLECULARREORIENTATION:6||temperature gradient interaction chromatography:6||POLYMERFILMS:6||GELPERMEATION CHROMATOGRAPHY:6||ELUTION:6||ORDERDISORDER TRANSITION:6||SURFACEMORPHOLOGY:6||ORIENTATION:6||SYSTEMS:6||CRITICAL ADSORPTION POINT:6||LIGHTSCATTERING:5||PROBE DIFFUSION:5||POLYDISPERSITY:5||AIRWATERINTERFACE:5||MICROPHASE SEPARATION:5||GLASSTRANSITION:5||BLENDS:5||FILMS:5||ADSORPTION CHROMATOGRAPHY:5||MECHANISM:5||CO2:5||ETHYLENEOXIDE:5||ALIGNMENT:5||COMPLEXES:5||FRACTIONATION:5||MISCIBILITY:5||POLYMER CHARACTERIZATION:5||HEXAGONALLY PERFORATED LAYER:5||TRANSITION:5||FLIGHT MASSSPECTROMETRY:5||ARCHITECTURE:5||POLY(METHYL METHACRYLATE):5||ALTERNATING COPOLYMERIZATION:4||THICKNESS:4||THERMODYNAMICS:4||CRITICAL RANGE:4||ULTRATHIN POLYMERFILMS:4||DYNAMICS:4||CLIMATECHANGE:4||PHASE:4||GLASSTRANSITION TEMPERATURE:4||EPOXIDE:4||selfassembly:4||SPECTROSCOPY:4||SELFDIFFUSION:4||SCATTERING:4||OPTICALPROPERTIES:4||CATALYSTS:4||CHEMISTRY:4||SOLARCELLS:4||polyimides:4||polypyromellitimides:4||SEGMENTAL REORIENTATIONS:4||ADSORPTION:4||INTERFACE:4||POLYMERSOLUTIONS:4||TRACER DIFFUSION:4||OXIDE) DIBLOCK COPOLYMER:4||POLYSTYRENEBPOLY(METHYL METHACRYLATE):4||POLYMER BLENDS:4||SIMULATION:4||CHAIN ORIENTATION:4||STYRENE:4||TOF MASSSPECTROMETRY:4||WATER:4||DISPLAYS:4||OLIGOMERS:4||PEPTIDES:4||CYCLIC POLYSTYRENE:4||LATTICE CLUSTER THEORY:4||2NDHARMONIC GENERATION:4||LIQUIDCRYSTAL ALIGNMENT:4||MONTECARLO:4||LangmuirBlodgett film:3||ASSEMBLIES:3||chromatography:3||HOLOGRAPHIC RELAXATION SPECTROSCOPY:3||MULTIPLE MORPHOLOGIES:3||INTERACTION CHROMATOGRAPHY:3||NORMALPHASE:3||DIFFUSION:3||BRANCHED POLYSTYRENE:3||NANOPARTICLES:3||LITHOGRAPHY:3||POLYMER:3||LASERLIGHTSCATTERING:3||HIGH MOLECULARWEIGHT:3||CUBIC PHASE:3||AMPHIPHILIC BLOCKCOPOLYMERS:3||AQUEOUSSOLUTION:3||MODEL:3||FORCED RAYLEIGHSCATTERING:3||HYDRODYNAMIC PROPERTIES:3||4MIKTOARM STAR COPOLYMER:3||SYSTEM:3||PHASEBEHAVIOR:3||AQUEOUSSOLUTIONS:3||RHEOLOGY:3||LB film:3||2DIMENSIONAL LIQUIDCHROMATOGRAPHY:3||VISCOSITY:3||DIBLOCK COPOLYMER MELTS:3||ORDERORDER TRANSITION:3||GYROID PHASE:3||BINDING:3||BLOCK POLYELECTROLYTES:3||DERIVATIVES:3||MELT:3||PHASE LIQUIDCHROMATOGRAPHY:3||high temperature:3||ELEVATEDTEMPERATURE:3||RETENTION:3||MICELLE FORMATION:3||ELECTRONMICROSCOPY:3||Electrospray ionization:2||FRACTIONS:2||nalkanes:2||ISOCRATIC SEPARATION:2||ASSOCIATION:2||POLY(METHYL METHACRYLATE)S:2||2D correlation spectroscopy:2||CARBONATION:2||GLASSTRANSITION BEHAVIORS:2||MECHANICAL PROPERTIES:2||DIMENSIONS:2||POLYMER MIXTURES:2||ALUMINUM PORPHYRIN:2||LEAD STEARATE:2||FERROCENE:2||POLY(EPSILONCAPROLACTONE):2||DIAGRAM:2||nucleosides:2||Selective recognition by preconcentration:2||Electrochemical impedance spectroscopy:2||DOPAMINE:2||Silica:2||Silyl Ester:2||DIETHYL ESTER) PRECURSORS:2||SURFACE CHARACTERIZATION:2||MICROSTRUCTURE:2||polystyreneblockpolyisoprene:2||MICROPHASESEPARATED STRUCTURES:2||IMPEDANCE MEASUREMENTS:2||HEMEPROTEINS:2||SOLID SUBSTRATE:2||MOISTURE ABSORPTION:2||aromatic polyimide:2||INDUCED MORPHOLOGICALCHANGES:2||STABILITY:2||LC alignment layers:2||POLYPYROMELLITIMIDES:2||Ion mobility:2||Chiral polymer:2||OLIGOSACCHARIDES:2||OXIDE:2||SIDECHAIN:2||RETARDATION:2||functionality:2||temperature effects:2||phase transition:2||glass transition temperature:2||spincoated film:2||ESTER) PRECURSORS:2||PRECURSOR BLEND:2||Xray reflectivity:2||SIGMABONDS:2||aluminum porphyrin catalysts:2||METALLOPORPHYRIN:2||SILICON:2||MASSSPECTROMETRY ANALYSIS:2||STAR POLYMERS:2||SIZE DISTRIBUTIONS:2||GIANT VESICLES:2||POLY(3ALKYLTHIOPHENES):2||ADHESION:2||LIGHT:2||POLYSTYRENEBPOLYISOPRENE:2||HPLC fractionation:2||SILVER ELECTRODES:2||ENHANCED RESONANCE RAMAN:2||SEQUENCE:2||POLYELECTROLYTE/NONELECTROLYTE SHELLS:2||polyimide:2||liquid crystal alignment layer:2||SOLUBLE POLYIMIDES:2||POLYBUTADIENECOATED ZIRCONIA:2||PRETILT ANGLES:2||CROSSSECTIONS:2||IMSMS:2||POLYISOPRENE COPOLYMERS:2||POLYIMIDE THINFILMS:2||POLYMER SURFACES:2||RAMAN:2||STEREOREGULAR PMMA:2||poly(tertbutyl methacrylate) (PtBMA):2||TIME:2||POLYIMIDE COMPOSITE:2||CARBOXYLATO COMPLEXES:2||AGOSTIC INTERACTIONS:2||MOLECULARSTRUCTURE:2||ALKENE:2||TRANSISTOR MEMORY:2||DEVICES:2||ORTHOGONALITY:2||molecular characterization:2||ORGANOSILICATE DIELECTRIC FILMS:2||AMPHIPHILES:2||Serotonin:2||Anodic stripping differential pulse voltammetry:2||transmission electron microtomography:2||LIQUIDCHROMATOGRAPHY ANALYSIS:2||PHASEDIAGRAM:2||CARBON NANOTUBES:2||TRANSFER MECHANISM:2||BINARY MIXTURES:2||REFLECTOMETRY:2||ROD:2||DROPS:2||CONSTANT:2||TRIBLOCK COPOLYMER:2||POLYMER VESICLES:2||CLICK CHEMISTRY:2||ARRAYS:2||COMPOSITES:2||MALDITOF MS:2||POLYMER THINFILMS:2||HYDROPHOBIC INTERACTION CHROMATOGRAPHY:2||retention mechanism:2||GRAZINGINCIDENCE:2||NANOPOROSITY:2||soluble poly(amic esteraltimide)s:2||DIFFERENTIAL SCANNING CALORIMETRY:2||RESIDUALSTRESS:2||CHEMICALCOMPOSITION:2||POLY(AMIC DIETHYL ESTER) PRECURSOR:2||POLY(DIMETHYL SILOXANES):2||MASS POLYSTYRENES:2||cyclic propylene carbonate:2||propylene oxide:2||ACETATE) TOLUENE SOLUTIONS:2||TRANSIENT GRATING METHOD:2||MASS DIFFUSION:2||MICROPHASE SEPARATION TRANSITION:2||POLYSTYRENES:2||POLYSILANE:2||CARBOHYDRATEBASED PHOSPHOLIPIDS:2||HELICAL STRANDS:2||FLUORESCENCE DETECTION:2||SENSITIVE DETERMINATION:2||COMPOSITE FILMS:2||microphase:2||3MERCAPTOPROPIONIC ACID:2||BUTADIENE BLOCK COPOLYMER:2||HYBRID POLYMERIC MICELLES:2||AQUEOUSMEDIA:2||CONTACTANGLE:2||TRANSISTORCIRCUITS:2||ABTYPE POLY(ETHERIMIDE)S:2||CORRELATION SPECTROSCOPY:2||GASPHASE CONFORMATIONS:2||DECANE:2||INFRAREDSPECTROSCOPY:2||MICELLIZATION:2||ENERGIES:2||ACID) PRECURSORS:2||PHOTOALIGNMENT:2||polymers:2||SUBSTRATE:2||carbon dioxide:2||oligomeric propylene carbonate:2||THERMALDIFFUSION:2||CRYSTAL:2||PHASETRANSITION:2||REFLECTIVITY:2||ANALOGS:2||supramolecular chemistry:2||LYSOPHOSPHATIDIC ACID:2||PHOSPHOCHOLINE:2||POLY(3HEXYLTHIOPHENE):2||Receptor:2||MODIFIED GOLD ELECTRODES:2||ASCORBICACID:2||HUMAN URINE:2||Hybrid Nanocomposite:2||Dielectric Constant:2||AU(111) ELECTRODES:2||NANOFILMS:2||HYDROPHOBIC CORES:2||DRIVEN:2||FLEXIBLE SIDECHAINS:2||MESOGEN:2||size exclusion chromatography:2||ORGANIZATION:2||POLY(LACTIC ACID):2||MOLECULAR ARCHITECTURE:2||COUPLER:2||POLYSTYRENE COPOLYMER:2||diffusion coefficient:2||XRAY REFLECTIVITY:2||temperature gradient interaction chromatography polystyryllithium:2||VISCOELASTIC PROPERTIES:2||polyisoprene:2||CRYSTALSTRUCTURES:2||POLYCARBONATE:2||MULTILAYERS:2||DEPOSITION:2||FULL ADSORPTION MECHANISMS:2||QUANTUM DOTS:2||CRITICAL ORDERING TRANSITION:2||CORE:2||PARACRYSTALLINE DISTORTION:2||PERFORATED LAYER PHASE:2||liposomes:2||phospholipids:2||UNILAMELLAR VESICLES:2||VOLTAMMETRIC DETERMINATION:2||Polyimide:2||FOURIERTRANSFORM:2||SURFACE:2||SIZE EXCLUSION CHROMATOGRAPHY:2||NEUTRON REFLECTIVITY:2||ORDERED STRUCTURE:2||RIGID ROD POLYMERS:2||DISPLACEMENT POLYMERIZATION:2||PHOTOSENSITIVE POLYIMIDE:2||EFFICIENCY:2||films:2||Polylactide:2||CHROMATOGRAPHIC CRITICAL CONDITION:2||RETENTION MECHANISM:2||COPPER PHTHALOCYANINE:2||C60:2||COPOLYMER:2||micelle:2||LINEAR POLYETHYLENE:2||LIQUIDS:2||ARMS:2||HIGHPERFORMANCE LIQUID:2||alternating copolyimides:2||PHASE SEPARATION:2||POLYMERCHAINS:2||STYRYLPYRIDINIUM:2||ANGLES:2||MOBILITY:2||PROBE:2||ACIDS:2||BLUE:2||POSITIONS:2||CYCLOPENTADIENYL:2||HIGHMOLECULARWEIGHT:2||FUELCELLS:2||TIN OXIDE:2||NANOCRYSTALS:2||SURFACE MICELLE FORMATION:2||DISORDER TRANSITION:2||BIREFRINGENCE:2||LIPIDCOMPOSITION:2||CONJUGATED POLYMERS:2||GLASSYCARBON ELECTRODE:2||ELECTROCHEMICAL DETECTION:2||MULTIPLE DETECTION:2||aromatic polyimides:2||MOLECULARWEIGHT HOMOPOLYMERS:2||BINARYMIXTURE:2||PATTERNS:2||photoluminescent polyimide:2||photosensitive polyimide:2||DEPENDENT MICELLIZATION:2||SPEED:2||synthesis:2||COIL BLOCKCOPOLYMERS:2||LIQUIDCRYSTALLINE ASSEMBLIES:2||OXIDE):2||molecular weight distribution:2||CONJUGATED POLYMER:2||polymer characterization:2||NONIONIC SURFACTANTS:2||STEREOREGULAR POLY(METHYL METHACRYLATE):2||structure:2||RODLIKE POLYIMIDE:2||FLEXIBLE POLYIMIDE:2||THERMAL IMIDIZATION:2||IN SITU RODCHAIN FORMATION:2||PHASESEPARATION:2||VINYL ETHER):2||EQUILIBRIUM:2||STRESS:2||STRUCTURAL RELAXATION:2||LIVING POLYMERIZATION:2||CONTAIN:2||SALT:2||WAVEGUIDE:2||XRAY DIFFRACTION:2||WALLED CARBON NANOTUBES:2||SILICON NANOWIRES:2||IR:2||DIELECTRIC THINFILMS:2||Selfassembled monolayer:2||PARAMETERS:2||Temperature gradient interaction chromatography:2||SOLIDSURFACES:2||FLOW:2||RATES:2||PRECURSORS:2||FILM BALANCE:2||SIDECHAINS:2||SUPRAMOLECULAR MATERIALS:2||CHAINS:2||POLYSTYRENE:39||ANIONICPOLYMERIZATION:34||GRADIENT INTERACTION CHROMATOGRAPHY:31||SEPARATION:27||BEHAVIOR:24||LIQUIDCHROMATOGRAPHY:22||POLYMERS:22||SIZEEXCLUSION CHROMATOGRAPHY:19||BLOCKCOPOLYMERS:17||DIBLOCK COPOLYMERS:17||THINFILMS:16||POLYISOPRENE:14||HPLC:13||SYNTHETICPOLYMERS:12||PERFORMANCE LIQUIDCHROMATOGRAPHY:11||DIBLOCK COPOLYMER:11||MOLECULARWEIGHT DISTRIBUTION:10||MACROMOLECULES:10||BLOCKCOPOLYMER:10||REVERSEDPHASE:10||RETENTION BEHAVIOR:10||MORPHOLOGY:9||MOLECULARWEIGHT:9||MELTS:9||AROMATIC POLYIMIDES:8||XRAYSCATTERING:8||polystyrene:8||MIXTURES:7||block copolymer:7||SURFACES:7||DEPENDENCE:7||COPOLYMERS:7||POLYMERIZATION:7||AIR/WATER INTERFACE:7||DEFINED BRUSH POLYIMIDE:6||TEMPERATURE:6||FULLY RODLIKE BACKBONE:6||MONOLAYERS:6||POLYIMIDES:6||CHAIN:6||COMPLEX POLYMERS:6||MOLECULARREORIENTATION:6||temperature gradient interaction chromatography:6||POLYMERFILMS:6||GELPERMEATION CHROMATOGRAPHY:6||ELUTION:6||ORDERDISORDER TRANSITION:6||SURFACEMORPHOLOGY:6||ORIENTATION:6||SYSTEMS:6||CRITICAL ADSORPTION POINT:6||LIGHTSCATTERING:5||PROBE DIFFUSION:5||POLYDISPERSITY:5||AIRWATERINTERFACE:5||MICROPHASE SEPARATION:5||GLASSTRANSITION:5||BLENDS:5||FILMS:5||ADSORPTION CHROMATOGRAPHY:5||MECHANISM:5||CO2:5||ETHYLENEOXIDE:5||ALIGNMENT:5||COMPLEXES:5||FRACTIONATION:5||MISCIBILITY:5||POLYMER CHARACTERIZATION:5||HEXAGONALLY PERFORATED LAYER:5||TRANSITION:5||FLIGHT MASSSPECTROMETRY:5||ARCHITECTURE:5||POLY(METHYL METHACRYLATE):5||ALTERNATING COPOLYMERIZATION:4||THICKNESS:4||THERMODYNAMICS:4||CRITICAL RANGE:4||ULTRATHIN POLYMERFILMS:4||DYNAMICS:4||CLIMATECHANGE:4||PHASE:4||GLASSTRANSITION TEMPERATURE:4||EPOXIDE:4||selfassembly:4||SPECTROSCOPY:4||SELFDIFFUSION:4||SCATTERING:4||OPTICALPROPERTIES:4||CATALYSTS:4||CHEMISTRY:4||SOLARCELLS:4||polyimides:4||polypyromellitimides:4||SEGMENTAL REORIENTATIONS:4||ADSORPTION:4||INTERFACE:4||POLYMERSOLUTIONS:4||TRACER DIFFUSION:4||OXIDE) DIBLOCK COPOLYMER:4||POLYSTYRENEBPOLY(METHYL METHACRYLATE):4||POLYMER BLENDS:4||SIMULATION:4||CHAIN ORIENTATION:4||STYRENE:4||TOF MASSSPECTROMETRY:4||WATER:4||DISPLAYS:4||OLIGOMERS:4||PEPTIDES:4||CYCLIC POLYSTYRENE:4||LATTICE CLUSTER THEORY:4||2NDHARMONIC GENERATION:4||LIQUIDCRYSTAL ALIGNMENT:4||MONTECARLO:4||LangmuirBlodgett film:3||ASSEMBLIES:3||chromatography:3||HOLOGRAPHIC RELAXATION SPECTROSCOPY:3||MULTIPLE MORPHOLOGIES:3||INTERACTION CHROMATOGRAPHY:3||NORMALPHASE:3||DIFFUSION:3||BRANCHED POLYSTYRENE:3||NANOPARTICLES:3||LITHOGRAPHY:3||POLYMER:3||LASERLIGHTSCATTERING:3||HIGH MOLECULARWEIGHT:3||CUBIC PHASE:3||AMPHIPHILIC BLOCKCOPOLYMERS:3||AQUEOUSSOLUTION:3||MODEL:3||FORCED RAYLEIGHSCATTERING:3||HYDRODYNAMIC PROPERTIES:3||4MIKTOARM STAR COPOLYMER:3||SYSTEM:3||PHASEBEHAVIOR:3||AQUEOUSSOLUTIONS:3||RHEOLOGY:3||LB film:3||2DIMENSIONAL LIQUIDCHROMATOGRAPHY:3||VISCOSITY:3||DIBLOCK COPOLYMER MELTS:3||ORDERORDER TRANSITION:3||GYROID PHASE:3||BINDING:3||BLOCK POLYELECTROLYTES:3||DERIVATIVES:3||MELT:3||PHASE LIQUIDCHROMATOGRAPHY:3||high temperature:3||ELEVATEDTEMPERATURE:3||RETENTION:3||MICELLE FORMATION:3||ELECTRONMICROSCOPY:3||Electrospray ionization:2||FRACTIONS:2||nalkanes:2||ISOCRATIC SEPARATION:2||ASSOCIATION:2||POLY(METHYL METHACRYLATE)S:2||2D correlation spectroscopy:2||CARBONATION:2||GLASSTRANSITION BEHAVIORS:2||MECHANICAL PROPERTIES:2||DIMENSIONS:2||POLYMER MIXTURES:2||ALUMINUM PORPHYRIN:2||LEAD STEARATE:2||FERROCENE:2||POLY(EPSILONCAPROLACTONE):2||DIAGRAM:2||nucleosides:2||Selective recognition by preconcentration:2||Electrochemical impedance spectroscopy:2||DOPAMINE:2||Silica:2||Silyl Ester:2||DIETHYL ESTER) PRECURSORS:2||SURFACE CHARACTERIZATION:2||MICROSTRUCTURE:2||polystyreneblockpolyisoprene:2||MICROPHASESEPARATED STRUCTURES:2||IMPEDANCE MEASUREMENTS:2||HEMEPROTEINS:2||SOLID SUBSTRATE:2||MOISTURE ABSORPTION:2||aromatic polyimide:2||INDUCED MORPHOLOGICALCHANGES:2||STABILITY:2||LC alignment layers:2||POLYPYROMELLITIMIDES:2||Ion mobility:2||Chiral polymer:2||OLIGOSACCHARIDES:2||OXIDE:2||SIDECHAIN:2||RETARDATION:2||functionality:2||temperature effects:2||phase transition:2||glass transition temperature:2||spincoated film:2||ESTER) PRECURSORS:2||PRECURSOR BLEND:2||Xray reflectivity:2||SIGMABONDS:2||aluminum porphyrin catalysts:2||METALLOPORPHYRIN:2||SILICON:2||MASSSPECTROMETRY ANALYSIS:2||STAR POLYMERS:2||SIZE DISTRIBUTIONS:2||GIANT VESICLES:2||POLY(3ALKYLTHIOPHENES):2||ADHESION:2||LIGHT:2||POLYSTYRENEBPOLYISOPRENE:2||HPLC fractionation:2||SILVER ELECTRODES:2||ENHANCED RESONANCE RAMAN:2||SEQUENCE:2||POLYELECTROLYTE/NONELECTROLYTE SHELLS:2||polyimide:2||liquid crystal alignment layer:2||SOLUBLE POLYIMIDES:2||POLYBUTADIENECOATED ZIRCONIA:2||PRETILT ANGLES:2||CROSSSECTIONS:2||IMSMS:2||POLYISOPRENE COPOLYMERS:2||POLYIMIDE THINFILMS:2||POLYMER SURFACES:2||RAMAN:2||STEREOREGULAR PMMA:2||poly(tertbutyl methacrylate) (PtBMA):2||TIME:2||POLYIMIDE COMPOSITE:2||CARBOXYLATO COMPLEXES:2||AGOSTIC INTERACTIONS:2||MOLECULARSTRUCTURE:2||ALKENE:2||TRANSISTOR MEMORY:2||DEVICES:2||ORTHOGONALITY:2||molecular characterization:2||ORGANOSILICATE DIELECTRIC FILMS:2||AMPHIPHILES:2||Serotonin:2||Anodic stripping differential pulse voltammetry:2||transmission electron microtomography:2||LIQUIDCHROMATOGRAPHY ANALYSIS:2||PHASEDIAGRAM:2||CARBON NANOTUBES:2||TRANSFER MECHANISM:2||BINARY MIXTURES:2||REFLECTOMETRY:2||ROD:2||DROPS:2||CONSTANT:2||TRIBLOCK COPOLYMER:2||POLYMER VESICLES:2||CLICK CHEMISTRY:2||ARRAYS:2||COMPOSITES:2||MALDITOF MS:2||POLYMER THINFILMS:2||HYDROPHOBIC INTERACTION CHROMATOGRAPHY:2||retention mechanism:2||GRAZINGINCIDENCE:2||NANOPOROSITY:2||soluble poly(amic esteraltimide)s:2||DIFFERENTIAL SCANNING CALORIMETRY:2||RESIDUALSTRESS:2||CHEMICALCOMPOSITION:2||POLY(AMIC DIETHYL ESTER) PRECURSOR:2||POLY(DIMETHYL SILOXANES):2||MASS POLYSTYRENES:2||cyclic propylene carbonate:2||propylene oxide:2||ACETATE) TOLUENE SOLUTIONS:2||TRANSIENT GRATING METHOD:2||MASS DIFFUSION:2||MICROPHASE SEPARATION TRANSITION:2||POLYSTYRENES:2||POLYSILANE:2||CARBOHYDRATEBASED PHOSPHOLIPIDS:2||HELICAL STRANDS:2||FLUORESCENCE DETECTION:2||SENSITIVE DETERMINATION:2||COMPOSITE FILMS:2||microphase:2||3MERCAPTOPROPIONIC ACID:2||BUTADIENE BLOCK COPOLYMER:2||HYBRID POLYMERIC MICELLES:2||AQUEOUSMEDIA:2||CONTACTANGLE:2||TRANSISTORCIRCUITS:2||ABTYPE POLY(ETHERIMIDE)S:2||CORRELATION SPECTROSCOPY:2||GASPHASE CONFORMATIONS:2||DECANE:2||INFRAREDSPECTROSCOPY:2||MICELLIZATION:2||ENERGIES:2||ACID) PRECURSORS:2||PHOTOALIGNMENT:2||polymers:2||SUBSTRATE:2||carbon dioxide:2||oligomeric propylene carbonate:2||THERMALDIFFUSION:2||CRYSTAL:2||PHASETRANSITION:2||REFLECTIVITY:2||ANALOGS:2||supramolecular chemistry:2||LYSOPHOSPHATIDIC ACID:2||PHOSPHOCHOLINE:2||POLY(3HEXYLTHIOPHENE):2||Receptor:2||MODIFIED GOLD ELECTRODES:2||ASCORBICACID:2||HUMAN URINE:2||Hybrid Nanocomposite:2||Dielectric Constant:2||AU(111) ELECTRODES:2||NANOFILMS:2||HYDROPHOBIC CORES:2||DRIVEN:2||FLEXIBLE SIDECHAINS:2||MESOGEN:2||size exclusion chromatography:2||ORGANIZATION:2||POLY(LACTIC ACID):2||MOLECULAR ARCHITECTURE:2||COUPLER:2||POLYSTYRENE COPOLYMER:2||diffusion coefficient:2||XRAY REFLECTIVITY:2||temperature gradient interaction chromatography polystyryllithium:2||VISCOELASTIC PROPERTIES:2||polyisoprene:2||CRYSTALSTRUCTURES:2||POLYCARBONATE:2||MULTILAYERS:2||DEPOSITION:2||FULL ADSORPTION MECHANISMS:2||QUANTUM DOTS:2||CRITICAL ORDERING TRANSITION:2||CORE:2||PARACRYSTALLINE DISTORTION:2||PERFORATED LAYER PHASE:2||liposomes:2||phospholipids:2||UNILAMELLAR VESICLES:2||VOLTAMMETRIC DETERMINATION:2||Polyimide:2||FOURIERTRANSFORM:2||SURFACE:2||SIZE EXCLUSION CHROMATOGRAPHY:2||NEUTRON REFLECTIVITY:2||ORDERED STRUCTURE:2||RIGID ROD POLYMERS:2||DISPLACEMENT POLYMERIZATION:2||PHOTOSENSITIVE POLYIMIDE:2||EFFICIENCY:2||films:2||Polylactide:2||CHROMATOGRAPHIC CRITICAL CONDITION:2||RETENTION MECHANISM:2||COPPER PHTHALOCYANINE:2||C60:2||COPOLYMER:2||micelle:2||LINEAR POLYETHYLENE:2||LIQUIDS:2||ARMS:2||HIGHPERFORMANCE LIQUID:2||alternating copolyimides:2||PHASE SEPARATION:2||POLYMERCHAINS:2||STYRYLPYRIDINIUM:2||ANGLES:2||MOBILITY:2||PROBE:2||ACIDS:2||BLUE:2||POSITIONS:2||CYCLOPENTADIENYL:2||HIGHMOLECULARWEIGHT:2||FUELCELLS:2||TIN OXIDE:2||NANOCRYSTALS:2||SURFACE MICELLE FORMATION:2||DISORDER TRANSITION:2||BIREFRINGENCE:2||LIPIDCOMPOSITION:2||CONJUGATED POLYMERS:2||GLASSYCARBON ELECTRODE:2||ELECTROCHEMICAL DETECTION:2||MULTIPLE DETECTION:2||aromatic polyimides:2||MOLECULARWEIGHT HOMOPOLYMERS:2||BINARYMIXTURE:2||PATTERNS:2||photoluminescent polyimide:2||photosensitive polyimide:2||DEPENDENT MICELLIZATION:2||SPEED:2||synthesis:2||COIL BLOCKCOPOLYMERS:2||LIQUIDCRYSTALLINE ASSEMBLIES:2||OXIDE):2||molecular weight distribution:2||CONJUGATED POLYMER:2||polymer characterization:2||NONIONIC SURFACTANTS:2||STEREOREGULAR POLY(METHYL METHACRYLATE):2||structure:2||RODLIKE POLYIMIDE:2||FLEXIBLE POLYIMIDE:2||THERMAL IMIDIZATION:2||IN SITU RODCHAIN FORMATION:2||PHASESEPARATION:2||VINYL ETHER):2||EQUILIBRIUM:2||STRESS:2||STRUCTURAL RELAXATION:2||LIVING POLYMERIZATION:2||CONTAIN:2||SALT:2||WAVEGUIDE:2||XRAY DIFFRACTION:2||WALLED CARBON NANOTUBES:2||SILICON NANOWIRES:2||IR:2||DIELECTRIC THINFILMS:2||Selfassembled monolayer:2||PARAMETERS:2||Temperature gradient interaction chromatography:2||SOLIDSURFACES:2||FLOW:2||RATES:2||PRECURSORS:2||FILM BALANCE:2||SIDECHAINS:2||SUPRAMOLECULAR MATERIALS:2||CHAINS:2||POLYSTYRENE:39||ANIONICPOLYMERIZATION:34||GRADIENT INTERACTION CHROMATOGRAPHY:31||SEPARATION:27||BEHAVIOR:24||LIQUIDCHROMATOGRAPHY:22||POLYMERS:22||SIZEEXCLUSION CHROMATOGRAPHY:19||BLOCKCOPOLYMERS:17||DIBLOCK COPOLYMERS:17||THINFILMS:16||POLYISOPRENE:14||HPLC:13||SYNTHETICPOLYMERS:12||PERFORMANCE LIQUIDCHROMATOGRAPHY:11||DIBLOCK COPOLYMER:11||MOLECULARWEIGHT DISTRIBUTION:10||MACROMOLECULES:10||BLOCKCOPOLYMER:10||REVERSEDPHASE:10||RETENTION BEHAVIOR:10||MORPHOLOGY:9||MOLECULARWEIGHT:9||MELTS:9||AROMATIC POLYIMIDES:8||XRAYSCATTERING:8||polystyrene:8||MIXTURES:7||block copolymer:7||SURFACES:7||DEPENDENCE:7||COPOLYMERS:7||POLYMERIZATION:7||AIR/WATER INTERFACE:7||DEFINED BRUSH POLYIMIDE:6||TEMPERATURE:6||FULLY RODLIKE BACKBONE:6||MONOLAYERS:6||POLYIMIDES:6||CHAIN:6||COMPLEX POLYMERS:6||MOLECULARREORIENTATION:6||temperature gradient interaction chromatography:6||POLYMERFILMS:6||GELPERMEATION CHROMATOGRAPHY:6||ELUTION:6||ORDERDISORDER TRANSITION:6||SURFACEMORPHOLOGY:6||ORIENTATION:6||SYSTEMS:6||CRITICAL ADSORPTION POINT:6||LIGHTSCATTERING:5||PROBE DIFFUSION:5||POLYDISPERSITY:5||AIRWATERINTERFACE:5||MICROPHASE SEPARATION:5||GLASSTRANSITION:5||BLENDS:5||FILMS:5||ADSORPTION CHROMATOGRAPHY:5||MECHANISM:5||CO2:5||ETHYLENEOXIDE:5||ALIGNMENT:5||COMPLEXES:5||FRACTIONATION:5||MISCIBILITY:5||POLYMER CHARACTERIZATION:5||HEXAGONALLY PERFORATED LAYER:5||TRANSITION:5||FLIGHT MASSSPECTROMETRY:5||ARCHITECTURE:5||POLY(METHYL METHACRYLATE):5||ALTERNATING COPOLYMERIZATION:4||THICKNESS:4||THERMODYNAMICS:4||CRITICAL RANGE:4||ULTRATHIN POLYMERFILMS:4||DYNAMICS:4||CLIMATECHANGE:4||PHASE:4||GLASSTRANSITION TEMPERATURE:4||EPOXIDE:4||selfassembly:4||SPECTROSCOPY:4||SELFDIFFUSION:4||SCATTERING:4||OPTICALPROPERTIES:4||CATALYSTS:4||CHEMISTRY:4||SOLARCELLS:4||polyimides:4||polypyromellitimides:4||SEGMENTAL REORIENTATIONS:4||ADSORPTION:4||INTERFACE:4||POLYMERSOLUTIONS:4||TRACER DIFFUSION:4||OXIDE) DIBLOCK COPOLYMER:4||POLYSTYRENEBPOLY(METHYL METHACRYLATE):4||POLYMER BLENDS:4||SIMULATION:4||CHAIN ORIENTATION:4||STYRENE:4||TOF MASSSPECTROMETRY:4||WATER:4||DISPLAYS:4||OLIGOMERS:4||PEPTIDES:4||CYCLIC POLYSTYRENE:4||LATTICE CLUSTER THEORY:4||2NDHARMONIC GENERATION:4||LIQUIDCRYSTAL ALIGNMENT:4||MONTECARLO:4||LangmuirBlodgett film:3||ASSEMBLIES:3||chromatography:3||HOLOGRAPHIC RELAXATION SPECTROSCOPY:3||MULTIPLE MORPHOLOGIES:3||INTERACTION CHROMATOGRAPHY:3||NORMALPHASE:3||DIFFUSION:3||BRANCHED POLYSTYRENE:3||NANOPARTICLES:3||LITHOGRAPHY:3||POLYMER:3||LASERLIGHTSCATTERING:3||HIGH MOLECULARWEIGHT:3||CUBIC PHASE:3||AMPHIPHILIC BLOCKCOPOLYMERS:3||AQUEOUSSOLUTION:3||MODEL:3||FORCED RAYLEIGHSCATTERING:3||HYDRODYNAMIC PROPERTIES:3||4MIKTOARM STAR COPOLYMER:3||SYSTEM:3||PHASEBEHAVIOR:3||AQUEOUSSOLUTIONS:3||RHEOLOGY:3||LB film:3||2DIMENSIONAL LIQUIDCHROMATOGRAPHY:3||VISCOSITY:3||DIBLOCK COPOLYMER MELTS:3||ORDERORDER TRANSITION:3||GYROID PHASE:3||BINDING:3||BLOCK POLYELECTROLYTES:3||DERIVATIVES:3||MELT:3||PHASE LIQUIDCHROMATOGRAPHY:3||high temperature:3||ELEVATEDTEMPERATURE:3||RETENTION:3||MICELLE FORMATION:3||ELECTRONMICROSCOPY:3||Electrospray ionization:2||FRACTIONS:2||nalkanes:2||ISOCRATIC SEPARATION:2||ASSOCIATION:2||POLY(METHYL METHACRYLATE)S:2||2D correlation spectroscopy:2||CARBONATION:2||GLASSTRANSITION BEHAVIORS:2||MECHANICAL PROPERTIES:2||DIMENSIONS:2||POLYMER MIXTURES:2||ALUMINUM PORPHYRIN:2||LEAD STEARATE:2||FERROCENE:2||POLY(EPSILONCAPROLACTONE):2||DIAGRAM:2||nucleosides:2||Selective recognition by preconcentration:2||Electrochemical impedance spectroscopy:2||DOPAMINE:2||Silica:2||Silyl Ester:2||DIETHYL ESTER) PRECURSORS:2||SURFACE CHARACTERIZATION:2||MICROSTRUCTURE:2||polystyreneblockpolyisoprene:2||MICROPHASESEPARATED STRUCTURES:2||IMPEDANCE MEASUREMENTS:2||HEMEPROTEINS:2||SOLID SUBSTRATE:2||MOISTURE ABSORPTION:2||aromatic polyimide:2||INDUCED MORPHOLOGICALCHANGES:2||STABILITY:2||LC alignment layers:2||POLYPYROMELLITIMIDES:2||Ion mobility:2||Chiral polymer:2||OLIGOSACCHARIDES:2||OXIDE:2||SIDECHAIN:2||RETARDATION:2||functionality:2||temperature effects:2||phase transition:2||glass transition temperature:2||spincoated film:2||ESTER) PRECURSORS:2||PRECURSOR BLEND:2||Xray reflectivity:2||SIGMABONDS:2||aluminum porphyrin catalysts:2||METALLOPORPHYRIN:2||SILICON:2||MASSSPECTROMETRY ANALYSIS:2||STAR POLYMERS:2||SIZE DISTRIBUTIONS:2||GIANT VESICLES:2||POLY(3ALKYLTHIOPHENES):2||ADHESION:2||LIGHT:2||POLYSTYRENEBPOLYISOPRENE:2||HPLC fractionation:2||SILVER ELECTRODES:2||ENHANCED RESONANCE RAMAN:2||SEQUENCE:2||POLYELECTROLYTE/NONELECTROLYTE SHELLS:2||polyimide:2||liquid crystal alignment layer:2||SOLUBLE POLYIMIDES:2||POLYBUTADIENECOATED ZIRCONIA:2||PRETILT ANGLES:2||CROSSSECTIONS:2||IMSMS:2||POLYISOPRENE COPOLYMERS:2||POLYIMIDE THINFILMS:2||POLYMER SURFACES:2||RAMAN:2||STEREOREGULAR PMMA:2||poly(tertbutyl methacrylate) (PtBMA):2||TIME:2||POLYIMIDE COMPOSITE:2||CARBOXYLATO COMPLEXES:2||AGOSTIC INTERACTIONS:2||MOLECULARSTRUCTURE:2||ALKENE:2||TRANSISTOR MEMORY:2||DEVICES:2||ORTHOGONALITY:2||molecular characterization:2||ORGANOSILICATE DIELECTRIC FILMS:2||AMPHIPHILES:2||Serotonin:2||Anodic stripping differential pulse voltammetry:2||transmission electron microtomography:2||LIQUIDCHROMATOGRAPHY ANALYSIS:2||PHASEDIAGRAM:2||CARBON NANOTUBES:2||TRANSFER MECHANISM:2||BINARY MIXTURES:2||REFLECTOMETRY:2||ROD:2||DROPS:2||CONSTANT:2||TRIBLOCK COPOLYMER:2||POLYMER VESICLES:2||CLICK CHEMISTRY:2||ARRAYS:2||COMPOSITES:2||MALDITOF MS:2||POLYMER THINFILMS:2||HYDROPHOBIC INTERACTION CHROMATOGRAPHY:2||retention mechanism:2||GRAZINGINCIDENCE:2||NANOPOROSITY:2||soluble poly(amic esteraltimide)s:2||DIFFERENTIAL SCANNING CALORIMETRY:2||RESIDUALSTRESS:2||CHEMICALCOMPOSITION:2||POLY(AMIC DIETHYL ESTER) PRECURSOR:2||POLY(DIMETHYL SILOXANES):2||MASS POLYSTYRENES:2||cyclic propylene carbonate:2||propylene oxide:2||ACETATE) TOLUENE SOLUTIONS:2||TRANSIENT GRATING METHOD:2||MASS DIFFUSION:2||MICROPHASE SEPARATION TRANSITION:2||POLYSTYRENES:2||POLYSILANE:2||CARBOHYDRATEBASED PHOSPHOLIPIDS:2||HELICAL STRANDS:2||FLUORESCENCE DETECTION:2||SENSITIVE DETERMINATION:2||COMPOSITE FILMS:2||microphase:2||3MERCAPTOPROPIONIC ACID:2||BUTADIENE BLOCK COPOLYMER:2||HYBRID POLYMERIC MICELLES:2||AQUEOUSMEDIA:2||CONTACTANGLE:2||TRANSISTORCIRCUITS:2||ABTYPE POLY(ETHERIMIDE)S:2||CORRELATION SPECTROSCOPY:2||GASPHASE CONFORMATIONS:2||DECANE:2||INFRAREDSPECTROSCOPY:2||MICELLIZATION:2||ENERGIES:2||ACID) PRECURSORS:2||PHOTOALIGNMENT:2||polymers:2||SUBSTRATE:2||carbon dioxide:2||oligomeric propylene carbonate:2||THERMALDIFFUSION:2||CRYSTAL:2||PHASETRANSITION:2||REFLECTIVITY:2||ANALOGS:2||supramolecular chemistry:2||LYSOPHOSPHATIDIC ACID:2||PHOSPHOCHOLINE:2||POLY(3HEXYLTHIOPHENE):2||Receptor:2||MODIFIED GOLD ELECTRODES:2||ASCORBICACID:2||HUMAN URINE:2||Hybrid Nanocomposite:2||Dielectric Constant:2||AU(111) ELECTRODES:2||NANOFILMS:2||HYDROPHOBIC CORES:2||DRIVEN:2||FLEXIBLE SIDECHAINS:2||MESOGEN:2||size exclusion chromatography:2||ORGANIZATION:2||POLY(LACTIC ACID):2||MOLECULAR ARCHITECTURE:2||COUPLER:2||POLYSTYRENE COPOLYMER:2||diffusion coefficient:2||XRAY REFLECTIVITY:2||temperature gradient interaction chromatography polystyryllithium:2||VISCOELASTIC PROPERTIES:2||polyisoprene:2||CRYSTALSTRUCTURES:2||POLYCARBONATE:2||MULTILAYERS:2||DEPOSITION:2||FULL ADSORPTION MECHANISMS:2||QUANTUM DOTS:2||CRITICAL ORDERING TRANSITION:2||CORE:2||PARACRYSTALLINE DISTORTION:2||PERFORATED LAYER PHASE:2||liposomes:2||phospholipids:2||UNILAMELLAR VESICLES:2||VOLTAMMETRIC DETERMINATION:2||Polyimide:2||FOURIERTRANSFORM:2||SURFACE:2||SIZE EXCLUSION CHROMATOGRAPHY:2||NEUTRON REFLECTIVITY:2||ORDERED STRUCTURE:2||RIGID ROD POLYMERS:2||DISPLACEMENT POLYMERIZATION:2||PHOTOSENSITIVE POLYIMIDE:2||EFFICIENCY:2||films:2||Polylactide:2||CHROMATOGRAPHIC CRITICAL CONDITION:2||RETENTION MECHANISM:2||COPPER PHTHALOCYANINE:2||C60:2||COPOLYMER:2||micelle:2||LINEAR POLYETHYLENE:2||LIQUIDS:2||ARMS:2||HIGHPERFORMANCE LIQUID:2||alternating copolyimides:2||PHASE SEPARATION:2||POLYMERCHAINS:2||STYRYLPYRIDINIUM:2||ANGLES:2||MOBILITY:2||PROBE:2||ACIDS:2||BLUE:2||POSITIONS:2||CYCLOPENTADIENYL:2||HIGHMOLECULARWEIGHT:2||FUELCELLS:2||TIN OXIDE:2||NANOCRYSTALS:2||SURFACE MICELLE FORMATION:2||DISORDER TRANSITION:2||BIREFRINGENCE:2||LIPIDCOMPOSITION:2||CONJUGATED POLYMERS:2||GLASSYCARBON ELECTRODE:2||ELECTROCHEMICAL DETECTION:2||MULTIPLE DETECTION:2||aromatic polyimides:2||MOLECULARWEIGHT HOMOPOLYMERS:2||BINARYMIXTURE:2||PATTERNS:2||photoluminescent polyimide:2||photosensitive polyimide:2||DEPENDENT MICELLIZATION:2||SPEED:2||synthesis:2||COIL BLOCKCOPOLYMERS:2||LIQUIDCRYSTALLINE ASSEMBLIES:2||OXIDE):2||molecular weight distribution:2||CONJUGATED POLYMER:2||polymer characterization:2||NONIONIC SURFACTANTS:2||STEREOREGULAR POLY(METHYL METHACRYLATE):2||structure:2||RODLIKE POLYIMIDE:2||FLEXIBLE POLYIMIDE:2||THERMAL IMIDIZATION:2||IN SITU RODCHAIN FORMATION:2||PHASESEPARATION:2||VINYL ETHER):2||EQUILIBRIUM:2||STRESS:2||STRUCTURAL RELAXATION:2||LIVING POLYMERIZATION:2||CONTAIN:2||SALT:2||WAVEGUIDE:2||XRAY DIFFRACTION:2||WALLED CARBON NANOTUBES:2||SILICON NANOWIRES:2||IR:2||DIELECTRIC THINFILMS:2||Selfassembled monolayer:2||PARAMETERS:2||Temperature gradient interaction chromatography:2||SOLIDSURFACES:2||FLOW:2||RATES:2||PRECURSORS:2||FILM BALANCE:2||SIDECHAINS:2||SUPRAMOLECULAR MATERIALS:2||CHAINS:2||POLYSTYRENE:39||ANIONICPOLYMERIZATION:34||GRADIENT INTERACTION CHROMATOGRAPHY:31||SEPARATION:27||BEHAVIOR:24||LIQUIDCHROMATOGRAPHY:22||POLYMERS:22||SIZEEXCLUSION CHROMATOGRAPHY:19||BLOCKCOPOLYMERS:17||DIBLOCK COPOLYMERS:17||THINFILMS:16||POLYISOPRENE:14||HPLC:13||SYNTHETICPOLYMERS:12||PERFORMANCE LIQUIDCHROMATOGRAPHY:11||DIBLOCK COPOLYMER:11||MOLECULARWEIGHT DISTRIBUTION:10||MACROMOLECULES:10||BLOCKCOPOLYMER:10||REVERSEDPHASE:10||RETENTION BEHAVIOR:10||MORPHOLOGY:9||MOLECULARWEIGHT:9||MELTS:9||AROMATIC POLYIMIDES:8||XRAYSCATTERING:8||polystyrene:8||MIXTURES:7||block copolymer:7||SURFACES:7||DEPENDENCE:7||COPOLYMERS:7||POLYMERIZATION:7||AIR/WATER INTERFACE:7||DEFINED BRUSH POLYIMIDE:6||TEMPERATURE:6||FULLY RODLIKE BACKBONE:6||MONOLAYERS:6||POLYIMIDES:6||CHAIN:6||COMPLEX POLYMERS:6||MOLECULARREORIENTATION:6||temperature gradient interaction chromatography:6||POLYMERFILMS:6||GELPERMEATION CHROMATOGRAPHY:6||ELUTION:6||ORDERDISORDER TRANSITION:6||SURFACEMORPHOLOGY:6||ORIENTATION:6||SYSTEMS:6||CRITICAL ADSORPTION POINT:6||LIGHTSCATTERING:5||PROBE DIFFUSION:5||POLYDISPERSITY:5||AIRWATERINTERFACE:5||MICROPHASE SEPARATION:5||GLASSTRANSITION:5||BLENDS:5||FILMS:5||ADSORPTION CHROMATOGRAPHY:5||MECHANISM:5||CO2:5||ETHYLENEOXIDE:5||ALIGNMENT:5||COMPLEXES:5||FRACTIONATION:5||MISCIBILITY:5||POLYMER CHARACTERIZATION:5||HEXAGONALLY PERFORATED LAYER:5||TRANSITION:5||FLIGHT MASSSPECTROMETRY:5||ARCHITECTURE:5||POLY(METHYL METHACRYLATE):5||ALTERNATING COPOLYMERIZATION:4||THICKNESS:4||THERMODYNAMICS:4||CRITICAL RANGE:4||ULTRATHIN POLYMERFILMS:4||DYNAMICS:4||CLIMATECHANGE:4||PHASE:4||GLASSTRANSITION TEMPERATURE:4||EPOXIDE:4||selfassembly:4||SPECTROSCOPY:4||SELFDIFFUSION:4||SCATTERING:4||OPTICALPROPERTIES:4||CATALYSTS:4||CHEMISTRY:4||SOLARCELLS:4||polyimides:4||polypyromellitimides:4||SEGMENTAL REORIENTATIONS:4||ADSORPTION:4||INTERFACE:4||POLYMERSOLUTIONS:4||TRACER DIFFUSION:4||OXIDE) DIBLOCK COPOLYMER:4||POLYSTYRENEBPOLY(METHYL METHACRYLATE):4||POLYMER BLENDS:4||SIMULATION:4||CHAIN ORIENTATION:4||STYRENE:4||TOF MASSSPECTROMETRY:4||WATER:4||DISPLAYS:4||OLIGOMERS:4||PEPTIDES:4||CYCLIC POLYSTYRENE:4||LATTICE CLUSTER THEORY:4||2NDHARMONIC GENERATION:4||LIQUIDCRYSTAL ALIGNMENT:4||MONTECARLO:4||LangmuirBlodgett film:3||ASSEMBLIES:3||chromatography:3||HOLOGRAPHIC RELAXATION SPECTROSCOPY:3||MULTIPLE MORPHOLOGIES:3||INTERACTION CHROMATOGRAPHY:3||NORMALPHASE:3||DIFFUSION:3||BRANCHED POLYSTYRENE:3||NANOPARTICLES:3||LITHOGRAPHY:3||POLYMER:3||LASERLIGHTSCATTERING:3||HIGH MOLECULARWEIGHT:3||CUBIC PHASE:3||AMPHIPHILIC BLOCKCOPOLYMERS:3||AQUEOUSSOLUTION:3||MODEL:3||FORCED RAYLEIGHSCATTERING:3||HYDRODYNAMIC PROPERTIES:3||4MIKTOARM STAR COPOLYMER:3||SYSTEM:3||PHASEBEHAVIOR:3||AQUEOUSSOLUTIONS:3||RHEOLOGY:3||LB film:3||2DIMENSIONAL LIQUIDCHROMATOGRAPHY:3||VISCOSITY:3||DIBLOCK COPOLYMER MELTS:3||ORDERORDER TRANSITION:3||GYROID PHASE:3||BINDING:3||BLOCK POLYELECTROLYTES:3||DERIVATIVES:3||MELT:3||PHASE LIQUIDCHROMATOGRAPHY:3||high temperature:3||ELEVATEDTEMPERATURE:3||RETENTION:3||MICELLE FORMATION:3||ELECTRONMICROSCOPY:3||Electrospray ionization:2||FRACTIONS:2||nalkanes:2||ISOCRATIC SEPARATION:2||ASSOCIATION:2||POLY(METHYL METHACRYLATE)S:2||2D correlation spectroscopy:2||CARBONATION:2||GLASSTRANSITION BEHAVIORS:2||MECHANICAL PROPERTIES:2||DIMENSIONS:2||POLYMER MIXTURES:2||ALUMINUM PORPHYRIN:2||LEAD STEARATE:2||FERROCENE:2||POLY(EPSILONCAPROLACTONE):2||DIAGRAM:2||nucleosides:2||Selective recognition by preconcentration:2||Electrochemical impedance spectroscopy:2||DOPAMINE:2||Silica:2||Silyl Ester:2||DIETHYL ESTER) PRECURSORS:2||SURFACE CHARACTERIZATION:2||MICROSTRUCTURE:2||polystyreneblockpolyisoprene:2||MICROPHASESEPARATED STRUCTURES:2||IMPEDANCE MEASUREMENTS:2||HEMEPROTEINS:2||SOLID SUBSTRATE:2||MOISTURE ABSORPTION:2||aromatic polyimide:2||INDUCED MORPHOLOGICALCHANGES:2||STABILITY:2||LC alignment layers:2||POLYPYROMELLITIMIDES:2||Ion mobility:2||Chiral polymer:2||OLIGOSACCHARIDES:2||OXIDE:2||SIDECHAIN:2||RETARDATION:2||functionality:2||temperature effects:2||phase transition:2||glass transition temperature:2||spincoated film:2||ESTER) PRECURSORS:2||PRECURSOR BLEND:2||Xray reflectivity:2||SIGMABONDS:2||aluminum porphyrin catalysts:2||METALLOPORPHYRIN:2||SILICON:2||MASSSPECTROMETRY ANALYSIS:2||STAR POLYMERS:2||SIZE DISTRIBUTIONS:2||GIANT VESICLES:2||POLY(3ALKYLTHIOPHENES):2||ADHESION:2||LIGHT:2||POLYSTYRENEBPOLYISOPRENE:2||HPLC fractionation:2||SILVER ELECTRODES:2||ENHANCED RESONANCE RAMAN:2||SEQUENCE:2||POLYELECTROLYTE/NONELECTROLYTE SHELLS:2||polyimide:2||liquid crystal alignment layer:2||SOLUBLE POLYIMIDES:2||POLYBUTADIENECOATED ZIRCONIA:2||PRETILT ANGLES:2||CROSSSECTIONS:2||IMSMS:2||POLYISOPRENE COPOLYMERS:2||POLYIMIDE THINFILMS:2||POLYMER SURFACES:2||RAMAN:2||STEREOREGULAR PMMA:2||poly(tertbutyl methacrylate) (PtBMA):2||TIME:2||POLYIMIDE COMPOSITE:2||CARBOXYLATO COMPLEXES:2||AGOSTIC INTERACTIONS:2||MOLECULARSTRUCTURE:2||ALKENE:2||TRANSISTOR MEMORY:2||DEVICES:2||ORTHOGONALITY:2||molecular characterization:2||ORGANOSILICATE DIELECTRIC FILMS:2||AMPHIPHILES:2||Serotonin:2||Anodic stripping differential pulse voltammetry:2||transmission electron microtomography:2||LIQUIDCHROMATOGRAPHY ANALYSIS:2||PHASEDIAGRAM:2||CARBON NANOTUBES:2||TRANSFER MECHANISM:2||BINARY MIXTURES:2||REFLECTOMETRY:2||ROD:2||DROPS:2||CONSTANT:2||TRIBLOCK COPOLYMER:2||POLYMER VESICLES:2||CLICK CHEMISTRY:2||ARRAYS:2||COMPOSITES:2||MALDITOF MS:2||POLYMER THINFILMS:2||HYDROPHOBIC INTERACTION CHROMATOGRAPHY:2||retention mechanism:2||GRAZINGINCIDENCE:2||NANOPOROSITY:2||soluble poly(amic esteraltimide)s:2||DIFFERENTIAL SCANNING CALORIMETRY:2||RESIDUALSTRESS:2||CHEMICALCOMPOSITION:2||POLY(AMIC DIETHYL ESTER) PRECURSOR:2||POLY(DIMETHYL SILOXANES):2||MASS POLYSTYRENES:2||cyclic propylene carbonate:2||propylene oxide:2||ACETATE) TOLUENE SOLUTIONS:2||TRANSIENT GRATING METHOD:2||MASS DIFFUSION:2||MICROPHASE SEPARATION TRANSITION:2||POLYSTYRENES:2||POLYSILANE:2||CARBOHYDRATEBASED PHOSPHOLIPIDS:2||HELICAL STRANDS:2||FLUORESCENCE DETECTION:2||SENSITIVE DETERMINATION:2||COMPOSITE FILMS:2||microphase:2||3MERCAPTOPROPIONIC ACID:2||BUTADIENE BLOCK COPOLYMER:2||HYBRID POLYMERIC MICELLES:2||AQUEOUSMEDIA:2||CONTACTANGLE:2||TRANSISTORCIRCUITS:2||ABTYPE POLY(ETHERIMIDE)S:2||CORRELATION SPECTROSCOPY:2||GASPHASE CONFORMATIONS:2||DECANE:2||INFRAREDSPECTROSCOPY:2||MICELLIZATION:2||ENERGIES:2||ACID) PRECURSORS:2||PHOTOALIGNMENT:2||polymers:2||SUBSTRATE:2||carbon dioxide:2||oligomeric propylene carbonate:2||THERMALDIFFUSION:2||CRYSTAL:2||PHASETRANSITION:2||REFLECTIVITY:2||ANALOGS:2||supramolecular chemistry:2||LYSOPHOSPHATIDIC ACID:2||PHOSPHOCHOLINE:2||POLY(3HEXYLTHIOPHENE):2||Receptor:2||MODIFIED GOLD ELECTRODES:2||ASCORBICACID:2||HUMAN URINE:2||Hybrid Nanocomposite:2||Dielectric Constant:2||AU(111) ELECTRODES:2||NANOFILMS:2||HYDROPHOBIC CORES:2||DRIVEN:2||FLEXIBLE SIDECHAINS:2||MESOGEN:2||size exclusion chromatography:2||ORGANIZATION:2||POLY(LACTIC ACID):2||MOLECULAR ARCHITECTURE:2||COUPLER:2||POLYSTYRENE COPOLYMER:2||diffusion coefficient:2||XRAY REFLECTIVITY:2||temperature gradient interaction chromatography polystyryllithium:2||VISCOELASTIC PROPERTIES:2||polyisoprene:2||CRYSTALSTRUCTURES:2||POLYCARBONATE:2||MULTILAYERS:2||DEPOSITION:2||FULL ADSORPTION MECHANISMS:2||QUANTUM DOTS:2||CRITICAL ORDERING TRANSITION:2||CORE:2||PARACRYSTALLINE DISTORTION:2||PERFORATED LAYER PHASE:2||liposomes:2||phospholipids:2||UNILAMELLAR VESICLES:2||VOLTAMMETRIC DETERMINATION:2||Polyimide:2||FOURIERTRANSFORM:2||SURFACE:2||SIZE EXCLUSION CHROMATOGRAPHY:2||NEUTRON REFLECTIVITY:2||ORDERED STRUCTURE:2||RIGID ROD POLYMERS:2||DISPLACEMENT POLYMERIZATION:2||PHOTOSENSITIVE POLYIMIDE:2||EFFICIENCY:2||films:2||Polylactide:2||CHROMATOGRAPHIC CRITICAL CONDITION:2||RETENTION MECHANISM:2||COPPER PHTHALOCYANINE:2||C60:2||COPOLYMER:2||micelle:2||LINEAR POLYETHYLENE:2||LIQUIDS:2||ARMS:2||HIGHPERFORMANCE LIQUID:2||alternating copolyimides:2||PHASE SEPARATION:2||POLYMERCHAINS:2||STYRYLPYRIDINIUM:2||ANGLES:2||MOBILITY:2||PROBE:2||ACIDS:2||BLUE:2||POSITIONS:2||CYCLOPENTADIENYL:2||HIGHMOLECULARWEIGHT:2||FUELCELLS:2||TIN OXIDE:2||NANOCRYSTALS:2||SURFACE MICELLE FORMATION:2||DISORDER TRANSITION:2||BIREFRINGENCE:2||LIPIDCOMPOSITION:2||CONJUGATED POLYMERS:2||GLASSYCARBON ELECTRODE:2||ELECTROCHEMICAL DETECTION:2||MULTIPLE DETECTION:2||aromatic polyimides:2||MOLECULARWEIGHT HOMOPOLYMERS:2||BINARYMIXTURE:2||PATTERNS:2||photoluminescent polyimide:2||photosensitive polyimide:2||DEPENDENT MICELLIZATION:2||SPEED:2||synthesis:2||COIL BLOCKCOPOLYMERS:2||LIQUIDCRYSTALLINE ASSEMBLIES:2||OXIDE):2||molecular weight distribution:2||CONJUGATED POLYMER:2||polymer characterization:2||NONIONIC SURFACTANTS:2||STEREOREGULAR POLY(METHYL METHACRYLATE):2||structure:2||RODLIKE POLYIMIDE:2||FLEXIBLE POLYIMIDE:2||THERMAL IMIDIZATION:2||IN SITU RODCHAIN FORMATION:2||PHASESEPARATION:2||VINYL ETHER):2||EQUILIBRIUM:2||STRESS:2||STRUCTURAL RELAXATION:2||LIVING POLYMERIZATION:2||CONTAIN:2||SALT:2||WAVEGUIDE:2||XRAY DIFFRACTION:2||WALLED CARBON NANOTUBES:2||SILICON NANOWIRES:2||IR:2||DIELECTRIC THINFILMS:2||Selfassembled monolayer:2||PARAMETERS:2||Temperature gradient interaction chromatography:2||SOLIDSURFACES:2||FLOW:2||RATES:2||PRECURSORS:2||FILM BALANCE:2||SIDECHAINS:2||SUPRAMOLECULAR MATERIALS:2||CHAINS:2||POLYSTYRENE:39||ANIONICPOLYMERIZATION:34||GRADIENT INTERACTION CHROMATOGRAPHY:31||SEPARATION:27||BEHAVIOR:24||LIQUIDCHROMATOGRAPHY:22||POLYMERS:22||SIZEEXCLUSION CHROMATOGRAPHY:19||BLOCKCOPOLYMERS:17||DIBLOCK COPOLYMERS:17||THINFILMS:16||POLYISOPRENE:14||HPLC:13||SYNTHETICPOLYMERS:12||PERFORMANCE LIQUIDCHROMATOGRAPHY:11||DIBLOCK COPOLYMER:11||MOLECULARWEIGHT DISTRIBUTION:10||MACROMOLECULES:10||BLOCKCOPOLYMER:10||REVERSEDPHASE:10||RETENTION BEHAVIOR:10||MORPHOLOGY:9||MOLECULARWEIGHT:9||MELTS:9||AROMATIC POLYIMIDES:8||XRAYSCATTERING:8||polystyrene:8||MIXTURES:7||block copolymer:7||SURFACES:7||DEPENDENCE:7||COPOLYMERS:7||POLYMERIZATION:7||AIR/WATER INTERFACE:7||DEFINED BRUSH POLYIMIDE:6||TEMPERATURE:6||FULLY RODLIKE BACKBONE:6||MONOLAYERS:6||POLYIMIDES:6||CHAIN:6||COMPLEX POLYMERS:6||MOLECULARREORIENTATION:6||temperature gradient interaction chromatography:6||POLYMERFILMS:6||GELPERMEATION CHROMATOGRAPHY:6||ELUTION:6||ORDERDISORDER TRANSITION:6||SURFACEMORPHOLOGY:6||ORIENTATION:6||SYSTEMS:6||CRITICAL ADSORPTION POINT:6||LIGHTSCATTERING:5||PROBE DIFFUSION:5||POLYDISPERSITY:5||AIRWATERINTERFACE:5||MICROPHASE SEPARATION:5||GLASSTRANSITION:5||BLENDS:5||FILMS:5||ADSORPTION CHROMATOGRAPHY:5||MECHANISM:5||CO2:5||ETHYLENEOXIDE:5||ALIGNMENT:5||COMPLEXES:5||FRACTIONATION:5||MISCIBILITY:5||POLYMER CHARACTERIZATION:5||HEXAGONALLY PERFORATED LAYER:5||TRANSITION:5||FLIGHT MASSSPECTROMETRY:5||ARCHITECTURE:5||POLY(METHYL METHACRYLATE):5||ALTERNATING COPOLYMERIZATION:4||THICKNESS:4||THERMODYNAMICS:4||CRITICAL RANGE:4||ULTRATHIN POLYMERFILMS:4||DYNAMICS:4||CLIMATECHANGE:4||PHASE:4||GLASSTRANSITION TEMPERATURE:4||EPOXIDE:4||selfassembly:4||SPECTROSCOPY:4||SELFDIFFUSION:4||SCATTERING:4||OPTICALPROPERTIES:4||CATALYSTS:4||CHEMISTRY:4||SOLARCELLS:4||polyimides:4||polypyromellitimides:4||SEGMENTAL REORIENTATIONS:4||ADSORPTION:4||INTERFACE:4||POLYMERSOLUTIONS:4||TRACER DIFFUSION:4||OXIDE) DIBLOCK COPOLYMER:4||POLYSTYRENEBPOLY(METHYL METHACRYLATE):4||POLYMER BLENDS:4||SIMULATION:4||CHAIN ORIENTATION:4||STYRENE:4||TOF MASSSPECTROMETRY:4||WATER:4||DISPLAYS:4||OLIGOMERS:4||PEPTIDES:4||CYCLIC POLYSTYRENE:4||LATTICE CLUSTER THEORY:4||2NDHARMONIC GENERATION:4||LIQUIDCRYSTAL ALIGNMENT:4||MONTECARLO:4||LangmuirBlodgett film:3||ASSEMBLIES:3||chromatography:3||HOLOGRAPHIC RELAXATION SPECTROSCOPY:3||MULTIPLE MORPHOLOGIES:3||INTERACTION CHROMATOGRAPHY:3||NORMALPHASE:3||DIFFUSION:3||BRANCHED POLYSTYRENE:3||NANOPARTICLES:3||LITHOGRAPHY:3||POLYMER:3||LASERLIGHTSCATTERING:3||HIGH MOLECULARWEIGHT:3||CUBIC PHASE:3||AMPHIPHILIC BLOCKCOPOLYMERS:3||AQUEOUSSOLUTION:3||MODEL:3||FORCED RAYLEIGHSCATTERING:3||HYDRODYNAMIC PROPERTIES:3||4MIKTOARM STAR COPOLYMER:3||SYSTEM:3||PHASEBEHAVIOR:3||AQUEOUSSOLUTIONS:3||RHEOLOGY:3||LB film:3||2DIMENSIONAL LIQUIDCHROMATOGRAPHY:3||VISCOSITY:3||DIBLOCK COPOLYMER MELTS:3||ORDERORDER TRANSITION:3||GYROID PHASE:3||BINDING:3||BLOCK POLYELECTROLYTES:3||DERIVATIVES:3||MELT:3||PHASE LIQUIDCHROMATOGRAPHY:3||high temperature:3||ELEVATEDTEMPERATURE:3||RETENTION:3||MICELLE FORMATION:3||ELECTRONMICROSCOPY:3||Electrospray ionization:2||FRACTIONS:2||nalkanes:2||ISOCRATIC SEPARATION:2||ASSOCIATION:2||POLY(METHYL METHACRYLATE)S:2||2D correlation spectroscopy:2||CARBONATION:2||GLASSTRANSITION BEHAVIORS:2||MECHANICAL PROPERTIES:2||DIMENSIONS:2||POLYMER MIXTURES:2||ALUMINUM PORPHYRIN:2||LEAD STEARATE:2||FERROCENE:2||POLY(EPSILONCAPROLACTONE):2||DIAGRAM:2||nucleosides:2||Selective recognition by preconcentration:2||Electrochemical impedance spectroscopy:2||DOPAMINE:2||Silica:2||Silyl Ester:2||DIETHYL ESTER) PRECURSORS:2||SURFACE CHARACTERIZATION:2||MICROSTRUCTURE:2||polystyreneblockpolyisoprene:2||MICROPHASESEPARATED STRUCTURES:2||IMPEDANCE MEASUREMENTS:2||HEMEPROTEINS:2||SOLID SUBSTRATE:2||MOISTURE ABSORPTION:2||aromatic polyimide:2||INDUCED MORPHOLOGICALCHANGES:2||STABILITY:2||LC alignment layers:2||POLYPYROMELLITIMIDES:2||Ion mobility:2||Chiral polymer:2||OLIGOSACCHARIDES:2||OXIDE:2||SIDECHAIN:2||RETARDATION:2||functionality:2||temperature effects:2||phase transition:2||glass transition temperature:2||spincoated film:2||ESTER) PRECURSORS:2||PRECURSOR BLEND:2||Xray reflectivity:2||SIGMABONDS:2||aluminum porphyrin catalysts:2||METALLOPORPHYRIN:2||SILICON:2||MASSSPECTROMETRY ANALYSIS:2||STAR POLYMERS:2||SIZE DISTRIBUTIONS:2||GIANT VESICLES:2||POLY(3ALKYLTHIOPHENES):2||ADHESION:2||LIGHT:2||POLYSTYRENEBPOLYISOPRENE:2||HPLC fractionation:2||SILVER ELECTRODES:2||ENHANCED RESONANCE RAMAN:2||SEQUENCE:2||POLYELECTROLYTE/NONELECTROLYTE SHELLS:2||polyimide:2||liquid crystal alignment layer:2||SOLUBLE POLYIMIDES:2||POLYBUTADIENECOATED ZIRCONIA:2||PRETILT ANGLES:2||CROSSSECTIONS:2||IMSMS:2||POLYISOPRENE COPOLYMERS:2||POLYIMIDE THINFILMS:2||POLYMER SURFACES:2||RAMAN:2||STEREOREGULAR PMMA:2||poly(tertbutyl methacrylate) (PtBMA):2||TIME:2||POLYIMIDE COMPOSITE:2||CARBOXYLATO COMPLEXES:2||AGOSTIC INTERACTIONS:2||MOLECULARSTRUCTURE:2||ALKENE:2||TRANSISTOR MEMORY:2||DEVICES:2||ORTHOGONALITY:2||molecular characterization:2||ORGANOSILICATE DIELECTRIC FILMS:2||AMPHIPHILES:2||Serotonin:2||Anodic stripping differential pulse voltammetry:2||transmission electron microtomography:2||LIQUIDCHROMATOGRAPHY ANALYSIS:2||PHASEDIAGRAM:2||CARBON NANOTUBES:2||TRANSFER MECHANISM:2||BINARY MIXTURES:2||REFLECTOMETRY:2||ROD:2||DROPS:2||CONSTANT:2||TRIBLOCK COPOLYMER:2||POLYMER VESICLES:2||CLICK CHEMISTRY:2||ARRAYS:2||COMPOSITES:2||MALDITOF MS:2||POLYMER THINFILMS:2||HYDROPHOBIC INTERACTION CHROMATOGRAPHY:2||retention mechanism:2||GRAZINGINCIDENCE:2||NANOPOROSITY:2||soluble poly(amic esteraltimide)s:2||DIFFERENTIAL SCANNING CALORIMETRY:2||RESIDUALSTRESS:2||CHEMICALCOMPOSITION:2||POLY(AMIC DIETHYL ESTER) PRECURSOR:2||POLY(DIMETHYL SILOXANES):2||MASS POLYSTYRENES:2||cyclic propylene carbonate:2||propylene oxide:2||ACETATE) TOLUENE SOLUTIONS:2||TRANSIENT GRATING METHOD:2||MASS DIFFUSION:2||MICROPHASE SEPARATION TRANSITION:2||POLYSTYRENES:2||POLYSILANE:2||CARBOHYDRATEBASED PHOSPHOLIPIDS:2||HELICAL STRANDS:2||FLUORESCENCE DETECTION:2||SENSITIVE DETERMINATION:2||COMPOSITE FILMS:2||microphase:2||3MERCAPTOPROPIONIC ACID:2||BUTADIENE BLOCK COPOLYMER:2||HYBRID POLYMERIC MICELLES:2||AQUEOUSMEDIA:2||CONTACTANGLE:2||TRANSISTORCIRCUITS:2||ABTYPE POLY(ETHERIMIDE)S:2||CORRELATION SPECTROSCOPY:2||GASPHASE CONFORMATIONS:2||DECANE:2||INFRAREDSPECTROSCOPY:2||MICELLIZATION:2||ENERGIES:2||ACID) PRECURSORS:2||PHOTOALIGNMENT:2||polymers:2||SUBSTRATE:2||carbon dioxide:2||oligomeric propylene carbonate:2||THERMALDIFFUSION:2||CRYSTAL:2||PHASETRANSITION:2||REFLECTIVITY:2||ANALOGS:2||supramolecular chemistry:2||LYSOPHOSPHATIDIC ACID:2||PHOSPHOCHOLINE:2||POLY(3HEXYLTHIOPHENE):2||Receptor:2||MODIFIED GOLD ELECTRODES:2||ASCORBICACID:2||HUMAN URINE:2||Hybrid Nanocomposite:2||Dielectric Constant:2||AU(111) ELECTRODES:2||NANOFILMS:2||HYDROPHOBIC CORES:2||DRIVEN:2||FLEXIBLE SIDECHAINS:2||MESOGEN:2||size exclusion chromatography:2||ORGANIZATION:2||POLY(LACTIC ACID):2||MOLECULAR ARCHITECTURE:2||COUPLER:2||POLYSTYRENE COPOLYMER:2||diffusion coefficient:2||XRAY REFLECTIVITY:2||temperature gradient interaction chromatography polystyryllithium:2||VISCOELASTIC PROPERTIES:2||polyisoprene:2||CRYSTALSTRUCTURES:2||POLYCARBONATE:2||MULTILAYERS:2||DEPOSITION:2||FULL ADSORPTION MECHANISMS:2||QUANTUM DOTS:2||CRITICAL ORDERING TRANSITION:2||CORE:2||PARACRYSTALLINE DISTORTION:2||PERFORATED LAYER PHASE:2||liposomes:2||phospholipids:2||UNILAMELLAR VESICLES:2||VOLTAMMETRIC DETERMINATION:2||Polyimide:2||FOURIERTRANSFORM:2||SURFACE:2||SIZE EXCLUSION CHROMATOGRAPHY:2||NEUTRON REFLECTIVITY:2||ORDERED STRUCTURE:2||RIGID ROD POLYMERS:2||DISPLACEMENT POLYMERIZATION:2||PHOTOSENSITIVE POLYIMIDE:2||EFFICIENCY:2||films:2||Polylactide:2||CHROMATOGRAPHIC CRITICAL CONDITION:2||RETENTION MECHANISM:2||COPPER PHTHALOCYANINE:2||C60:2||COPOLYMER:2||micelle:2||LINEAR POLYETHYLENE:2||LIQUIDS:2||ARMS:2||HIGHPERFORMANCE LIQUID:2||alternating copolyimides:2||PHASE SEPARATION:2||POLYMERCHAINS:2||STYRYLPYRIDINIUM:2||ANGLES:2||MOBILITY:2||PROBE:2||ACIDS:2||BLUE:2||POSITIONS:2||CYCLOPENTADIENYL:2||HIGHMOLECULARWEIGHT:2||FUELCELLS:2||TIN OXIDE:2||NANOCRYSTALS:2||SURFACE MICELLE FORMATION:2||DISORDER TRANSITION:2||BIREFRINGENCE:2||LIPIDCOMPOSITION:2||CONJUGATED POLYMERS:2||GLASSYCARBON ELECTRODE:2||ELECTROCHEMICAL DETECTION:2||MULTIPLE DETECTION:2||aromatic polyimides:2||MOLECULARWEIGHT HOMOPOLYMERS:2||BINARYMIXTURE:2||PATTERNS:2||photoluminescent polyimide:2||photosensitive polyimide:2||DEPENDENT MICELLIZATION:2||SPEED:2||synthesis:2||COIL BLOCKCOPOLYMERS:2||LIQUIDCRYSTALLINE ASSEMBLIES:2||OXIDE):2||molecular weight distribution:2||CONJUGATED POLYMER:2||polymer characterization:2||NONIONIC SURFACTANTS:2||STEREOREGULAR POLY(METHYL METHACRYLATE):2||structure:2||RODLIKE POLYIMIDE:2||FLEXIBLE POLYIMIDE:2||THERMAL IMIDIZATION:2||IN SITU RODCHAIN FORMATION:2||PHASESEPARATION:2||VINYL ETHER):2||EQUILIBRIUM:2||STRESS:2||STRUCTURAL RELAXATION:2||LIVING POLYMERIZATION:2||CONTAIN:2||SALT:2||WAVEGUIDE:2||XRAY DIFFRACTION:2||WALLED CARBON NANOTUBES:2||SILICON NANOWIRES:2||IR:2||DIELECTRIC THINFILMS:2||Selfassembled monolayer:2||PARAMETERS:2||Temperature gradient interaction chromatography:2||SOLIDSURFACES:2||FLOW:2||RATES:2||PRECURSORS:2||FILM BALANCE:2||SIDECHAINS:2||SUPRAMOLECULAR MATERIALS:2||CHAINS:2||POLYSTYRENE:39||ANIONICPOLYMERIZATION:34||GRADIENT INTERACTION CHROMATOGRAPHY:31||SEPARATION:27||BEHAVIOR:24||LIQUIDCHROMATOGRAPHY:22||POLYMERS:22||SIZEEXCLUSION CHROMATOGRAPHY:19||BLOCKCOPOLYMERS:17||DIBLOCK COPOLYMERS:17||THINFILMS:16||POLYISOPRENE:14||HPLC:13||SYNTHETICPOLYMERS:12||PERFORMANCE LIQUIDCHROMATOGRAPHY:11||DIBLOCK COPOLYMER:11||MOLECULARWEIGHT DISTRIBUTION:10||MACROMOLECULES:10||BLOCKCOPOLYMER:10||REVERSEDPHASE:10||RETENTION BEHAVIOR:10||MORPHOLOGY:9||MOLECULARWEIGHT:9||MELTS:9||AROMATIC POLYIMIDES:8||XRAYSCATTERING:8||polystyrene:8||MIXTURES:7||block copolymer:7||SURFACES:7||DEPENDENCE:7||COPOLYMERS:7||POLYMERIZATION:7||AIR/WATER INTERFACE:7||DEFINED BRUSH POLYIMIDE:6||TEMPERATURE:6||FULLY RODLIKE BACKBONE:6||MONOLAYERS:6||POLYIMIDES:6||CHAIN:6||COMPLEX POLYMERS:6||MOLECULARREORIENTATION:6||temperature gradient interaction chromatography:6||POLYMERFILMS:6||GELPERMEATION CHROMATOGRAPHY:6||ELUTION:6||ORDERDISORDER TRANSITION:6||SURFACEMORPHOLOGY:6||ORIENTATION:6||SYSTEMS:6||CRITICAL ADSORPTION POINT:6||LIGHTSCATTERING:5||PROBE DIFFUSION:5||POLYDISPERSITY:5||AIRWATERINTERFACE:5||MICROPHASE SEPARATION:5||GLASSTRANSITION:5||BLENDS:5||FILMS:5||ADSORPTION CHROMATOGRAPHY:5||MECHANISM:5||CO2:5||ETHYLENEOXIDE:5||ALIGNMENT:5||COMPLEXES:5||FRACTIONATION:5||MISCIBILITY:5||POLYMER CHARACTERIZATION:5||HEXAGONALLY PERFORATED LAYER:5||TRANSITION:5||FLIGHT MASSSPECTROMETRY:5||ARCHITECTURE:5||POLY(METHYL METHACRYLATE):5||ALTERNATING COPOLYMERIZATION:4||THICKNESS:4||THERMODYNAMICS:4||CRITICAL RANGE:4||ULTRATHIN POLYMERFILMS:4||DYNAMICS:4||CLIMATECHANGE:4||PHASE:4||GLASSTRANSITION TEMPERATURE:4||EPOXIDE:4||selfassembly:4||SPECTROSCOPY:4||SELFDIFFUSION:4||SCATTERING:4||OPTICALPROPERTIES:4||CATALYSTS:4||CHEMISTRY:4||SOLARCELLS:4||polyimides:4||polypyromellitimides:4||SEGMENTAL REORIENTATIONS:4||ADSORPTION:4||INTERFACE:4||POLYMERSOLUTIONS:4||TRACER DIFFUSION:4||OXIDE) DIBLOCK COPOLYMER:4||POLYSTYRENEBPOLY(METHYL METHACRYLATE):4||POLYMER BLENDS:4||SIMULATION:4||CHAIN ORIENTATION:4||STYRENE:4||TOF MASSSPECTROMETRY:4||WATER:4||DISPLAYS:4||OLIGOMERS:4||PEPTIDES:4||CYCLIC POLYSTYRENE:4||LATTICE CLUSTER THEORY:4||2NDHARMONIC GENERATION:4||LIQUIDCRYSTAL ALIGNMENT:4||MONTECARLO:4||LangmuirBlodgett film:3||ASSEMBLIES:3||chromatography:3||HOLOGRAPHIC RELAXATION SPECTROSCOPY:3||MULTIPLE MORPHOLOGIES:3||INTERACTION CHROMATOGRAPHY:3||NORMALPHASE:3||DIFFUSION:3||BRANCHED POLYSTYRENE:3||NANOPARTICLES:3||LITHOGRAPHY:3||POLYMER:3||LASERLIGHTSCATTERING:3||HIGH MOLECULARWEIGHT:3||CUBIC PHASE:3||AMPHIPHILIC BLOCKCOPOLYMERS:3||AQUEOUSSOLUTION:3||MODEL:3||FORCED RAYLEIGHSCATTERING:3||HYDRODYNAMIC PROPERTIES:3||4MIKTOARM STAR COPOLYMER:3||SYSTEM:3||PHASEBEHAVIOR:3||AQUEOUSSOLUTIONS:3||RHEOLOGY:3||LB film:3||2DIMENSIONAL LIQUIDCHROMATOGRAPHY:3||VISCOSITY:3||DIBLOCK COPOLYMER MELTS:3||ORDERORDER TRANSITION:3||GYROID PHASE:3||BINDING:3||BLOCK POLYELECTROLYTES:3||DERIVATIVES:3||MELT:3||PHASE LIQUIDCHROMATOGRAPHY:3||high temperature:3||ELEVATEDTEMPERATURE:3||RETENTION:3||MICELLE FORMATION:3||ELECTRONMICROSCOPY:3||Electrospray ionization:2||FRACTIONS:2||nalkanes:2||ISOCRATIC SEPARATION:2||ASSOCIATION:2||POLY(METHYL METHACRYLATE)S:2||2D correlation spectroscopy:2||CARBONATION:2||GLASSTRANSITION BEHAVIORS:2||MECHANICAL PROPERTIES:2||DIMENSIONS:2||POLYMER MIXTURES:2||ALUMINUM PORPHYRIN:2||LEAD STEARATE:2||FERROCENE:2||POLY(EPSILONCAPROLACTONE):2||DIAGRAM:2||nucleosides:2||Selective recognition by preconcentration:2||Electrochemical impedance spectroscopy:2||DOPAMINE:2||Silica:2||Silyl Ester:2||DIETHYL ESTER) PRECURSORS:2||SURFACE CHARACTERIZATION:2||MICROSTRUCTURE:2||polystyreneblockpolyisoprene:2||MICROPHASESEPARATED STRUCTURES:2||IMPEDANCE MEASUREMENTS:2||HEMEPROTEINS:2||SOLID SUBSTRATE:2||MOISTURE ABSORPTION:2||aromatic polyimide:2||INDUCED MORPHOLOGICALCHANGES:2||STABILITY:2||LC alignment layers:2||POLYPYROMELLITIMIDES:2||Ion mobility:2||Chiral polymer:2||OLIGOSACCHARIDES:2||OXIDE:2||SIDECHAIN:2||RETARDATION:2||functionality:2||temperature effects:2||phase transition:2||glass transition temperature:2||spincoated film:2||ESTER) PRECURSORS:2||PRECURSOR BLEND:2||Xray reflectivity:2||SIGMABONDS:2||aluminum porphyrin catalysts:2||METALLOPORPHYRIN:2||SILICON:2||MASSSPECTROMETRY ANALYSIS:2||STAR POLYMERS:2||SIZE DISTRIBUTIONS:2||GIANT VESICLES:2||POLY(3ALKYLTHIOPHENES):2||ADHESION:2||LIGHT:2||POLYSTYRENEBPOLYISOPRENE:2||HPLC fractionation:2||SILVER ELECTRODES:2||ENHANCED RESONANCE RAMAN:2||SEQUENCE:2||POLYELECTROLYTE/NONELECTROLYTE SHELLS:2||polyimide:2||liquid crystal alignment layer:2||SOLUBLE POLYIMIDES:2||POLYBUTADIENECOATED ZIRCONIA:2||PRETILT ANGLES:2||CROSSSECTIONS:2||IMSMS:2||POLYISOPRENE COPOLYMERS:2||POLYIMIDE THINFILMS:2||POLYMER SURFACES:2||RAMAN:2||STEREOREGULAR PMMA:2||poly(tertbutyl methacrylate) (PtBMA):2||TIME:2||POLYIMIDE COMPOSITE:2||CARBOXYLATO COMPLEXES:2||AGOSTIC INTERACTIONS:2||MOLECULARSTRUCTURE:2||ALKENE:2||TRANSISTOR MEMORY:2||DEVICES:2||ORTHOGONALITY:2||molecular characterization:2||ORGANOSILICATE DIELECTRIC FILMS:2||AMPHIPHILES:2||Serotonin:2||Anodic stripping differential pulse voltammetry:2||transmission electron microtomography:2||LIQUIDCHROMATOGRAPHY ANALYSIS:2||PHASEDIAGRAM:2||CARBON NANOTUBES:2||TRANSFER MECHANISM:2||BINARY MIXTURES:2||REFLECTOMETRY:2||ROD:2||DROPS:2||CONSTANT:2||TRIBLOCK COPOLYMER:2||POLYMER VESICLES:2||CLICK CHEMISTRY:2||ARRAYS:2||COMPOSITES:2||MALDITOF MS:2||POLYMER THINFILMS:2||HYDROPHOBIC INTERACTION CHROMATOGRAPHY:2||retention mechanism:2||GRAZINGINCIDENCE:2||NANOPOROSITY:2||soluble poly(amic esteraltimide)s:2||DIFFERENTIAL SCANNING CALORIMETRY:2||RESIDUALSTRESS:2||CHEMICALCOMPOSITION:2||POLY(AMIC DIETHYL ESTER) PRECURSOR:2||POLY(DIMETHYL SILOXANES):2||MASS POLYSTYRENES:2||cyclic propylene carbonate:2||propylene oxide:2||ACETATE) TOLUENE SOLUTIONS:2||TRANSIENT GRATING METHOD:2||MASS DIFFUSION:2||MICROPHASE SEPARATION TRANSITION:2||POLYSTYRENES:2||POLYSILANE:2||CARBOHYDRATEBASED PHOSPHOLIPIDS:2||HELICAL STRANDS:2||FLUORESCENCE DETECTION:2||SENSITIVE DETERMINATION:2||COMPOSITE FILMS:2||microphase:2||3MERCAPTOPROPIONIC ACID:2||BUTADIENE BLOCK COPOLYMER:2||HYBRID POLYMERIC MICELLES:2||AQUEOUSMEDIA:2||CONTACTANGLE:2||TRANSISTORCIRCUITS:2||ABTYPE POLY(ETHERIMIDE)S:2||CORRELATION SPECTROSCOPY:2||GASPHASE CONFORMATIONS:2||DECANE:2||INFRAREDSPECTROSCOPY:2||MICELLIZATION:2||ENERGIES:2||ACID) PRECURSORS:2||PHOTOALIGNMENT:2||polymers:2||SUBSTRATE:2||carbon dioxide:2||oligomeric propylene carbonate:2||THERMALDIFFUSION:2||CRYSTAL:2||PHASETRANSITION:2||REFLECTIVITY:2||ANALOGS:2||supramolecular chemistry:2||LYSOPHOSPHATIDIC ACID:2||PHOSPHOCHOLINE:2||POLY(3HEXYLTHIOPHENE):2||Receptor:2||MODIFIED GOLD ELECTRODES:2||ASCORBICACID:2||HUMAN URINE:2||Hybrid Nanocomposite:2||Dielectric Constant:2||AU(111) ELECTRODES:2||NANOFILMS:2||HYDROPHOBIC CORES:2||DRIVEN:2||FLEXIBLE SIDECHAINS:2||MESOGEN:2||size exclusion chromatography:2||ORGANIZATION:2||POLY(LACTIC ACID):2||MOLECULAR ARCHITECTURE:2||COUPLER:2||POLYSTYRENE COPOLYMER:2||diffusion coefficient:2||XRAY REFLECTIVITY:2||temperature gradient interaction chromatography polystyryllithium:2||VISCOELASTIC PROPERTIES:2||polyisoprene:2||CRYSTALSTRUCTURES:2||POLYCARBONATE:2||MULTILAYERS:2||DEPOSITION:2||FULL ADSORPTION MECHANISMS:2||QUANTUM DOTS:2||CRITICAL ORDERING TRANSITION:2||CORE:2||PARACRYSTALLINE DISTORTION:2||PERFORATED LAYER PHASE:2||liposomes:2||phospholipids:2||UNILAMELLAR VESICLES:2||VOLTAMMETRIC DETERMINATION:2||Polyimide:2||FOURIERTRANSFORM:2||SURFACE:2||SIZE EXCLUSION CHROMATOGRAPHY:2||NEUTRON REFLECTIVITY:2||ORDERED STRUCTURE:2||RIGID ROD POLYMERS:2||DISPLACEMENT POLYMERIZATION:2||PHOTOSENSITIVE POLYIMIDE:2||EFFICIENCY:2||films:2||Polylactide:2||CHROMATOGRAPHIC CRITICAL CONDITION:2||RETENTION MECHANISM:2||COPPER PHTHALOCYANINE:2||C60:2||COPOLYMER:2||micelle:2||LINEAR POLYETHYLENE:2||LIQUIDS:2||ARMS:2||HIGHPERFORMANCE LIQUID:2||alternating copolyimides:2||PHASE SEPARATION:2||POLYMERCHAINS:2||STYRYLPYRIDINIUM:2||ANGLES:2||MOBILITY:2||PROBE:2||ACIDS:2||BLUE:2||POSITIONS:2||CYCLOPENTADIENYL:2||HIGHMOLECULARWEIGHT:2||FUELCELLS:2||TIN OXIDE:2||NANOCRYSTALS:2||SURFACE MICELLE FORMATION:2||DISORDER TRANSITION:2||BIREFRINGENCE:2||LIPIDCOMPOSITION:2||CONJUGATED POLYMERS:2||GLASSYCARBON ELECTRODE:2||ELECTROCHEMICAL DETECTION:2||MULTIPLE DETECTION:2||aromatic polyimides:2||MOLECULARWEIGHT HOMOPOLYMERS:2||BINARYMIXTURE:2||PATTERNS:2||photoluminescent polyimide:2||photosensitive polyimide:2||DEPENDENT MICELLIZATION:2||SPEED:2||synthesis:2||COIL BLOCKCOPOLYMERS:2||LIQUIDCRYSTALLINE ASSEMBLIES:2||OXIDE):2||molecular weight distribution:2||CONJUGATED POLYMER:2||polymer characterization:2||NONIONIC SURFACTANTS:2||STEREOREGULAR POLY(METHYL METHACRYLATE):2||structure:2||RODLIKE POLYIMIDE:2||FLEXIBLE POLYIMIDE:2||THERMAL IMIDIZATION:2||IN SITU RODCHAIN FORMATION:2||PHASESEPARATION:2||VINYL ETHER):2||EQUILIBRIUM:2||STRESS:2||STRUCTURAL RELAXATION:2||LIVING POLYMERIZATION:2||CONTAIN:2||SALT:2||WAVEGUIDE:2||XRAY DIFFRACTION:2||WALLED CARBON NANOTUBES:2||SILICON NANOWIRES:2||IR:2||DIELECTRIC THINFILMS:2||Selfassembled monolayer:2||PARAMETERS:2||Temperature gradient interaction chromatography:2||SOLIDSURFACES:2||FLOW:2||RATES:2||PRECURSORS:2||FILM BALANCE:2||SIDECHAINS:2||SUPRAMOLECULAR MATERIALS:2||CHAINS:2||POLYSTYRENE:39||ANIONICPOLYMERIZATION:34||GRADIENT INTERACTION CHROMATOGRAPHY:31||SEPARATION:27||BEHAVIOR:24||LIQUIDCHROMATOGRAPHY:22||POLYMERS:22||SIZEEXCLUSION CHROMATOGRAPHY:19||BLOCKCOPOLYMERS:17||DIBLOCK COPOLYMERS:17||THINFILMS:16||POLYISOPRENE:14||HPLC:13||SYNTHETICPOLYMERS:12||PERFORMANCE LIQUIDCHROMATOGRAPHY:11||DIBLOCK COPOLYMER:11||MOLECULARWEIGHT DISTRIBUTION:10||MACROMOLECULES:10||BLOCKCOPOLYMER:10||REVERSEDPHASE:10||RETENTION BEHAVIOR:10||MORPHOLOGY:9||MOLECULARWEIGHT:9||MELTS:9||AROMATIC POLYIMIDES:8||XRAYSCATTERING:8||polystyrene:8||MIXTURES:7||block copolymer:7||SURFACES:7||DEPENDENCE:7||COPOLYMERS:7||POLYMERIZATION:7||AIR/WATER INTERFACE:7||DEFINED BRUSH POLYIMIDE:6||TEMPERATURE:6||FULLY RODLIKE BACKBONE:6||MONOLAYERS:6||POLYIMIDES:6||CHAIN:6||COMPLEX POLYMERS:6||MOLECULARREORIENTATION:6||temperature gradient interaction chromatography:6||POLYMERFILMS:6||GELPERMEATION CHROMATOGRAPHY:6||ELUTION:6||ORDERDISORDER TRANSITION:6||SURFACEMORPHOLOGY:6||ORIENTATION:6||SYSTEMS:6||CRITICAL ADSORPTION POINT:6||LIGHTSCATTERING:5||PROBE DIFFUSION:5||POLYDISPERSITY:5||AIRWATERINTERFACE:5||MICROPHASE SEPARATION:5||GLASSTRANSITION:5||BLENDS:5||FILMS:5||ADSORPTION CHROMATOGRAPHY:5||MECHANISM:5||CO2:5||ETHYLENEOXIDE:5||ALIGNMENT:5||COMPLEXES:5||FRACTIONATION:5||MISCIBILITY:5||POLYMER CHARACTERIZATION:5||HEXAGONALLY PERFORATED LAYER:5||TRANSITION:5||FLIGHT MASSSPECTROMETRY:5||ARCHITECTURE:5||POLY(METHYL METHACRYLATE):5||ALTERNATING COPOLYMERIZATION:4||THICKNESS:4||THERMODYNAMICS:4||CRITICAL RANGE:4||ULTRATHIN POLYMERFILMS:4||DYNAMICS:4||CLIMATECHANGE:4||PHASE:4||GLASSTRANSITION TEMPERATURE:4||EPOXIDE:4||selfassembly:4||SPECTROSCOPY:4||SELFDIFFUSION:4||SCATTERING:4||OPTICALPROPERTIES:4||CATALYSTS:4||CHEMISTRY:4||SOLARCELLS:4||polyimides:4||polypyromellitimides:4||SEGMENTAL REORIENTATIONS:4||ADSORPTION:4||INTERFACE:4||POLYMERSOLUTIONS:4||TRACER DIFFUSION:4||OXIDE) DIBLOCK COPOLYMER:4||POLYSTYRENEBPOLY(METHYL METHACRYLATE):4||POLYMER BLENDS:4||SIMULATION:4||CHAIN ORIENTATION:4||STYRENE:4||TOF MASSSPECTROMETRY:4||WATER:4||DISPLAYS:4||OLIGOMERS:4||PEPTIDES:4||CYCLIC POLYSTYRENE:4||LATTICE CLUSTER THEORY:4||2NDHARMONIC GENERATION:4||LIQUIDCRYSTAL ALIGNMENT:4||MONTECARLO:4||LangmuirBlodgett film:3||ASSEMBLIES:3||chromatography:3||HOLOGRAPHIC RELAXATION SPECTROSCOPY:3||MULTIPLE MORPHOLOGIES:3||INTERACTION CHROMATOGRAPHY:3||NORMALPHASE:3||DIFFUSION:3||BRANCHED POLYSTYRENE:3||NANOPARTICLES:3||LITHOGRAPHY:3||POLYMER:3||LASERLIGHTSCATTERING:3||HIGH MOLECULARWEIGHT:3||CUBIC PHASE:3||AMPHIPHILIC BLOCKCOPOLYMERS:3||AQUEOUSSOLUTION:3||MODEL:3||FORCED RAYLEIGHSCATTERING:3||HYDRODYNAMIC PROPERTIES:3||4MIKTOARM STAR COPOLYMER:3||SYSTEM:3||PHASEBEHAVIOR:3||AQUEOUSSOLUTIONS:3||RHEOLOGY:3||LB film:3||2DIMENSIONAL LIQUIDCHROMATOGRAPHY:3||VISCOSITY:3||DIBLOCK COPOLYMER MELTS:3||ORDERORDER TRANSITION:3||GYROID PHASE:3||BINDING:3||BLOCK POLYELECTROLYTES:3||DERIVATIVES:3||MELT:3||PHASE LIQUIDCHROMATOGRAPHY:3||high temperature:3||ELEVATEDTEMPERATURE:3||RETENTION:3||MICELLE FORMATION:3||ELECTRONMICROSCOPY:3||Electrospray ionization:2||FRACTIONS:2||nalkanes:2||ISOCRATIC SEPARATION:2||ASSOCIATION:2||POLY(METHYL METHACRYLATE)S:2||2D correlation spectroscopy:2||CARBONATION:2||GLASSTRANSITION BEHAVIORS:2||MECHANICAL PROPERTIES:2||DIMENSIONS:2||POLYMER MIXTURES:2||ALUMINUM PORPHYRIN:2||LEAD STEARATE:2||FERROCENE:2||POLY(EPSILONCAPROLACTONE):2||DIAGRAM:2||nucleosides:2||Selective recognition by preconcentration:2||Electrochemical impedance spectroscopy:2||DOPAMINE:2||Silica:2||Silyl Ester:2||DIETHYL ESTER) PRECURSORS:2||SURFACE CHARACTERIZATION:2||MICROSTRUCTURE:2||polystyreneblockpolyisoprene:2||MICROPHASESEPARATED STRUCTURES:2||IMPEDANCE MEASUREMENTS:2||HEMEPROTEINS:2||SOLID SUBSTRATE:2||MOISTURE ABSORPTION:2||aromatic polyimide:2||INDUCED MORPHOLOGICALCHANGES:2||STABILITY:2||LC alignment layers:2||POLYPYROMELLITIMIDES:2||Ion mobility:2||Chiral polymer:2||OLIGOSACCHARIDES:2||OXIDE:2||SIDECHAIN:2||RETARDATION:2||functionality:2||temperature effects:2||phase transition:2||glass transition temperature:2||spincoated film:2||ESTER) PRECURSORS:2||PRECURSOR BLEND:2||Xray reflectivity:2||SIGMABONDS:2||aluminum porphyrin catalysts:2||METALLOPORPHYRIN:2||SILICON:2||MASSSPECTROMETRY ANALYSIS:2||STAR POLYMERS:2||SIZE DISTRIBUTIONS:2||GIANT VESICLES:2||POLY(3ALKYLTHIOPHENES):2||ADHESION:2||LIGHT:2||POLYSTYRENEBPOLYISOPRENE:2||HPLC fractionation:2||SILVER ELECTRODES:2||ENHANCED RESONANCE RAMAN:2||SEQUENCE:2||POLYELECTROLYTE/NONELECTROLYTE SHELLS:2||polyimide:2||liquid crystal alignment layer:2||SOLUBLE POLYIMIDES:2||POLYBUTADIENECOATED ZIRCONIA:2||PRETILT ANGLES:2||CROSSSECTIONS:2||IMSMS:2||POLYISOPRENE COPOLYMERS:2||POLYIMIDE THINFILMS:2||POLYMER SURFACES:2||RAMAN:2||STEREOREGULAR PMMA:2||poly(tertbutyl methacrylate) (PtBMA):2||TIME:2||POLYIMIDE COMPOSITE:2||CARBOXYLATO COMPLEXES:2||AGOSTIC INTERACTIONS:2||MOLECULARSTRUCTURE:2||ALKENE:2||TRANSISTOR MEMORY:2||DEVICES:2||ORTHOGONALITY:2||molecular characterization:2||ORGANOSILICATE DIELECTRIC FILMS:2||AMPHIPHILES:2||Serotonin:2||Anodic stripping differential pulse voltammetry:2||transmission electron microtomography:2||LIQUIDCHROMATOGRAPHY ANALYSIS:2||PHASEDIAGRAM:2||CARBON NANOTUBES:2||TRANSFER MECHANISM:2||BINARY MIXTURES:2||REFLECTOMETRY:2||ROD:2||DROPS:2||CONSTANT:2||TRIBLOCK COPOLYMER:2||POLYMER VESICLES:2||CLICK CHEMISTRY:2||ARRAYS:2||COMPOSITES:2||MALDITOF MS:2||POLYMER THINFILMS:2||HYDROPHOBIC INTERACTION CHROMATOGRAPHY:2||retention mechanism:2||GRAZINGINCIDENCE:2||NANOPOROSITY:2||soluble poly(amic esteraltimide)s:2||DIFFERENTIAL SCANNING CALORIMETRY:2||RESIDUALSTRESS:2||CHEMICALCOMPOSITION:2||POLY(AMIC DIETHYL ESTER) PRECURSOR:2||POLY(DIMETHYL SILOXANES):2||MASS POLYSTYRENES:2||cyclic propylene carbonate:2||propylene oxide:2||ACETATE) TOLUENE SOLUTIONS:2||TRANSIENT GRATING METHOD:2||MASS DIFFUSION:2||MICROPHASE SEPARATION TRANSITION:2||POLYSTYRENES:2||POLYSILANE:2||CARBOHYDRATEBASED PHOSPHOLIPIDS:2||HELICAL STRANDS:2||FLUORESCENCE DETECTION:2||SENSITIVE DETERMINATION:2||COMPOSITE FILMS:2||microphase:2||3MERCAPTOPROPIONIC ACID:2||BUTADIENE BLOCK COPOLYMER:2||HYBRID POLYMERIC MICELLES:2||AQUEOUSMEDIA:2||CONTACTANGLE:2||TRANSISTORCIRCUITS:2||ABTYPE POLY(ETHERIMIDE)S:2||CORRELATION SPECTROSCOPY:2||GASPHASE CONFORMATIONS:2||DECANE:2||INFRAREDSPECTROSCOPY:2||MICELLIZATION:2||ENERGIES:2||ACID) PRECURSORS:2||PHOTOALIGNMENT:2||polymers:2||SUBSTRATE:2||carbon dioxide:2||oligomeric propylene carbonate:2||THERMALDIFFUSION:2||CRYSTAL:2||PHASETRANSITION:2||REFLECTIVITY:2||ANALOGS:2||supramolecular chemistry:2||LYSOPHOSPHATIDIC ACID:2||PHOSPHOCHOLINE:2||POLY(3HEXYLTHIOPHENE):2||Receptor:2||MODIFIED GOLD ELECTRODES:2||ASCORBICACID:2||HUMAN URINE:2||Hybrid Nanocomposite:2||Dielectric Constant:2||AU(111) ELECTRODES:2||NANOFILMS:2||HYDROPHOBIC CORES:2||DRIVEN:2||FLEXIBLE SIDECHAINS:2||MESOGEN:2||size exclusion chromatography:2||ORGANIZATION:2||POLY(LACTIC ACID):2||MOLECULAR ARCHITECTURE:2||COUPLER:2||POLYSTYRENE COPOLYMER:2||diffusion coefficient:2||XRAY REFLECTIVITY:2||temperature gradient interaction chromatography polystyryllithium:2||VISCOELASTIC PROPERTIES:2||polyisoprene:2||CRYSTALSTRUCTURES:2||POLYCARBONATE:2||MULTILAYERS:2||DEPOSITION:2||FULL ADSORPTION MECHANISMS:2||QUANTUM DOTS:2||CRITICAL ORDERING TRANSITION:2||CORE:2||PARACRYSTALLINE DISTORTION:2||PERFORATED LAYER PHASE:2||liposomes:2||phospholipids:2||UNILAMELLAR VESICLES:2||VOLTAMMETRIC DETERMINATION:2||Polyimide:2||FOURIERTRANSFORM:2||SURFACE:2||SIZE EXCLUSION CHROMATOGRAPHY:2||NEUTRON REFLECTIVITY:2||ORDERED STRUCTURE:2||RIGID ROD POLYMERS:2||DISPLACEMENT POLYMERIZATION:2||PHOTOSENSITIVE POLYIMIDE:2||EFFICIENCY:2||films:2||Polylactide:2||CHROMATOGRAPHIC CRITICAL CONDITION:2||RETENTION MECHANISM:2||COPPER PHTHALOCYANINE:2||C60:2||COPOLYMER:2||micelle:2||LINEAR POLYETHYLENE:2||LIQUIDS:2||ARMS:2||HIGHPERFORMANCE LIQUID:2||alternating copolyimides:2||PHASE SEPARATION:2||POLYMERCHAINS:2||STYRYLPYRIDINIUM:2||ANGLES:2||MOBILITY:2||PROBE:2||ACIDS:2||BLUE:2||POSITIONS:2||CYCLOPENTADIENYL:2||HIGHMOLECULARWEIGHT:2||FUELCELLS:2||TIN OXIDE:2||NANOCRYSTALS:2||SURFACE MICELLE FORMATION:2||DISORDER TRANSITION:2||BIREFRINGENCE:2||LIPIDCOMPOSITION:2||CONJUGATED POLYMERS:2||GLASSYCARBON ELECTRODE:2||ELECTROCHEMICAL DETECTION:2||MULTIPLE DETECTION:2||aromatic polyimides:2||MOLECULARWEIGHT HOMOPOLYMERS:2||BINARYMIXTURE:2||PATTERNS:2||photoluminescent polyimide:2||photosensitive polyimide:2||DEPENDENT MICELLIZATION:2||SPEED:2||synthesis:2||COIL BLOCKCOPOLYMERS:2||LIQUIDCRYSTALLINE ASSEMBLIES:2||OXIDE):2||molecular weight distribution:2||CONJUGATED POLYMER:2||polymer characterization:2||NONIONIC SURFACTANTS:2||STEREOREGULAR POLY(METHYL METHACRYLATE):2||structure:2||RODLIKE POLYIMIDE:2||FLEXIBLE POLYIMIDE:2||THERMAL IMIDIZATION:2||IN SITU RODCHAIN FORMATION:2||PHASESEPARATION:2||VINYL ETHER):2||EQUILIBRIUM:2||STRESS:2||STRUCTURAL RELAXATION:2||LIVING POLYMERIZATION:2||CONTAIN:2||SALT:2||WAVEGUIDE:2||XRAY DIFFRACTION:2||WALLED CARBON NANOTUBES:2||SILICON NANOWIRES:2||IR:2||DIELECTRIC THINFILMS:2||Selfassembled monolayer:2||PARAMETERS:2||Temperature gradient interaction chromatography:2||SOLIDSURFACES:2||FLOW:2||RATES:2||PRECURSORS:2||FILM BALANCE:2||SIDECHAINS:2||SUPRAMOLECULAR MATERIALS:2||CHAINS:2||POLYSTYRENE:39||ANIONICPOLYMERIZATION:34||GRADIENT INTERACTION CHROMATOGRAPHY:31||SEPARATION:27||BEHAVIOR:24||LIQUIDCHROMATOGRAPHY:22||POLYMERS:22||SIZEEXCLUSION CHROMATOGRAPHY:19||BLOCKCOPOLYMERS:17||DIBLOCK COPOLYMERS:17||THINFILMS:16||POLYISOPRENE:14||HPLC:13||SYNTHETICPOLYMERS:12||PERFORMANCE LIQUIDCHROMATOGRAPHY:11||DIBLOCK COPOLYMER:11||MOLECULARWEIGHT DISTRIBUTION:10||MACROMOLECULES:10||BLOCKCOPOLYMER:10||REVERSEDPHASE:10||RETENTION BEHAVIOR:10||MORPHOLOGY:9||MOLECULARWEIGHT:9||MELTS:9||AROMATIC POLYIMIDES:8||XRAYSCATTERING:8||polystyrene:8||MIXTURES:7||block copolymer:7||SURFACES:7||DEPENDENCE:7||COPOLYMERS:7||POLYMERIZATION:7||AIR/WATER INTERFACE:7||DEFINED BRUSH POLYIMIDE:6||TEMPERATURE:6||FULLY RODLIKE BACKBONE:6||MONOLAYERS:6||POLYIMIDES:6||CHAIN:6||COMPLEX POLYMERS:6||MOLECULARREORIENTATION:6||temperature gradient interaction chromatography:6||POLYMERFILMS:6||GELPERMEATION CHROMATOGRAPHY:6||ELUTION:6||ORDERDISORDER TRANSITION:6||SURFACEMORPHOLOGY:6||ORIENTATION:6||SYSTEMS:6||CRITICAL ADSORPTION POINT:6||LIGHTSCATTERING:5||PROBE DIFFUSION:5||POLYDISPERSITY:5||AIRWATERINTERFACE:5||MICROPHASE SEPARATION:5||GLASSTRANSITION:5||BLENDS:5||FILMS:5||ADSORPTION CHROMATOGRAPHY:5||MECHANISM:5||CO2:5||ETHYLENEOXIDE:5||ALIGNMENT:5||COMPLEXES:5||FRACTIONATION:5||MISCIBILITY:5||POLYMER CHARACTERIZATION:5||HEXAGONALLY PERFORATED LAYER:5||TRANSITION:5||FLIGHT MASSSPECTROMETRY:5||ARCHITECTURE:5||POLY(METHYL METHACRYLATE):5||ALTERNATING COPOLYMERIZATION:4||THICKNESS:4||THERMODYNAMICS:4||CRITICAL RANGE:4||ULTRATHIN POLYMERFILMS:4||DYNAMICS:4||CLIMATECHANGE:4||PHASE:4||GLASSTRANSITION TEMPERATURE:4||EPOXIDE:4||selfassembly:4||SPECTROSCOPY:4||SELFDIFFUSION:4||SCATTERING:4||OPTICALPROPERTIES:4||CATALYSTS:4||CHEMISTRY:4||SOLARCELLS:4||polyimides:4||polypyromellitimides:4||SEGMENTAL REORIENTATIONS:4||ADSORPTION:4||INTERFACE:4||POLYMERSOLUTIONS:4||TRACER DIFFUSION:4||OXIDE) DIBLOCK COPOLYMER:4||POLYSTYRENEBPOLY(METHYL METHACRYLATE):4||POLYMER BLENDS:4||SIMULATION:4||CHAIN ORIENTATION:4||STYRENE:4||TOF MASSSPECTROMETRY:4||WATER:4||DISPLAYS:4||OLIGOMERS:4||PEPTIDES:4||CYCLIC POLYSTYRENE:4||LATTICE CLUSTER THEORY:4||2NDHARMONIC GENERATION:4||LIQUIDCRYSTAL ALIGNMENT:4||MONTECARLO:4||LangmuirBlodgett film:3||ASSEMBLIES:3||chromatography:3||HOLOGRAPHIC RELAXATION SPECTROSCOPY:3||MULTIPLE MORPHOLOGIES:3||INTERACTION CHROMATOGRAPHY:3||NORMALPHASE:3||DIFFUSION:3||BRANCHED POLYSTYRENE:3||NANOPARTICLES:3||LITHOGRAPHY:3||POLYMER:3||LASERLIGHTSCATTERING:3||HIGH MOLECULARWEIGHT:3||CUBIC PHASE:3||AMPHIPHILIC BLOCKCOPOLYMERS:3||AQUEOUSSOLUTION:3||MODEL:3||FORCED RAYLEIGHSCATTERING:3||HYDRODYNAMIC PROPERTIES:3||4MIKTOARM STAR COPOLYMER:3||SYSTEM:3||PHASEBEHAVIOR:3||AQUEOUSSOLUTIONS:3||RHEOLOGY:3||LB film:3||2DIMENSIONAL LIQUIDCHROMATOGRAPHY:3||VISCOSITY:3||DIBLOCK COPOLYMER MELTS:3||ORDERORDER TRANSITION:3||GYROID PHASE:3||BINDING:3||BLOCK POLYELECTROLYTES:3||DERIVATIVES:3||MELT:3||PHASE LIQUIDCHROMATOGRAPHY:3||high temperature:3||ELEVATEDTEMPERATURE:3||RETENTION:3||MICELLE FORMATION:3||ELECTRONMICROSCOPY:3||Electrospray ionization:2||FRACTIONS:2||nalkanes:2||ISOCRATIC SEPARATION:2||ASSOCIATION:2||POLY(METHYL METHACRYLATE)S:2||2D correlation spectroscopy:2||CARBONATION:2||GLASSTRANSITION BEHAVIORS:2||MECHANICAL PROPERTIES:2||DIMENSIONS:2||POLYMER MIXTURES:2||ALUMINUM PORPHYRIN:2||LEAD STEARATE:2||FERROCENE:2||POLY(EPSILONCAPROLACTONE):2||DIAGRAM:2||nucleosides:2||Selective recognition by preconcentration:2||Electrochemical impedance spectroscopy:2||DOPAMINE:2||Silica:2||Silyl Ester:2||DIETHYL ESTER) PRECURSORS:2||SURFACE CHARACTERIZATION:2||MICROSTRUCTURE:2||polystyreneblockpolyisoprene:2||MICROPHASESEPARATED STRUCTURES:2||IMPEDANCE MEASUREMENTS:2||HEMEPROTEINS:2||SOLID SUBSTRATE:2||MOISTURE ABSORPTION:2||aromatic polyimide:2||INDUCED MORPHOLOGICALCHANGES:2||STABILITY:2||LC alignment layers:2||POLYPYROMELLITIMIDES:2||Ion mobility:2||Chiral polymer:2||OLIGOSACCHARIDES:2||OXIDE:2||SIDECHAIN:2||RETARDATION:2||functionality:2||temperature effects:2||phase transition:2||glass transition temperature:2||spincoated film:2||ESTER) PRECURSORS:2||PRECURSOR BLEND:2||Xray reflectivity:2||SIGMABONDS:2||aluminum porphyrin catalysts:2||METALLOPORPHYRIN:2||SILICON:2||MASSSPECTROMETRY ANALYSIS:2||STAR POLYMERS:2||SIZE DISTRIBUTIONS:2||GIANT VESICLES:2||POLY(3ALKYLTHIOPHENES):2||ADHESION:2||LIGHT:2||POLYSTYRENEBPOLYISOPRENE:2||HPLC fractionation:2||SILVER ELECTRODES:2||ENHANCED RESONANCE RAMAN:2||SEQUENCE:2||POLYELECTROLYTE/NONELECTROLYTE SHELLS:2||polyimide:2||liquid crystal alignment layer:2||SOLUBLE POLYIMIDES:2||POLYBUTADIENECOATED ZIRCONIA:2||PRETILT ANGLES:2||CROSSSECTIONS:2||IMSMS:2||POLYISOPRENE COPOLYMERS:2||POLYIMIDE THINFILMS:2||POLYMER SURFACES:2||RAMAN:2||STEREOREGULAR PMMA:2||poly(tertbutyl methacrylate) (PtBMA):2||TIME:2||POLYIMIDE COMPOSITE:2||CARBOXYLATO COMPLEXES:2||AGOSTIC INTERACTIONS:2||MOLECULARSTRUCTURE:2||ALKENE:2||TRANSISTOR MEMORY:2||DEVICES:2||ORTHOGONALITY:2||molecular characterization:2||ORGANOSILICATE DIELECTRIC FILMS:2||AMPHIPHILES:2||Serotonin:2||Anodic stripping differential pulse voltammetry:2||transmission electron microtomography:2||LIQUIDCHROMATOGRAPHY ANALYSIS:2||PHASEDIAGRAM:2||CARBON NANOTUBES:2||TRANSFER MECHANISM:2||BINARY MIXTURES:2||REFLECTOMETRY:2||ROD:2||DROPS:2||CONSTANT:2||TRIBLOCK COPOLYMER:2||POLYMER VESICLES:2||CLICK CHEMISTRY:2||ARRAYS:2||COMPOSITES:2||MALDITOF MS:2||POLYMER THINFILMS:2||HYDROPHOBIC INTERACTION CHROMATOGRAPHY:2||retention mechanism:2||GRAZINGINCIDENCE:2||NANOPOROSITY:2||soluble poly(amic esteraltimide)s:2||DIFFERENTIAL SCANNING CALORIMETRY:2||RESIDUALSTRESS:2||CHEMICALCOMPOSITION:2||POLY(AMIC DIETHYL ESTER) PRECURSOR:2||POLY(DIMETHYL SILOXANES):2||MASS POLYSTYRENES:2||cyclic propylene carbonate:2||propylene oxide:2||ACETATE) TOLUENE SOLUTIONS:2||TRANSIENT GRATING METHOD:2||MASS DIFFUSION:2||MICROPHASE SEPARATION TRANSITION:2||POLYSTYRENES:2||POLYSILANE:2||CARBOHYDRATEBASED PHOSPHOLIPIDS:2||HELICAL STRANDS:2||FLUORESCENCE DETECTION:2||SENSITIVE DETERMINATION:2||COMPOSITE FILMS:2||microphase:2||3MERCAPTOPROPIONIC ACID:2||BUTADIENE BLOCK COPOLYMER:2||HYBRID POLYMERIC MICELLES:2||AQUEOUSMEDIA:2||CONTACTANGLE:2||TRANSISTORCIRCUITS:2||ABTYPE POLY(ETHERIMIDE)S:2||CORRELATION SPECTROSCOPY:2||GASPHASE CONFORMATIONS:2||DECANE:2||INFRAREDSPECTROSCOPY:2||MICELLIZATION:2||ENERGIES:2||ACID) PRECURSORS:2||PHOTOALIGNMENT:2||polymers:2||SUBSTRATE:2||carbon dioxide:2||oligomeric propylene carbonate:2||THERMALDIFFUSION:2||CRYSTAL:2||PHASETRANSITION:2||REFLECTIVITY:2||ANALOGS:2||supramolecular chemistry:2||LYSOPHOSPHATIDIC ACID:2||PHOSPHOCHOLINE:2||POLY(3HEXYLTHIOPHENE):2||Receptor:2||MODIFIED GOLD ELECTRODES:2||ASCORBICACID:2||HUMAN URINE:2||Hybrid Nanocomposite:2||Dielectric Constant:2||AU(111) ELECTRODES:2||NANOFILMS:2||HYDROPHOBIC CORES:2||DRIVEN:2||FLEXIBLE SIDECHAINS:2||MESOGEN:2||size exclusion chromatography:2||ORGANIZATION:2||POLY(LACTIC ACID):2||MOLECULAR ARCHITECTURE:2||COUPLER:2||POLYSTYRENE COPOLYMER:2||diffusion coefficient:2||XRAY REFLECTIVITY:2||temperature gradient interaction chromatography polystyryllithium:2||VISCOELASTIC PROPERTIES:2||polyisoprene:2||CRYSTALSTRUCTURES:2||POLYCARBONATE:2||MULTILAYERS:2||DEPOSITION:2||FULL ADSORPTION MECHANISMS:2||QUANTUM DOTS:2||CRITICAL ORDERING TRANSITION:2||CORE:2||PARACRYSTALLINE DISTORTION:2||PERFORATED LAYER PHASE:2||liposomes:2||phospholipids:2||UNILAMELLAR VESICLES:2||VOLTAMMETRIC DETERMINATION:2||Polyimide:2||FOURIERTRANSFORM:2||SURFACE:2||SIZE EXCLUSION CHROMATOGRAPHY:2||NEUTRON REFLECTIVITY:2||ORDERED STRUCTURE:2||RIGID ROD POLYMERS:2||DISPLACEMENT POLYMERIZATION:2||PHOTOSENSITIVE POLYIMIDE:2||EFFICIENCY:2||films:2||Polylactide:2||CHROMATOGRAPHIC CRITICAL CONDITION:2||RETENTION MECHANISM:2||COPPER PHTHALOCYANINE:2||C60:2||COPOLYMER:2||micelle:2||LINEAR POLYETHYLENE:2||LIQUIDS:2||ARMS:2||HIGHPERFORMANCE LIQUID:2||alternating copolyimides:2||PHASE SEPARATION:2||POLYMERCHAINS:2||STYRYLPYRIDINIUM:2||ANGLES:2||MOBILITY:2||PROBE:2||ACIDS:2||BLUE:2||POSITIONS:2||CYCLOPENTADIENYL:2||HIGHMOLECULARWEIGHT:2||FUELCELLS:2||TIN OXIDE:2||NANOCRYSTALS:2||SURFACE MICELLE FORMATION:2||DISORDER TRANSITION:2||BIREFRINGENCE:2||LIPIDCOMPOSITION:2||CONJUGATED POLYMERS:2||GLASSYCARBON ELECTRODE:2||ELECTROCHEMICAL DETECTION:2||MULTIPLE DETECTION:2||aromatic polyimides:2||MOLECULARWEIGHT HOMOPOLYMERS:2||BINARYMIXTURE:2||PATTERNS:2||photoluminescent polyimide:2||photosensitive polyimide:2||DEPENDENT MICELLIZATION:2||SPEED:2||synthesis:2||COIL BLOCKCOPOLYMERS:2||LIQUIDCRYSTALLINE ASSEMBLIES:2||OXIDE):2||molecular weight distribution:2||CONJUGATED POLYMER:2||polymer characterization:2||NONIONIC SURFACTANTS:2||STEREOREGULAR POLY(METHYL METHACRYLATE):2||structure:2||RODLIKE POLYIMIDE:2||FLEXIBLE POLYIMIDE:2||THERMAL IMIDIZATION:2||IN SITU RODCHAIN FORMATION:2||PHASESEPARATION:2||VINYL ETHER):2||EQUILIBRIUM:2||STRESS:2||STRUCTURAL RELAXATION:2||LIVING POLYMERIZATION:2||CONTAIN:2||SALT:2||WAVEGUIDE:2||XRAY DIFFRACTION:2||WALLED CARBON NANOTUBES:2||SILICON NANOWIRES:2||IR:2||DIELECTRIC THINFILMS:2||Selfassembled monolayer:2||PARAMETERS:2||Temperature gradient interaction chromatography:2||SOLIDSURFACES:2||FLOW:2||RATES:2||PRECURSORS:2||FILM BALANCE:2||SIDECHAINS:2||SUPRAMOLECULAR MATERIALS:2||CHAINS:2||POLYSTYRENE:39||ANIONICPOLYMERIZATION:34||GRADIENT INTERACTION CHROMATOGRAPHY:31||SEPARATION:27||BEHAVIOR:24||LIQUIDCHROMATOGRAPHY:22||POLYMERS:22||SIZEEXCLUSION CHROMATOGRAPHY:19||BLOCKCOPOLYMERS:17||DIBLOCK COPOLYMERS:17||THINFILMS:16||POLYISOPRENE:14||HPLC:13||SYNTHETICPOLYMERS:12||PERFORMANCE LIQUIDCHROMATOGRAPHY:11||DIBLOCK COPOLYMER:11||MOLECULARWEIGHT DISTRIBUTION:10||MACROMOLECULES:10||BLOCKCOPOLYMER:10||REVERSEDPHASE:10||RETENTION BEHAVIOR:10||MORPHOLOGY:9||MOLECULARWEIGHT:9||MELTS:9||AROMATIC POLYIMIDES:8||XRAYSCATTERING:8||polystyrene:8||MIXTURES:7||block copolymer:7||SURFACES:7||DEPENDENCE:7||COPOLYMERS:7||POLYMERIZATION:7||AIR/WATER INTERFACE:7||DEFINED BRUSH POLYIMIDE:6||TEMPERATURE:6||FULLY RODLIKE BACKBONE:6||MONOLAYERS:6||POLYIMIDES:6||CHAIN:6||COMPLEX POLYMERS:6||MOLECULARREORIENTATION:6||temperature gradient interaction chromatography:6||POLYMERFILMS:6||GELPERMEATION CHROMATOGRAPHY:6||ELUTION:6||ORDERDISORDER TRANSITION:6||SURFACEMORPHOLOGY:6||ORIENTATION:6||SYSTEMS:6||CRITICAL ADSORPTION POINT:6||LIGHTSCATTERING:5||PROBE DIFFUSION:5||POLYDISPERSITY:5||AIRWATERINTERFACE:5||MICROPHASE SEPARATION:5||GLASSTRANSITION:5||BLENDS:5||FILMS:5||ADSORPTION CHROMATOGRAPHY:5||MECHANISM:5||CO2:5||ETHYLENEOXIDE:5||ALIGNMENT:5||COMPLEXES:5||FRACTIONATION:5||MISCIBILITY:5||POLYMER CHARACTERIZATION:5||HEXAGONALLY PERFORATED LAYER:5||TRANSITION:5||FLIGHT MASSSPECTROMETRY:5||ARCHITECTURE:5||POLY(METHYL METHACRYLATE):5||ALTERNATING COPOLYMERIZATION:4||THICKNESS:4||THERMODYNAMICS:4||CRITICAL RANGE:4||ULTRATHIN POLYMERFILMS:4||DYNAMICS:4||CLIMATECHANGE:4||PHASE:4||GLASSTRANSITION TEMPERATURE:4||EPOXIDE:4||selfassembly:4||SPECTROSCOPY:4||SELFDIFFUSION:4||SCATTERING:4||OPTICALPROPERTIES:4||CATALYSTS:4||CHEMISTRY:4||SOLARCELLS:4||polyimides:4||polypyromellitimides:4||SEGMENTAL REORIENTATIONS:4||ADSORPTION:4||INTERFACE:4||POLYMERSOLUTIONS:4||TRACER DIFFUSION:4||OXIDE) DIBLOCK COPOLYMER:4||POLYSTYRENEBPOLY(METHYL METHACRYLATE):4||POLYMER BLENDS:4||SIMULATION:4||CHAIN ORIENTATION:4||STYRENE:4||TOF MASSSPECTROMETRY:4||WATER:4||DISPLAYS:4||OLIGOMERS:4||PEPTIDES:4||CYCLIC POLYSTYRENE:4||LATTICE CLUSTER THEORY:4||2NDHARMONIC GENERATION:4||LIQUIDCRYSTAL ALIGNMENT:4||MONTECARLO:4||LangmuirBlodgett film:3||ASSEMBLIES:3||chromatography:3||HOLOGRAPHIC RELAXATION SPECTROSCOPY:3||MULTIPLE MORPHOLOGIES:3||INTERACTION CHROMATOGRAPHY:3||NORMALPHASE:3||DIFFUSION:3||BRANCHED POLYSTYRENE:3||NANOPARTICLES:3||LITHOGRAPHY:3||POLYMER:3||LASERLIGHTSCATTERING:3||HIGH MOLECULARWEIGHT:3||CUBIC PHASE:3||AMPHIPHILIC BLOCKCOPOLYMERS:3||AQUEOUSSOLUTION:3||MODEL:3||FORCED RAYLEIGHSCATTERING:3||HYDRODYNAMIC PROPERTIES:3||4MIKTOARM STAR COPOLYMER:3||SYSTEM:3||PHASEBEHAVIOR:3||AQUEOUSSOLUTIONS:3||RHEOLOGY:3||LB film:3||2DIMENSIONAL LIQUIDCHROMATOGRAPHY:3||VISCOSITY:3||DIBLOCK COPOLYMER MELTS:3||ORDERORDER TRANSITION:3||GYROID PHASE:3||BINDING:3||BLOCK POLYELECTROLYTES:3||DERIVATIVES:3||MELT:3||PHASE LIQUIDCHROMATOGRAPHY:3||high temperature:3||ELEVATEDTEMPERATURE:3||RETENTION:3||MICELLE FORMATION:3||ELECTRONMICROSCOPY:3||Electrospray ionization:2||FRACTIONS:2||nalkanes:2||ISOCRATIC SEPARATION:2||ASSOCIATION:2||POLY(METHYL METHACRYLATE)S:2||2D correlation spectroscopy:2||CARBONATION:2||GLASSTRANSITION BEHAVIORS:2||MECHANICAL PROPERTIES:2||DIMENSIONS:2||POLYMER MIXTURES:2||ALUMINUM PORPHYRIN:2||LEAD STEARATE:2||FERROCENE:2||POLY(EPSILONCAPROLACTONE):2||DIAGRAM:2||nucleosides:2||Selective recognition by preconcentration:2||Electrochemical impedance spectroscopy:2||DOPAMINE:2||Silica:2||Silyl Ester:2||DIETHYL ESTER) PRECURSORS:2||SURFACE CHARACTERIZATION:2||MICROSTRUCTURE:2||polystyreneblockpolyisoprene:2||MICROPHASESEPARATED STRUCTURES:2||IMPEDANCE MEASUREMENTS:2||HEMEPROTEINS:2||SOLID SUBSTRATE:2||MOISTURE ABSORPTION:2||aromatic polyimide:2||INDUCED MORPHOLOGICALCHANGES:2||STABILITY:2||LC alignment layers:2||POLYPYROMELLITIMIDES:2||Ion mobility:2||Chiral polymer:2||OLIGOSACCHARIDES:2||OXIDE:2||SIDECHAIN:2||RETARDATION:2||functionality:2||temperature effects:2||phase transition:2||glass transition temperature:2||spincoated film:2||ESTER) PRECURSORS:2||PRECURSOR BLEND:2||Xray reflectivity:2||SIGMABONDS:2||aluminum porphyrin catalysts:2||METALLOPORPHYRIN:2||SILICON:2||MASSSPECTROMETRY ANALYSIS:2||STAR POLYMERS:2||SIZE DISTRIBUTIONS:2||GIANT VESICLES:2||POLY(3ALKYLTHIOPHENES):2||ADHESION:2||LIGHT:2||POLYSTYRENEBPOLYISOPRENE:2||HPLC fractionation:2||SILVER ELECTRODES:2||ENHANCED RESONANCE RAMAN:2||SEQUENCE:2||POLYELECTROLYTE/NONELECTROLYTE SHELLS:2||polyimide:2||liquid crystal alignment layer:2||SOLUBLE POLYIMIDES:2||POLYBUTADIENECOATED ZIRCONIA:2||PRETILT ANGLES:2||CROSSSECTIONS:2||IMSMS:2||POLYISOPRENE COPOLYMERS:2||POLYIMIDE THINFILMS:2||POLYMER SURFACES:2||RAMAN:2||STEREOREGULAR PMMA:2||poly(tertbutyl methacrylate) (PtBMA):2||TIME:2||POLYIMIDE COMPOSITE:2||CARBOXYLATO COMPLEXES:2||AGOSTIC INTERACTIONS:2||MOLECULARSTRUCTURE:2||ALKENE:2||TRANSISTOR MEMORY:2||DEVICES:2||ORTHOGONALITY:2||molecular characterization:2||ORGANOSILICATE DIELECTRIC FILMS:2||AMPHIPHILES:2||Serotonin:2||Anodic stripping differential pulse voltammetry:2||transmission electron microtomography:2||LIQUIDCHROMATOGRAPHY ANALYSIS:2||PHASEDIAGRAM:2||CARBON NANOTUBES:2||TRANSFER MECHANISM:2||BINARY MIXTURES:2||REFLECTOMETRY:2||ROD:2||DROPS:2||CONSTANT:2||TRIBLOCK COPOLYMER:2||POLYMER VESICLES:2||CLICK CHEMISTRY:2||ARRAYS:2||COMPOSITES:2||MALDITOF MS:2||POLYMER THINFILMS:2||HYDROPHOBIC INTERACTION CHROMATOGRAPHY:2||retention mechanism:2||GRAZINGINCIDENCE:2||NANOPOROSITY:2||soluble poly(amic esteraltimide)s:2||DIFFERENTIAL SCANNING CALORIMETRY:2||RESIDUALSTRESS:2||CHEMICALCOMPOSITION:2||POLY(AMIC DIETHYL ESTER) PRECURSOR:2||POLY(DIMETHYL SILOXANES):2||MASS POLYSTYRENES:2||cyclic propylene carbonate:2||propylene oxide:2||ACETATE) TOLUENE SOLUTIONS:2||TRANSIENT GRATING METHOD:2||MASS DIFFUSION:2||MICROPHASE SEPARATION TRANSITION:2||POLYSTYRENES:2||POLYSILANE:2||CARBOHYDRATEBASED PHOSPHOLIPIDS:2||HELICAL STRANDS:2||FLUORESCENCE DETECTION:2||SENSITIVE DETERMINATION:2||COMPOSITE FILMS:2||microphase:2||3MERCAPTOPROPIONIC ACID:2||BUTADIENE BLOCK COPOLYMER:2||HYBRID POLYMERIC MICELLES:2||AQUEOUSMEDIA:2||CONTACTANGLE:2||TRANSISTORCIRCUITS:2||ABTYPE POLY(ETHERIMIDE)S:2||CORRELATION SPECTROSCOPY:2||GASPHASE CONFORMATIONS:2||DECANE:2||INFRAREDSPECTROSCOPY:2||MICELLIZATION:2||ENERGIES:2||ACID) PRECURSORS:2||PHOTOALIGNMENT:2||polymers:2||SUBSTRATE:2||carbon dioxide:2||oligomeric propylene carbonate:2||THERMALDIFFUSION:2||CRYSTAL:2||PHASETRANSITION:2||REFLECTIVITY:2||ANALOGS:2||supramolecular chemistry:2||LYSOPHOSPHATIDIC ACID:2||PHOSPHOCHOLINE:2||POLY(3HEXYLTHIOPHENE):2||Receptor:2||MODIFIED GOLD ELECTRODES:2||ASCORBICACID:2||HUMAN URINE:2||Hybrid Nanocomposite:2||Dielectric Constant:2||AU(111) ELECTRODES:2||NANOFILMS:2||HYDROPHOBIC CORES:2||DRIVEN:2||FLEXIBLE SIDECHAINS:2||MESOGEN:2||size exclusion chromatography:2||ORGANIZATION:2||POLY(LACTIC ACID):2||MOLECULAR ARCHITECTURE:2||COUPLER:2||POLYSTYRENE COPOLYMER:2||diffusion coefficient:2||XRAY REFLECTIVITY:2||temperature gradient interaction chromatography polystyryllithium:2||VISCOELASTIC PROPERTIES:2||polyisoprene:2||CRYSTALSTRUCTURES:2||POLYCARBONATE:2||MULTILAYERS:2||DEPOSITION:2||FULL ADSORPTION MECHANISMS:2||QUANTUM DOTS:2||CRITICAL ORDERING TRANSITION:2||CORE:2||PARACRYSTALLINE DISTORTION:2||PERFORATED LAYER PHASE:2||liposomes:2||phospholipids:2||UNILAMELLAR VESICLES:2||VOLTAMMETRIC DETERMINATION:2||Polyimide:2||FOURIERTRANSFORM:2||SURFACE:2||SIZE EXCLUSION CHROMATOGRAPHY:2||NEUTRON REFLECTIVITY:2||ORDERED STRUCTURE:2||RIGID ROD POLYMERS:2||DISPLACEMENT POLYMERIZATION:2||PHOTOSENSITIVE POLYIMIDE:2||EFFICIENCY:2||films:2||Polylactide:2||CHROMATOGRAPHIC CRITICAL CONDITION:2||RETENTION MECHANISM:2||COPPER PHTHALOCYANINE:2||C60:2||COPOLYMER:2||micelle:2||LINEAR POLYETHYLENE:2||LIQUIDS:2||ARMS:2||HIGHPERFORMANCE LIQUID:2||alternating copolyimides:2||PHASE SEPARATION:2||POLYMERCHAINS:2||STYRYLPYRIDINIUM:2||ANGLES:2||MOBILITY:2||PROBE:2||ACIDS:2||BLUE:2||POSITIONS:2||CYCLOPENTADIENYL:2||HIGHMOLECULARWEIGHT:2||FUELCELLS:2||TIN OXIDE:2||NANOCRYSTALS:2||SURFACE MICELLE FORMATION:2||DISORDER TRANSITION:2||BIREFRINGENCE:2||LIPIDCOMPOSITION:2||CONJUGATED POLYMERS:2||GLASSYCARBON ELECTRODE:2||ELECTROCHEMICAL DETECTION:2||MULTIPLE DETECTION:2||aromatic polyimides:2||MOLECULARWEIGHT HOMOPOLYMERS:2||BINARYMIXTURE:2||PATTERNS:2||photoluminescent polyimide:2||photosensitive polyimide:2||DEPENDENT MICELLIZATION:2||SPEED:2||synthesis:2||COIL BLOCKCOPOLYMERS:2||LIQUIDCRYSTALLINE ASSEMBLIES:2||OXIDE):2||molecular weight distribution:2||CONJUGATED POLYMER:2||polymer characterization:2||NONIONIC SURFACTANTS:2||STEREOREGULAR POLY(METHYL METHACRYLATE):2||structure:2||RODLIKE POLYIMIDE:2||FLEXIBLE POLYIMIDE:2||THERMAL IMIDIZATION:2||IN SITU RODCHAIN FORMATION:2||PHASESEPARATION:2||VINYL ETHER):2||EQUILIBRIUM:2||STRESS:2||STRUCTURAL RELAXATION:2||LIVING POLYMERIZATION:2||CONTAIN:2||SALT:2||WAVEGUIDE:2||XRAY DIFFRACTION:2||WALLED CARBON NANOTUBES:2||SILICON NANOWIRES:2||IR:2||DIELECTRIC THINFILMS:2||Selfassembled monolayer:2||PARAMETERS:2||Temperature gradient interaction chromatography:2||SOLIDSURFACES:2||FLOW:2||RATES:2||PRECURSORS:2||FILM BALANCE:2||SIDECHAINS:2||SUPRAMOLECULAR MATERIALS:2||CHAINS:2||POLYSTYRENE:39||ANIONICPOLYMERIZATION:34||GRADIENT INTERACTION CHROMATOGRAPHY:31||SEPARATION:27||BEHAVIOR:24||LIQUIDCHROMATOGRAPHY:22||POLYMERS:22||SIZEEXCLUSION CHROMATOGRAPHY:19||BLOCKCOPOLYMERS:17||DIBLOCK COPOLYMERS:17||THINFILMS:16||POLYISOPRENE:14||HPLC:13||SYNTHETICPOLYMERS:12||PERFORMANCE LIQUIDCHROMATOGRAPHY:11||DIBLOCK COPOLYMER:11||MOLECULARWEIGHT DISTRIBUTION:10||MACROMOLECULES:10||BLOCKCOPOLYMER:10||REVERSEDPHASE:10||RETENTION BEHAVIOR:10||MORPHOLOGY:9||MOLECULARWEIGHT:9||MELTS:9||AROMATIC POLYIMIDES:8||XRAYSCATTERING:8||polystyrene:8||MIXTURES:7||block copolymer:7||SURFACES:7||DEPENDENCE:7||COPOLYMERS:7||POLYMERIZATION:7||AIR/WATER INTERFACE:7||DEFINED BRUSH POLYIMIDE:6||TEMPERATURE:6||FULLY RODLIKE BACKBONE:6||MONOLAYERS:6||POLYIMIDES:6||CHAIN:6||COMPLEX POLYMERS:6||MOLECULARREORIENTATION:6||temperature gradient interaction chromatography:6||POLYMERFILMS:6||GELPERMEATION CHROMATOGRAPHY:6||ELUTION:6||ORDERDISORDER TRANSITION:6||SURFACEMORPHOLOGY:6||ORIENTATION:6||SYSTEMS:6||CRITICAL ADSORPTION POINT:6||LIGHTSCATTERING:5||PROBE DIFFUSION:5||POLYDISPERSITY:5||AIRWATERINTERFACE:5||MICROPHASE SEPARATION:5||GLASSTRANSITION:5||BLENDS:5||FILMS:5||ADSORPTION CHROMATOGRAPHY:5||MECHANISM:5||CO2:5||ETHYLENEOXIDE:5||ALIGNMENT:5||COMPLEXES:5||FRACTIONATION:5||MISCIBILITY:5||POLYMER CHARACTERIZATION:5||HEXAGONALLY PERFORATED LAYER:5||TRANSITION:5||FLIGHT MASSSPECTROMETRY:5||ARCHITECTURE:5||POLY(METHYL METHACRYLATE):5||ALTERNATING COPOLYMERIZATION:4||THICKNESS:4||THERMODYNAMICS:4||CRITICAL RANGE:4||ULTRATHIN POLYMERFILMS:4||DYNAMICS:4||CLIMATECHANGE:4||PHASE:4||GLASSTRANSITION TEMPERATURE:4||EPOXIDE:4||selfassembly:4||SPECTROSCOPY:4||SELFDIFFUSION:4||SCATTERING:4||OPTICALPROPERTIES:4||CATALYSTS:4||CHEMISTRY:4||SOLARCELLS:4||polyimides:4||polypyromellitimides:4||SEGMENTAL REORIENTATIONS:4||ADSORPTION:4||INTERFACE:4||POLYMERSOLUTIONS:4||TRACER DIFFUSION:4||OXIDE) DIBLOCK COPOLYMER:4||POLYSTYRENEBPOLY(METHYL METHACRYLATE):4||POLYMER BLENDS:4||SIMULATION:4||CHAIN ORIENTATION:4||STYRENE:4||TOF MASSSPECTROMETRY:4||WATER:4||DISPLAYS:4||OLIGOMERS:4||PEPTIDES:4||CYCLIC POLYSTYRENE:4||LATTICE CLUSTER THEORY:4||2NDHARMONIC GENERATION:4||LIQUIDCRYSTAL ALIGNMENT:4||MONTECARLO:4||LangmuirBlodgett film:3||ASSEMBLIES:3||chromatography:3||HOLOGRAPHIC RELAXATION SPECTROSCOPY:3||MULTIPLE MORPHOLOGIES:3||INTERACTION CHROMATOGRAPHY:3||NORMALPHASE:3||DIFFUSION:3||BRANCHED POLYSTYRENE:3||NANOPARTICLES:3||LITHOGRAPHY:3||POLYMER:3||LASERLIGHTSCATTERING:3||HIGH MOLECULARWEIGHT:3||CUBIC PHASE:3||AMPHIPHILIC BLOCKCOPOLYMERS:3||AQUEOUSSOLUTION:3||MODEL:3||FORCED RAYLEIGHSCATTERING:3||HYDRODYNAMIC PROPERTIES:3||4MIKTOARM STAR COPOLYMER:3||SYSTEM:3||PHASEBEHAVIOR:3||AQUEOUSSOLUTIONS:3||RHEOLOGY:3||LB film:3||2DIMENSIONAL LIQUIDCHROMATOGRAPHY:3||VISCOSITY:3||DIBLOCK COPOLYMER MELTS:3||ORDERORDER TRANSITION:3||GYROID PHASE:3||BINDING:3||BLOCK POLYELECTROLYTES:3||DERIVATIVES:3||MELT:3||PHASE LIQUIDCHROMATOGRAPHY:3||high temperature:3||ELEVATEDTEMPERATURE:3||RETENTION:3||MICELLE FORMATION:3||ELECTRONMICROSCOPY:3||Electrospray ionization:2||FRACTIONS:2||nalkanes:2||ISOCRATIC SEPARATION:2||ASSOCIATION:2||POLY(METHYL METHACRYLATE)S:2||2D correlation spectroscopy:2||CARBONATION:2||GLASSTRANSITION BEHAVIORS:2||MECHANICAL PROPERTIES:2||DIMENSIONS:2||POLYMER MIXTURES:2||ALUMINUM PORPHYRIN:2||LEAD STEARATE:2||FERROCENE:2||POLY(EPSILONCAPROLACTONE):2||DIAGRAM:2||nucleosides:2||Selective recognition by preconcentration:2||Electrochemical impedance spectroscopy:2||DOPAMINE:2||Silica:2||Silyl Ester:2||DIETHYL ESTER) PRECURSORS:2||SURFACE CHARACTERIZATION:2||MICROSTRUCTURE:2||polystyreneblockpolyisoprene:2||MICROPHASESEPARATED STRUCTURES:2||IMPEDANCE MEASUREMENTS:2||HEMEPROTEINS:2||SOLID SUBSTRATE:2||MOISTURE ABSORPTION:2||aromatic polyimide:2||INDUCED MORPHOLOGICALCHANGES:2||STABILITY:2||LC alignment layers:2||POLYPYROMELLITIMIDES:2||Ion mobility:2||Chiral polymer:2||OLIGOSACCHARIDES:2||OXIDE:2||SIDECHAIN:2||RETARDATION:2||functionality:2||temperature effects:2||phase transition:2||glass transition temperature:2||spincoated film:2||ESTER) PRECURSORS:2||PRECURSOR BLEND:2||Xray reflectivity:2||SIGMABONDS:2||aluminum porphyrin catalysts:2||METALLOPORPHYRIN:2||SILICON:2||MASSSPECTROMETRY ANALYSIS:2||STAR POLYMERS:2||SIZE DISTRIBUTIONS:2||GIANT VESICLES:2||POLY(3ALKYLTHIOPHENES):2||ADHESION:2||LIGHT:2||POLYSTYRENEBPOLYISOPRENE:2||HPLC fractionation:2||SILVER ELECTRODES:2||ENHANCED RESONANCE RAMAN:2||SEQUENCE:2||POLYELECTROLYTE/NONELECTROLYTE SHELLS:2||polyimide:2||liquid crystal alignment layer:2||SOLUBLE POLYIMIDES:2||POLYBUTADIENECOATED ZIRCONIA:2||PRETILT ANGLES:2||CROSSSECTIONS:2||IMSMS:2||POLYISOPRENE COPOLYMERS:2||POLYIMIDE THINFILMS:2||POLYMER SURFACES:2||RAMAN:2||STEREOREGULAR PMMA:2||poly(tertbutyl methacrylate) (PtBMA):2||TIME:2||POLYIMIDE COMPOSITE:2||CARBOXYLATO COMPLEXES:2||AGOSTIC INTERACTIONS:2||MOLECULARSTRUCTURE:2||ALKENE:2||TRANSISTOR MEMORY:2||DEVICES:2||ORTHOGONALITY:2||molecular characterization:2||ORGANOSILICATE DIELECTRIC FILMS:2||AMPHIPHILES:2||Serotonin:2||Anodic stripping differential pulse voltammetry:2||transmission electron microtomography:2||LIQUIDCHROMATOGRAPHY ANALYSIS:2||PHASEDIAGRAM:2||CARBON NANOTUBES:2||TRANSFER MECHANISM:2||BINARY MIXTURES:2||REFLECTOMETRY:2||ROD:2||DROPS:2||CONSTANT:2||TRIBLOCK COPOLYMER:2||POLYMER VESICLES:2||CLICK CHEMISTRY:2||ARRAYS:2||COMPOSITES:2||MALDITOF MS:2||POLYMER THINFILMS:2||HYDROPHOBIC INTERACTION CHROMATOGRAPHY:2||retention mechanism:2||GRAZINGINCIDENCE:2||NANOPOROSITY:2||soluble poly(amic esteraltimide)s:2||DIFFERENTIAL SCANNING CALORIMETRY:2||RESIDUALSTRESS:2||CHEMICALCOMPOSITION:2||POLY(AMIC DIETHYL ESTER) PRECURSOR:2||POLY(DIMETHYL SILOXANES):2||MASS POLYSTYRENES:2||cyclic propylene carbonate:2||propylene oxide:2||ACETATE) TOLUENE SOLUTIONS:2||TRANSIENT GRATING METHOD:2||MASS DIFFUSION:2||MICROPHASE SEPARATION TRANSITION:2||POLYSTYRENES:2||POLYSILANE:2||CARBOHYDRATEBASED PHOSPHOLIPIDS:2||HELICAL STRANDS:2||FLUORESCENCE DETECTION:2||SENSITIVE DETERMINATION:2||COMPOSITE FILMS:2||microphase:2||3MERCAPTOPROPIONIC ACID:2||BUTADIENE BLOCK COPOLYMER:2||HYBRID POLYMERIC MICELLES:2||AQUEOUSMEDIA:2||CONTACTANGLE:2||TRANSISTORCIRCUITS:2||ABTYPE POLY(ETHERIMIDE)S:2||CORRELATION SPECTROSCOPY:2||GASPHASE CONFORMATIONS:2||DECANE:2||INFRAREDSPECTROSCOPY:2||MICELLIZATION:2||ENERGIES:2||ACID) PRECURSORS:2||PHOTOALIGNMENT:2||polymers:2||SUBSTRATE:2||carbon dioxide:2||oligomeric propylene carbonate:2||THERMALDIFFUSION:2||CRYSTAL:2||PHASETRANSITION:2||REFLECTIVITY:2||ANALOGS:2||supramolecular chemistry:2||LYSOPHOSPHATIDIC ACID:2||PHOSPHOCHOLINE:2||POLY(3HEXYLTHIOPHENE):2||Receptor:2||MODIFIED GOLD ELECTRODES:2||ASCORBICACID:2||HUMAN URINE:2||Hybrid Nanocomposite:2||Dielectric Constant:2||AU(111) ELECTRODES:2||NANOFILMS:2||HYDROPHOBIC CORES:2||DRIVEN:2||FLEXIBLE SIDECHAINS:2||MESOGEN:2||size exclusion chromatography:2||ORGANIZATION:2||POLY(LACTIC ACID):2||MOLECULAR ARCHITECTURE:2||COUPLER:2||POLYSTYRENE COPOLYMER:2||diffusion coefficient:2||XRAY REFLECTIVITY:2||temperature gradient interaction chromatography polystyryllithium:2||VISCOELASTIC PROPERTIES:2||polyisoprene:2||CRYSTALSTRUCTURES:2||POLYCARBONATE:2||MULTILAYERS:2||DEPOSITION:2||FULL ADSORPTION MECHANISMS:2||QUANTUM DOTS:2||CRITICAL ORDERING TRANSITION:2||CORE:2||PARACRYSTALLINE DISTORTION:2||PERFORATED LAYER PHASE:2||liposomes:2||phospholipids:2||UNILAMELLAR VESICLES:2||VOLTAMMETRIC DETERMINATION:2||Polyimide:2||FOURIERTRANSFORM:2||SURFACE:2||SIZE EXCLUSION CHROMATOGRAPHY:2||NEUTRON REFLECTIVITY:2||ORDERED STRUCTURE:2||RIGID ROD POLYMERS:2||DISPLACEMENT POLYMERIZATION:2||PHOTOSENSITIVE POLYIMIDE:2||EFFICIENCY:2||films:2||Polylactide:2||CHROMATOGRAPHIC CRITICAL CONDITION:2||RETENTION MECHANISM:2||COPPER PHTHALOCYANINE:2||C60:2||COPOLYMER:2||micelle:2||LINEAR POLYETHYLENE:2||LIQUIDS:2||ARMS:2||HIGHPERFORMANCE LIQUID:2||alternating copolyimides:2||PHASE SEPARATION:2||POLYMERCHAINS:2||STYRYLPYRIDINIUM:2||ANGLES:2||MOBILITY:2||PROBE:2||ACIDS:2||BLUE:2||POSITIONS:2||CYCLOPENTADIENYL:2||HIGHMOLECULARWEIGHT:2||FUELCELLS:2||TIN OXIDE:2||NANOCRYSTALS:2||SURFACE MICELLE FORMATION:2||DISORDER TRANSITION:2||BIREFRINGENCE:2||LIPIDCOMPOSITION:2||CONJUGATED POLYMERS:2||GLASSYCARBON ELECTRODE:2||ELECTROCHEMICAL DETECTION:2||MULTIPLE DETECTION:2||aromatic polyimides:2||MOLECULARWEIGHT HOMOPOLYMERS:2||BINARYMIXTURE:2||PATTERNS:2||photoluminescent polyimide:2||photosensitive polyimide:2||DEPENDENT MICELLIZATION:2||SPEED:2||synthesis:2||COIL BLOCKCOPOLYMERS:2||LIQUIDCRYSTALLINE ASSEMBLIES:2||OXIDE):2||molecular weight distribution:2||CONJUGATED POLYMER:2||polymer characterization:2||NONIONIC SURFACTANTS:2||STEREOREGULAR POLY(METHYL METHACRYLATE):2||structure:2||RODLIKE POLYIMIDE:2||FLEXIBLE POLYIMIDE:2||THERMAL IMIDIZATION:2||IN SITU RODCHAIN FORMATION:2||PHASESEPARATION:2||VINYL ETHER):2||EQUILIBRIUM:2||STRESS:2||STRUCTURAL RELAXATION:2||LIVING POLYMERIZATION:2||CONTAIN:2||SALT:2||WAVEGUIDE:2||XRAY DIFFRACTION:2||WALLED CARBON NANOTUBES:2||SILICON NANOWIRES:2||IR:2||DIELECTRIC THINFILMS:2||Selfassembled monolayer:2||PARAMETERS:2||Temperature gradient interaction chromatography:2||SOLIDSURFACES:2||FLOW:2||RATES:2||PRECURSORS:2||FILM BALANCE:2||SIDECHAINS:2||SUPRAMOLECULAR MATERIALS:2||CHAINS:2||POLYSTYRENE:39||ANIONICPOLYMERIZATION:34||GRADIENT INTERACTION CHROMATOGRAPHY:31||SEPARATION:27||BEHAVIOR:24||LIQUIDCHROMATOGRAPHY:22||POLYMERS:22||SIZEEXCLUSION CHROMATOGRAPHY:19||BLOCKCOPOLYMERS:17||DIBLOCK COPOLYMERS:17||THINFILMS:16||POLYISOPRENE:14||HPLC:13||SYNTHETICPOLYMERS:12||PERFORMANCE LIQUIDCHROMATOGRAPHY:11||DIBLOCK COPOLYMER:11||MOLECULARWEIGHT DISTRIBUTION:10||MACROMOLECULES:10||BLOCKCOPOLYMER:10||REVERSEDPHASE:10||RETENTION BEHAVIOR:10||MORPHOLOGY:9||MOLECULARWEIGHT:9||MELTS:9||AROMATIC POLYIMIDES:8||XRAYSCATTERING:8||polystyrene:8||MIXTURES:7||block copolymer:7||SURFACES:7||DEPENDENCE:7||COPOLYMERS:7||POLYMERIZATION:7||AIR/WATER INTERFACE:7||DEFINED BRUSH POLYIMIDE:6||TEMPERATURE:6||FULLY RODLIKE BACKBONE:6||MONOLAYERS:6||POLYIMIDES:6||CHAIN:6||COMPLEX POLYMERS:6||MOLECULARREORIENTATION:6||temperature gradient interaction chromatography:6||POLYMERFILMS:6||GELPERMEATION CHROMATOGRAPHY:6||ELUTION:6||ORDERDISORDER TRANSITION:6||SURFACEMORPHOLOGY:6||ORIENTATION:6||SYSTEMS:6||CRITICAL ADSORPTION POINT:6||LIGHTSCATTERING:5||PROBE DIFFUSION:5||POLYDISPERSITY:5||AIRWATERINTERFACE:5||MICROPHASE SEPARATION:5||GLASSTRANSITION:5||BLENDS:5||FILMS:5||ADSORPTION CHROMATOGRAPHY:5||MECHANISM:5||CO2:5||ETHYLENEOXIDE:5||ALIGNMENT:5||COMPLEXES:5||FRACTIONATION:5||MISCIBILITY:5||POLYMER CHARACTERIZATION:5||HEXAGONALLY PERFORATED LAYER:5||TRANSITION:5||FLIGHT MASSSPECTROMETRY:5||ARCHITECTURE:5||POLY(METHYL METHACRYLATE):5||ALTERNATING COPOLYMERIZATION:4||THICKNESS:4||THERMODYNAMICS:4||CRITICAL RANGE:4||ULTRATHIN POLYMERFILMS:4||DYNAMICS:4||CLIMATECHANGE:4||PHASE:4||GLASSTRANSITION TEMPERATURE:4||EPOXIDE:4||selfassembly:4||SPECTROSCOPY:4||SELFDIFFUSION:4||SCATTERING:4||OPTICALPROPERTIES:4||CATALYSTS:4||CHEMISTRY:4||SOLARCELLS:4||polyimides:4||polypyromellitimides:4||SEGMENTAL REORIENTATIONS:4||ADSORPTION:4||INTERFACE:4||POLYMERSOLUTIONS:4||TRACER DIFFUSION:4||OXIDE) DIBLOCK COPOLYMER:4||POLYSTYRENEBPOLY(METHYL METHACRYLATE):4||POLYMER BLENDS:4||SIMULATION:4||CHAIN ORIENTATION:4||STYRENE:4||TOF MASSSPECTROMETRY:4||WATER:4||DISPLAYS:4||OLIGOMERS:4||PEPTIDES:4||CYCLIC POLYSTYRENE:4||LATTICE CLUSTER THEORY:4||2NDHARMONIC GENERATION:4||LIQUIDCRYSTAL ALIGNMENT:4||MONTECARLO:4||LangmuirBlodgett film:3||ASSEMBLIES:3||chromatography:3||HOLOGRAPHIC RELAXATION SPECTROSCOPY:3||MULTIPLE MORPHOLOGIES:3||INTERACTION CHROMATOGRAPHY:3||NORMALPHASE:3||DIFFUSION:3||BRANCHED POLYSTYRENE:3||NANOPARTICLES:3||LITHOGRAPHY:3||POLYMER:3||LASERLIGHTSCATTERING:3||HIGH MOLECULARWEIGHT:3||CUBIC PHASE:3||AMPHIPHILIC BLOCKCOPOLYMERS:3||AQUEOUSSOLUTION:3||MODEL:3||FORCED RAYLEIGHSCATTERING:3||HYDRODYNAMIC PROPERTIES:3||4MIKTOARM STAR COPOLYMER:3||SYSTEM:3||PHASEBEHAVIOR:3||AQUEOUSSOLUTIONS:3||RHEOLOGY:3||LB film:3||2DIMENSIONAL LIQUIDCHROMATOGRAPHY:3||VISCOSITY:3||DIBLOCK COPOLYMER MELTS:3||ORDERORDER TRANSITION:3||GYROID PHASE:3||BINDING:3||BLOCK POLYELECTROLYTES:3||DERIVATIVES:3||MELT:3||PHASE LIQUIDCHROMATOGRAPHY:3||high temperature:3||ELEVATEDTEMPERATURE:3||RETENTION:3||MICELLE FORMATION:3||ELECTRONMICROSCOPY:3||Electrospray ionization:2||FRACTIONS:2||nalkanes:2||ISOCRATIC SEPARATION:2||ASSOCIATION:2||POLY(METHYL METHACRYLATE)S:2||2D correlation spectroscopy:2||CARBONATION:2||GLASSTRANSITION BEHAVIORS:2||MECHANICAL PROPERTIES:2||DIMENSIONS:2||POLYMER MIXTURES:2||ALUMINUM PORPHYRIN:2||LEAD STEARATE:2||FERROCENE:2||POLY(EPSILONCAPROLACTONE):2||DIAGRAM:2||nucleosides:2||Selective recognition by preconcentration:2||Electrochemical impedance spectroscopy:2||DOPAMINE:2||Silica:2||Silyl Ester:2||DIETHYL ESTER) PRECURSORS:2||SURFACE CHARACTERIZATION:2||MICROSTRUCTURE:2||polystyreneblockpolyisoprene:2||MICROPHASESEPARATED STRUCTURES:2||IMPEDANCE MEASUREMENTS:2||HEMEPROTEINS:2||SOLID SUBSTRATE:2||MOISTURE ABSORPTION:2||aromatic polyimide:2||INDUCED MORPHOLOGICALCHANGES:2||STABILITY:2||LC alignment layers:2||POLYPYROMELLITIMIDES:2||Ion mobility:2||Chiral polymer:2||OLIGOSACCHARIDES:2||OXIDE:2||SIDECHAIN:2||RETARDATION:2||functionality:2||temperature effects:2||phase transition:2||glass transition temperature:2||spincoated film:2||ESTER) PRECURSORS:2||PRECURSOR BLEND:2||Xray reflectivity:2||SIGMABONDS:2||aluminum porphyrin catalysts:2||METALLOPORPHYRIN:2||SILICON:2||MASSSPECTROMETRY ANALYSIS:2||STAR POLYMERS:2||SIZE DISTRIBUTIONS:2||GIANT VESICLES:2||POLY(3ALKYLTHIOPHENES):2||ADHESION:2||LIGHT:2||POLYSTYRENEBPOLYISOPRENE:2||HPLC fractionation:2||SILVER ELECTRODES:2||ENHANCED RESONANCE RAMAN:2||SEQUENCE:2||POLYELECTROLYTE/NONELECTROLYTE SHELLS:2||polyimide:2||liquid crystal alignment layer:2||SOLUBLE POLYIMIDES:2||POLYBUTADIENECOATED ZIRCONIA:2||PRETILT ANGLES:2||CROSSSECTIONS:2||IMSMS:2||POLYISOPRENE COPOLYMERS:2||POLYIMIDE THINFILMS:2||POLYMER SURFACES:2||RAMAN:2||STEREOREGULAR PMMA:2||poly(tertbutyl methacrylate) (PtBMA):2||TIME:2||POLYIMIDE COMPOSITE:2||CARBOXYLATO COMPLEXES:2||AGOSTIC INTERACTIONS:2||MOLECULARSTRUCTURE:2||ALKENE:2||TRANSISTOR MEMORY:2||DEVICES:2||ORTHOGONALITY:2||molecular characterization:2||ORGANOSILICATE DIELECTRIC FILMS:2||AMPHIPHILES:2||Serotonin:2||Anodic stripping differential pulse voltammetry:2||transmission electron microtomography:2||LIQUIDCHROMATOGRAPHY ANALYSIS:2||PHASEDIAGRAM:2||CARBON NANOTUBES:2||TRANSFER MECHANISM:2||BINARY MIXTURES:2||REFLECTOMETRY:2||ROD:2||DROPS:2||CONSTANT:2||TRIBLOCK COPOLYMER:2||POLYMER VESICLES:2||CLICK CHEMISTRY:2||ARRAYS:2||COMPOSITES:2||MALDITOF MS:2||POLYMER THINFILMS:2||HYDROPHOBIC INTERACTION CHROMATOGRAPHY:2||retention mechanism:2||GRAZINGINCIDENCE:2||NANOPOROSITY:2||soluble poly(amic esteraltimide)s:2||DIFFERENTIAL SCANNING CALORIMETRY:2||RESIDUALSTRESS:2||CHEMICALCOMPOSITION:2||POLY(AMIC DIETHYL ESTER) PRECURSOR:2||POLY(DIMETHYL SILOXANES):2||MASS POLYSTYRENES:2||cyclic propylene carbonate:2||propylene oxide:2||ACETATE) TOLUENE SOLUTIONS:2||TRANSIENT GRATING METHOD:2||MASS DIFFUSION:2||MICROPHASE SEPARATION TRANSITION:2||POLYSTYRENES:2||POLYSILANE:2||CARBOHYDRATEBASED PHOSPHOLIPIDS:2||HELICAL STRANDS:2||FLUORESCENCE DETECTION:2||SENSITIVE DETERMINATION:2||COMPOSITE FILMS:2||microphase:2||3MERCAPTOPROPIONIC ACID:2||BUTADIENE BLOCK COPOLYMER:2||HYBRID POLYMERIC MICELLES:2||AQUEOUSMEDIA:2||CONTACTANGLE:2||TRANSISTORCIRCUITS:2||ABTYPE POLY(ETHERIMIDE)S:2||CORRELATION SPECTROSCOPY:2||GASPHASE CONFORMATIONS:2||DECANE:2||INFRAREDSPECTROSCOPY:2||MICELLIZATION:2||ENERGIES:2||ACID) PRECURSORS:2||PHOTOALIGNMENT:2||polymers:2||SUBSTRATE:2||carbon dioxide:2||oligomeric propylene carbonate:2||THERMALDIFFUSION:2||CRYSTAL:2||PHASETRANSITION:2||REFLECTIVITY:2||ANALOGS:2||supramolecular chemistry:2||LYSOPHOSPHATIDIC ACID:2||PHOSPHOCHOLINE:2||POLY(3HEXYLTHIOPHENE):2||Receptor:2||MODIFIED GOLD ELECTRODES:2||ASCORBICACID:2||HUMAN URINE:2||Hybrid Nanocomposite:2||Dielectric Constant:2||AU(111) ELECTRODES:2||NANOFILMS:2||HYDROPHOBIC CORES:2||DRIVEN:2||FLEXIBLE SIDECHAINS:2||MESOGEN:2||size exclusion chromatography:2||ORGANIZATION:2||POLY(LACTIC ACID):2||MOLECULAR ARCHITECTURE:2||COUPLER:2||POLYSTYRENE COPOLYMER:2||diffusion coefficient:2||XRAY REFLECTIVITY:2||temperature gradient interaction chromatography polystyryllithium:2||VISCOELASTIC PROPERTIES:2||polyisoprene:2||CRYSTALSTRUCTURES:2||POLYCARBONATE:2||MULTILAYERS:2||DEPOSITION:2||FULL ADSORPTION MECHANISMS:2||QUANTUM DOTS:2||CRITICAL ORDERING TRANSITION:2||CORE:2||PARACRYSTALLINE DISTORTION:2||PERFORATED LAYER PHASE:2||liposomes:2||phospholipids:2||UNILAMELLAR VESICLES:2||VOLTAMMETRIC DETERMINATION:2||Polyimide:2||FOURIERTRANSFORM:2||SURFACE:2||SIZE EXCLUSION CHROMATOGRAPHY:2||NEUTRON REFLECTIVITY:2||ORDERED STRUCTURE:2||RIGID ROD POLYMERS:2||DISPLACEMENT POLYMERIZATION:2||PHOTOSENSITIVE POLYIMIDE:2||EFFICIENCY:2||films:2||Polylactide:2||CHROMATOGRAPHIC CRITICAL CONDITION:2||RETENTION MECHANISM:2||COPPER PHTHALOCYANINE:2||C60:2||COPOLYMER:2||micelle:2||LINEAR POLYETHYLENE:2||LIQUIDS:2||ARMS:2||HIGHPERFORMANCE LIQUID:2||alternating copolyimides:2||PHASE SEPARATION:2||POLYMERCHAINS:2||STYRYLPYRIDINIUM:2||ANGLES:2||MOBILITY:2||PROBE:2||ACIDS:2||BLUE:2||POSITIONS:2||CYCLOPENTADIENYL:2||HIGHMOLECULARWEIGHT:2||FUELCELLS:2||TIN OXIDE:2||NANOCRYSTALS:2||SURFACE MICELLE FORMATION:2||DISORDER TRANSITION:2||BIREFRINGENCE:2||LIPIDCOMPOSITION:2||CONJUGATED POLYMERS:2||GLASSYCARBON ELECTRODE:2||ELECTROCHEMICAL DETECTION:2||MULTIPLE DETECTION:2||aromatic polyimides:2||MOLECULARWEIGHT HOMOPOLYMERS:2||BINARYMIXTURE:2||PATTERNS:2||photoluminescent polyimide:2||photosensitive polyimide:2||DEPENDENT MICELLIZATION:2||SPEED:2||synthesis:2||COIL BLOCKCOPOLYMERS:2||LIQUIDCRYSTALLINE ASSEMBLIES:2||OXIDE):2||molecular weight distribution:2||CONJUGATED POLYMER:2||polymer characterization:2||NONIONIC SURFACTANTS:2||STEREOREGULAR POLY(METHYL METHACRYLATE):2||structure:2||RODLIKE POLYIMIDE:2||FLEXIBLE POLYIMIDE:2||THERMAL IMIDIZATION:2||IN SITU RODCHAIN FORMATION:2||PHASESEPARATION:2||VINYL ETHER):2||EQUILIBRIUM:2||STRESS:2||STRUCTURAL RELAXATION:2||LIVING POLYMERIZATION:2||CONTAIN:2||SALT:2||WAVEGUIDE:2||XRAY DIFFRACTION:2||WALLED CARBON NANOTUBES:2||SILICON NANOWIRES:2||IR:2||DIELECTRIC THINFILMS:2||Selfassembled monolayer:2||PARAMETERS:2||Temperature gradient interaction chromatography:2||SOLIDSURFACES:2||FLOW:2||RATES:2||PRECURSORS:2||FILM BALANCE:2||SIDECHAINS:2||SUPRAMOLECULAR MATERIALS:2||CHAINS:2||POLYSTYRENE:39||ANIONICPOLYMERIZATION:34||GRADIENT INTERACTION CHROMATOGRAPHY:31||SEPARATION:27||BEHAVIOR:24||LIQUIDCHROMATOGRAPHY:22||POLYMERS:22||SIZEEXCLUSION CHROMATOGRAPHY:19||BLOCKCOPOLYMERS:17||DIBLOCK COPOLYMERS:17||THINFILMS:16||POLYISOPRENE:14||HPLC:13||SYNTHETICPOLYMERS:12||PERFORMANCE LIQUIDCHROMATOGRAPHY:11||DIBLOCK COPOLYMER:11||MOLECULARWEIGHT DISTRIBUTION:10||MACROMOLECULES:10||BLOCKCOPOLYMER:10||REVERSEDPHASE:10||RETENTION BEHAVIOR:10||MORPHOLOGY:9||MOLECULARWEIGHT:9||MELTS:9||AROMATIC POLYIMIDES:8||XRAYSCATTERING:8||polystyrene:8||MIXTURES:7||block copolymer:7||SURFACES:7||DEPENDENCE:7||COPOLYMERS:7||POLYMERIZATION:7||AIR/WATER INTERFACE:7||DEFINED BRUSH POLYIMIDE:6||TEMPERATURE:6||FULLY RODLIKE BACKBONE:6||MONOLAYERS:6||POLYIMIDES:6||CHAIN:6||COMPLEX POLYMERS:6||MOLECULARREORIENTATION:6||temperature gradient interaction chromatography:6||POLYMERFILMS:6||GELPERMEATION CHROMATOGRAPHY:6||ELUTION:6||ORDERDISORDER TRANSITION:6||SURFACEMORPHOLOGY:6||ORIENTATION:6||SYSTEMS:6||CRITICAL ADSORPTION POINT:6||LIGHTSCATTERING:5||PROBE DIFFUSION:5||POLYDISPERSITY:5||AIRWATERINTERFACE:5||MICROPHASE SEPARATION:5||GLASSTRANSITION:5||BLENDS:5||FILMS:5||ADSORPTION CHROMATOGRAPHY:5||MECHANISM:5||CO2:5||ETHYLENEOXIDE:5||ALIGNMENT:5||COMPLEXES:5||FRACTIONATION:5||MISCIBILITY:5||POLYMER CHARACTERIZATION:5||HEXAGONALLY PERFORATED LAYER:5||TRANSITION:5||FLIGHT MASSSPECTROMETRY:5||ARCHITECTURE:5||POLY(METHYL METHACRYLATE):5||ALTERNATING COPOLYMERIZATION:4||THICKNESS:4||THERMODYNAMICS:4||CRITICAL RANGE:4||ULTRATHIN POLYMERFILMS:4||DYNAMICS:4||CLIMATECHANGE:4||PHASE:4||GLASSTRANSITION TEMPERATURE:4||EPOXIDE:4||selfassembly:4||SPECTROSCOPY:4||SELFDIFFUSION:4||SCATTERING:4||OPTICALPROPERTIES:4||CATALYSTS:4||CHEMISTRY:4||SOLARCELLS:4||polyimides:4||polypyromellitimides:4||SEGMENTAL REORIENTATIONS:4||ADSORPTION:4||INTERFACE:4||POLYMERSOLUTIONS:4||TRACER DIFFUSION:4||OXIDE) DIBLOCK COPOLYMER:4||POLYSTYRENEBPOLY(METHYL METHACRYLATE):4||POLYMER BLENDS:4||SIMULATION:4||CHAIN ORIENTATION:4||STYRENE:4||TOF MASSSPECTROMETRY:4||WATER:4||DISPLAYS:4||OLIGOMERS:4||PEPTIDES:4||CYCLIC POLYSTYRENE:4||LATTICE CLUSTER THEORY:4||2NDHARMONIC GENERATION:4||LIQUIDCRYSTAL ALIGNMENT:4||MONTECARLO:4||LangmuirBlodgett film:3||ASSEMBLIES:3||chromatography:3||HOLOGRAPHIC RELAXATION SPECTROSCOPY:3||MULTIPLE MORPHOLOGIES:3||INTERACTION CHROMATOGRAPHY:3||NORMALPHASE:3||DIFFUSION:3||BRANCHED POLYSTYRENE:3||NANOPARTICLES:3||LITHOGRAPHY:3||POLYMER:3||LASERLIGHTSCATTERING:3||HIGH MOLECULARWEIGHT:3||CUBIC PHASE:3||AMPHIPHILIC BLOCKCOPOLYMERS:3||AQUEOUSSOLUTION:3||MODEL:3||FORCED RAYLEIGHSCATTERING:3||HYDRODYNAMIC PROPERTIES:3||4MIKTOARM STAR COPOLYMER:3||SYSTEM:3||PHASEBEHAVIOR:3||AQUEOUSSOLUTIONS:3||RHEOLOGY:3||LB film:3||2DIMENSIONAL LIQUIDCHROMATOGRAPHY:3||VISCOSITY:3||DIBLOCK COPOLYMER MELTS:3||ORDERORDER TRANSITION:3||GYROID PHASE:3||BINDING:3||BLOCK POLYELECTROLYTES:3||DERIVATIVES:3||MELT:3||PHASE LIQUIDCHROMATOGRAPHY:3||high temperature:3||ELEVATEDTEMPERATURE:3||RETENTION:3||MICELLE FORMATION:3||ELECTRONMICROSCOPY:3||Electrospray ionization:2||FRACTIONS:2||nalkanes:2||ISOCRATIC SEPARATION:2||ASSOCIATION:2||POLY(METHYL METHACRYLATE)S:2||2D correlation spectroscopy:2||CARBONATION:2||GLASSTRANSITION BEHAVIORS:2||MECHANICAL PROPERTIES:2||DIMENSIONS:2||POLYMER MIXTURES:2||ALUMINUM PORPHYRIN:2||LEAD STEARATE:2||FERROCENE:2||POLY(EPSILONCAPROLACTONE):2||DIAGRAM:2||nucleosides:2||Selective recognition by preconcentration:2||Electrochemical impedance spectroscopy:2||DOPAMINE:2||Silica:2||Silyl Ester:2||DIETHYL ESTER) PRECURSORS:2||SURFACE CHARACTERIZATION:2||MICROSTRUCTURE:2||polystyreneblockpolyisoprene:2||MICROPHASESEPARATED STRUCTURES:2||IMPEDANCE MEASUREMENTS:2||HEMEPROTEINS:2||SOLID SUBSTRATE:2||MOISTURE ABSORPTION:2||aromatic polyimide:2||INDUCED MORPHOLOGICALCHANGES:2||STABILITY:2||LC alignment layers:2||POLYPYROMELLITIMIDES:2||Ion mobility:2||Chiral polymer:2||OLIGOSACCHARIDES:2||OXIDE:2||SIDECHAIN:2||RETARDATION:2||functionality:2||temperature effects:2||phase transition:2||glass transition temperature:2||spincoated film:2||ESTER) PRECURSORS:2||PRECURSOR BLEND:2||Xray reflectivity:2||SIGMABONDS:2||aluminum porphyrin catalysts:2||METALLOPORPHYRIN:2||SILICON:2||MASSSPECTROMETRY ANALYSIS:2||STAR POLYMERS:2||SIZE DISTRIBUTIONS:2||GIANT VESICLES:2||POLY(3ALKYLTHIOPHENES):2||ADHESION:2||LIGHT:2||POLYSTYRENEBPOLYISOPRENE:2||HPLC fractionation:2||SILVER ELECTRODES:2||ENHANCED RESONANCE RAMAN:2||SEQUENCE:2||POLYELECTROLYTE/NONELECTROLYTE SHELLS:2||polyimide:2||liquid crystal alignment layer:2||SOLUBLE POLYIMIDES:2||POLYBUTADIENECOATED ZIRCONIA:2||PRETILT ANGLES:2||CROSSSECTIONS:2||IMSMS:2||POLYISOPRENE COPOLYMERS:2||POLYIMIDE THINFILMS:2||POLYMER SURFACES:2||RAMAN:2||STEREOREGULAR PMMA:2||poly(tertbutyl methacrylate) (PtBMA):2||TIME:2||POLYIMIDE COMPOSITE:2||CARBOXYLATO COMPLEXES:2||AGOSTIC INTERACTIONS:2||MOLECULARSTRUCTURE:2||ALKENE:2||TRANSISTOR MEMORY:2||DEVICES:2||ORTHOGONALITY:2||molecular characterization:2||ORGANOSILICATE DIELECTRIC FILMS:2||AMPHIPHILES:2||Serotonin:2||Anodic stripping differential pulse voltammetry:2||transmission electron microtomography:2||LIQUIDCHROMATOGRAPHY ANALYSIS:2||PHASEDIAGRAM:2||CARBON NANOTUBES:2||TRANSFER MECHANISM:2||BINARY MIXTURES:2||REFLECTOMETRY:2||ROD:2||DROPS:2||CONSTANT:2||TRIBLOCK COPOLYMER:2||POLYMER VESICLES:2||CLICK CHEMISTRY:2||ARRAYS:2||COMPOSITES:2||MALDITOF MS:2||POLYMER THINFILMS:2||HYDROPHOBIC INTERACTION CHROMATOGRAPHY:2||retention mechanism:2||GRAZINGINCIDENCE:2||NANOPOROSITY:2||soluble poly(amic esteraltimide)s:2||DIFFERENTIAL SCANNING CALORIMETRY:2||RESIDUALSTRESS:2||CHEMICALCOMPOSITION:2||POLY(AMIC DIETHYL ESTER) PRECURSOR:2||POLY(DIMETHYL SILOXANES):2||MASS POLYSTYRENES:2||cyclic propylene carbonate:2||propylene oxide:2||ACETATE) TOLUENE SOLUTIONS:2||TRANSIENT GRATING METHOD:2||MASS DIFFUSION:2||MICROPHASE SEPARATION TRANSITION:2||POLYSTYRENES:2||POLYSILANE:2||CARBOHYDRATEBASED PHOSPHOLIPIDS:2||HELICAL STRANDS:2||FLUORESCENCE DETECTION:2||SENSITIVE DETERMINATION:2||COMPOSITE FILMS:2||microphase:2||3MERCAPTOPROPIONIC ACID:2||BUTADIENE BLOCK COPOLYMER:2||HYBRID POLYMERIC MICELLES:2||AQUEOUSMEDIA:2||CONTACTANGLE:2||TRANSISTORCIRCUITS:2||ABTYPE POLY(ETHERIMIDE)S:2||CORRELATION SPECTROSCOPY:2||GASPHASE CONFORMATIONS:2||DECANE:2||INFRAREDSPECTROSCOPY:2||MICELLIZATION:2||ENERGIES:2||ACID) PRECURSORS:2||PHOTOALIGNMENT:2||polymers:2||SUBSTRATE:2||carbon dioxide:2||oligomeric propylene carbonate:2||THERMALDIFFUSION:2||CRYSTAL:2||PHASETRANSITION:2||REFLECTIVITY:2||ANALOGS:2||supramolecular chemistry:2||LYSOPHOSPHATIDIC ACID:2||PHOSPHOCHOLINE:2||POLY(3HEXYLTHIOPHENE):2||Receptor:2||MODIFIED GOLD ELECTRODES:2||ASCORBICACID:2||HUMAN URINE:2||Hybrid Nanocomposite:2||Dielectric Constant:2||AU(111) ELECTRODES:2||NANOFILMS:2||HYDROPHOBIC CORES:2||DRIVEN:2||FLEXIBLE SIDECHAINS:2||MESOGEN:2||size exclusion chromatography:2||ORGANIZATION:2||POLY(LACTIC ACID):2||MOLECULAR ARCHITECTURE:2||COUPLER:2||POLYSTYRENE COPOLYMER:2||diffusion coefficient:2||XRAY REFLECTIVITY:2||temperature gradient interaction chromatography polystyryllithium:2||VISCOELASTIC PROPERTIES:2||polyisoprene:2||CRYSTALSTRUCTURES:2||POLYCARBONATE:2||MULTILAYERS:2||DEPOSITION:2||FULL ADSORPTION MECHANISMS:2||QUANTUM DOTS:2||CRITICAL ORDERING TRANSITION:2||CORE:2||PARACRYSTALLINE DISTORTION:2||PERFORATED LAYER PHASE:2||liposomes:2||phospholipids:2||UNILAMELLAR VESICLES:2||VOLTAMMETRIC DETERMINATION:2||Polyimide:2||FOURIERTRANSFORM:2||SURFACE:2||SIZE EXCLUSION CHROMATOGRAPHY:2||NEUTRON REFLECTIVITY:2||ORDERED STRUCTURE:2||RIGID ROD POLYMERS:2||DISPLACEMENT POLYMERIZATION:2||PHOTOSENSITIVE POLYIMIDE:2||EFFICIENCY:2||films:2||Polylactide:2||CHROMATOGRAPHIC CRITICAL CONDITION:2||RETENTION MECHANISM:2||COPPER PHTHALOCYANINE:2||C60:2||COPOLYMER:2||micelle:2||LINEAR POLYETHYLENE:2||LIQUIDS:2||ARMS:2||HIGHPERFORMANCE LIQUID:2||alternating copolyimides:2||PHASE SEPARATION:2||POLYMERCHAINS:2||STYRYLPYRIDINIUM:2||ANGLES:2||MOBILITY:2||PROBE:2||ACIDS:2||BLUE:2||POSITIONS:2||CYCLOPENTADIENYL:2||HIGHMOLECULARWEIGHT:2||FUELCELLS:2||TIN OXIDE:2||NANOCRYSTALS:2||SURFACE MICELLE FORMATION:2||DISORDER TRANSITION:2||BIREFRINGENCE:2||LIPIDCOMPOSITION:2||CONJUGATED POLYMERS:2||GLASSYCARBON ELECTRODE:2||ELECTROCHEMICAL DETECTION:2||MULTIPLE DETECTION:2||aromatic polyimides:2||MOLECULARWEIGHT HOMOPOLYMERS:2||BINARYMIXTURE:2||PATTERNS:2||photoluminescent polyimide:2||photosensitive polyimide:2||DEPENDENT MICELLIZATION:2||SPEED:2||synthesis:2||COIL BLOCKCOPOLYMERS:2||LIQUIDCRYSTALLINE ASSEMBLIES:2||OXIDE):2||molecular weight distribution:2||CONJUGATED POLYMER:2||polymer characterization:2||NONIONIC SURFACTANTS:2||STEREOREGULAR POLY(METHYL METHACRYLATE):2||structure:2||RODLIKE POLYIMIDE:2||FLEXIBLE POLYIMIDE:2||THERMAL IMIDIZATION:2||IN SITU RODCHAIN FORMATION:2||PHASESEPARATION:2||VINYL ETHER):2||EQUILIBRIUM:2||STRESS:2||STRUCTURAL RELAXATION:2||LIVING POLYMERIZATION:2||CONTAIN:2||SALT:2||WAVEGUIDE:2||XRAY DIFFRACTION:2||WALLED CARBON NANOTUBES:2||SILICON NANOWIRES:2||IR:2||DIELECTRIC THINFILMS:2||Selfassembled monolayer:2||PARAMETERS:2||Temperature gradient interaction chromatography:2||SOLIDSURFACES:2||FLOW:2||RATES:2||PRECURSORS:2||FILM BALANCE:2||SIDECHAINS:2||SUPRAMOLECULAR MATERIALS:2||CHAINS:2||POLYSTYRENE:39||ANIONICPOLYMERIZATION:34||GRADIENT INTERACTION CHROMATOGRAPHY:31||SEPARATION:27||BEHAVIOR:24||LIQUIDCHROMATOGRAPHY:22||POLYMERS:22||SIZEEXCLUSION CHROMATOGRAPHY:19||BLOCKCOPOLYMERS:17||DIBLOCK COPOLYMERS:17||THINFILMS:16||POLYISOPRENE:14||HPLC:13||SYNTHETICPOLYMERS:12||PERFORMANCE LIQUIDCHROMATOGRAPHY:11||DIBLOCK COPOLYMER:11||MOLECULARWEIGHT DISTRIBUTION:10||MACROMOLECULES:10||BLOCKCOPOLYMER:10||REVERSEDPHASE:10||RETENTION BEHAVIOR:10||MORPHOLOGY:9||MOLECULARWEIGHT:9||MELTS:9||AROMATIC POLYIMIDES:8||XRAYSCATTERING:8||polystyrene:8||MIXTURES:7||block copolymer:7||SURFACES:7||DEPENDENCE:7||COPOLYMERS:7||POLYMERIZATION:7||AIR/WATER INTERFACE:7||DEFINED BRUSH POLYIMIDE:6||TEMPERATURE:6||FULLY RODLIKE BACKBONE:6||MONOLAYERS:6||POLYIMIDES:6||CHAIN:6||COMPLEX POLYMERS:6||MOLECULARREORIENTATION:6||temperature gradient interaction chromatography:6||POLYMERFILMS:6||GELPERMEATION CHROMATOGRAPHY:6||ELUTION:6||ORDERDISORDER TRANSITION:6||SURFACEMORPHOLOGY:6||ORIENTATION:6||SYSTEMS:6||CRITICAL ADSORPTION POINT:6||LIGHTSCATTERING:5||PROBE DIFFUSION:5||POLYDISPERSITY:5||AIRWATERINTERFACE:5||MICROPHASE SEPARATION:5||GLASSTRANSITION:5||BLENDS:5||FILMS:5||ADSORPTION CHROMATOGRAPHY:5||MECHANISM:5||CO2:5||ETHYLENEOXIDE:5||ALIGNMENT:5||COMPLEXES:5||FRACTIONATION:5||MISCIBILITY:5||POLYMER CHARACTERIZATION:5||HEXAGONALLY PERFORATED LAYER:5||TRANSITION:5||FLIGHT MASSSPECTROMETRY:5||ARCHITECTURE:5||POLY(METHYL METHACRYLATE):5||ALTERNATING COPOLYMERIZATION:4||THICKNESS:4||THERMODYNAMICS:4||CRITICAL RANGE:4||ULTRATHIN POLYMERFILMS:4||DYNAMICS:4||CLIMATECHANGE:4||PHASE:4||GLASSTRANSITION TEMPERATURE:4||EPOXIDE:4||selfassembly:4||SPECTROSCOPY:4||SELFDIFFUSION:4||SCATTERING:4||OPTICALPROPERTIES:4||CATALYSTS:4||CHEMISTRY:4||SOLARCELLS:4||polyimides:4||polypyromellitimides:4||SEGMENTAL REORIENTATIONS:4||ADSORPTION:4||INTERFACE:4||POLYMERSOLUTIONS:4||TRACER DIFFUSION:4||OXIDE) DIBLOCK COPOLYMER:4||POLYSTYRENEBPOLY(METHYL METHACRYLATE):4||POLYMER BLENDS:4||SIMULATION:4||CHAIN ORIENTATION:4||STYRENE:4||TOF MASSSPECTROMETRY:4||WATER:4||DISPLAYS:4||OLIGOMERS:4||PEPTIDES:4||CYCLIC POLYSTYRENE:4||LATTICE CLUSTER THEORY:4||2NDHARMONIC GENERATION:4||LIQUIDCRYSTAL ALIGNMENT:4||MONTECARLO:4||LangmuirBlodgett film:3||ASSEMBLIES:3||chromatography:3||HOLOGRAPHIC RELAXATION SPECTROSCOPY:3||MULTIPLE MORPHOLOGIES:3||INTERACTION CHROMATOGRAPHY:3||NORMALPHASE:3||DIFFUSION:3||BRANCHED POLYSTYRENE:3||NANOPARTICLES:3||LITHOGRAPHY:3||POLYMER:3||LASERLIGHTSCATTERING:3||HIGH MOLECULARWEIGHT:3||CUBIC PHASE:3||AMPHIPHILIC BLOCKCOPOLYMERS:3||AQUEOUSSOLUTION:3||MODEL:3||FORCED RAYLEIGHSCATTERING:3||HYDRODYNAMIC PROPERTIES:3||4MIKTOARM STAR COPOLYMER:3||SYSTEM:3||PHASEBEHAVIOR:3||AQUEOUSSOLUTIONS:3||RHEOLOGY:3||LB film:3||2DIMENSIONAL LIQUIDCHROMATOGRAPHY:3||VISCOSITY:3||DIBLOCK COPOLYMER MELTS:3||ORDERORDER TRANSITION:3||GYROID PHASE:3||BINDING:3||BLOCK POLYELECTROLYTES:3||DERIVATIVES:3||MELT:3||PHASE LIQUIDCHROMATOGRAPHY:3||high temperature:3||ELEVATEDTEMPERATURE:3||RETENTION:3||MICELLE FORMATION:3||ELECTRONMICROSCOPY:3||Electrospray ionization:2||FRACTIONS:2||nalkanes:2||ISOCRATIC SEPARATION:2||ASSOCIATION:2||POLY(METHYL METHACRYLATE)S:2||2D correlation spectroscopy:2||CARBONATION:2||GLASSTRANSITION BEHAVIORS:2||MECHANICAL PROPERTIES:2||DIMENSIONS:2||POLYMER MIXTURES:2||ALUMINUM PORPHYRIN:2||LEAD STEARATE:2||FERROCENE:2||POLY(EPSILONCAPROLACTONE):2||DIAGRAM:2||nucleosides:2||Selective recognition by preconcentration:2||Electrochemical impedance spectroscopy:2||DOPAMINE:2||Silica:2||Silyl Ester:2||DIETHYL ESTER) PRECURSORS:2||SURFACE CHARACTERIZATION:2||MICROSTRUCTURE:2||polystyreneblockpolyisoprene:2||MICROPHASESEPARATED STRUCTURES:2||IMPEDANCE MEASUREMENTS:2||HEMEPROTEINS:2||SOLID SUBSTRATE:2||MOISTURE ABSORPTION:2||aromatic polyimide:2||INDUCED MORPHOLOGICALCHANGES:2||STABILITY:2||LC alignment layers:2||POLYPYROMELLITIMIDES:2||Ion mobility:2||Chiral polymer:2||OLIGOSACCHARIDES:2||OXIDE:2||SIDECHAIN:2||RETARDATION:2||functionality:2||temperature effects:2||phase transition:2||glass transition temperature:2||spincoated film:2||ESTER) PRECURSORS:2||PRECURSOR BLEND:2||Xray reflectivity:2||SIGMABONDS:2||aluminum porphyrin catalysts:2||METALLOPORPHYRIN:2||SILICON:2||MASSSPECTROMETRY ANALYSIS:2||STAR POLYMERS:2||SIZE DISTRIBUTIONS:2||GIANT VESICLES:2||POLY(3ALKYLTHIOPHENES):2||ADHESION:2||LIGHT:2||POLYSTYRENEBPOLYISOPRENE:2||HPLC fractionation:2||SILVER ELECTRODES:2||ENHANCED RESONANCE RAMAN:2||SEQUENCE:2||POLYELECTROLYTE/NONELECTROLYTE SHELLS:2||polyimide:2||liquid crystal alignment layer:2||SOLUBLE POLYIMIDES:2||POLYBUTADIENECOATED ZIRCONIA:2||PRETILT ANGLES:2||CROSSSECTIONS:2||IMSMS:2||POLYISOPRENE COPOLYMERS:2||POLYIMIDE THINFILMS:2||POLYMER SURFACES:2||RAMAN:2||STEREOREGULAR PMMA:2||poly(tertbutyl methacrylate) (PtBMA):2||TIME:2||POLYIMIDE COMPOSITE:2||CARBOXYLATO COMPLEXES:2||AGOSTIC INTERACTIONS:2||MOLECULARSTRUCTURE:2||ALKENE:2||TRANSISTOR MEMORY:2||DEVICES:2||ORTHOGONALITY:2||molecular characterization:2||ORGANOSILICATE DIELECTRIC FILMS:2||AMPHIPHILES:2||Serotonin:2||Anodic stripping differential pulse voltammetry:2||transmission electron microtomography:2||LIQUIDCHROMATOGRAPHY ANALYSIS:2||PHASEDIAGRAM:2||CARBON NANOTUBES:2||TRANSFER MECHANISM:2||BINARY MIXTURES:2||REFLECTOMETRY:2||ROD:2||DROPS:2||CONSTANT:2||TRIBLOCK COPOLYMER:2||POLYMER VESICLES:2||CLICK CHEMISTRY:2||ARRAYS:2||COMPOSITES:2||MALDITOF MS:2||POLYMER THINFILMS:2||HYDROPHOBIC INTERACTION CHROMATOGRAPHY:2||retention mechanism:2||GRAZINGINCIDENCE:2||NANOPOROSITY:2||soluble poly(amic esteraltimide)s:2||DIFFERENTIAL SCANNING CALORIMETRY:2||RESIDUALSTRESS:2||CHEMICALCOMPOSITION:2||POLY(AMIC DIETHYL ESTER) PRECURSOR:2||POLY(DIMETHYL SILOXANES):2||MASS POLYSTYRENES:2||cyclic propylene carbonate:2||propylene oxide:2||ACETATE) TOLUENE SOLUTIONS:2||TRANSIENT GRATING METHOD:2||MASS DIFFUSION:2||MICROPHASE SEPARATION TRANSITION:2||POLYSTYRENES:2||POLYSILANE:2||CARBOHYDRATEBASED PHOSPHOLIPIDS:2||HELICAL STRANDS:2||FLUORESCENCE DETECTION:2||SENSITIVE DETERMINATION:2||COMPOSITE FILMS:2||microphase:2||3MERCAPTOPROPIONIC ACID:2||BUTADIENE BLOCK COPOLYMER:2||HYBRID POLYMERIC MICELLES:2||AQUEOUSMEDIA:2||CONTACTANGLE:2||TRANSISTORCIRCUITS:2||ABTYPE POLY(ETHERIMIDE)S:2||CORRELATION SPECTROSCOPY:2||GASPHASE CONFORMATIONS:2||DECANE:2||INFRAREDSPECTROSCOPY:2||MICELLIZATION:2||ENERGIES:2||ACID) PRECURSORS:2||PHOTOALIGNMENT:2||polymers:2||SUBSTRATE:2||carbon dioxide:2||oligomeric propylene carbonate:2||THERMALDIFFUSION:2||CRYSTAL:2||PHASETRANSITION:2||REFLECTIVITY:2||ANALOGS:2||supramolecular chemistry:2||LYSOPHOSPHATIDIC ACID:2||PHOSPHOCHOLINE:2||POLY(3HEXYLTHIOPHENE):2||Receptor:2||MODIFIED GOLD ELECTRODES:2||ASCORBICACID:2||HUMAN URINE:2||Hybrid Nanocomposite:2||Dielectric Constant:2||AU(111) ELECTRODES:2||NANOFILMS:2||HYDROPHOBIC CORES:2||DRIVEN:2||FLEXIBLE SIDECHAINS:2||MESOGEN:2||size exclusion chromatography:2||ORGANIZATION:2||POLY(LACTIC ACID):2||MOLECULAR ARCHITECTURE:2||COUPLER:2||POLYSTYRENE COPOLYMER:2||diffusion coefficient:2||XRAY REFLECTIVITY:2||temperature gradient interaction chromatography polystyryllithium:2||VISCOELASTIC PROPERTIES:2||polyisoprene:2||CRYSTALSTRUCTURES:2||POLYCARBONATE:2||MULTILAYERS:2||DEPOSITION:2||FULL ADSORPTION MECHANISMS:2||QUANTUM DOTS:2||CRITICAL ORDERING TRANSITION:2||CORE:2||PARACRYSTALLINE DISTORTION:2||PERFORATED LAYER PHASE:2||liposomes:2||phospholipids:2||UNILAMELLAR VESICLES:2||VOLTAMMETRIC DETERMINATION:2||Polyimide:2||FOURIERTRANSFORM:2||SURFACE:2||SIZE EXCLUSION CHROMATOGRAPHY:2||NEUTRON REFLECTIVITY:2||ORDERED STRUCTURE:2||RIGID ROD POLYMERS:2||DISPLACEMENT POLYMERIZATION:2||PHOTOSENSITIVE POLYIMIDE:2||EFFICIENCY:2||films:2||Polylactide:2||CHROMATOGRAPHIC CRITICAL CONDITION:2||RETENTION MECHANISM:2||COPPER PHTHALOCYANINE:2||C60:2||COPOLYMER:2||micelle:2||LINEAR POLYETHYLENE:2||LIQUIDS:2||ARMS:2||HIGHPERFORMANCE LIQUID:2||alternating copolyimides:2||PHASE SEPARATION:2||POLYMERCHAINS:2||STYRYLPYRIDINIUM:2||ANGLES:2||MOBILITY:2||PROBE:2||ACIDS:2||BLUE:2||POSITIONS:2||CYCLOPENTADIENYL:2||HIGHMOLECULARWEIGHT:2||FUELCELLS:2||TIN OXIDE:2||NANOCRYSTALS:2||SURFACE MICELLE FORMATION:2||DISORDER TRANSITION:2||BIREFRINGENCE:2||LIPIDCOMPOSITION:2||CONJUGATED POLYMERS:2||GLASSYCARBON ELECTRODE:2||ELECTROCHEMICAL DETECTION:2||MULTIPLE DETECTION:2||aromatic polyimides:2||MOLECULARWEIGHT HOMOPOLYMERS:2||BINARYMIXTURE:2||PATTERNS:2||photoluminescent polyimide:2||photosensitive polyimide:2||DEPENDENT MICELLIZATION:2||SPEED:2||synthesis:2||COIL BLOCKCOPOLYMERS:2||LIQUIDCRYSTALLINE ASSEMBLIES:2||OXIDE):2||molecular weight distribution:2||CONJUGATED POLYMER:2||polymer characterization:2||NONIONIC SURFACTANTS:2||STEREOREGULAR POLY(METHYL METHACRYLATE):2||structure:2||RODLIKE POLYIMIDE:2||FLEXIBLE POLYIMIDE:2||THERMAL IMIDIZATION:2||IN SITU RODCHAIN FORMATION:2||PHASESEPARATION:2||VINYL ETHER):2||EQUILIBRIUM:2||STRESS:2||STRUCTURAL RELAXATION:2||LIVING POLYMERIZATION:2||CONTAIN:2||SALT:2||WAVEGUIDE:2||XRAY DIFFRACTION:2||WALLED CARBON NANOTUBES:2||SILICON NANOWIRES:2||IR:2||DIELECTRIC THINFILMS:2||Selfassembled monolayer:2||PARAMETERS:2||Temperature gradient interaction chromatography:2||SOLIDSURFACES:2||FLOW:2||RATES:2||PRECURSORS:2||FILM BALANCE:2||SIDECHAINS:2||SUPRAMOLECULAR MATERIALS:2||CHAINS:2||POLYSTYRENE:39||ANIONICPOLYMERIZATION:34||GRADIENT INTERACTION CHROMATOGRAPHY:31||SEPARATION:27||BEHAVIOR:24||LIQUIDCHROMATOGRAPHY:22||POLYMERS:22||SIZEEXCLUSION CHROMATOGRAPHY:19||BLOCKCOPOLYMERS:17||DIBLOCK COPOLYMERS:17||THINFILMS:16||POLYISOPRENE:14||HPLC:13||SYNTHETICPOLYMERS:12||PERFORMANCE LIQUIDCHROMATOGRAPHY:11||DIBLOCK COPOLYMER:11||MOLECULARWEIGHT DISTRIBUTION:10||MACROMOLECULES:10||BLOCKCOPOLYMER:10||REVERSEDPHASE:10||RETENTION BEHAVIOR:10||MORPHOLOGY:9||MOLECULARWEIGHT:9||MELTS:9||AROMATIC POLYIMIDES:8||XRAYSCATTERING:8||polystyrene:8||MIXTURES:7||block copolymer:7||SURFACES:7||DEPENDENCE:7||COPOLYMERS:7||POLYMERIZATION:7||AIR/WATER INTERFACE:7||DEFINED BRUSH POLYIMIDE:6||TEMPERATURE:6||FULLY RODLIKE BACKBONE:6||MONOLAYERS:6||POLYIMIDES:6||CHAIN:6||COMPLEX POLYMERS:6||MOLECULARREORIENTATION:6||temperature gradient interaction chromatography:6||POLYMERFILMS:6||GELPERMEATION CHROMATOGRAPHY:6||ELUTION:6||ORDERDISORDER TRANSITION:6||SURFACEMORPHOLOGY:6||ORIENTATION:6||SYSTEMS:6||CRITICAL ADSORPTION POINT:6||LIGHTSCATTERING:5||PROBE DIFFUSION:5||POLYDISPERSITY:5||AIRWATERINTERFACE:5||MICROPHASE SEPARATION:5||GLASSTRANSITION:5||BLENDS:5||FILMS:5||ADSORPTION CHROMATOGRAPHY:5||MECHANISM:5||CO2:5||ETHYLENEOXIDE:5||ALIGNMENT:5||COMPLEXES:5||FRACTIONATION:5||MISCIBILITY:5||POLYMER CHARACTERIZATION:5||HEXAGONALLY PERFORATED LAYER:5||TRANSITION:5||FLIGHT MASSSPECTROMETRY:5||ARCHITECTURE:5||POLY(METHYL METHACRYLATE):5||ALTERNATING COPOLYMERIZATION:4||THICKNESS:4||THERMODYNAMICS:4||CRITICAL RANGE:4||ULTRATHIN POLYMERFILMS:4||DYNAMICS:4||CLIMATECHANGE:4||PHASE:4||GLASSTRANSITION TEMPERATURE:4||EPOXIDE:4||selfassembly:4||SPECTROSCOPY:4||SELFDIFFUSION:4||SCATTERING:4||OPTICALPROPERTIES:4||CATALYSTS:4||CHEMISTRY:4||SOLARCELLS:4||polyimides:4||polypyromellitimides:4||SEGMENTAL REORIENTATIONS:4||ADSORPTION:4||INTERFACE:4||POLYMERSOLUTIONS:4||TRACER DIFFUSION:4||OXIDE) DIBLOCK COPOLYMER:4||POLYSTYRENEBPOLY(METHYL METHACRYLATE):4||POLYMER BLENDS:4||SIMULATION:4||CHAIN ORIENTATION:4||STYRENE:4||TOF MASSSPECTROMETRY:4||WATER:4||DISPLAYS:4||OLIGOMERS:4||PEPTIDES:4||CYCLIC POLYSTYRENE:4||LATTICE CLUSTER THEORY:4||2NDHARMONIC GENERATION:4||LIQUIDCRYSTAL ALIGNMENT:4||MONTECARLO:4||LangmuirBlodgett film:3||ASSEMBLIES:3||chromatography:3||HOLOGRAPHIC RELAXATION SPECTROSCOPY:3||MULTIPLE MORPHOLOGIES:3||INTERACTION CHROMATOGRAPHY:3||NORMALPHASE:3||DIFFUSION:3||BRANCHED POLYSTYRENE:3||NANOPARTICLES:3||LITHOGRAPHY:3||POLYMER:3||LASERLIGHTSCATTERING:3||HIGH MOLECULARWEIGHT:3||CUBIC PHASE:3||AMPHIPHILIC BLOCKCOPOLYMERS:3||AQUEOUSSOLUTION:3||MODEL:3||FORCED RAYLEIGHSCATTERING:3||HYDRODYNAMIC PROPERTIES:3||4MIKTOARM STAR COPOLYMER:3||SYSTEM:3||PHASEBEHAVIOR:3||AQUEOUSSOLUTIONS:3||RHEOLOGY:3||LB film:3||2DIMENSIONAL LIQUIDCHROMATOGRAPHY:3||VISCOSITY:3||DIBLOCK COPOLYMER MELTS:3||ORDERORDER TRANSITION:3||GYROID PHASE:3||BINDING:3||BLOCK POLYELECTROLYTES:3||DERIVATIVES:3||MELT:3||PHASE LIQUIDCHROMATOGRAPHY:3||high temperature:3||ELEVATEDTEMPERATURE:3||RETENTION:3||MICELLE FORMATION:3||ELECTRONMICROSCOPY:3||Electrospray ionization:2||FRACTIONS:2||nalkanes:2||ISOCRATIC SEPARATION:2||ASSOCIATION:2||POLY(METHYL METHACRYLATE)S:2||2D correlation spectroscopy:2||CARBONATION:2||GLASSTRANSITION BEHAVIORS:2||MECHANICAL PROPERTIES:2||DIMENSIONS:2||POLYMER MIXTURES:2||ALUMINUM PORPHYRIN:2||LEAD STEARATE:2||FERROCENE:2||POLY(EPSILONCAPROLACTONE):2||DIAGRAM:2||nucleosides:2||Selective recognition by preconcentration:2||Electrochemical impedance spectroscopy:2||DOPAMINE:2||Silica:2||Silyl Ester:2||DIETHYL ESTER) PRECURSORS:2||SURFACE CHARACTERIZATION:2||MICROSTRUCTURE:2||polystyreneblockpolyisoprene:2||MICROPHASESEPARATED STRUCTURES:2||IMPEDANCE MEASUREMENTS:2||HEMEPROTEINS:2||SOLID SUBSTRATE:2||MOISTURE ABSORPTION:2||aromatic polyimide:2||INDUCED MORPHOLOGICALCHANGES:2||STABILITY:2||LC alignment layers:2||POLYPYROMELLITIMIDES:2||Ion mobility:2||Chiral polymer:2||OLIGOSACCHARIDES:2||OXIDE:2||SIDECHAIN:2||RETARDATION:2||functionality:2||temperature effects:2||phase transition:2||glass transition temperature:2||spincoated film:2||ESTER) PRECURSORS:2||PRECURSOR BLEND:2||Xray reflectivity:2||SIGMABONDS:2||aluminum porphyrin catalysts:2||METALLOPORPHYRIN:2||SILICON:2||MASSSPECTROMETRY ANALYSIS:2||STAR POLYMERS:2||SIZE DISTRIBUTIONS:2||GIANT VESICLES:2||POLY(3ALKYLTHIOPHENES):2||ADHESION:2||LIGHT:2||POLYSTYRENEBPOLYISOPRENE:2||HPLC fractionation:2||SILVER ELECTRODES:2||ENHANCED RESONANCE RAMAN:2||SEQUENCE:2||POLYELECTROLYTE/NONELECTROLYTE SHELLS:2||polyimide:2||liquid crystal alignment layer:2||SOLUBLE POLYIMIDES:2||POLYBUTADIENECOATED ZIRCONIA:2||PRETILT ANGLES:2||CROSSSECTIONS:2||IMSMS:2||POLYISOPRENE COPOLYMERS:2||POLYIMIDE THINFILMS:2||POLYMER SURFACES:2||RAMAN:2||STEREOREGULAR PMMA:2||poly(tertbutyl methacrylate) (PtBMA):2||TIME:2||POLYIMIDE COMPOSITE:2||CARBOXYLATO COMPLEXES:2||AGOSTIC INTERACTIONS:2||MOLECULARSTRUCTURE:2||ALKENE:2||TRANSISTOR MEMORY:2||DEVICES:2||ORTHOGONALITY:2||molecular characterization:2||ORGANOSILICATE DIELECTRIC FILMS:2||AMPHIPHILES:2||Serotonin:2||Anodic stripping differential pulse voltammetry:2||transmission electron microtomography:2||LIQUIDCHROMATOGRAPHY ANALYSIS:2||PHASEDIAGRAM:2||CARBON NANOTUBES:2||TRANSFER MECHANISM:2||BINARY MIXTURES:2||REFLECTOMETRY:2||ROD:2||DROPS:2||CONSTANT:2||TRIBLOCK COPOLYMER:2||POLYMER VESICLES:2||CLICK CHEMISTRY:2||ARRAYS:2||COMPOSITES:2||MALDITOF MS:2||POLYMER THINFILMS:2||HYDROPHOBIC INTERACTION CHROMATOGRAPHY:2||retention mechanism:2||GRAZINGINCIDENCE:2||NANOPOROSITY:2||soluble poly(amic esteraltimide)s:2||DIFFERENTIAL SCANNING CALORIMETRY:2||RESIDUALSTRESS:2||CHEMICALCOMPOSITION:2||POLY(AMIC DIETHYL ESTER) PRECURSOR:2||POLY(DIMETHYL SILOXANES):2||MASS POLYSTYRENES:2||cyclic propylene carbonate:2||propylene oxide:2||ACETATE) TOLUENE SOLUTIONS:2||TRANSIENT GRATING METHOD:2||MASS DIFFUSION:2||MICROPHASE SEPARATION TRANSITION:2||POLYSTYRENES:2||POLYSILANE:2||CARBOHYDRATEBASED PHOSPHOLIPIDS:2||HELICAL STRANDS:2||FLUORESCENCE DETECTION:2||SENSITIVE DETERMINATION:2||COMPOSITE FILMS:2||microphase:2||3MERCAPTOPROPIONIC ACID:2||BUTADIENE BLOCK COPOLYMER:2||HYBRID POLYMERIC MICELLES:2||AQUEOUSMEDIA:2||CONTACTANGLE:2||TRANSISTORCIRCUITS:2||ABTYPE POLY(ETHERIMIDE)S:2||CORRELATION SPECTROSCOPY:2||GASPHASE CONFORMATIONS:2||DECANE:2||INFRAREDSPECTROSCOPY:2||MICELLIZATION:2||ENERGIES:2||ACID) PRECURSORS:2||PHOTOALIGNMENT:2||polymers:2||SUBSTRATE:2||carbon dioxide:2||oligomeric propylene carbonate:2||THERMALDIFFUSION:2||CRYSTAL:2||PHASETRANSITION:2||REFLECTIVITY:2||ANALOGS:2||supramolecular chemistry:2||LYSOPHOSPHATIDIC ACID:2||PHOSPHOCHOLINE:2||POLY(3HEXYLTHIOPHENE):2||Receptor:2||MODIFIED GOLD ELECTRODES:2||ASCORBICACID:2||HUMAN URINE:2||Hybrid Nanocomposite:2||Dielectric Constant:2||AU(111) ELECTRODES:2||NANOFILMS:2||HYDROPHOBIC CORES:2||DRIVEN:2||FLEXIBLE SIDECHAINS:2||MESOGEN:2||size exclusion chromatography:2||ORGANIZATION:2||POLY(LACTIC ACID):2||MOLECULAR ARCHITECTURE:2||COUPLER:2||POLYSTYRENE COPOLYMER:2||diffusion coefficient:2||XRAY REFLECTIVITY:2||temperature gradient interaction chromatography polystyryllithium:2||VISCOELASTIC PROPERTIES:2||polyisoprene:2||CRYSTALSTRUCTURES:2||POLYCARBONATE:2||MULTILAYERS:2||DEPOSITION:2||FULL ADSORPTION MECHANISMS:2||QUANTUM DOTS:2||CRITICAL ORDERING TRANSITION:2||CORE:2||PARACRYSTALLINE DISTORTION:2||PERFORATED LAYER PHASE:2||liposomes:2||phospholipids:2||UNILAMELLAR VESICLES:2||VOLTAMMETRIC DETERMINATION:2||Polyimide:2||FOURIERTRANSFORM:2||SURFACE:2||SIZE EXCLUSION CHROMATOGRAPHY:2||NEUTRON REFLECTIVITY:2||ORDERED STRUCTURE:2||RIGID ROD POLYMERS:2||DISPLACEMENT POLYMERIZATION:2||PHOTOSENSITIVE POLYIMIDE:2||EFFICIENCY:2||films:2||Polylactide:2||CHROMATOGRAPHIC CRITICAL CONDITION:2||RETENTION MECHANISM:2||COPPER PHTHALOCYANINE:2||C60:2||COPOLYMER:2||micelle:2||LINEAR POLYETHYLENE:2||LIQUIDS:2||ARMS:2||HIGHPERFORMANCE LIQUID:2||alternating copolyimides:2||PHASE SEPARATION:2||POLYMERCHAINS:2||STYRYLPYRIDINIUM:2||ANGLES:2||MOBILITY:2||PROBE:2||ACIDS:2||BLUE:2||POSITIONS:2||CYCLOPENTADIENYL:2||HIGHMOLECULARWEIGHT:2||FUELCELLS:2||TIN OXIDE:2||NANOCRYSTALS:2||SURFACE MICELLE FORMATION:2||DISORDER TRANSITION:2||BIREFRINGENCE:2||LIPIDCOMPOSITION:2||CONJUGATED POLYMERS:2||GLASSYCARBON ELECTRODE:2||ELECTROCHEMICAL DETECTION:2||MULTIPLE DETECTION:2||aromatic polyimides:2||MOLECULARWEIGHT HOMOPOLYMERS:2||BINARYMIXTURE:2||PATTERNS:2||photoluminescent polyimide:2||photosensitive polyimide:2||DEPENDENT MICELLIZATION:2||SPEED:2||synthesis:2||COIL BLOCKCOPOLYMERS:2||LIQUIDCRYSTALLINE ASSEMBLIES:2||OXIDE):2||molecular weight distribution:2||CONJUGATED POLYMER:2||polymer characterization:2||NONIONIC SURFACTANTS:2||STEREOREGULAR POLY(METHYL METHACRYLATE):2||structure:2||RODLIKE POLYIMIDE:2||FLEXIBLE POLYIMIDE:2||THERMAL IMIDIZATION:2||IN SITU RODCHAIN FORMATION:2||PHASESEPARATION:2||VINYL ETHER):2||EQUILIBRIUM:2||STRESS:2||STRUCTURAL RELAXATION:2||LIVING POLYMERIZATION:2||CONTAIN:2||SALT:2||WAVEGUIDE:2||XRAY DIFFRACTION:2||WALLED CARBON NANOTUBES:2||SILICON NANOWIRES:2||IR:2||DIELECTRIC THINFILMS:2||Selfassembled monolayer:2||PARAMETERS:2||Temperature gradient interaction chromatography:2||SOLIDSURFACES:2||FLOW:2||RATES:2||PRECURSORS:2||FILM BALANCE:2||SIDECHAINS:2||SUPRAMOLECULAR MATERIALS:2||CHAINS:2||POLYSTYRENE:39||ANIONICPOLYMERIZATION:34||GRADIENT INTERACTION CHROMATOGRAPHY:31||SEPARATION:27||BEHAVIOR:24||LIQUIDCHROMATOGRAPHY:22||POLYMERS:22||SIZEEXCLUSION CHROMATOGRAPHY:19||BLOCKCOPOLYMERS:17||DIBLOCK COPOLYMERS:17||THINFILMS:16||POLYISOPRENE:14||HPLC:13||SYNTHETICPOLYMERS:12||PERFORMANCE LIQUIDCHROMATOGRAPHY:11||DIBLOCK COPOLYMER:11||MOLECULARWEIGHT DISTRIBUTION:10||MACROMOLECULES:10||BLOCKCOPOLYMER:10||REVERSEDPHASE:10||RETENTION BEHAVIOR:10||MORPHOLOGY:9||MOLECULARWEIGHT:9||MELTS:9||AROMATIC POLYIMIDES:8||XRAYSCATTERING:8||polystyrene:8||MIXTURES:7||block copolymer:7||SURFACES:7||DEPENDENCE:7||COPOLYMERS:7||POLYMERIZATION:7||AIR/WATER INTERFACE:7||DEFINED BRUSH POLYIMIDE:6||TEMPERATURE:6||FULLY RODLIKE BACKBONE:6||MONOLAYERS:6||POLYIMIDES:6||CHAIN:6||COMPLEX POLYMERS:6||MOLECULARREORIENTATION:6||temperature gradient interaction chromatography:6||POLYMERFILMS:6||GELPERMEATION CHROMATOGRAPHY:6||ELUTION:6||ORDERDISORDER TRANSITION:6||SURFACEMORPHOLOGY:6||ORIENTATION:6||SYSTEMS:6||CRITICAL ADSORPTION POINT:6||LIGHTSCATTERING:5||PROBE DIFFUSION:5||POLYDISPERSITY:5||AIRWATERINTERFACE:5||MICROPHASE SEPARATION:5||GLASSTRANSITION:5||BLENDS:5||FILMS:5||ADSORPTION CHROMATOGRAPHY:5||MECHANISM:5||CO2:5||ETHYLENEOXIDE:5||ALIGNMENT:5||COMPLEXES:5||FRACTIONATION:5||MISCIBILITY:5||POLYMER CHARACTERIZATION:5||HEXAGONALLY PERFORATED LAYER:5||TRANSITION:5||FLIGHT MASSSPECTROMETRY:5||ARCHITECTURE:5||POLY(METHYL METHACRYLATE):5||ALTERNATING COPOLYMERIZATION:4||THICKNESS:4||THERMODYNAMICS:4||CRITICAL RANGE:4||ULTRATHIN POLYMERFILMS:4||DYNAMICS:4||CLIMATECHANGE:4||PHASE:4||GLASSTRANSITION TEMPERATURE:4||EPOXIDE:4||selfassembly:4||SPECTROSCOPY:4||SELFDIFFUSION:4||SCATTERING:4||OPTICALPROPERTIES:4||CATALYSTS:4||CHEMISTRY:4||SOLARCELLS:4||polyimides:4||polypyromellitimides:4||SEGMENTAL REORIENTATIONS:4||ADSORPTION:4||INTERFACE:4||POLYMERSOLUTIONS:4||TRACER DIFFUSION:4||OXIDE) DIBLOCK COPOLYMER:4||POLYSTYRENEBPOLY(METHYL METHACRYLATE):4||POLYMER BLENDS:4||SIMULATION:4||CHAIN ORIENTATION:4||STYRENE:4||TOF MASSSPECTROMETRY:4||WATER:4||DISPLAYS:4||OLIGOMERS:4||PEPTIDES:4||CYCLIC POLYSTYRENE:4||LATTICE CLUSTER THEORY:4||2NDHARMONIC GENERATION:4||LIQUIDCRYSTAL ALIGNMENT:4||MONTECARLO:4||LangmuirBlodgett film:3||ASSEMBLIES:3||chromatography:3||HOLOGRAPHIC RELAXATION SPECTROSCOPY:3||MULTIPLE MORPHOLOGIES:3||INTERACTION CHROMATOGRAPHY:3||NORMALPHASE:3||DIFFUSION:3||BRANCHED POLYSTYRENE:3||NANOPARTICLES:3||LITHOGRAPHY:3||POLYMER:3||LASERLIGHTSCATTERING:3||HIGH MOLECULARWEIGHT:3||CUBIC PHASE:3||AMPHIPHILIC BLOCKCOPOLYMERS:3||AQUEOUSSOLUTION:3||MODEL:3||FORCED RAYLEIGHSCATTERING:3||HYDRODYNAMIC PROPERTIES:3||4MIKTOARM STAR COPOLYMER:3||SYSTEM:3||PHASEBEHAVIOR:3||AQUEOUSSOLUTIONS:3||RHEOLOGY:3||LB film:3||2DIMENSIONAL LIQUIDCHROMATOGRAPHY:3||VISCOSITY:3||DIBLOCK COPOLYMER MELTS:3||ORDERORDER TRANSITION:3||GYROID PHASE:3||BINDING:3||BLOCK POLYELECTROLYTES:3||DERIVATIVES:3||MELT:3||PHASE LIQUIDCHROMATOGRAPHY:3||high temperature:3||ELEVATEDTEMPERATURE:3||RETENTION:3||MICELLE FORMATION:3||ELECTRONMICROSCOPY:3||Electrospray ionization:2||FRACTIONS:2||nalkanes:2||ISOCRATIC SEPARATION:2||ASSOCIATION:2||POLY(METHYL METHACRYLATE)S:2||2D correlation spectroscopy:2||CARBONATION:2||GLASSTRANSITION BEHAVIORS:2||MECHANICAL PROPERTIES:2||DIMENSIONS:2||POLYMER MIXTURES:2||ALUMINUM PORPHYRIN:2||LEAD STEARATE:2||FERROCENE:2||POLY(EPSILONCAPROLACTONE):2||DIAGRAM:2||nucleosides:2||Selective recognition by preconcentration:2||Electrochemical impedance spectroscopy:2||DOPAMINE:2||Silica:2||Silyl Ester:2||DIETHYL ESTER) PRECURSORS:2||SURFACE CHARACTERIZATION:2||MICROSTRUCTURE:2||polystyreneblockpolyisoprene:2||MICROPHASESEPARATED STRUCTURES:2||IMPEDANCE MEASUREMENTS:2||HEMEPROTEINS:2||SOLID SUBSTRATE:2||MOISTURE ABSORPTION:2||aromatic polyimide:2||INDUCED MORPHOLOGICALCHANGES:2||STABILITY:2||LC alignment layers:2||POLYPYROMELLITIMIDES:2||Ion mobility:2||Chiral polymer:2||OLIGOSACCHARIDES:2||OXIDE:2||SIDECHAIN:2||RETARDATION:2||functionality:2||temperature effects:2||phase transition:2||glass transition temperature:2||spincoated film:2||ESTER) PRECURSORS:2||PRECURSOR BLEND:2||Xray reflectivity:2||SIGMABONDS:2||aluminum porphyrin catalysts:2||METALLOPORPHYRIN:2||SILICON:2||MASSSPECTROMETRY ANALYSIS:2||STAR POLYMERS:2||SIZE DISTRIBUTIONS:2||GIANT VESICLES:2||POLY(3ALKYLTHIOPHENES):2||ADHESION:2||LIGHT:2||POLYSTYRENEBPOLYISOPRENE:2||HPLC fractionation:2||SILVER ELECTRODES:2||ENHANCED RESONANCE RAMAN:2||SEQUENCE:2||POLYELECTROLYTE/NONELECTROLYTE SHELLS:2||polyimide:2||liquid crystal alignment layer:2||SOLUBLE POLYIMIDES:2||POLYBUTADIENECOATED ZIRCONIA:2||PRETILT ANGLES:2||CROSSSECTIONS:2||IMSMS:2||POLYISOPRENE COPOLYMERS:2||POLYIMIDE THINFILMS:2||POLYMER SURFACES:2||RAMAN:2||STEREOREGULAR PMMA:2||poly(tertbutyl methacrylate) (PtBMA):2||TIME:2||POLYIMIDE COMPOSITE:2||CARBOXYLATO COMPLEXES:2||AGOSTIC INTERACTIONS:2||MOLECULARSTRUCTURE:2||ALKENE:2||TRANSISTOR MEMORY:2||DEVICES:2||ORTHOGONALITY:2||molecular characterization:2||ORGANOSILICATE DIELECTRIC FILMS:2||AMPHIPHILES:2||Serotonin:2||Anodic stripping differential pulse voltammetry:2||transmission electron microtomography:2||LIQUIDCHROMATOGRAPHY ANALYSIS:2||PHASEDIAGRAM:2||CARBON NANOTUBES:2||TRANSFER MECHANISM:2||BINARY MIXTURES:2||REFLECTOMETRY:2||ROD:2||DROPS:2||CONSTANT:2||TRIBLOCK COPOLYMER:2||POLYMER VESICLES:2||CLICK CHEMISTRY:2||ARRAYS:2||COMPOSITES:2||MALDITOF MS:2||POLYMER THINFILMS:2||HYDROPHOBIC INTERACTION CHROMATOGRAPHY:2||retention mechanism:2||GRAZINGINCIDENCE:2||NANOPOROSITY:2||soluble poly(amic esteraltimide)s:2||DIFFERENTIAL SCANNING CALORIMETRY:2||RESIDUALSTRESS:2||CHEMICALCOMPOSITION:2||POLY(AMIC DIETHYL ESTER) PRECURSOR:2||POLY(DIMETHYL SILOXANES):2||MASS POLYSTYRENES:2||cyclic propylene carbonate:2||propylene oxide:2||ACETATE) TOLUENE SOLUTIONS:2||TRANSIENT GRATING METHOD:2||MASS DIFFUSION:2||MICROPHASE SEPARATION TRANSITION:2||POLYSTYRENES:2||POLYSILANE:2||CARBOHYDRATEBASED PHOSPHOLIPIDS:2||HELICAL STRANDS:2||FLUORESCENCE DETECTION:2||SENSITIVE DETERMINATION:2||COMPOSITE FILMS:2||microphase:2||3MERCAPTOPROPIONIC ACID:2||BUTADIENE BLOCK COPOLYMER:2||HYBRID POLYMERIC MICELLES:2||AQUEOUSMEDIA:2||CONTACTANGLE:2||TRANSISTORCIRCUITS:2||ABTYPE POLY(ETHERIMIDE)S:2||CORRELATION SPECTROSCOPY:2||GASPHASE CONFORMATIONS:2||DECANE:2||INFRAREDSPECTROSCOPY:2||MICELLIZATION:2||ENERGIES:2||ACID) PRECURSORS:2||PHOTOALIGNMENT:2||polymers:2||SUBSTRATE:2||carbon dioxide:2||oligomeric propylene carbonate:2||THERMALDIFFUSION:2||CRYSTAL:2||PHASETRANSITION:2||REFLECTIVITY:2||ANALOGS:2||supramolecular chemistry:2||LYSOPHOSPHATIDIC ACID:2||PHOSPHOCHOLINE:2||POLY(3HEXYLTHIOPHENE):2||Receptor:2||MODIFIED GOLD ELECTRODES:2||ASCORBICACID:2||HUMAN URINE:2||Hybrid Nanocomposite:2||Dielectric Constant:2||AU(111) ELECTRODES:2||NANOFILMS:2||HYDROPHOBIC CORES:2||DRIVEN:2||FLEXIBLE SIDECHAINS:2||MESOGEN:2||size exclusion chromatography:2||ORGANIZATION:2||POLY(LACTIC ACID):2||MOLECULAR ARCHITECTURE:2||COUPLER:2||POLYSTYRENE COPOLYMER:2||diffusion coefficient:2||XRAY REFLECTIVITY:2||temperature gradient interaction chromatography polystyryllithium:2||VISCOELASTIC PROPERTIES:2||polyisoprene:2||CRYSTALSTRUCTURES:2||POLYCARBONATE:2||MULTILAYERS:2||DEPOSITION:2||FULL ADSORPTION MECHANISMS:2||QUANTUM DOTS:2||CRITICAL ORDERING TRANSITION:2||CORE:2||PARACRYSTALLINE DISTORTION:2||PERFORATED LAYER PHASE:2||liposomes:2||phospholipids:2||UNILAMELLAR VESICLES:2||VOLTAMMETRIC DETERMINATION:2||Polyimide:2||FOURIERTRANSFORM:2||SURFACE:2||SIZE EXCLUSION CHROMATOGRAPHY:2||NEUTRON REFLECTIVITY:2||ORDERED STRUCTURE:2||RIGID ROD POLYMERS:2||DISPLACEMENT POLYMERIZATION:2||PHOTOSENSITIVE POLYIMIDE:2||EFFICIENCY:2||films:2||Polylactide:2||CHROMATOGRAPHIC CRITICAL CONDITION:2||RETENTION MECHANISM:2||COPPER PHTHALOCYANINE:2||C60:2||COPOLYMER:2||micelle:2||LINEAR POLYETHYLENE:2||LIQUIDS:2||ARMS:2||HIGHPERFORMANCE LIQUID:2||alternating copolyimides:2||PHASE SEPARATION:2||POLYMERCHAINS:2||STYRYLPYRIDINIUM:2||ANGLES:2||MOBILITY:2||PROBE:2||ACIDS:2||BLUE:2||POSITIONS:2||CYCLOPENTADIENYL:2||HIGHMOLECULARWEIGHT:2||FUELCELLS:2||TIN OXIDE:2||NANOCRYSTALS:2||SURFACE MICELLE FORMATION:2||DISORDER TRANSITION:2||BIREFRINGENCE:2||LIPIDCOMPOSITION:2||CONJUGATED POLYMERS:2||GLASSYCARBON ELECTRODE:2||ELECTROCHEMICAL DETECTION:2||MULTIPLE DETECTION:2||aromatic polyimides:2||MOLECULARWEIGHT HOMOPOLYMERS:2||BINARYMIXTURE:2||PATTERNS:2||photoluminescent polyimide:2||photosensitive polyimide:2||DEPENDENT MICELLIZATION:2||SPEED:2||synthesis:2||COIL BLOCKCOPOLYMERS:2||LIQUIDCRYSTALLINE ASSEMBLIES:2||OXIDE):2||molecular weight distribution:2||CONJUGATED POLYMER:2||polymer characterization:2||NONIONIC SURFACTANTS:2||STEREOREGULAR POLY(METHYL METHACRYLATE):2||structure:2||RODLIKE POLYIMIDE:2||FLEXIBLE POLYIMIDE:2||THERMAL IMIDIZATION:2||IN SITU RODCHAIN FORMATION:2||PHASESEPARATION:2||VINYL ETHER):2||EQUILIBRIUM:2||STRESS:2||STRUCTURAL RELAXATION:2||LIVING POLYMERIZATION:2||CONTAIN:2||SALT:2||WAVEGUIDE:2||XRAY DIFFRACTION:2||WALLED CARBON NANOTUBES:2||SILICON NANOWIRES:2||IR:2||DIELECTRIC THINFILMS:2||Selfassembled monolayer:2||PARAMETERS:2||Temperature gradient interaction chromatography:2||SOLIDSURFACES:2||FLOW:2||RATES:2||PRECURSORS:2||FILM BALANCE:2||SIDECHAINS:2||SUPRAMOLECULAR MATERIALS:2||CHAINS:2||POLYSTYRENE:39||ANIONICPOLYMERIZATION:34||GRADIENT INTERACTION CHROMATOGRAPHY:31||SEPARATION:27||BEHAVIOR:24||LIQUIDCHROMATOGRAPHY:22||POLYMERS:22||SIZEEXCLUSION CHROMATOGRAPHY:19||BLOCKCOPOLYMERS:17||DIBLOCK COPOLYMERS:17||THINFILMS:16||POLYISOPRENE:14||HPLC:13||SYNTHETICPOLYMERS:12||PERFORMANCE LIQUIDCHROMATOGRAPHY:11||DIBLOCK COPOLYMER:11||MOLECULARWEIGHT DISTRIBUTION:10||MACROMOLECULES:10||BLOCKCOPOLYMER:10||REVERSEDPHASE:10||RETENTION BEHAVIOR:10||MORPHOLOGY:9||MOLECULARWEIGHT:9||MELTS:9||AROMATIC POLYIMIDES:8||XRAYSCATTERING:8||polystyrene:8||MIXTURES:7||block copolymer:7||SURFACES:7||DEPENDENCE:7||COPOLYMERS:7||POLYMERIZATION:7||AIR/WATER INTERFACE:7||DEFINED BRUSH POLYIMIDE:6||TEMPERATURE:6||FULLY RODLIKE BACKBONE:6||MONOLAYERS:6||POLYIMIDES:6||CHAIN:6||COMPLEX POLYMERS:6||MOLECULARREORIENTATION:6||temperature gradient interaction chromatography:6||POLYMERFILMS:6||GELPERMEATION CHROMATOGRAPHY:6||ELUTION:6||ORDERDISORDER TRANSITION:6||SURFACEMORPHOLOGY:6||ORIENTATION:6||SYSTEMS:6||CRITICAL ADSORPTION POINT:6||LIGHTSCATTERING:5||PROBE DIFFUSION:5||POLYDISPERSITY:5||AIRWATERINTERFACE:5||MICROPHASE SEPARATION:5||GLASSTRANSITION:5||BLENDS:5||FILMS:5||ADSORPTION CHROMATOGRAPHY:5||MECHANISM:5||CO2:5||ETHYLENEOXIDE:5||ALIGNMENT:5||COMPLEXES:5||FRACTIONATION:5||MISCIBILITY:5||POLYMER CHARACTERIZATION:5||HEXAGONALLY PERFORATED LAYER:5||TRANSITION:5||FLIGHT MASSSPECTROMETRY:5||ARCHITECTURE:5||POLY(METHYL METHACRYLATE):5||ALTERNATING COPOLYMERIZATION:4||THICKNESS:4||THERMODYNAMICS:4||CRITICAL RANGE:4||ULTRATHIN POLYMERFILMS:4||DYNAMICS:4||CLIMATECHANGE:4||PHASE:4||GLASSTRANSITION TEMPERATURE:4||EPOXIDE:4||selfassembly:4||SPECTROSCOPY:4||SELFDIFFUSION:4||SCATTERING:4||OPTICALPROPERTIES:4||CATALYSTS:4||CHEMISTRY:4||SOLARCELLS:4||polyimides:4||polypyromellitimides:4||SEGMENTAL REORIENTATIONS:4||ADSORPTION:4||INTERFACE:4||POLYMERSOLUTIONS:4||TRACER DIFFUSION:4||OXIDE) DIBLOCK COPOLYMER:4||POLYSTYRENEBPOLY(METHYL METHACRYLATE):4||POLYMER BLENDS:4||SIMULATION:4||CHAIN ORIENTATION:4||STYRENE:4||TOF MASSSPECTROMETRY:4||WATER:4||DISPLAYS:4||OLIGOMERS:4||PEPTIDES:4||CYCLIC POLYSTYRENE:4||LATTICE CLUSTER THEORY:4||2NDHARMONIC GENERATION:4||LIQUIDCRYSTAL ALIGNMENT:4||MONTECARLO:4||LangmuirBlodgett film:3||ASSEMBLIES:3||chromatography:3||HOLOGRAPHIC RELAXATION SPECTROSCOPY:3||MULTIPLE MORPHOLOGIES:3||INTERACTION CHROMATOGRAPHY:3||NORMALPHASE:3||DIFFUSION:3||BRANCHED POLYSTYRENE:3||NANOPARTICLES:3||LITHOGRAPHY:3||POLYMER:3||LASERLIGHTSCATTERING:3||HIGH MOLECULARWEIGHT:3||CUBIC PHASE:3||AMPHIPHILIC BLOCKCOPOLYMERS:3||AQUEOUSSOLUTION:3||MODEL:3||FORCED RAYLEIGHSCATTERING:3||HYDRODYNAMIC PROPERTIES:3||4MIKTOARM STAR COPOLYMER:3||SYSTEM:3||PHASEBEHAVIOR:3||AQUEOUSSOLUTIONS:3||RHEOLOGY:3||LB film:3||2DIMENSIONAL LIQUIDCHROMATOGRAPHY:3||VISCOSITY:3||DIBLOCK COPOLYMER MELTS:3||ORDERORDER TRANSITION:3||GYROID PHASE:3||BINDING:3||BLOCK POLYELECTROLYTES:3||DERIVATIVES:3||MELT:3||PHASE LIQUIDCHROMATOGRAPHY:3||high temperature:3||ELEVATEDTEMPERATURE:3||RETENTION:3||MICELLE FORMATION:3||ELECTRONMICROSCOPY:3||Electrospray ionization:2||FRACTIONS:2||nalkanes:2||ISOCRATIC SEPARATION:2||ASSOCIATION:2||POLY(METHYL METHACRYLATE)S:2||2D correlation spectroscopy:2||CARBONATION:2||GLASSTRANSITION BEHAVIORS:2||MECHANICAL PROPERTIES:2||DIMENSIONS:2||POLYMER MIXTURES:2||ALUMINUM PORPHYRIN:2||LEAD STEARATE:2||FERROCENE:2||POLY(EPSILONCAPROLACTONE):2||DIAGRAM:2||nucleosides:2||Selective recognition by preconcentration:2||Electrochemical impedance spectroscopy:2||DOPAMINE:2||Silica:2||Silyl Ester:2||DIETHYL ESTER) PRECURSORS:2||SURFACE CHARACTERIZATION:2||MICROSTRUCTURE:2||polystyreneblockpolyisoprene:2||MICROPHASESEPARATED STRUCTURES:2||IMPEDANCE MEASUREMENTS:2||HEMEPROTEINS:2||SOLID SUBSTRATE:2||MOISTURE ABSORPTION:2||aromatic polyimide:2||INDUCED MORPHOLOGICALCHANGES:2||STABILITY:2||LC alignment layers:2||POLYPYROMELLITIMIDES:2||Ion mobility:2||Chiral polymer:2||OLIGOSACCHARIDES:2||OXIDE:2||SIDECHAIN:2||RETARDATION:2||functionality:2||temperature effects:2||phase transition:2||glass transition temperature:2||spincoated film:2||ESTER) PRECURSORS:2||PRECURSOR BLEND:2||Xray reflectivity:2||SIGMABONDS:2||aluminum porphyrin catalysts:2||METALLOPORPHYRIN:2||SILICON:2||MASSSPECTROMETRY ANALYSIS:2||STAR POLYMERS:2||SIZE DISTRIBUTIONS:2||GIANT VESICLES:2||POLY(3ALKYLTHIOPHENES):2||ADHESION:2||LIGHT:2||POLYSTYRENEBPOLYISOPRENE:2||HPLC fractionation:2||SILVER ELECTRODES:2||ENHANCED RESONANCE RAMAN:2||SEQUENCE:2||POLYELECTROLYTE/NONELECTROLYTE SHELLS:2||polyimide:2||liquid crystal alignment layer:2||SOLUBLE POLYIMIDES:2||POLYBUTADIENECOATED ZIRCONIA:2||PRETILT ANGLES:2||CROSSSECTIONS:2||IMSMS:2||POLYISOPRENE COPOLYMERS:2||POLYIMIDE THINFILMS:2||POLYMER SURFACES:2||RAMAN:2||STEREOREGULAR PMMA:2||poly(tertbutyl methacrylate) (PtBMA):2||TIME:2||POLYIMIDE COMPOSITE:2||CARBOXYLATO COMPLEXES:2||AGOSTIC INTERACTIONS:2||MOLECULARSTRUCTURE:2||ALKENE:2||TRANSISTOR MEMORY:2||DEVICES:2||ORTHOGONALITY:2||molecular characterization:2||ORGANOSILICATE DIELECTRIC FILMS:2||AMPHIPHILES:2||Serotonin:2||Anodic stripping differential pulse voltammetry:2||transmission electron microtomography:2||LIQUIDCHROMATOGRAPHY ANALYSIS:2||PHASEDIAGRAM:2||CARBON NANOTUBES:2||TRANSFER MECHANISM:2||BINARY MIXTURES:2||REFLECTOMETRY:2||ROD:2||DROPS:2||CONSTANT:2||TRIBLOCK COPOLYMER:2||POLYMER VESICLES:2||CLICK CHEMISTRY:2||ARRAYS:2||COMPOSITES:2||MALDITOF MS:2||POLYMER THINFILMS:2||HYDROPHOBIC INTERACTION CHROMATOGRAPHY:2||retention mechanism:2||GRAZINGINCIDENCE:2||NANOPOROSITY:2||soluble poly(amic esteraltimide)s:2||DIFFERENTIAL SCANNING CALORIMETRY:2||RESIDUALSTRESS:2||CHEMICALCOMPOSITION:2||POLY(AMIC DIETHYL ESTER) PRECURSOR:2||POLY(DIMETHYL SILOXANES):2||MASS POLYSTYRENES:2||cyclic propylene carbonate:2||propylene oxide:2||ACETATE) TOLUENE SOLUTIONS:2||TRANSIENT GRATING METHOD:2||MASS DIFFUSION:2||MICROPHASE SEPARATION TRANSITION:2||POLYSTYRENES:2||POLYSILANE:2||CARBOHYDRATEBASED PHOSPHOLIPIDS:2||HELICAL STRANDS:2||FLUORESCENCE DETECTION:2||SENSITIVE DETERMINATION:2||COMPOSITE FILMS:2||microphase:2||3MERCAPTOPROPIONIC ACID:2||BUTADIENE BLOCK COPOLYMER:2||HYBRID POLYMERIC MICELLES:2||AQUEOUSMEDIA:2||CONTACTANGLE:2||TRANSISTORCIRCUITS:2||ABTYPE POLY(ETHERIMIDE)S:2||CORRELATION SPECTROSCOPY:2||GASPHASE CONFORMATIONS:2||DECANE:2||INFRAREDSPECTROSCOPY:2||MICELLIZATION:2||ENERGIES:2||ACID) PRECURSORS:2||PHOTOALIGNMENT:2||polymers:2||SUBSTRATE:2||carbon dioxide:2||oligomeric propylene carbonate:2||THERMALDIFFUSION:2||CRYSTAL:2||PHASETRANSITION:2||REFLECTIVITY:2||ANALOGS:2||supramolecular chemistry:2||LYSOPHOSPHATIDIC ACID:2||PHOSPHOCHOLINE:2||POLY(3HEXYLTHIOPHENE):2||Receptor:2||MODIFIED GOLD ELECTRODES:2||ASCORBICACID:2||HUMAN URINE:2||Hybrid Nanocomposite:2||Dielectric Constant:2||AU(111) ELECTRODES:2||NANOFILMS:2||HYDROPHOBIC CORES:2||DRIVEN:2||FLEXIBLE SIDECHAINS:2||MESOGEN:2||size exclusion chromatography:2||ORGANIZATION:2||POLY(LACTIC ACID):2||MOLECULAR ARCHITECTURE:2||COUPLER:2||POLYSTYRENE COPOLYMER:2||diffusion coefficient:2||XRAY REFLECTIVITY:2||temperature gradient interaction chromatography polystyryllithium:2||VISCOELASTIC PROPERTIES:2||polyisoprene:2||CRYSTALSTRUCTURES:2||POLYCARBONATE:2||MULTILAYERS:2||DEPOSITION:2||FULL ADSORPTION MECHANISMS:2||QUANTUM DOTS:2||CRITICAL ORDERING TRANSITION:2||CORE:2||PARACRYSTALLINE DISTORTION:2||PERFORATED LAYER PHASE:2||liposomes:2||phospholipids:2||UNILAMELLAR VESICLES:2||VOLTAMMETRIC DETERMINATION:2||Polyimide:2||FOURIERTRANSFORM:2||SURFACE:2||SIZE EXCLUSION CHROMATOGRAPHY:2||NEUTRON REFLECTIVITY:2||ORDERED STRUCTURE:2||RIGID ROD POLYMERS:2||DISPLACEMENT POLYMERIZATION:2||PHOTOSENSITIVE POLYIMIDE:2||EFFICIENCY:2||films:2||Polylactide:2||CHROMATOGRAPHIC CRITICAL CONDITION:2||RETENTION MECHANISM:2||COPPER PHTHALOCYANINE:2||C60:2||COPOLYMER:2||micelle:2||LINEAR POLYETHYLENE:2||LIQUIDS:2||ARMS:2||HIGHPERFORMANCE LIQUID:2||alternating copolyimides:2||PHASE SEPARATION:2||POLYMERCHAINS:2||STYRYLPYRIDINIUM:2||ANGLES:2||MOBILITY:2||PROBE:2||ACIDS:2||BLUE:2||POSITIONS:2||CYCLOPENTADIENYL:2||HIGHMOLECULARWEIGHT:2||FUELCELLS:2||TIN OXIDE:2||NANOCRYSTALS:2||SURFACE MICELLE FORMATION:2||DISORDER TRANSITION:2||BIREFRINGENCE:2||LIPIDCOMPOSITION:2||CONJUGATED POLYMERS:2||GLASSYCARBON ELECTRODE:2||ELECTROCHEMICAL DETECTION:2||MULTIPLE DETECTION:2||aromatic polyimides:2||MOLECULARWEIGHT HOMOPOLYMERS:2||BINARYMIXTURE:2||PATTERNS:2||photoluminescent polyimide:2||photosensitive polyimide:2||DEPENDENT MICELLIZATION:2||SPEED:2||synthesis:2||COIL BLOCKCOPOLYMERS:2||LIQUIDCRYSTALLINE ASSEMBLIES:2||OXIDE):2||molecular weight distribution:2||CONJUGATED POLYMER:2||polymer characterization:2||NONIONIC SURFACTANTS:2||STEREOREGULAR POLY(METHYL METHACRYLATE):2||structure:2||RODLIKE POLYIMIDE:2||FLEXIBLE POLYIMIDE:2||THERMAL IMIDIZATION:2||IN SITU RODCHAIN FORMATION:2||PHASESEPARATION:2||VINYL ETHER):2||EQUILIBRIUM:2||STRESS:2||STRUCTURAL RELAXATION:2||LIVING POLYMERIZATION:2||CONTAIN:2||SALT:2||WAVEGUIDE:2||XRAY DIFFRACTION:2||WALLED CARBON NANOTUBES:2||SILICON NANOWIRES:2||IR:2||DIELECTRIC THINFILMS:2||Selfassembled monolayer:2||PARAMETERS:2||Temperature gradient interaction chromatography:2||SOLIDSURFACES:2||FLOW:2||RATES:2||PRECURSORS:2||FILM BALANCE:2||SIDECHAINS:2||SUPRAMOLECULAR MATERIALS:2||CHAINS:2||POLYSTYRENE:39||ANIONICPOLYMERIZATION:34||GRADIENT INTERACTION CHROMATOGRAPHY:31||SEPARATION:27||BEHAVIOR:24||LIQUIDCHROMATOGRAPHY:22||POLYMERS:22||SIZEEXCLUSION CHROMATOGRAPHY:19||BLOCKCOPOLYMERS:17||DIBLOCK COPOLYMERS:17||THINFILMS:16||POLYISOPRENE:14||HPLC:13||SYNTHETICPOLYMERS:12||PERFORMANCE LIQUIDCHROMATOGRAPHY:11||DIBLOCK COPOLYMER:11||MOLECULARWEIGHT DISTRIBUTION:10||MACROMOLECULES:10||BLOCKCOPOLYMER:10||REVERSEDPHASE:10||RETENTION BEHAVIOR:10||MORPHOLOGY:9||MOLECULARWEIGHT:9||MELTS:9||AROMATIC POLYIMIDES:8||XRAYSCATTERING:8||polystyrene:8||MIXTURES:7||block copolymer:7||SURFACES:7||DEPENDENCE:7||COPOLYMERS:7||POLYMERIZATION:7||AIR/WATER INTERFACE:7||DEFINED BRUSH POLYIMIDE:6||TEMPERATURE:6||FULLY RODLIKE BACKBONE:6||MONOLAYERS:6||POLYIMIDES:6||CHAIN:6||COMPLEX POLYMERS:6||MOLECULARREORIENTATION:6||temperature gradient interaction chromatography:6||POLYMERFILMS:6||GELPERMEATION CHROMATOGRAPHY:6||ELUTION:6||ORDERDISORDER TRANSITION:6||SURFACEMORPHOLOGY:6||ORIENTATION:6||SYSTEMS:6||CRITICAL ADSORPTION POINT:6||LIGHTSCATTERING:5||PROBE DIFFUSION:5||POLYDISPERSITY:5||AIRWATERINTERFACE:5||MICROPHASE SEPARATION:5||GLASSTRANSITION:5||BLENDS:5||FILMS:5||ADSORPTION CHROMATOGRAPHY:5||MECHANISM:5||CO2:5||ETHYLENEOXIDE:5||ALIGNMENT:5||COMPLEXES:5||FRACTIONATION:5||MISCIBILITY:5||POLYMER CHARACTERIZATION:5||HEXAGONALLY PERFORATED LAYER:5||TRANSITION:5||FLIGHT MASSSPECTROMETRY:5||ARCHITECTURE:5||POLY(METHYL METHACRYLATE):5||ALTERNATING COPOLYMERIZATION:4||THICKNESS:4||THERMODYNAMICS:4||CRITICAL RANGE:4||ULTRATHIN POLYMERFILMS:4||DYNAMICS:4||CLIMATECHANGE:4||PHASE:4||GLASSTRANSITION TEMPERATURE:4||EPOXIDE:4||selfassembly:4||SPECTROSCOPY:4||SELFDIFFUSION:4||SCATTERING:4||OPTICALPROPERTIES:4||CATALYSTS:4||CHEMISTRY:4||SOLARCELLS:4||polyimides:4||polypyromellitimides:4||SEGMENTAL REORIENTATIONS:4||ADSORPTION:4||INTERFACE:4||POLYMERSOLUTIONS:4||TRACER DIFFUSION:4||OXIDE) DIBLOCK COPOLYMER:4||POLYSTYRENEBPOLY(METHYL METHACRYLATE):4||POLYMER BLENDS:4||SIMULATION:4||CHAIN ORIENTATION:4||STYRENE:4||TOF MASSSPECTROMETRY:4||WATER:4||DISPLAYS:4||OLIGOMERS:4||PEPTIDES:4||CYCLIC POLYSTYRENE:4||LATTICE CLUSTER THEORY:4||2NDHARMONIC GENERATION:4||LIQUIDCRYSTAL ALIGNMENT:4||MONTECARLO:4||LangmuirBlodgett film:3||ASSEMBLIES:3||chromatography:3||HOLOGRAPHIC RELAXATION SPECTROSCOPY:3||MULTIPLE MORPHOLOGIES:3||INTERACTION CHROMATOGRAPHY:3||NORMALPHASE:3||DIFFUSION:3||BRANCHED POLYSTYRENE:3||NANOPARTICLES:3||LITHOGRAPHY:3||POLYMER:3||LASERLIGHTSCATTERING:3||HIGH MOLECULARWEIGHT:3||CUBIC PHASE:3||AMPHIPHILIC BLOCKCOPOLYMERS:3||AQUEOUSSOLUTION:3||MODEL:3||FORCED RAYLEIGHSCATTERING:3||HYDRODYNAMIC PROPERTIES:3||4MIKTOARM STAR COPOLYMER:3||SYSTEM:3||PHASEBEHAVIOR:3||AQUEOUSSOLUTIONS:3||RHEOLOGY:3||LB film:3||2DIMENSIONAL LIQUIDCHROMATOGRAPHY:3||VISCOSITY:3||DIBLOCK COPOLYMER MELTS:3||ORDERORDER TRANSITION:3||GYROID PHASE:3||BINDING:3||BLOCK POLYELECTROLYTES:3||DERIVATIVES:3||MELT:3||PHASE LIQUIDCHROMATOGRAPHY:3||high temperature:3||ELEVATEDTEMPERATURE:3||RETENTION:3||MICELLE FORMATION:3||ELECTRONMICROSCOPY:3||Electrospray ionization:2||FRACTIONS:2||nalkanes:2||ISOCRATIC SEPARATION:2||ASSOCIATION:2||POLY(METHYL METHACRYLATE)S:2||2D correlation spectroscopy:2||CARBONATION:2||GLASSTRANSITION BEHAVIORS:2||MECHANICAL PROPERTIES:2||DIMENSIONS:2||POLYMER MIXTURES:2||ALUMINUM PORPHYRIN:2||LEAD STEARATE:2||FERROCENE:2||POLY(EPSILONCAPROLACTONE):2||DIAGRAM:2||nucleosides:2||Selective recognition by preconcentration:2||Electrochemical impedance spectroscopy:2||DOPAMINE:2||Silica:2||Silyl Ester:2||DIETHYL ESTER) PRECURSORS:2||SURFACE CHARACTERIZATION:2||MICROSTRUCTURE:2||polystyreneblockpolyisoprene:2||MICROPHASESEPARATED STRUCTURES:2||IMPEDANCE MEASUREMENTS:2||HEMEPROTEINS:2||SOLID SUBSTRATE:2||MOISTURE ABSORPTION:2||aromatic polyimide:2||INDUCED MORPHOLOGICALCHANGES:2||STABILITY:2||LC alignment layers:2||POLYPYROMELLITIMIDES:2||Ion mobility:2||Chiral polymer:2||OLIGOSACCHARIDES:2||OXIDE:2||SIDECHAIN:2||RETARDATION:2||functionality:2||temperature effects:2||phase transition:2||glass transition temperature:2||spincoated film:2||ESTER) PRECURSORS:2||PRECURSOR BLEND:2||Xray reflectivity:2||SIGMABONDS:2||aluminum porphyrin catalysts:2||METALLOPORPHYRIN:2||SILICON:2||MASSSPECTROMETRY ANALYSIS:2||STAR POLYMERS:2||SIZE DISTRIBUTIONS:2||GIANT VESICLES:2||POLY(3ALKYLTHIOPHENES):2||ADHESION:2||LIGHT:2||POLYSTYRENEBPOLYISOPRENE:2||HPLC fractionation:2||SILVER ELECTRODES:2||ENHANCED RESONANCE RAMAN:2||SEQUENCE:2||POLYELECTROLYTE/NONELECTROLYTE SHELLS:2||polyimide:2||liquid crystal alignment layer:2||SOLUBLE POLYIMIDES:2||POLYBUTADIENECOATED ZIRCONIA:2||PRETILT ANGLES:2||CROSSSECTIONS:2||IMSMS:2||POLYISOPRENE COPOLYMERS:2||POLYIMIDE THINFILMS:2||POLYMER SURFACES:2||RAMAN:2||STEREOREGULAR PMMA:2||poly(tertbutyl methacrylate) (PtBMA):2||TIME:2||POLYIMIDE COMPOSITE:2||CARBOXYLATO COMPLEXES:2||AGOSTIC INTERACTIONS:2||MOLECULARSTRUCTURE:2||ALKENE:2||TRANSISTOR MEMORY:2||DEVICES:2||ORTHOGONALITY:2||molecular characterization:2||ORGANOSILICATE DIELECTRIC FILMS:2||AMPHIPHILES:2||Serotonin:2||Anodic stripping differential pulse voltammetry:2||transmission electron microtomography:2||LIQUIDCHROMATOGRAPHY ANALYSIS:2||PHASEDIAGRAM:2||CARBON NANOTUBES:2||TRANSFER MECHANISM:2||BINARY MIXTURES:2||REFLECTOMETRY:2||ROD:2||DROPS:2||CONSTANT:2||TRIBLOCK COPOLYMER:2||POLYMER VESICLES:2||CLICK CHEMISTRY:2||ARRAYS:2||COMPOSITES:2||MALDITOF MS:2||POLYMER THINFILMS:2||HYDROPHOBIC INTERACTION CHROMATOGRAPHY:2||retention mechanism:2||GRAZINGINCIDENCE:2||NANOPOROSITY:2||soluble poly(amic esteraltimide)s:2||DIFFERENTIAL SCANNING CALORIMETRY:2||RESIDUALSTRESS:2||CHEMICALCOMPOSITION:2||POLY(AMIC DIETHYL ESTER) PRECURSOR:2||POLY(DIMETHYL SILOXANES):2||MASS POLYSTYRENES:2||cyclic propylene carbonate:2||propylene oxide:2||ACETATE) TOLUENE SOLUTIONS:2||TRANSIENT GRATING METHOD:2||MASS DIFFUSION:2||MICROPHASE SEPARATION TRANSITION:2||POLYSTYRENES:2||POLYSILANE:2||CARBOHYDRATEBASED PHOSPHOLIPIDS:2||HELICAL STRANDS:2||FLUORESCENCE DETECTION:2||SENSITIVE DETERMINATION:2||COMPOSITE FILMS:2||microphase:2||3MERCAPTOPROPIONIC ACID:2||BUTADIENE BLOCK COPOLYMER:2||HYBRID POLYMERIC MICELLES:2||AQUEOUSMEDIA:2||CONTACTANGLE:2||TRANSISTORCIRCUITS:2||ABTYPE POLY(ETHERIMIDE)S:2||CORRELATION SPECTROSCOPY:2||GASPHASE CONFORMATIONS:2||DECANE:2||INFRAREDSPECTROSCOPY:2||MICELLIZATION:2||ENERGIES:2||ACID) PRECURSORS:2||PHOTOALIGNMENT:2||polymers:2||SUBSTRATE:2||carbon dioxide:2||oligomeric propylene carbonate:2||THERMALDIFFUSION:2||CRYSTAL:2||PHASETRANSITION:2||REFLECTIVITY:2||ANALOGS:2||supramolecular chemistry:2||LYSOPHOSPHATIDIC ACID:2||PHOSPHOCHOLINE:2||POLY(3HEXYLTHIOPHENE):2||Receptor:2||MODIFIED GOLD ELECTRODES:2||ASCORBICACID:2||HUMAN URINE:2||Hybrid Nanocomposite:2||Dielectric Constant:2||AU(111) ELECTRODES:2||NANOFILMS:2||HYDROPHOBIC CORES:2||DRIVEN:2||FLEXIBLE SIDECHAINS:2||MESOGEN:2||size exclusion chromatography:2||ORGANIZATION:2||POLY(LACTIC ACID):2||MOLECULAR ARCHITECTURE:2||COUPLER:2||POLYSTYRENE COPOLYMER:2||diffusion coefficient:2||XRAY REFLECTIVITY:2||temperature gradient interaction chromatography polystyryllithium:2||VISCOELASTIC PROPERTIES:2||polyisoprene:2||CRYSTALSTRUCTURES:2||POLYCARBONATE:2||MULTILAYERS:2||DEPOSITION:2||FULL ADSORPTION MECHANISMS:2||QUANTUM DOTS:2||CRITICAL ORDERING TRANSITION:2||CORE:2||PARACRYSTALLINE DISTORTION:2||PERFORATED LAYER PHASE:2||liposomes:2||phospholipids:2||UNILAMELLAR VESICLES:2||VOLTAMMETRIC DETERMINATION:2||Polyimide:2||FOURIERTRANSFORM:2||SURFACE:2||SIZE EXCLUSION CHROMATOGRAPHY:2||NEUTRON REFLECTIVITY:2||ORDERED STRUCTURE:2||RIGID ROD POLYMERS:2||DISPLACEMENT POLYMERIZATION:2||PHOTOSENSITIVE POLYIMIDE:2||EFFICIENCY:2||films:2||Polylactide:2||CHROMATOGRAPHIC CRITICAL CONDITION:2||RETENTION MECHANISM:2||COPPER PHTHALOCYANINE:2||C60:2||COPOLYMER:2||micelle:2||LINEAR POLYETHYLENE:2||LIQUIDS:2||ARMS:2||HIGHPERFORMANCE LIQUID:2||alternating copolyimides:2||PHASE SEPARATION:2||POLYMERCHAINS:2||STYRYLPYRIDINIUM:2||ANGLES:2||MOBILITY:2||PROBE:2||ACIDS:2||BLUE:2||POSITIONS:2||CYCLOPENTADIENYL:2||HIGHMOLECULARWEIGHT:2||FUELCELLS:2||TIN OXIDE:2||NANOCRYSTALS:2||SURFACE MICELLE FORMATION:2||DISORDER TRANSITION:2||BIREFRINGENCE:2||LIPIDCOMPOSITION:2||CONJUGATED POLYMERS:2||GLASSYCARBON ELECTRODE:2||ELECTROCHEMICAL DETECTION:2||MULTIPLE DETECTION:2||aromatic polyimides:2||MOLECULARWEIGHT HOMOPOLYMERS:2||BINARYMIXTURE:2||PATTERNS:2||photoluminescent polyimide:2||photosensitive polyimide:2||DEPENDENT MICELLIZATION:2||SPEED:2||synthesis:2||COIL BLOCKCOPOLYMERS:2||LIQUIDCRYSTALLINE ASSEMBLIES:2||OXIDE):2||molecular weight distribution:2||CONJUGATED POLYMER:2||polymer characterization:2||NONIONIC SURFACTANTS:2||STEREOREGULAR POLY(METHYL METHACRYLATE):2||structure:2||RODLIKE POLYIMIDE:2||FLEXIBLE POLYIMIDE:2||THERMAL IMIDIZATION:2||IN SITU RODCHAIN FORMATION:2||PHASESEPARATION:2||VINYL ETHER):2||EQUILIBRIUM:2||STRESS:2||STRUCTURAL RELAXATION:2||LIVING POLYMERIZATION:2||CONTAIN:2||SALT:2||WAVEGUIDE:2||XRAY DIFFRACTION:2||WALLED CARBON NANOTUBES:2||SILICON NANOWIRES:2||IR:2||DIELECTRIC THINFILMS:2||Selfassembled monolayer:2||PARAMETERS:2||Temperature gradient interaction chromatography:2||SOLIDSURFACES:2||FLOW:2||RATES:2||PRECURSORS:2||FILM BALANCE:2||SIDECHAINS:2||SUPRAMOLECULAR MATERIALS:2||CHAINS:2||POLYSTYRENE:39||ANIONICPOLYMERIZATION:34||GRADIENT INTERACTION CHROMATOGRAPHY:31||SEPARATION:27||BEHAVIOR:24||LIQUIDCHROMATOGRAPHY:22||POLYMERS:22||SIZEEXCLUSION CHROMATOGRAPHY:19||BLOCKCOPOLYMERS:17||DIBLOCK COPOLYMERS:17||THINFILMS:16||POLYISOPRENE:14||HPLC:13||SYNTHETICPOLYMERS:12||PERFORMANCE LIQUIDCHROMATOGRAPHY:11||DIBLOCK COPOLYMER:11||MOLECULARWEIGHT DISTRIBUTION:10||MACROMOLECULES:10||BLOCKCOPOLYMER:10||REVERSEDPHASE:10||RETENTION BEHAVIOR:10||MORPHOLOGY:9||MOLECULARWEIGHT:9||MELTS:9||AROMATIC POLYIMIDES:8||XRAYSCATTERING:8||polystyrene:8||MIXTURES:7||block copolymer:7||SURFACES:7||DEPENDENCE:7||COPOLYMERS:7||POLYMERIZATION:7||AIR/WATER INTERFACE:7||DEFINED BRUSH POLYIMIDE:6||TEMPERATURE:6||FULLY RODLIKE BACKBONE:6||MONOLAYERS:6||POLYIMIDES:6||CHAIN:6||COMPLEX POLYMERS:6||MOLECULARREORIENTATION:6||temperature gradient interaction chromatography:6||POLYMERFILMS:6||GELPERMEATION CHROMATOGRAPHY:6||ELUTION:6||ORDERDISORDER TRANSITION:6||SURFACEMORPHOLOGY:6||ORIENTATION:6||SYSTEMS:6||CRITICAL ADSORPTION POINT:6||LIGHTSCATTERING:5||PROBE DIFFUSION:5||POLYDISPERSITY:5||AIRWATERINTERFACE:5||MICROPHASE SEPARATION:5||GLASSTRANSITION:5||BLENDS:5||FILMS:5||ADSORPTION CHROMATOGRAPHY:5||MECHANISM:5||CO2:5||ETHYLENEOXIDE:5||ALIGNMENT:5||COMPLEXES:5||FRACTIONATION:5||MISCIBILITY:5||POLYMER CHARACTERIZATION:5||HEXAGONALLY PERFORATED LAYER:5||TRANSITION:5||FLIGHT MASSSPECTROMETRY:5||ARCHITECTURE:5||POLY(METHYL METHACRYLATE):5||ALTERNATING COPOLYMERIZATION:4||THICKNESS:4||THERMODYNAMICS:4||CRITICAL RANGE:4||ULTRATHIN POLYMERFILMS:4||DYNAMICS:4||CLIMATECHANGE:4||PHASE:4||GLASSTRANSITION TEMPERATURE:4||EPOXIDE:4||selfassembly:4||SPECTROSCOPY:4||SELFDIFFUSION:4||SCATTERING:4||OPTICALPROPERTIES:4||CATALYSTS:4||CHEMISTRY:4||SOLARCELLS:4||polyimides:4||polypyromellitimides:4||SEGMENTAL REORIENTATIONS:4||ADSORPTION:4||INTERFACE:4||POLYMERSOLUTIONS:4||TRACER DIFFUSION:4||OXIDE) DIBLOCK COPOLYMER:4||POLYSTYRENEBPOLY(METHYL METHACRYLATE):4||POLYMER BLENDS:4||SIMULATION:4||CHAIN ORIENTATION:4||STYRENE:4||TOF MASSSPECTROMETRY:4||WATER:4||DISPLAYS:4||OLIGOMERS:4||PEPTIDES:4||CYCLIC POLYSTYRENE:4||LATTICE CLUSTER THEORY:4||2NDHARMONIC GENERATION:4||LIQUIDCRYSTAL ALIGNMENT:4||MONTECARLO:4||LangmuirBlodgett film:3||ASSEMBLIES:3||chromatography:3||HOLOGRAPHIC RELAXATION SPECTROSCOPY:3||MULTIPLE MORPHOLOGIES:3||INTERACTION CHROMATOGRAPHY:3||NORMALPHASE:3||DIFFUSION:3||BRANCHED POLYSTYRENE:3||NANOPARTICLES:3||LITHOGRAPHY:3||POLYMER:3||LASERLIGHTSCATTERING:3||HIGH MOLECULARWEIGHT:3||CUBIC PHASE:3||AMPHIPHILIC BLOCKCOPOLYMERS:3||AQUEOUSSOLUTION:3||MODEL:3||FORCED RAYLEIGHSCATTERING:3||HYDRODYNAMIC PROPERTIES:3||4MIKTOARM STAR COPOLYMER:3||SYSTEM:3||PHASEBEHAVIOR:3||AQUEOUSSOLUTIONS:3||RHEOLOGY:3||LB film:3||2DIMENSIONAL LIQUIDCHROMATOGRAPHY:3||VISCOSITY:3||DIBLOCK COPOLYMER MELTS:3||ORDERORDER TRANSITION:3||GYROID PHASE:3||BINDING:3||BLOCK POLYELECTROLYTES:3||DERIVATIVES:3||MELT:3||PHASE LIQUIDCHROMATOGRAPHY:3||high temperature:3||ELEVATEDTEMPERATURE:3||RETENTION:3||MICELLE FORMATION:3||ELECTRONMICROSCOPY:3||Electrospray ionization:2||FRACTIONS:2||nalkanes:2||ISOCRATIC SEPARATION:2||ASSOCIATION:2||POLY(METHYL METHACRYLATE)S:2||2D correlation spectroscopy:2||CARBONATION:2||GLASSTRANSITION BEHAVIORS:2||MECHANICAL PROPERTIES:2||DIMENSIONS:2||POLYMER MIXTURES:2||ALUMINUM PORPHYRIN:2||LEAD STEARATE:2||FERROCENE:2||POLY(EPSILONCAPROLACTONE):2||DIAGRAM:2||nucleosides:2||Selective recognition by preconcentration:2||Electrochemical impedance spectroscopy:2||DOPAMINE:2||Silica:2||Silyl Ester:2||DIETHYL ESTER) PRECURSORS:2||SURFACE CHARACTERIZATION:2||MICROSTRUCTURE:2||polystyreneblockpolyisoprene:2||MICROPHASESEPARATED STRUCTURES:2||IMPEDANCE MEASUREMENTS:2||HEMEPROTEINS:2||SOLID SUBSTRATE:2||MOISTURE ABSORPTION:2||aromatic polyimide:2||INDUCED MORPHOLOGICALCHANGES:2||STABILITY:2||LC alignment layers:2||POLYPYROMELLITIMIDES:2||Ion mobility:2||Chiral polymer:2||OLIGOSACCHARIDES:2||OXIDE:2||SIDECHAIN:2||RETARDATION:2||functionality:2||temperature effects:2||phase transition:2||glass transition temperature:2||spincoated film:2||ESTER) PRECURSORS:2||PRECURSOR BLEND:2||Xray reflectivity:2||SIGMABONDS:2||aluminum porphyrin catalysts:2||METALLOPORPHYRIN:2||SILICON:2||MASSSPECTROMETRY ANALYSIS:2||STAR POLYMERS:2||SIZE DISTRIBUTIONS:2||GIANT VESICLES:2||POLY(3ALKYLTHIOPHENES):2||ADHESION:2||LIGHT:2||POLYSTYRENEBPOLYISOPRENE:2||HPLC fractionation:2||SILVER ELECTRODES:2||ENHANCED RESONANCE RAMAN:2||SEQUENCE:2||POLYELECTROLYTE/NONELECTROLYTE SHELLS:2||polyimide:2||liquid crystal alignment layer:2||SOLUBLE POLYIMIDES:2||POLYBUTADIENECOATED ZIRCONIA:2||PRETILT ANGLES:2||CROSSSECTIONS:2||IMSMS:2||POLYISOPRENE COPOLYMERS:2||POLYIMIDE THINFILMS:2||POLYMER SURFACES:2||RAMAN:2||STEREOREGULAR PMMA:2||poly(tertbutyl methacrylate) (PtBMA):2||TIME:2||POLYIMIDE COMPOSITE:2||CARBOXYLATO COMPLEXES:2||AGOSTIC INTERACTIONS:2||MOLECULARSTRUCTURE:2||ALKENE:2||TRANSISTOR MEMORY:2||DEVICES:2||ORTHOGONALITY:2||molecular characterization:2||ORGANOSILICATE DIELECTRIC FILMS:2||AMPHIPHILES:2||Serotonin:2||Anodic stripping differential pulse voltammetry:2||transmission electron microtomography:2||LIQUIDCHROMATOGRAPHY ANALYSIS:2||PHASEDIAGRAM:2||CARBON NANOTUBES:2||TRANSFER MECHANISM:2||BINARY MIXTURES:2||REFLECTOMETRY:2||ROD:2||DROPS:2||CONSTANT:2||TRIBLOCK COPOLYMER:2||POLYMER VESICLES:2||CLICK CHEMISTRY:2||ARRAYS:2||COMPOSITES:2||MALDITOF MS:2||POLYMER THINFILMS:2||HYDROPHOBIC INTERACTION CHROMATOGRAPHY:2||retention mechanism:2||GRAZINGINCIDENCE:2||NANOPOROSITY:2||soluble poly(amic esteraltimide)s:2||DIFFERENTIAL SCANNING CALORIMETRY:2||RESIDUALSTRESS:2||CHEMICALCOMPOSITION:2||POLY(AMIC DIETHYL ESTER) PRECURSOR:2||POLY(DIMETHYL SILOXANES):2||MASS POLYSTYRENES:2||cyclic propylene carbonate:2||propylene oxide:2||ACETATE) TOLUENE SOLUTIONS:2||TRANSIENT GRATING METHOD:2||MASS DIFFUSION:2||MICROPHASE SEPARATION TRANSITION:2||POLYSTYRENES:2||POLYSILANE:2||CARBOHYDRATEBASED PHOSPHOLIPIDS:2||HELICAL STRANDS:2||FLUORESCENCE DETECTION:2||SENSITIVE DETERMINATION:2||COMPOSITE FILMS:2||microphase:2||3MERCAPTOPROPIONIC ACID:2||BUTADIENE BLOCK COPOLYMER:2||HYBRID POLYMERIC MICELLES:2||AQUEOUSMEDIA:2||CONTACTANGLE:2||TRANSISTORCIRCUITS:2||ABTYPE POLY(ETHERIMIDE)S:2||CORRELATION SPECTROSCOPY:2||GASPHASE CONFORMATIONS:2||DECANE:2||INFRAREDSPECTROSCOPY:2||MICELLIZATION:2||ENERGIES:2||ACID) PRECURSORS:2||PHOTOALIGNMENT:2||polymers:2||SUBSTRATE:2||carbon dioxide:2||oligomeric propylene carbonate:2||THERMALDIFFUSION:2||CRYSTAL:2||PHASETRANSITION:2||REFLECTIVITY:2||ANALOGS:2||supramolecular chemistry:2||LYSOPHOSPHATIDIC ACID:2||PHOSPHOCHOLINE:2||POLY(3HEXYLTHIOPHENE):2||Receptor:2||MODIFIED GOLD ELECTRODES:2||ASCORBICACID:2||HUMAN URINE:2||Hybrid Nanocomposite:2||Dielectric Constant:2||AU(111) ELECTRODES:2||NANOFILMS:2||HYDROPHOBIC CORES:2||DRIVEN:2||FLEXIBLE SIDECHAINS:2||MESOGEN:2||size exclusion chromatography:2||ORGANIZATION:2||POLY(LACTIC ACID):2||MOLECULAR ARCHITECTURE:2||COUPLER:2||POLYSTYRENE COPOLYMER:2||diffusion coefficient:2||XRAY REFLECTIVITY:2||temperature gradient interaction chromatography polystyryllithium:2||VISCOELASTIC PROPERTIES:2||polyisoprene:2||CRYSTALSTRUCTURES:2||POLYCARBONATE:2||MULTILAYERS:2||DEPOSITION:2||FULL ADSORPTION MECHANISMS:2||QUANTUM DOTS:2||CRITICAL ORDERING TRANSITION:2||CORE:2||PARACRYSTALLINE DISTORTION:2||PERFORATED LAYER PHASE:2||liposomes:2||phospholipids:2||UNILAMELLAR VESICLES:2||VOLTAMMETRIC DETERMINATION:2||Polyimide:2||FOURIERTRANSFORM:2||SURFACE:2||SIZE EXCLUSION CHROMATOGRAPHY:2||NEUTRON REFLECTIVITY:2||ORDERED STRUCTURE:2||RIGID ROD POLYMERS:2||DISPLACEMENT POLYMERIZATION:2||PHOTOSENSITIVE POLYIMIDE:2||EFFICIENCY:2||films:2||Polylactide:2||CHROMATOGRAPHIC CRITICAL CONDITION:2||RETENTION MECHANISM:2||COPPER PHTHALOCYANINE:2||C60:2||COPOLYMER:2||micelle:2||LINEAR POLYETHYLENE:2||LIQUIDS:2||ARMS:2||HIGHPERFORMANCE LIQUID:2||alternating copolyimides:2||PHASE SEPARATION:2||POLYMERCHAINS:2||STYRYLPYRIDINIUM:2||ANGLES:2||MOBILITY:2||PROBE:2||ACIDS:2||BLUE:2||POSITIONS:2||CYCLOPENTADIENYL:2||HIGHMOLECULARWEIGHT:2||FUELCELLS:2||TIN OXIDE:2||NANOCRYSTALS:2||SURFACE MICELLE FORMATION:2||DISORDER TRANSITION:2||BIREFRINGENCE:2||LIPIDCOMPOSITION:2||CONJUGATED POLYMERS:2||GLASSYCARBON ELECTRODE:2||ELECTROCHEMICAL DETECTION:2||MULTIPLE DETECTION:2||aromatic polyimides:2||MOLECULARWEIGHT HOMOPOLYMERS:2||BINARYMIXTURE:2||PATTERNS:2||photoluminescent polyimide:2||photosensitive polyimide:2||DEPENDENT MICELLIZATION:2||SPEED:2||synthesis:2||COIL BLOCKCOPOLYMERS:2||LIQUIDCRYSTALLINE ASSEMBLIES:2||OXIDE):2||molecular weight distribution:2||CONJUGATED POLYMER:2||polymer characterization:2||NONIONIC SURFACTANTS:2||STEREOREGULAR POLY(METHYL METHACRYLATE):2||structure:2||RODLIKE POLYIMIDE:2||FLEXIBLE POLYIMIDE:2||THERMAL IMIDIZATION:2||IN SITU RODCHAIN FORMATION:2||PHASESEPARATION:2||VINYL ETHER):2||EQUILIBRIUM:2||STRESS:2||STRUCTURAL RELAXATION:2||LIVING POLYMERIZATION:2||CONTAIN:2||SALT:2||WAVEGUIDE:2||XRAY DIFFRACTION:2||WALLED CARBON NANOTUBES:2||SILICON NANOWIRES:2||IR:2||DIELECTRIC THINFILMS:2||Selfassembled monolayer:2||PARAMETERS:2||Temperature gradient interaction chromatography:2||SOLIDSURFACES:2||FLOW:2||RATES:2||PRECURSORS:2||FILM BALANCE:2||SIDECHAINS:2||SUPRAMOLECULAR MATERIALS:2||CHAINS:2||POLYSTYRENE:39||ANIONICPOLYMERIZATION:34||GRADIENT INTERACTION CHROMATOGRAPHY:31||SEPARATION:27||BEHAVIOR:24||LIQUIDCHROMATOGRAPHY:22||POLYMERS:22||SIZEEXCLUSION CHROMATOGRAPHY:19||BLOCKCOPOLYMERS:17||DIBLOCK COPOLYMERS:17||THINFILMS:16||POLYISOPRENE:14||HPLC:13||SYNTHETICPOLYMERS:12||PERFORMANCE LIQUIDCHROMATOGRAPHY:11||DIBLOCK COPOLYMER:11||MOLECULARWEIGHT DISTRIBUTION:10||MACROMOLECULES:10||BLOCKCOPOLYMER:10||REVERSEDPHASE:10||RETENTION BEHAVIOR:10||MORPHOLOGY:9||MOLECULARWEIGHT:9||MELTS:9||AROMATIC POLYIMIDES:8||XRAYSCATTERING:8||polystyrene:8||MIXTURES:7||block copolymer:7||SURFACES:7||DEPENDENCE:7||COPOLYMERS:7||POLYMERIZATION:7||AIR/WATER INTERFACE:7||DEFINED BRUSH POLYIMIDE:6||TEMPERATURE:6||FULLY RODLIKE BACKBONE:6||MONOLAYERS:6||POLYIMIDES:6||CHAIN:6||COMPLEX POLYMERS:6||MOLECULARREORIENTATION:6||temperature gradient interaction chromatography:6||POLYMERFILMS:6||GELPERMEATION CHROMATOGRAPHY:6||ELUTION:6||ORDERDISORDER TRANSITION:6||SURFACEMORPHOLOGY:6||ORIENTATION:6||SYSTEMS:6||CRITICAL ADSORPTION POINT:6||LIGHTSCATTERING:5||PROBE DIFFUSION:5||POLYDISPERSITY:5||AIRWATERINTERFACE:5||MICROPHASE SEPARATION:5||GLASSTRANSITION:5||BLENDS:5||FILMS:5||ADSORPTION CHROMATOGRAPHY:5||MECHANISM:5||CO2:5||ETHYLENEOXIDE:5||ALIGNMENT:5||COMPLEXES:5||FRACTIONATION:5||MISCIBILITY:5||POLYMER CHARACTERIZATION:5||HEXAGONALLY PERFORATED LAYER:5||TRANSITION:5||FLIGHT MASSSPECTROMETRY:5||ARCHITECTURE:5||POLY(METHYL METHACRYLATE):5||ALTERNATING COPOLYMERIZATION:4||THICKNESS:4||THERMODYNAMICS:4||CRITICAL RANGE:4||ULTRATHIN POLYMERFILMS:4||DYNAMICS:4||CLIMATECHANGE:4||PHASE:4||GLASSTRANSITION TEMPERATURE:4||EPOXIDE:4||selfassembly:4||SPECTROSCOPY:4||SELFDIFFUSION:4||SCATTERING:4||OPTICALPROPERTIES:4||CATALYSTS:4||CHEMISTRY:4||SOLARCELLS:4||polyimides:4||polypyromellitimides:4||SEGMENTAL REORIENTATIONS:4||ADSORPTION:4||INTERFACE:4||POLYMERSOLUTIONS:4||TRACER DIFFUSION:4||OXIDE) DIBLOCK COPOLYMER:4||POLYSTYRENEBPOLY(METHYL METHACRYLATE):4||POLYMER BLENDS:4||SIMULATION:4||CHAIN ORIENTATION:4||STYRENE:4||TOF MASSSPECTROMETRY:4||WATER:4||DISPLAYS:4||OLIGOMERS:4||PEPTIDES:4||CYCLIC POLYSTYRENE:4||LATTICE CLUSTER THEORY:4||2NDHARMONIC GENERATION:4||LIQUIDCRYSTAL ALIGNMENT:4||MONTECARLO:4||LangmuirBlodgett film:3||ASSEMBLIES:3||chromatography:3||HOLOGRAPHIC RELAXATION SPECTROSCOPY:3||MULTIPLE MORPHOLOGIES:3||INTERACTION CHROMATOGRAPHY:3||NORMALPHASE:3||DIFFUSION:3||BRANCHED POLYSTYRENE:3||NANOPARTICLES:3||LITHOGRAPHY:3||POLYMER:3||LASERLIGHTSCATTERING:3||HIGH MOLECULARWEIGHT:3||CUBIC PHASE:3||AMPHIPHILIC BLOCKCOPOLYMERS:3||AQUEOUSSOLUTION:3||MODEL:3||FORCED RAYLEIGHSCATTERING:3||HYDRODYNAMIC PROPERTIES:3||4MIKTOARM STAR COPOLYMER:3||SYSTEM:3||PHASEBEHAVIOR:3||AQUEOUSSOLUTIONS:3||RHEOLOGY:3||LB film:3||2DIMENSIONAL LIQUIDCHROMATOGRAPHY:3||VISCOSITY:3||DIBLOCK COPOLYMER MELTS:3||ORDERORDER TRANSITION:3||GYROID PHASE:3||BINDING:3||BLOCK POLYELECTROLYTES:3||DERIVATIVES:3||MELT:3||PHASE LIQUIDCHROMATOGRAPHY:3||high temperature:3||ELEVATEDTEMPERATURE:3||RETENTION:3||MICELLE FORMATION:3||ELECTRONMICROSCOPY:3||Electrospray ionization:2||FRACTIONS:2||nalkanes:2||ISOCRATIC SEPARATION:2||ASSOCIATION:2||POLY(METHYL METHACRYLATE)S:2||2D correlation spectroscopy:2||CARBONATION:2||GLASSTRANSITION BEHAVIORS:2||MECHANICAL PROPERTIES:2||DIMENSIONS:2||POLYMER MIXTURES:2||ALUMINUM PORPHYRIN:2||LEAD STEARATE:2||FERROCENE:2||POLY(EPSILONCAPROLACTONE):2||DIAGRAM:2||nucleosides:2||Selective recognition by preconcentration:2||Electrochemical impedance spectroscopy:2||DOPAMINE:2||Silica:2||Silyl Ester:2||DIETHYL ESTER) PRECURSORS:2||SURFACE CHARACTERIZATION:2||MICROSTRUCTURE:2||polystyreneblockpolyisoprene:2||MICROPHASESEPARATED STRUCTURES:2||IMPEDANCE MEASUREMENTS:2||HEMEPROTEINS:2||SOLID SUBSTRATE:2||MOISTURE ABSORPTION:2||aromatic polyimide:2||INDUCED MORPHOLOGICALCHANGES:2||STABILITY:2||LC alignment layers:2||POLYPYROMELLITIMIDES:2||Ion mobility:2||Chiral polymer:2||OLIGOSACCHARIDES:2||OXIDE:2||SIDECHAIN:2||RETARDATION:2||functionality:2||temperature effects:2||phase transition:2||glass transition temperature:2||spincoated film:2||ESTER) PRECURSORS:2||PRECURSOR BLEND:2||Xray reflectivity:2||SIGMABONDS:2||aluminum porphyrin catalysts:2||METALLOPORPHYRIN:2||SILICON:2||MASSSPECTROMETRY ANALYSIS:2||STAR POLYMERS:2||SIZE DISTRIBUTIONS:2||GIANT VESICLES:2||POLY(3ALKYLTHIOPHENES):2||ADHESION:2||LIGHT:2||POLYSTYRENEBPOLYISOPRENE:2||HPLC fractionation:2||SILVER ELECTRODES:2||ENHANCED RESONANCE RAMAN:2||SEQUENCE:2||POLYELECTROLYTE/NONELECTROLYTE SHELLS:2||polyimide:2||liquid crystal alignment layer:2||SOLUBLE POLYIMIDES:2||POLYBUTADIENECOATED ZIRCONIA:2||PRETILT ANGLES:2||CROSSSECTIONS:2||IMSMS:2||POLYISOPRENE COPOLYMERS:2||POLYIMIDE THINFILMS:2||POLYMER SURFACES:2||RAMAN:2||STEREOREGULAR PMMA:2||poly(tertbutyl methacrylate) (PtBMA):2||TIME:2||POLYIMIDE COMPOSITE:2||CARBOXYLATO COMPLEXES:2||AGOSTIC INTERACTIONS:2||MOLECULARSTRUCTURE:2||ALKENE:2||TRANSISTOR MEMORY:2||DEVICES:2||ORTHOGONALITY:2||molecular characterization:2||ORGANOSILICATE DIELECTRIC FILMS:2||AMPHIPHILES:2||Serotonin:2||Anodic stripping differential pulse voltammetry:2||transmission electron microtomography:2||LIQUIDCHROMATOGRAPHY ANALYSIS:2||PHASEDIAGRAM:2||CARBON NANOTUBES:2||TRANSFER MECHANISM:2||BINARY MIXTURES:2||REFLECTOMETRY:2||ROD:2||DROPS:2||CONSTANT:2||TRIBLOCK COPOLYMER:2||POLYMER VESICLES:2||CLICK CHEMISTRY:2||ARRAYS:2||COMPOSITES:2||MALDITOF MS:2||POLYMER THINFILMS:2||HYDROPHOBIC INTERACTION CHROMATOGRAPHY:2||retention mechanism:2||GRAZINGINCIDENCE:2||NANOPOROSITY:2||soluble poly(amic esteraltimide)s:2||DIFFERENTIAL SCANNING CALORIMETRY:2||RESIDUALSTRESS:2||CHEMICALCOMPOSITION:2||POLY(AMIC DIETHYL ESTER) PRECURSOR:2||POLY(DIMETHYL SILOXANES):2||MASS POLYSTYRENES:2||cyclic propylene carbonate:2||propylene oxide:2||ACETATE) TOLUENE SOLUTIONS:2||TRANSIENT GRATING METHOD:2||MASS DIFFUSION:2||MICROPHASE SEPARATION TRANSITION:2||POLYSTYRENES:2||POLYSILANE:2||CARBOHYDRATEBASED PHOSPHOLIPIDS:2||HELICAL STRANDS:2||FLUORESCENCE DETECTION:2||SENSITIVE DETERMINATION:2||COMPOSITE FILMS:2||microphase:2||3MERCAPTOPROPIONIC ACID:2||BUTADIENE BLOCK COPOLYMER:2||HYBRID POLYMERIC MICELLES:2||AQUEOUSMEDIA:2||CONTACTANGLE:2||TRANSISTORCIRCUITS:2||ABTYPE POLY(ETHERIMIDE)S:2||CORRELATION SPECTROSCOPY:2||GASPHASE CONFORMATIONS:2||DECANE:2||INFRAREDSPECTROSCOPY:2||MICELLIZATION:2||ENERGIES:2||ACID) PRECURSORS:2||PHOTOALIGNMENT:2||polymers:2||SUBSTRATE:2||carbon dioxide:2||oligomeric propylene carbonate:2||THERMALDIFFUSION:2||CRYSTAL:2||PHASETRANSITION:2||REFLECTIVITY:2||ANALOGS:2||supramolecular chemistry:2||LYSOPHOSPHATIDIC ACID:2||PHOSPHOCHOLINE:2||POLY(3HEXYLTHIOPHENE):2||Receptor:2||MODIFIED GOLD ELECTRODES:2||ASCORBICACID:2||HUMAN URINE:2||Hybrid Nanocomposite:2||Dielectric Constant:2||AU(111) ELECTRODES:2||NANOFILMS:2||HYDROPHOBIC CORES:2||DRIVEN:2||FLEXIBLE SIDECHAINS:2||MESOGEN:2||size exclusion chromatography:2||ORGANIZATION:2||POLY(LACTIC ACID):2||MOLECULAR ARCHITECTURE:2||COUPLER:2||POLYSTYRENE COPOLYMER:2||diffusion coefficient:2||XRAY REFLECTIVITY:2||temperature gradient interaction chromatography polystyryllithium:2||VISCOELASTIC PROPERTIES:2||polyisoprene:2||CRYSTALSTRUCTURES:2||POLYCARBONATE:2||MULTILAYERS:2||DEPOSITION:2||FULL ADSORPTION MECHANISMS:2||QUANTUM DOTS:2||CRITICAL ORDERING TRANSITION:2||CORE:2||PARACRYSTALLINE DISTORTION:2||PERFORATED LAYER PHASE:2||liposomes:2||phospholipids:2||UNILAMELLAR VESICLES:2||VOLTAMMETRIC DETERMINATION:2||Polyimide:2||FOURIERTRANSFORM:2||SURFACE:2||SIZE EXCLUSION CHROMATOGRAPHY:2||NEUTRON REFLECTIVITY:2||ORDERED STRUCTURE:2||RIGID ROD POLYMERS:2||DISPLACEMENT POLYMERIZATION:2||PHOTOSENSITIVE POLYIMIDE:2||EFFICIENCY:2||films:2||Polylactide:2||CHROMATOGRAPHIC CRITICAL CONDITION:2||RETENTION MECHANISM:2||COPPER PHTHALOCYANINE:2||C60:2||COPOLYMER:2||micelle:2||LINEAR POLYETHYLENE:2||LIQUIDS:2||ARMS:2||HIGHPERFORMANCE LIQUID:2||alternating copolyimides:2||PHASE SEPARATION:2||POLYMERCHAINS:2||STYRYLPYRIDINIUM:2||ANGLES:2||MOBILITY:2||PROBE:2||ACIDS:2||BLUE:2||POSITIONS:2||CYCLOPENTADIENYL:2||HIGHMOLECULARWEIGHT:2||FUELCELLS:2||TIN OXIDE:2||NANOCRYSTALS:2||SURFACE MICELLE FORMATION:2||DISORDER TRANSITION:2||BIREFRINGENCE:2||LIPIDCOMPOSITION:2||CONJUGATED POLYMERS:2||GLASSYCARBON ELECTRODE:2||ELECTROCHEMICAL DETECTION:2||MULTIPLE DETECTION:2||aromatic polyimides:2||MOLECULARWEIGHT HOMOPOLYMERS:2||BINARYMIXTURE:2||PATTERNS:2||photoluminescent polyimide:2||photosensitive polyimide:2||DEPENDENT MICELLIZATION:2||SPEED:2||synthesis:2||COIL BLOCKCOPOLYMERS:2||LIQUIDCRYSTALLINE ASSEMBLIES:2||OXIDE):2||molecular weight distribution:2||CONJUGATED POLYMER:2||polymer characterization:2||NONIONIC SURFACTANTS:2||STEREOREGULAR POLY(METHYL METHACRYLATE):2||structure:2||RODLIKE POLYIMIDE:2||FLEXIBLE POLYIMIDE:2||THERMAL IMIDIZATION:2||IN SITU RODCHAIN FORMATION:2||PHASESEPARATION:2||VINYL ETHER):2||EQUILIBRIUM:2||STRESS:2||STRUCTURAL RELAXATION:2||LIVING POLYMERIZATION:2||CONTAIN:2||SALT:2||WAVEGUIDE:2||XRAY DIFFRACTION:2||WALLED CARBON NANOTUBES:2||SILICON NANOWIRES:2||IR:2||DIELECTRIC THINFILMS:2||Selfassembled monolayer:2||PARAMETERS:2||Temperature gradient interaction chromatography:2||SOLIDSURFACES:2||FLOW:2||RATES:2||PRECURSORS:2||FILM BALANCE:2||SIDECHAINS:2||SUPRAMOLECULAR MATERIALS:2||CHAINS:2||POLYSTYRENE:39||ANIONICPOLYMERIZATION:34||GRADIENT INTERACTION CHROMATOGRAPHY:31||SEPARATION:27||BEHAVIOR:24||LIQUIDCHROMATOGRAPHY:22||POLYMERS:22||SIZEEXCLUSION CHROMATOGRAPHY:19||BLOCKCOPOLYMERS:17||DIBLOCK COPOLYMERS:17||THINFILMS:16||POLYISOPRENE:14||HPLC:13||SYNTHETICPOLYMERS:12||PERFORMANCE LIQUIDCHROMATOGRAPHY:11||DIBLOCK COPOLYMER:11||MOLECULARWEIGHT DISTRIBUTION:10||MACROMOLECULES:10||BLOCKCOPOLYMER:10||REVERSEDPHASE:10||RETENTION BEHAVIOR:10||MORPHOLOGY:9||MOLECULARWEIGHT:9||MELTS:9||AROMATIC POLYIMIDES:8||XRAYSCATTERING:8||polystyrene:8||MIXTURES:7||block copolymer:7||SURFACES:7||DEPENDENCE:7||COPOLYMERS:7||POLYMERIZATION:7||AIR/WATER INTERFACE:7||DEFINED BRUSH POLYIMIDE:6||TEMPERATURE:6||FULLY RODLIKE BACKBONE:6||MONOLAYERS:6||POLYIMIDES:6||CHAIN:6||COMPLEX POLYMERS:6||MOLECULARREORIENTATION:6||temperature gradient interaction chromatography:6||POLYMERFILMS:6||GELPERMEATION CHROMATOGRAPHY:6||ELUTION:6||ORDERDISORDER TRANSITION:6||SURFACEMORPHOLOGY:6||ORIENTATION:6||SYSTEMS:6||CRITICAL ADSORPTION POINT:6||LIGHTSCATTERING:5||PROBE DIFFUSION:5||POLYDISPERSITY:5||AIRWATERINTERFACE:5||MICROPHASE SEPARATION:5||GLASSTRANSITION:5||BLENDS:5||FILMS:5||ADSORPTION CHROMATOGRAPHY:5||MECHANISM:5||CO2:5||ETHYLENEOXIDE:5||ALIGNMENT:5||COMPLEXES:5||FRACTIONATION:5||MISCIBILITY:5||POLYMER CHARACTERIZATION:5||HEXAGONALLY PERFORATED LAYER:5||TRANSITION:5||FLIGHT MASSSPECTROMETRY:5||ARCHITECTURE:5||POLY(METHYL METHACRYLATE):5||ALTERNATING COPOLYMERIZATION:4||THICKNESS:4||THERMODYNAMICS:4||CRITICAL RANGE:4||ULTRATHIN POLYMERFILMS:4||DYNAMICS:4||CLIMATECHANGE:4||PHASE:4||GLASSTRANSITION TEMPERATURE:4||EPOXIDE:4||selfassembly:4||SPECTROSCOPY:4||SELFDIFFUSION:4||SCATTERING:4||OPTICALPROPERTIES:4||CATALYSTS:4||CHEMISTRY:4||SOLARCELLS:4||polyimides:4||polypyromellitimides:4||SEGMENTAL REORIENTATIONS:4||ADSORPTION:4||INTERFACE:4||POLYMERSOLUTIONS:4||TRACER DIFFUSION:4||OXIDE) DIBLOCK COPOLYMER:4||POLYSTYRENEBPOLY(METHYL METHACRYLATE):4||POLYMER BLENDS:4||SIMULATION:4||CHAIN ORIENTATION:4||STYRENE:4||TOF MASSSPECTROMETRY:4||WATER:4||DISPLAYS:4||OLIGOMERS:4||PEPTIDES:4||CYCLIC POLYSTYRENE:4||LATTICE CLUSTER THEORY:4||2NDHARMONIC GENERATION:4||LIQUIDCRYSTAL ALIGNMENT:4||MONTECARLO:4||LangmuirBlodgett film:3||ASSEMBLIES:3||chromatography:3||HOLOGRAPHIC RELAXATION SPECTROSCOPY:3||MULTIPLE MORPHOLOGIES:3||INTERACTION CHROMATOGRAPHY:3||NORMALPHASE:3||DIFFUSION:3||BRANCHED POLYSTYRENE:3||NANOPARTICLES:3||LITHOGRAPHY:3||POLYMER:3||LASERLIGHTSCATTERING:3||HIGH MOLECULARWEIGHT:3||CUBIC PHASE:3||AMPHIPHILIC BLOCKCOPOLYMERS:3||AQUEOUSSOLUTION:3||MODEL:3||FORCED RAYLEIGHSCATTERING:3||HYDRODYNAMIC PROPERTIES:3||4MIKTOARM STAR COPOLYMER:3||SYSTEM:3||PHASEBEHAVIOR:3||AQUEOUSSOLUTIONS:3||RHEOLOGY:3||LB film:3||2DIMENSIONAL LIQUIDCHROMATOGRAPHY:3||VISCOSITY:3||DIBLOCK COPOLYMER MELTS:3||ORDERORDER TRANSITION:3||GYROID PHASE:3||BINDING:3||BLOCK POLYELECTROLYTES:3||DERIVATIVES:3||MELT:3||PHASE LIQUIDCHROMATOGRAPHY:3||high temperature:3||ELEVATEDTEMPERATURE:3||RETENTION:3||MICELLE FORMATION:3||ELECTRONMICROSCOPY:3||Electrospray ionization:2||FRACTIONS:2||nalkanes:2||ISOCRATIC SEPARATION:2||ASSOCIATION:2||POLY(METHYL METHACRYLATE)S:2||2D correlation spectroscopy:2||CARBONATION:2||GLASSTRANSITION BEHAVIORS:2||MECHANICAL PROPERTIES:2||DIMENSIONS:2||POLYMER MIXTURES:2||ALUMINUM PORPHYRIN:2||LEAD STEARATE:2||FERROCENE:2||POLY(EPSILONCAPROLACTONE):2||DIAGRAM:2||nucleosides:2||Selective recognition by preconcentration:2||Electrochemical impedance spectroscopy:2||DOPAMINE:2||Silica:2||Silyl Ester:2||DIETHYL ESTER) PRECURSORS:2||SURFACE CHARACTERIZATION:2||MICROSTRUCTURE:2||polystyreneblockpolyisoprene:2||MICROPHASESEPARATED STRUCTURES:2||IMPEDANCE MEASUREMENTS:2||HEMEPROTEINS:2||SOLID SUBSTRATE:2||MOISTURE ABSORPTION:2||aromatic polyimide:2||INDUCED MORPHOLOGICALCHANGES:2||STABILITY:2||LC alignment layers:2||POLYPYROMELLITIMIDES:2||Ion mobility:2||Chiral polymer:2||OLIGOSACCHARIDES:2||OXIDE:2||SIDECHAIN:2||RETARDATION:2||functionality:2||temperature effects:2||phase transition:2||glass transition temperature:2||spincoated film:2||ESTER) PRECURSORS:2||PRECURSOR BLEND:2||Xray reflectivity:2||SIGMABONDS:2||aluminum porphyrin catalysts:2||METALLOPORPHYRIN:2||SILICON:2||MASSSPECTROMETRY ANALYSIS:2||STAR POLYMERS:2||SIZE DISTRIBUTIONS:2||GIANT VESICLES:2||POLY(3ALKYLTHIOPHENES):2||ADHESION:2||LIGHT:2||POLYSTYRENEBPOLYISOPRENE:2||HPLC fractionation:2||SILVER ELECTRODES:2||ENHANCED RESONANCE RAMAN:2||SEQUENCE:2||POLYELECTROLYTE/NONELECTROLYTE SHELLS:2||polyimide:2||liquid crystal alignment layer:2||SOLUBLE POLYIMIDES:2||POLYBUTADIENECOATED ZIRCONIA:2||PRETILT ANGLES:2||CROSSSECTIONS:2||IMSMS:2||POLYISOPRENE COPOLYMERS:2||POLYIMIDE THINFILMS:2||POLYMER SURFACES:2||RAMAN:2||STEREOREGULAR PMMA:2||poly(tertbutyl methacrylate) (PtBMA):2||TIME:2||POLYIMIDE COMPOSITE:2||CARBOXYLATO COMPLEXES:2||AGOSTIC INTERACTIONS:2||MOLECULARSTRUCTURE:2||ALKENE:2||TRANSISTOR MEMORY:2||DEVICES:2||ORTHOGONALITY:2||molecular characterization:2||ORGANOSILICATE DIELECTRIC FILMS:2||AMPHIPHILES:2||Serotonin:2||Anodic stripping differential pulse voltammetry:2||transmission electron microtomography:2||LIQUIDCHROMATOGRAPHY ANALYSIS:2||PHASEDIAGRAM:2||CARBON NANOTUBES:2||TRANSFER MECHANISM:2||BINARY MIXTURES:2||REFLECTOMETRY:2||ROD:2||DROPS:2||CONSTANT:2||TRIBLOCK COPOLYMER:2||POLYMER VESICLES:2||CLICK CHEMISTRY:2||ARRAYS:2||COMPOSITES:2||MALDITOF MS:2||POLYMER THINFILMS:2||HYDROPHOBIC INTERACTION CHROMATOGRAPHY:2||retention mechanism:2||GRAZINGINCIDENCE:2||NANOPOROSITY:2||soluble poly(amic esteraltimide)s:2||DIFFERENTIAL SCANNING CALORIMETRY:2||RESIDUALSTRESS:2||CHEMICALCOMPOSITION:2||POLY(AMIC DIETHYL ESTER) PRECURSOR:2||POLY(DIMETHYL SILOXANES):2||MASS POLYSTYRENES:2||cyclic propylene carbonate:2||propylene oxide:2||ACETATE) TOLUENE SOLUTIONS:2||TRANSIENT GRATING METHOD:2||MASS DIFFUSION:2||MICROPHASE SEPARATION TRANSITION:2||POLYSTYRENES:2||POLYSILANE:2||CARBOHYDRATEBASED PHOSPHOLIPIDS:2||HELICAL STRANDS:2||FLUORESCENCE DETECTION:2||SENSITIVE DETERMINATION:2||COMPOSITE FILMS:2||microphase:2||3MERCAPTOPROPIONIC ACID:2||BUTADIENE BLOCK COPOLYMER:2||HYBRID POLYMERIC MICELLES:2||AQUEOUSMEDIA:2||CONTACTANGLE:2||TRANSISTORCIRCUITS:2||ABTYPE POLY(ETHERIMIDE)S:2||CORRELATION SPECTROSCOPY:2||GASPHASE CONFORMATIONS:2||DECANE:2||INFRAREDSPECTROSCOPY:2||MICELLIZATION:2||ENERGIES:2||ACID) PRECURSORS:2||PHOTOALIGNMENT:2||polymers:2||SUBSTRATE:2||carbon dioxide:2||oligomeric propylene carbonate:2||THERMALDIFFUSION:2||CRYSTAL:2||PHASETRANSITION:2||REFLECTIVITY:2||ANALOGS:2||supramolecular chemistry:2||LYSOPHOSPHATIDIC ACID:2||PHOSPHOCHOLINE:2||POLY(3HEXYLTHIOPHENE):2||Receptor:2||MODIFIED GOLD ELECTRODES:2||ASCORBICACID:2||HUMAN URINE:2||Hybrid Nanocomposite:2||Dielectric Constant:2||AU(111) ELECTRODES:2||NANOFILMS:2||HYDROPHOBIC CORES:2||DRIVEN:2||FLEXIBLE SIDECHAINS:2||MESOGEN:2||size exclusion chromatography:2||ORGANIZATION:2||POLY(LACTIC ACID):2||MOLECULAR ARCHITECTURE:2||COUPLER:2||POLYSTYRENE COPOLYMER:2||diffusion coefficient:2||XRAY REFLECTIVITY:2||temperature gradient interaction chromatography polystyryllithium:2||VISCOELASTIC PROPERTIES:2||polyisoprene:2||CRYSTALSTRUCTURES:2||POLYCARBONATE:2||MULTILAYERS:2||DEPOSITION:2||FULL ADSORPTION MECHANISMS:2||QUANTUM DOTS:2||CRITICAL ORDERING TRANSITION:2||CORE:2||PARACRYSTALLINE DISTORTION:2||PERFORATED LAYER PHASE:2||liposomes:2||phospholipids:2||UNILAMELLAR VESICLES:2||VOLTAMMETRIC DETERMINATION:2||Polyimide:2||FOURIERTRANSFORM:2||SURFACE:2||SIZE EXCLUSION CHROMATOGRAPHY:2||NEUTRON REFLECTIVITY:2||ORDERED STRUCTURE:2||RIGID ROD POLYMERS:2||DISPLACEMENT POLYMERIZATION:2||PHOTOSENSITIVE POLYIMIDE:2||EFFICIENCY:2||films:2||Polylactide:2||CHROMATOGRAPHIC CRITICAL CONDITION:2||RETENTION MECHANISM:2||COPPER PHTHALOCYANINE:2||C60:2||COPOLYMER:2||micelle:2||LINEAR POLYETHYLENE:2||LIQUIDS:2||ARMS:2||HIGHPERFORMANCE LIQUID:2||alternating copolyimides:2||PHASE SEPARATION:2||POLYMERCHAINS:2||STYRYLPYRIDINIUM:2||ANGLES:2||MOBILITY:2||PROBE:2||ACIDS:2||BLUE:2||POSITIONS:2||CYCLOPENTADIENYL:2||HIGHMOLECULARWEIGHT:2||FUELCELLS:2||TIN OXIDE:2||NANOCRYSTALS:2||SURFACE MICELLE FORMATION:2||DISORDER TRANSITION:2||BIREFRINGENCE:2||LIPIDCOMPOSITION:2||CONJUGATED POLYMERS:2||GLASSYCARBON ELECTRODE:2||ELECTROCHEMICAL DETECTION:2||MULTIPLE DETECTION:2||aromatic polyimides:2||MOLECULARWEIGHT HOMOPOLYMERS:2||BINARYMIXTURE:2||PATTERNS:2||photoluminescent polyimide:2||photosensitive polyimide:2||DEPENDENT MICELLIZATION:2||SPEED:2||synthesis:2||COIL BLOCKCOPOLYMERS:2||LIQUIDCRYSTALLINE ASSEMBLIES:2||OXIDE):2||molecular weight distribution:2||CONJUGATED POLYMER:2||polymer characterization:2||NONIONIC SURFACTANTS:2||STEREOREGULAR POLY(METHYL METHACRYLATE):2||structure:2||RODLIKE POLYIMIDE:2||FLEXIBLE POLYIMIDE:2||THERMAL IMIDIZATION:2||IN SITU RODCHAIN FORMATION:2||PHASESEPARATION:2||VINYL ETHER):2||EQUILIBRIUM:2||STRESS:2||STRUCTURAL RELAXATION:2||LIVING POLYMERIZATION:2||CONTAIN:2||SALT:2||WAVEGUIDE:2||XRAY DIFFRACTION:2||WALLED CARBON NANOTUBES:2||SILICON NANOWIRES:2||IR:2||DIELECTRIC THINFILMS:2||Selfassembled monolayer:2||PARAMETERS:2||Temperature gradient interaction chromatography:2||SOLIDSURFACES:2||FLOW:2||RATES:2||PRECURSORS:2||FILM BALANCE:2||SIDECHAINS:2||SUPRAMOLECULAR MATERIALS:2||CHAINS:2||POLYSTYRENE:39||ANIONICPOLYMERIZATION:34||GRADIENT INTERACTION CHROMATOGRAPHY:31||SEPARATION:27||BEHAVIOR:24||LIQUIDCHROMATOGRAPHY:22||POLYMERS:22||SIZEEXCLUSION CHROMATOGRAPHY:19||BLOCKCOPOLYMERS:17||DIBLOCK COPOLYMERS:17||THINFILMS:16||POLYISOPRENE:14||HPLC:13||SYNTHETICPOLYMERS:12||PERFORMANCE LIQUIDCHROMATOGRAPHY:11||DIBLOCK COPOLYMER:11||MOLECULARWEIGHT DISTRIBUTION:10||MACROMOLECULES:10||BLOCKCOPOLYMER:10||REVERSEDPHASE:10||RETENTION BEHAVIOR:10||MORPHOLOGY:9||MOLECULARWEIGHT:9||MELTS:9||AROMATIC POLYIMIDES:8||XRAYSCATTERING:8||polystyrene:8||MIXTURES:7||block copolymer:7||SURFACES:7||DEPENDENCE:7||COPOLYMERS:7||POLYMERIZATION:7||AIR/WATER INTERFACE:7||DEFINED BRUSH POLYIMIDE:6||TEMPERATURE:6||FULLY RODLIKE BACKBONE:6||MONOLAYERS:6||POLYIMIDES:6||CHAIN:6||COMPLEX POLYMERS:6||MOLECULARREORIENTATION:6||temperature gradient interaction chromatography:6||POLYMERFILMS:6||GELPERMEATION CHROMATOGRAPHY:6||ELUTION:6||ORDERDISORDER TRANSITION:6||SURFACEMORPHOLOGY:6||ORIENTATION:6||SYSTEMS:6||CRITICAL ADSORPTION POINT:6||LIGHTSCATTERING:5||PROBE DIFFUSION:5||POLYDISPERSITY:5||AIRWATERINTERFACE:5||MICROPHASE SEPARATION:5||GLASSTRANSITION:5||BLENDS:5||FILMS:5||ADSORPTION CHROMATOGRAPHY:5||MECHANISM:5||CO2:5||ETHYLENEOXIDE:5||ALIGNMENT:5||COMPLEXES:5||FRACTIONATION:5||MISCIBILITY:5||POLYMER CHARACTERIZATION:5||HEXAGONALLY PERFORATED LAYER:5||TRANSITION:5||FLIGHT MASSSPECTROMETRY:5||ARCHITECTURE:5||POLY(METHYL METHACRYLATE):5||ALTERNATING COPOLYMERIZATION:4||THICKNESS:4||THERMODYNAMICS:4||CRITICAL RANGE:4||ULTRATHIN POLYMERFILMS:4||DYNAMICS:4||CLIMATECHANGE:4||PHASE:4||GLASSTRANSITION TEMPERATURE:4||EPOXIDE:4||selfassembly:4||SPECTROSCOPY:4||SELFDIFFUSION:4||SCATTERING:4||OPTICALPROPERTIES:4||CATALYSTS:4||CHEMISTRY:4||SOLARCELLS:4||polyimides:4||polypyromellitimides:4||SEGMENTAL REORIENTATIONS:4||ADSORPTION:4||INTERFACE:4||POLYMERSOLUTIONS:4||TRACER DIFFUSION:4||OXIDE) DIBLOCK COPOLYMER:4||POLYSTYRENEBPOLY(METHYL METHACRYLATE):4||POLYMER BLENDS:4||SIMULATION:4||CHAIN ORIENTATION:4||STYRENE:4||TOF MASSSPECTROMETRY:4||WATER:4||DISPLAYS:4||OLIGOMERS:4||PEPTIDES:4||CYCLIC POLYSTYRENE:4||LATTICE CLUSTER THEORY:4||2NDHARMONIC GENERATION:4||LIQUIDCRYSTAL ALIGNMENT:4||MONTECARLO:4||LangmuirBlodgett film:3||ASSEMBLIES:3||chromatography:3||HOLOGRAPHIC RELAXATION SPECTROSCOPY:3||MULTIPLE MORPHOLOGIES:3||INTERACTION CHROMATOGRAPHY:3||NORMALPHASE:3||DIFFUSION:3||BRANCHED POLYSTYRENE:3||NANOPARTICLES:3||LITHOGRAPHY:3||POLYMER:3||LASERLIGHTSCATTERING:3||HIGH MOLECULARWEIGHT:3||CUBIC PHASE:3||AMPHIPHILIC BLOCKCOPOLYMERS:3||AQUEOUSSOLUTION:3||MODEL:3||FORCED RAYLEIGHSCATTERING:3||HYDRODYNAMIC PROPERTIES:3||4MIKTOARM STAR COPOLYMER:3||SYSTEM:3||PHASEBEHAVIOR:3||AQUEOUSSOLUTIONS:3||RHEOLOGY:3||LB film:3||2DIMENSIONAL LIQUIDCHROMATOGRAPHY:3||VISCOSITY:3||DIBLOCK COPOLYMER MELTS:3||ORDERORDER TRANSITION:3||GYROID PHASE:3||BINDING:3||BLOCK POLYELECTROLYTES:3||DERIVATIVES:3||MELT:3||PHASE LIQUIDCHROMATOGRAPHY:3||high temperature:3||ELEVATEDTEMPERATURE:3||RETENTION:3||MICELLE FORMATION:3||ELECTRONMICROSCOPY:3||Electrospray ionization:2||FRACTIONS:2||nalkanes:2||ISOCRATIC SEPARATION:2||ASSOCIATION:2||POLY(METHYL METHACRYLATE)S:2||2D correlation spectroscopy:2||CARBONATION:2||GLASSTRANSITION BEHAVIORS:2||MECHANICAL PROPERTIES:2||DIMENSIONS:2||POLYMER MIXTURES:2||ALUMINUM PORPHYRIN:2||LEAD STEARATE:2||FERROCENE:2||POLY(EPSILONCAPROLACTONE):2||DIAGRAM:2||nucleosides:2||Selective recognition by preconcentration:2||Electrochemical impedance spectroscopy:2||DOPAMINE:2||Silica:2||Silyl Ester:2||DIETHYL ESTER) PRECURSORS:2||SURFACE CHARACTERIZATION:2||MICROSTRUCTURE:2||polystyreneblockpolyisoprene:2||MICROPHASESEPARATED STRUCTURES:2||IMPEDANCE MEASUREMENTS:2||HEMEPROTEINS:2||SOLID SUBSTRATE:2||MOISTURE ABSORPTION:2||aromatic polyimide:2||INDUCED MORPHOLOGICALCHANGES:2||STABILITY:2||LC alignment layers:2||POLYPYROMELLITIMIDES:2||Ion mobility:2||Chiral polymer:2||OLIGOSACCHARIDES:2||OXIDE:2||SIDECHAIN:2||RETARDATION:2||functionality:2||temperature effects:2||phase transition:2||glass transition temperature:2||spincoated film:2||ESTER) PRECURSORS:2||PRECURSOR BLEND:2||Xray reflectivity:2||SIGMABONDS:2||aluminum porphyrin catalysts:2||METALLOPORPHYRIN:2||SILICON:2||MASSSPECTROMETRY ANALYSIS:2||STAR POLYMERS:2||SIZE DISTRIBUTIONS:2||GIANT VESICLES:2||POLY(3ALKYLTHIOPHENES):2||ADHESION:2||LIGHT:2||POLYSTYRENEBPOLYISOPRENE:2||HPLC fractionation:2||SILVER ELECTRODES:2||ENHANCED RESONANCE RAMAN:2||SEQUENCE:2||POLYELECTROLYTE/NONELECTROLYTE SHELLS:2||polyimide:2||liquid crystal alignment layer:2||SOLUBLE POLYIMIDES:2||POLYBUTADIENECOATED ZIRCONIA:2||PRETILT ANGLES:2||CROSSSECTIONS:2||IMSMS:2||POLYISOPRENE COPOLYMERS:2||POLYIMIDE THINFILMS:2||POLYMER SURFACES:2||RAMAN:2||STEREOREGULAR PMMA:2||poly(tertbutyl methacrylate) (PtBMA):2||TIME:2||POLYIMIDE COMPOSITE:2||CARBOXYLATO COMPLEXES:2||AGOSTIC INTERACTIONS:2||MOLECULARSTRUCTURE:2||ALKENE:2||TRANSISTOR MEMORY:2||DEVICES:2||ORTHOGONALITY:2||molecular characterization:2||ORGANOSILICATE DIELECTRIC FILMS:2||AMPHIPHILES:2||Serotonin:2||Anodic stripping differential pulse voltammetry:2||transmission electron microtomography:2||LIQUIDCHROMATOGRAPHY ANALYSIS:2||PHASEDIAGRAM:2||CARBON NANOTUBES:2||TRANSFER MECHANISM:2||BINARY MIXTURES:2||REFLECTOMETRY:2||ROD:2||DROPS:2||CONSTANT:2||TRIBLOCK COPOLYMER:2||POLYMER VESICLES:2||CLICK CHEMISTRY:2||ARRAYS:2||COMPOSITES:2||MALDITOF MS:2||POLYMER THINFILMS:2||HYDROPHOBIC INTERACTION CHROMATOGRAPHY:2||retention mechanism:2||GRAZINGINCIDENCE:2||NANOPOROSITY:2||soluble poly(amic esteraltimide)s:2||DIFFERENTIAL SCANNING CALORIMETRY:2||RESIDUALSTRESS:2||CHEMICALCOMPOSITION:2||POLY(AMIC DIETHYL ESTER) PRECURSOR:2||POLY(DIMETHYL SILOXANES):2||MASS POLYSTYRENES:2||cyclic propylene carbonate:2||propylene oxide:2||ACETATE) TOLUENE SOLUTIONS:2||TRANSIENT GRATING METHOD:2||MASS DIFFUSION:2||MICROPHASE SEPARATION TRANSITION:2||POLYSTYRENES:2||POLYSILANE:2||CARBOHYDRATEBASED PHOSPHOLIPIDS:2||HELICAL STRANDS:2||FLUORESCENCE DETECTION:2||SENSITIVE DETERMINATION:2||COMPOSITE FILMS:2||microphase:2||3MERCAPTOPROPIONIC ACID:2||BUTADIENE BLOCK COPOLYMER:2||HYBRID POLYMERIC MICELLES:2||AQUEOUSMEDIA:2||CONTACTANGLE:2||TRANSISTORCIRCUITS:2||ABTYPE POLY(ETHERIMIDE)S:2||CORRELATION SPECTROSCOPY:2||GASPHASE CONFORMATIONS:2||DECANE:2||INFRAREDSPECTROSCOPY:2||MICELLIZATION:2||ENERGIES:2||ACID) PRECURSORS:2||PHOTOALIGNMENT:2||polymers:2||SUBSTRATE:2||carbon dioxide:2||oligomeric propylene carbonate:2||THERMALDIFFUSION:2||CRYSTAL:2||PHASETRANSITION:2||REFLECTIVITY:2||ANALOGS:2||supramolecular chemistry:2||LYSOPHOSPHATIDIC ACID:2||PHOSPHOCHOLINE:2||POLY(3HEXYLTHIOPHENE):2||Receptor:2||MODIFIED GOLD ELECTRODES:2||ASCORBICACID:2||HUMAN URINE:2||Hybrid Nanocomposite:2||Dielectric Constant:2||AU(111) ELECTRODES:2||NANOFILMS:2||HYDROPHOBIC CORES:2||DRIVEN:2||FLEXIBLE SIDECHAINS:2||MESOGEN:2||size exclusion chromatography:2||ORGANIZATION:2||POLY(LACTIC ACID):2||MOLECULAR ARCHITECTURE:2||COUPLER:2||POLYSTYRENE COPOLYMER:2||diffusion coefficient:2||XRAY REFLECTIVITY:2||temperature gradient interaction chromatography polystyryllithium:2||VISCOELASTIC PROPERTIES:2||polyisoprene:2||CRYSTALSTRUCTURES:2||POLYCARBONATE:2||MULTILAYERS:2||DEPOSITION:2||FULL ADSORPTION MECHANISMS:2||QUANTUM DOTS:2||CRITICAL ORDERING TRANSITION:2||CORE:2||PARACRYSTALLINE DISTORTION:2||PERFORATED LAYER PHASE:2||liposomes:2||phospholipids:2||UNILAMELLAR VESICLES:2||VOLTAMMETRIC DETERMINATION:2||Polyimide:2||FOURIERTRANSFORM:2||SURFACE:2||SIZE EXCLUSION CHROMATOGRAPHY:2||NEUTRON REFLECTIVITY:2||ORDERED STRUCTURE:2||RIGID ROD POLYMERS:2||DISPLACEMENT POLYMERIZATION:2||PHOTOSENSITIVE POLYIMIDE:2||EFFICIENCY:2||films:2||Polylactide:2||CHROMATOGRAPHIC CRITICAL CONDITION:2||RETENTION MECHANISM:2||COPPER PHTHALOCYANINE:2||C60:2||COPOLYMER:2||micelle:2||LINEAR POLYETHYLENE:2||LIQUIDS:2||ARMS:2||HIGHPERFORMANCE LIQUID:2||alternating copolyimides:2||PHASE SEPARATION:2||POLYMERCHAINS:2||STYRYLPYRIDINIUM:2||ANGLES:2||MOBILITY:2||PROBE:2||ACIDS:2||BLUE:2||POSITIONS:2||CYCLOPENTADIENYL:2||HIGHMOLECULARWEIGHT:2||FUELCELLS:2||TIN OXIDE:2||NANOCRYSTALS:2||SURFACE MICELLE FORMATION:2||DISORDER TRANSITION:2||BIREFRINGENCE:2||LIPIDCOMPOSITION:2||CONJUGATED POLYMERS:2||GLASSYCARBON ELECTRODE:2||ELECTROCHEMICAL DETECTION:2||MULTIPLE DETECTION:2||aromatic polyimides:2||MOLECULARWEIGHT HOMOPOLYMERS:2||BINARYMIXTURE:2||PATTERNS:2||photoluminescent polyimide:2||photosensitive polyimide:2||DEPENDENT MICELLIZATION:2||SPEED:2||synthesis:2||COIL BLOCKCOPOLYMERS:2||LIQUIDCRYSTALLINE ASSEMBLIES:2||OXIDE):2||molecular weight distribution:2||CONJUGATED POLYMER:2||polymer characterization:2||NONIONIC SURFACTANTS:2||STEREOREGULAR POLY(METHYL METHACRYLATE):2||structure:2||RODLIKE POLYIMIDE:2||FLEXIBLE POLYIMIDE:2||THERMAL IMIDIZATION:2||IN SITU RODCHAIN FORMATION:2||PHASESEPARATION:2||VINYL ETHER):2||EQUILIBRIUM:2||STRESS:2||STRUCTURAL RELAXATION:2||LIVING POLYMERIZATION:2||CONTAIN:2||SALT:2||WAVEGUIDE:2||XRAY DIFFRACTION:2||WALLED CARBON NANOTUBES:2||SILICON NANOWIRES:2||IR:2||DIELECTRIC THINFILMS:2||Selfassembled monolayer:2||PARAMETERS:2||Temperature gradient interaction chromatography:2||SOLIDSURFACES:2||FLOW:2||RATES:2||PRECURSORS:2||FILM BALANCE:2||SIDECHAINS:2||SUPRAMOLECULAR MATERIALS:2||CHAINS:2||POLYSTYRENE:39||ANIONICPOLYMERIZATION:34||GRADIENT INTERACTION CHROMATOGRAPHY:31||SEPARATION:27||BEHAVIOR:24||LIQUIDCHROMATOGRAPHY:22||POLYMERS:22||SIZEEXCLUSION CHROMATOGRAPHY:19||BLOCKCOPOLYMERS:17||DIBLOCK COPOLYMERS:17||THINFILMS:16||POLYISOPRENE:14||HPLC:13||SYNTHETICPOLYMERS:12||PERFORMANCE LIQUIDCHROMATOGRAPHY:11||DIBLOCK COPOLYMER:11||MOLECULARWEIGHT DISTRIBUTION:10||MACROMOLECULES:10||BLOCKCOPOLYMER:10||REVERSEDPHASE:10||RETENTION BEHAVIOR:10||MORPHOLOGY:9||MOLECULARWEIGHT:9||MELTS:9||AROMATIC POLYIMIDES:8||XRAYSCATTERING:8||polystyrene:8||MIXTURES:7||block copolymer:7||SURFACES:7||DEPENDENCE:7||COPOLYMERS:7||POLYMERIZATION:7||AIR/WATER INTERFACE:7||DEFINED BRUSH POLYIMIDE:6||TEMPERATURE:6||FULLY RODLIKE BACKBONE:6||MONOLAYERS:6||POLYIMIDES:6||CHAIN:6||COMPLEX POLYMERS:6||MOLECULARREORIENTATION:6||temperature gradient interaction chromatography:6||POLYMERFILMS:6||GELPERMEATION CHROMATOGRAPHY:6||ELUTION:6||ORDERDISORDER TRANSITION:6||SURFACEMORPHOLOGY:6||ORIENTATION:6||SYSTEMS:6||CRITICAL ADSORPTION POINT:6||LIGHTSCATTERING:5||PROBE DIFFUSION:5||POLYDISPERSITY:5||AIRWATERINTERFACE:5||MICROPHASE SEPARATION:5||GLASSTRANSITION:5||BLENDS:5||FILMS:5||ADSORPTION CHROMATOGRAPHY:5||MECHANISM:5||CO2:5||ETHYLENEOXIDE:5||ALIGNMENT:5||COMPLEXES:5||FRACTIONATION:5||MISCIBILITY:5||POLYMER CHARACTERIZATION:5||HEXAGONALLY PERFORATED LAYER:5||TRANSITION:5||FLIGHT MASSSPECTROMETRY:5||ARCHITECTURE:5||POLY(METHYL METHACRYLATE):5||ALTERNATING COPOLYMERIZATION:4||THICKNESS:4||THERMODYNAMICS:4||CRITICAL RANGE:4||ULTRATHIN POLYMERFILMS:4||DYNAMICS:4||CLIMATECHANGE:4||PHASE:4||GLASSTRANSITION TEMPERATURE:4||EPOXIDE:4||selfassembly:4||SPECTROSCOPY:4||SELFDIFFUSION:4||SCATTERING:4||OPTICALPROPERTIES:4||CATALYSTS:4||CHEMISTRY:4||SOLARCELLS:4||polyimides:4||polypyromellitimides:4||SEGMENTAL REORIENTATIONS:4||ADSORPTION:4||INTERFACE:4||POLYMERSOLUTIONS:4||TRACER DIFFUSION:4||OXIDE) DIBLOCK COPOLYMER:4||POLYSTYRENEBPOLY(METHYL METHACRYLATE):4||POLYMER BLENDS:4||SIMULATION:4||CHAIN ORIENTATION:4||STYRENE:4||TOF MASSSPECTROMETRY:4||WATER:4||DISPLAYS:4||OLIGOMERS:4||PEPTIDES:4||CYCLIC POLYSTYRENE:4||LATTICE CLUSTER THEORY:4||2NDHARMONIC GENERATION:4||LIQUIDCRYSTAL ALIGNMENT:4||MONTECARLO:4||LangmuirBlodgett film:3||ASSEMBLIES:3||chromatography:3||HOLOGRAPHIC RELAXATION SPECTROSCOPY:3||MULTIPLE MORPHOLOGIES:3||INTERACTION CHROMATOGRAPHY:3||NORMALPHASE:3||DIFFUSION:3||BRANCHED POLYSTYRENE:3||NANOPARTICLES:3||LITHOGRAPHY:3||POLYMER:3||LASERLIGHTSCATTERING:3||HIGH MOLECULARWEIGHT:3||CUBIC PHASE:3||AMPHIPHILIC BLOCKCOPOLYMERS:3||AQUEOUSSOLUTION:3||MODEL:3||FORCED RAYLEIGHSCATTERING:3||HYDRODYNAMIC PROPERTIES:3||4MIKTOARM STAR COPOLYMER:3||SYSTEM:3||PHASEBEHAVIOR:3||AQUEOUSSOLUTIONS:3||RHEOLOGY:3||LB film:3||2DIMENSIONAL LIQUIDCHROMATOGRAPHY:3||VISCOSITY:3||DIBLOCK COPOLYMER MELTS:3||ORDERORDER TRANSITION:3||GYROID PHASE:3||BINDING:3||BLOCK POLYELECTROLYTES:3||DERIVATIVES:3||MELT:3||PHASE LIQUIDCHROMATOGRAPHY:3||high temperature:3||ELEVATEDTEMPERATURE:3||RETENTION:3||MICELLE FORMATION:3||ELECTRONMICROSCOPY:3||Electrospray ionization:2||FRACTIONS:2||nalkanes:2||ISOCRATIC SEPARATION:2||ASSOCIATION:2||POLY(METHYL METHACRYLATE)S:2||2D correlation spectroscopy:2||CARBONATION:2||GLASSTRANSITION BEHAVIORS:2||MECHANICAL PROPERTIES:2||DIMENSIONS:2||POLYMER MIXTURES:2||ALUMINUM PORPHYRIN:2||LEAD STEARATE:2||FERROCENE:2||POLY(EPSILONCAPROLACTONE):2||DIAGRAM:2||nucleosides:2||Selective recognition by preconcentration:2||Electrochemical impedance spectroscopy:2||DOPAMINE:2||Silica:2||Silyl Ester:2||DIETHYL ESTER) PRECURSORS:2||SURFACE CHARACTERIZATION:2||MICROSTRUCTURE:2||polystyreneblockpolyisoprene:2||MICROPHASESEPARATED STRUCTURES:2||IMPEDANCE MEASUREMENTS:2||HEMEPROTEINS:2||SOLID SUBSTRATE:2||MOISTURE ABSORPTION:2||aromatic polyimide:2||INDUCED MORPHOLOGICALCHANGES:2||STABILITY:2||LC alignment layers:2||POLYPYROMELLITIMIDES:2||Ion mobility:2||Chiral polymer:2||OLIGOSACCHARIDES:2||OXIDE:2||SIDECHAIN:2||RETARDATION:2||functionality:2||temperature effects:2||phase transition:2||glass transition temperature:2||spincoated film:2||ESTER) PRECURSORS:2||PRECURSOR BLEND:2||Xray reflectivity:2||SIGMABONDS:2||aluminum porphyrin catalysts:2||METALLOPORPHYRIN:2||SILICON:2||MASSSPECTROMETRY ANALYSIS:2||STAR POLYMERS:2||SIZE DISTRIBUTIONS:2||GIANT VESICLES:2||POLY(3ALKYLTHIOPHENES):2||ADHESION:2||LIGHT:2||POLYSTYRENEBPOLYISOPRENE:2||HPLC fractionation:2||SILVER ELECTRODES:2||ENHANCED RESONANCE RAMAN:2||SEQUENCE:2||POLYELECTROLYTE/NONELECTROLYTE SHELLS:2||polyimide:2||liquid crystal alignment layer:2||SOLUBLE POLYIMIDES:2||POLYBUTADIENECOATED ZIRCONIA:2||PRETILT ANGLES:2||CROSSSECTIONS:2||IMSMS:2||POLYISOPRENE COPOLYMERS:2||POLYIMIDE THINFILMS:2||POLYMER SURFACES:2||RAMAN:2||STEREOREGULAR PMMA:2||poly(tertbutyl methacrylate) (PtBMA):2||TIME:2||POLYIMIDE COMPOSITE:2||CARBOXYLATO COMPLEXES:2||AGOSTIC INTERACTIONS:2||MOLECULARSTRUCTURE:2||ALKENE:2||TRANSISTOR MEMORY:2||DEVICES:2||ORTHOGONALITY:2||molecular characterization:2||ORGANOSILICATE DIELECTRIC FILMS:2||AMPHIPHILES:2||Serotonin:2||Anodic stripping differential pulse voltammetry:2||transmission electron microtomography:2||LIQUIDCHROMATOGRAPHY ANALYSIS:2||PHASEDIAGRAM:2||CARBON NANOTUBES:2||TRANSFER MECHANISM:2||BINARY MIXTURES:2||REFLECTOMETRY:2||ROD:2||DROPS:2||CONSTANT:2||TRIBLOCK COPOLYMER:2||POLYMER VESICLES:2||CLICK CHEMISTRY:2||ARRAYS:2||COMPOSITES:2||MALDITOF MS:2||POLYMER THINFILMS:2||HYDROPHOBIC INTERACTION CHROMATOGRAPHY:2||retention mechanism:2||GRAZINGINCIDENCE:2||NANOPOROSITY:2||soluble poly(amic esteraltimide)s:2||DIFFERENTIAL SCANNING CALORIMETRY:2||RESIDUALSTRESS:2||CHEMICALCOMPOSITION:2||POLY(AMIC DIETHYL ESTER) PRECURSOR:2||POLY(DIMETHYL SILOXANES):2||MASS POLYSTYRENES:2||cyclic propylene carbonate:2||propylene oxide:2||ACETATE) TOLUENE SOLUTIONS:2||TRANSIENT GRATING METHOD:2||MASS DIFFUSION:2||MICROPHASE SEPARATION TRANSITION:2||POLYSTYRENES:2||POLYSILANE:2||CARBOHYDRATEBASED PHOSPHOLIPIDS:2||HELICAL STRANDS:2||FLUORESCENCE DETECTION:2||SENSITIVE DETERMINATION:2||COMPOSITE FILMS:2||microphase:2||3MERCAPTOPROPIONIC ACID:2||BUTADIENE BLOCK COPOLYMER:2||HYBRID POLYMERIC MICELLES:2||AQUEOUSMEDIA:2||CONTACTANGLE:2||TRANSISTORCIRCUITS:2||ABTYPE POLY(ETHERIMIDE)S:2||CORRELATION SPECTROSCOPY:2||GASPHASE CONFORMATIONS:2||DECANE:2||INFRAREDSPECTROSCOPY:2||MICELLIZATION:2||ENERGIES:2||ACID) PRECURSORS:2||PHOTOALIGNMENT:2||polymers:2||SUBSTRATE:2||carbon dioxide:2||oligomeric propylene carbonate:2||THERMALDIFFUSION:2||CRYSTAL:2||PHASETRANSITION:2||REFLECTIVITY:2||ANALOGS:2||supramolecular chemistry:2||LYSOPHOSPHATIDIC ACID:2||PHOSPHOCHOLINE:2||POLY(3HEXYLTHIOPHENE):2||Receptor:2||MODIFIED GOLD ELECTRODES:2||ASCORBICACID:2||HUMAN URINE:2||Hybrid Nanocomposite:2||Dielectric Constant:2||AU(111) ELECTRODES:2||NANOFILMS:2||HYDROPHOBIC CORES:2||DRIVEN:2||FLEXIBLE SIDECHAINS:2||MESOGEN:2||size exclusion chromatography:2||ORGANIZATION:2||POLY(LACTIC ACID):2||MOLECULAR ARCHITECTURE:2||COUPLER:2||POLYSTYRENE COPOLYMER:2||diffusion coefficient:2||XRAY REFLECTIVITY:2||temperature gradient interaction chromatography polystyryllithium:2||VISCOELASTIC PROPERTIES:2||polyisoprene:2||CRYSTALSTRUCTURES:2||POLYCARBONATE:2||MULTILAYERS:2||DEPOSITION:2||FULL ADSORPTION MECHANISMS:2||QUANTUM DOTS:2||CRITICAL ORDERING TRANSITION:2||CORE:2||PARACRYSTALLINE DISTORTION:2||PERFORATED LAYER PHASE:2||liposomes:2||phospholipids:2||UNILAMELLAR VESICLES:2||VOLTAMMETRIC DETERMINATION:2||Polyimide:2||FOURIERTRANSFORM:2||SURFACE:2||SIZE EXCLUSION CHROMATOGRAPHY:2||NEUTRON REFLECTIVITY:2||ORDERED STRUCTURE:2||RIGID ROD POLYMERS:2||DISPLACEMENT POLYMERIZATION:2||PHOTOSENSITIVE POLYIMIDE:2||EFFICIENCY:2||films:2||Polylactide:2||CHROMATOGRAPHIC CRITICAL CONDITION:2||RETENTION MECHANISM:2||COPPER PHTHALOCYANINE:2||C60:2||COPOLYMER:2||micelle:2||LINEAR POLYETHYLENE:2||LIQUIDS:2||ARMS:2||HIGHPERFORMANCE LIQUID:2||alternating copolyimides:2||PHASE SEPARATION:2||POLYMERCHAINS:2||STYRYLPYRIDINIUM:2||ANGLES:2||MOBILITY:2||PROBE:2||ACIDS:2||BLUE:2||POSITIONS:2||CYCLOPENTADIENYL:2||HIGHMOLECULARWEIGHT:2||FUELCELLS:2||TIN OXIDE:2||NANOCRYSTALS:2||SURFACE MICELLE FORMATION:2||DISORDER TRANSITION:2||BIREFRINGENCE:2||LIPIDCOMPOSITION:2||CONJUGATED POLYMERS:2||GLASSYCARBON ELECTRODE:2||ELECTROCHEMICAL DETECTION:2||MULTIPLE DETECTION:2||aromatic polyimides:2||MOLECULARWEIGHT HOMOPOLYMERS:2||BINARYMIXTURE:2||PATTERNS:2||photoluminescent polyimide:2||photosensitive polyimide:2||DEPENDENT MICELLIZATION:2||SPEED:2||synthesis:2||COIL BLOCKCOPOLYMERS:2||LIQUIDCRYSTALLINE ASSEMBLIES:2||OXIDE):2||molecular weight distribution:2||CONJUGATED POLYMER:2||polymer characterization:2||NONIONIC SURFACTANTS:2||STEREOREGULAR POLY(METHYL METHACRYLATE):2||structure:2||RODLIKE POLYIMIDE:2||FLEXIBLE POLYIMIDE:2||THERMAL IMIDIZATION:2||IN SITU RODCHAIN FORMATION:2||PHASESEPARATION:2||VINYL ETHER):2||EQUILIBRIUM:2||STRESS:2||STRUCTURAL RELAXATION:2||LIVING POLYMERIZATION:2||CONTAIN:2||SALT:2||WAVEGUIDE:2||XRAY DIFFRACTION:2||WALLED CARBON NANOTUBES:2||SILICON NANOWIRES:2||IR:2||DIELECTRIC THINFILMS:2||Selfassembled monolayer:2||PARAMETERS:2||Temperature gradient interaction chromatography:2||SOLIDSURFACES:2||FLOW:2||RATES:2||PRECURSORS:2||FILM BALANCE:2||SIDECHAINS:2||SUPRAMOLECULAR MATERIALS:2||CHAINS:2||POLYSTYRENE:39||ANIONICPOLYMERIZATION:34||GRADIENT INTERACTION CHROMATOGRAPHY:31||SEPARATION:27||BEHAVIOR:24||LIQUIDCHROMATOGRAPHY:22||POLYMERS:22||SIZEEXCLUSION CHROMATOGRAPHY:19||BLOCKCOPOLYMERS:17||DIBLOCK COPOLYMERS:17||THINFILMS:16||POLYISOPRENE:14||HPLC:13||SYNTHETICPOLYMERS:12||PERFORMANCE LIQUIDCHROMATOGRAPHY:11||DIBLOCK COPOLYMER:11||MOLECULARWEIGHT DISTRIBUTION:10||MACROMOLECULES:10||BLOCKCOPOLYMER:10||REVERSEDPHASE:10||RETENTION BEHAVIOR:10||MORPHOLOGY:9||MOLECULARWEIGHT:9||MELTS:9||AROMATIC POLYIMIDES:8||XRAYSCATTERING:8||polystyrene:8||MIXTURES:7||block copolymer:7||SURFACES:7||DEPENDENCE:7||COPOLYMERS:7||POLYMERIZATION:7||AIR/WATER INTERFACE:7||DEFINED BRUSH POLYIMIDE:6||TEMPERATURE:6||FULLY RODLIKE BACKBONE:6||MONOLAYERS:6||POLYIMIDES:6||CHAIN:6||COMPLEX POLYMERS:6||MOLECULARREORIENTATION:6||temperature gradient interaction chromatography:6||POLYMERFILMS:6||GELPERMEATION CHROMATOGRAPHY:6||ELUTION:6||ORDERDISORDER TRANSITION:6||SURFACEMORPHOLOGY:6||ORIENTATION:6||SYSTEMS:6||CRITICAL ADSORPTION POINT:6||LIGHTSCATTERING:5||PROBE DIFFUSION:5||POLYDISPERSITY:5||AIRWATERINTERFACE:5||MICROPHASE SEPARATION:5||GLASSTRANSITION:5||BLENDS:5||FILMS:5||ADSORPTION CHROMATOGRAPHY:5||MECHANISM:5||CO2:5||ETHYLENEOXIDE:5||ALIGNMENT:5||COMPLEXES:5||FRACTIONATION:5||MISCIBILITY:5||POLYMER CHARACTERIZATION:5||HEXAGONALLY PERFORATED LAYER:5||TRANSITION:5||FLIGHT MASSSPECTROMETRY:5||ARCHITECTURE:5||POLY(METHYL METHACRYLATE):5||ALTERNATING COPOLYMERIZATION:4||THICKNESS:4||THERMODYNAMICS:4||CRITICAL RANGE:4||ULTRATHIN POLYMERFILMS:4||DYNAMICS:4||CLIMATECHANGE:4||PHASE:4||GLASSTRANSITION TEMPERATURE:4||EPOXIDE:4||selfassembly:4||SPECTROSCOPY:4||SELFDIFFUSION:4||SCATTERING:4||OPTICALPROPERTIES:4||CATALYSTS:4||CHEMISTRY:4||SOLARCELLS:4||polyimides:4||polypyromellitimides:4||SEGMENTAL REORIENTATIONS:4||ADSORPTION:4||INTERFACE:4||POLYMERSOLUTIONS:4||TRACER DIFFUSION:4||OXIDE) DIBLOCK COPOLYMER:4||POLYSTYRENEBPOLY(METHYL METHACRYLATE):4||POLYMER BLENDS:4||SIMULATION:4||CHAIN ORIENTATION:4||STYRENE:4||TOF MASSSPECTROMETRY:4||WATER:4||DISPLAYS:4||OLIGOMERS:4||PEPTIDES:4||CYCLIC POLYSTYRENE:4||LATTICE CLUSTER THEORY:4||2NDHARMONIC GENERATION:4||LIQUIDCRYSTAL ALIGNMENT:4||MONTECARLO:4||LangmuirBlodgett film:3||ASSEMBLIES:3||chromatography:3||HOLOGRAPHIC RELAXATION SPECTROSCOPY:3||MULTIPLE MORPHOLOGIES:3||INTERACTION CHROMATOGRAPHY:3||NORMALPHASE:3||DIFFUSION:3||BRANCHED POLYSTYRENE:3||NANOPARTICLES:3||LITHOGRAPHY:3||POLYMER:3||LASERLIGHTSCATTERING:3||HIGH MOLECULARWEIGHT:3||CUBIC PHASE:3||AMPHIPHILIC BLOCKCOPOLYMERS:3||AQUEOUSSOLUTION:3||MODEL:3||FORCED RAYLEIGHSCATTERING:3||HYDRODYNAMIC PROPERTIES:3||4MIKTOARM STAR COPOLYMER:3||SYSTEM:3||PHASEBEHAVIOR:3||AQUEOUSSOLUTIONS:3||RHEOLOGY:3||LB film:3||2DIMENSIONAL LIQUIDCHROMATOGRAPHY:3||VISCOSITY:3||DIBLOCK COPOLYMER MELTS:3||ORDERORDER TRANSITION:3||GYROID PHASE:3||BINDING:3||BLOCK POLYELECTROLYTES:3||DERIVATIVES:3||MELT:3||PHASE LIQUIDCHROMATOGRAPHY:3||high temperature:3||ELEVATEDTEMPERATURE:3||RETENTION:3||MICELLE FORMATION:3||ELECTRONMICROSCOPY:3||Electrospray ionization:2||FRACTIONS:2||nalkanes:2||ISOCRATIC SEPARATION:2||ASSOCIATION:2||POLY(METHYL METHACRYLATE)S:2||2D correlation spectroscopy:2||CARBONATION:2||GLASSTRANSITION BEHAVIORS:2||MECHANICAL PROPERTIES:2||DIMENSIONS:2||POLYMER MIXTURES:2||ALUMINUM PORPHYRIN:2||LEAD STEARATE:2||FERROCENE:2||POLY(EPSILONCAPROLACTONE):2||DIAGRAM:2||nucleosides:2||Selective recognition by preconcentration:2||Electrochemical impedance spectroscopy:2||DOPAMINE:2||Silica:2||Silyl Ester:2||DIETHYL ESTER) PRECURSORS:2||SURFACE CHARACTERIZATION:2||MICROSTRUCTURE:2||polystyreneblockpolyisoprene:2||MICROPHASESEPARATED STRUCTURES:2||IMPEDANCE MEASUREMENTS:2||HEMEPROTEINS:2||SOLID SUBSTRATE:2||MOISTURE ABSORPTION:2||aromatic polyimide:2||INDUCED MORPHOLOGICALCHANGES:2||STABILITY:2||LC alignment layers:2||POLYPYROMELLITIMIDES:2||Ion mobility:2||Chiral polymer:2||OLIGOSACCHARIDES:2||OXIDE:2||SIDECHAIN:2||RETARDATION:2||functionality:2||temperature effects:2||phase transition:2||glass transition temperature:2||spincoated film:2||ESTER) PRECURSORS:2||PRECURSOR BLEND:2||Xray reflectivity:2||SIGMABONDS:2||aluminum porphyrin catalysts:2||METALLOPORPHYRIN:2||SILICON:2||MASSSPECTROMETRY ANALYSIS:2||STAR POLYMERS:2||SIZE DISTRIBUTIONS:2||GIANT VESICLES:2||POLY(3ALKYLTHIOPHENES):2||ADHESION:2||LIGHT:2||POLYSTYRENEBPOLYISOPRENE:2||HPLC fractionation:2||SILVER ELECTRODES:2||ENHANCED RESONANCE RAMAN:2||SEQUENCE:2||POLYELECTROLYTE/NONELECTROLYTE SHELLS:2||polyimide:2||liquid crystal alignment layer:2||SOLUBLE POLYIMIDES:2||POLYBUTADIENECOATED ZIRCONIA:2||PRETILT ANGLES:2||CROSSSECTIONS:2||IMSMS:2||POLYISOPRENE COPOLYMERS:2||POLYIMIDE THINFILMS:2||POLYMER SURFACES:2||RAMAN:2||STEREOREGULAR PMMA:2||poly(tertbutyl methacrylate) (PtBMA):2||TIME:2||POLYIMIDE COMPOSITE:2||CARBOXYLATO COMPLEXES:2||AGOSTIC INTERACTIONS:2||MOLECULARSTRUCTURE:2||ALKENE:2||TRANSISTOR MEMORY:2||DEVICES:2||ORTHOGONALITY:2||molecular characterization:2||ORGANOSILICATE DIELECTRIC FILMS:2||AMPHIPHILES:2||Serotonin:2||Anodic stripping differential pulse voltammetry:2||transmission electron microtomography:2||LIQUIDCHROMATOGRAPHY ANALYSIS:2||PHASEDIAGRAM:2||CARBON NANOTUBES:2||TRANSFER MECHANISM:2||BINARY MIXTURES:2||REFLECTOMETRY:2||ROD:2||DROPS:2||CONSTANT:2||TRIBLOCK COPOLYMER:2||POLYMER VESICLES:2||CLICK CHEMISTRY:2||ARRAYS:2||COMPOSITES:2||MALDITOF MS:2||POLYMER THINFILMS:2||HYDROPHOBIC INTERACTION CHROMATOGRAPHY:2||retention mechanism:2||GRAZINGINCIDENCE:2||NANOPOROSITY:2||soluble poly(amic esteraltimide)s:2||DIFFERENTIAL SCANNING CALORIMETRY:2||RESIDUALSTRESS:2||CHEMICALCOMPOSITION:2||POLY(AMIC DIETHYL ESTER) PRECURSOR:2||POLY(DIMETHYL SILOXANES):2||MASS POLYSTYRENES:2||cyclic propylene carbonate:2||propylene oxide:2||ACETATE) TOLUENE SOLUTIONS:2||TRANSIENT GRATING METHOD:2||MASS DIFFUSION:2||MICROPHASE SEPARATION TRANSITION:2||POLYSTYRENES:2||POLYSILANE:2||CARBOHYDRATEBASED PHOSPHOLIPIDS:2||HELICAL STRANDS:2||FLUORESCENCE DETECTION:2||SENSITIVE DETERMINATION:2||COMPOSITE FILMS:2||microphase:2||3MERCAPTOPROPIONIC ACID:2||BUTADIENE BLOCK COPOLYMER:2||HYBRID POLYMERIC MICELLES:2||AQUEOUSMEDIA:2||CONTACTANGLE:2||TRANSISTORCIRCUITS:2||ABTYPE POLY(ETHERIMIDE)S:2||CORRELATION SPECTROSCOPY:2||GASPHASE CONFORMATIONS:2||DECANE:2||INFRAREDSPECTROSCOPY:2||MICELLIZATION:2||ENERGIES:2||ACID) PRECURSORS:2||PHOTOALIGNMENT:2||polymers:2||SUBSTRATE:2||carbon dioxide:2||oligomeric propylene carbonate:2||THERMALDIFFUSION:2||CRYSTAL:2||PHASETRANSITION:2||REFLECTIVITY:2||ANALOGS:2||supramolecular chemistry:2||LYSOPHOSPHATIDIC ACID:2||PHOSPHOCHOLINE:2||POLY(3HEXYLTHIOPHENE):2||Receptor:2||MODIFIED GOLD ELECTRODES:2||ASCORBICACID:2||HUMAN URINE:2||Hybrid Nanocomposite:2||Dielectric Constant:2||AU(111) ELECTRODES:2||NANOFILMS:2||HYDROPHOBIC CORES:2||DRIVEN:2||FLEXIBLE SIDECHAINS:2||MESOGEN:2||size exclusion chromatography:2||ORGANIZATION:2||POLY(LACTIC ACID):2||MOLECULAR ARCHITECTURE:2||COUPLER:2||POLYSTYRENE COPOLYMER:2||diffusion coefficient:2||XRAY REFLECTIVITY:2||temperature gradient interaction chromatography polystyryllithium:2||VISCOELASTIC PROPERTIES:2||polyisoprene:2||CRYSTALSTRUCTURES:2||POLYCARBONATE:2||MULTILAYERS:2||DEPOSITION:2||FULL ADSORPTION MECHANISMS:2||QUANTUM DOTS:2||CRITICAL ORDERING TRANSITION:2||CORE:2||PARACRYSTALLINE DISTORTION:2||PERFORATED LAYER PHASE:2||liposomes:2||phospholipids:2||UNILAMELLAR VESICLES:2||VOLTAMMETRIC DETERMINATION:2||Polyimide:2||FOURIERTRANSFORM:2||SURFACE:2||SIZE EXCLUSION CHROMATOGRAPHY:2||NEUTRON REFLECTIVITY:2||ORDERED STRUCTURE:2||RIGID ROD POLYMERS:2||DISPLACEMENT POLYMERIZATION:2||PHOTOSENSITIVE POLYIMIDE:2||EFFICIENCY:2||films:2||Polylactide:2||CHROMATOGRAPHIC CRITICAL CONDITION:2||RETENTION MECHANISM:2||COPPER PHTHALOCYANINE:2||C60:2||COPOLYMER:2||micelle:2||LINEAR POLYETHYLENE:2||LIQUIDS:2||ARMS:2||HIGHPERFORMANCE LIQUID:2||alternating copolyimides:2||PHASE SEPARATION:2||POLYMERCHAINS:2||STYRYLPYRIDINIUM:2||ANGLES:2||MOBILITY:2||PROBE:2||ACIDS:2||BLUE:2||POSITIONS:2||CYCLOPENTADIENYL:2||HIGHMOLECULARWEIGHT:2||FUELCELLS:2||TIN OXIDE:2||NANOCRYSTALS:2||SURFACE MICELLE FORMATION:2||DISORDER TRANSITION:2||BIREFRINGENCE:2||LIPIDCOMPOSITION:2||CONJUGATED POLYMERS:2||GLASSYCARBON ELECTRODE:2||ELECTROCHEMICAL DETECTION:2||MULTIPLE DETECTION:2||aromatic polyimides:2||MOLECULARWEIGHT HOMOPOLYMERS:2||BINARYMIXTURE:2||PATTERNS:2||photoluminescent polyimide:2||photosensitive polyimide:2||DEPENDENT MICELLIZATION:2||SPEED:2||synthesis:2||COIL BLOCKCOPOLYMERS:2||LIQUIDCRYSTALLINE ASSEMBLIES:2||OXIDE):2||molecular weight distribution:2||CONJUGATED POLYMER:2||polymer characterization:2||NONIONIC SURFACTANTS:2||STEREOREGULAR POLY(METHYL METHACRYLATE):2||structure:2||RODLIKE POLYIMIDE:2||FLEXIBLE POLYIMIDE:2||THERMAL IMIDIZATION:2||IN SITU RODCHAIN FORMATION:2||PHASESEPARATION:2||VINYL ETHER):2||EQUILIBRIUM:2||STRESS:2||STRUCTURAL RELAXATION:2||LIVING POLYMERIZATION:2||CONTAIN:2||SALT:2||WAVEGUIDE:2||XRAY DIFFRACTION:2||WALLED CARBON NANOTUBES:2||SILICON NANOWIRES:2||IR:2||DIELECTRIC THINFILMS:2||Selfassembled monolayer:2||PARAMETERS:2||Temperature gradient interaction chromatography:2||SOLIDSURFACES:2||FLOW:2||RATES:2||PRECURSORS:2||FILM BALANCE:2||SIDECHAINS:2||SUPRAMOLECULAR MATERIALS:2||CHAINS:2||POLYSTYRENE:39||ANIONICPOLYMERIZATION:34||GRADIENT INTERACTION CHROMATOGRAPHY:31||SEPARATION:27||BEHAVIOR:24||LIQUIDCHROMATOGRAPHY:22||POLYMERS:22||SIZEEXCLUSION CHROMATOGRAPHY:19||BLOCKCOPOLYMERS:17||DIBLOCK COPOLYMERS:17||THINFILMS:16||POLYISOPRENE:14||HPLC:13||SYNTHETICPOLYMERS:12||PERFORMANCE LIQUIDCHROMATOGRAPHY:11||DIBLOCK COPOLYMER:11||MOLECULARWEIGHT DISTRIBUTION:10||MACROMOLECULES:10||BLOCKCOPOLYMER:10||REVERSEDPHASE:10||RETENTION BEHAVIOR:10||MORPHOLOGY:9||MOLECULARWEIGHT:9||MELTS:9||AROMATIC POLYIMIDES:8||XRAYSCATTERING:8||polystyrene:8||MIXTURES:7||block copolymer:7||SURFACES:7||DEPENDENCE:7||COPOLYMERS:7||POLYMERIZATION:7||AIR/WATER INTERFACE:7||DEFINED BRUSH POLYIMIDE:6||TEMPERATURE:6||FULLY RODLIKE BACKBONE:6||MONOLAYERS:6||POLYIMIDES:6||CHAIN:6||COMPLEX POLYMERS:6||MOLECULARREORIENTATION:6||temperature gradient interaction chromatography:6||POLYMERFILMS:6||GELPERMEATION CHROMATOGRAPHY:6||ELUTION:6||ORDERDISORDER TRANSITION:6||SURFACEMORPHOLOGY:6||ORIENTATION:6||SYSTEMS:6||CRITICAL ADSORPTION POINT:6||LIGHTSCATTERING:5||PROBE DIFFUSION:5||POLYDISPERSITY:5||AIRWATERINTERFACE:5||MICROPHASE SEPARATION:5||GLASSTRANSITION:5||BLENDS:5||FILMS:5||ADSORPTION CHROMATOGRAPHY:5||MECHANISM:5||CO2:5||ETHYLENEOXIDE:5||ALIGNMENT:5||COMPLEXES:5||FRACTIONATION:5||MISCIBILITY:5||POLYMER CHARACTERIZATION:5||HEXAGONALLY PERFORATED LAYER:5||TRANSITION:5||FLIGHT MASSSPECTROMETRY:5||ARCHITECTURE:5||POLY(METHYL METHACRYLATE):5||ALTERNATING COPOLYMERIZATION:4||THICKNESS:4||THERMODYNAMICS:4||CRITICAL RANGE:4||ULTRATHIN POLYMERFILMS:4||DYNAMICS:4||CLIMATECHANGE:4||PHASE:4||GLASSTRANSITION TEMPERATURE:4||EPOXIDE:4||selfassembly:4||SPECTROSCOPY:4||SELFDIFFUSION:4||SCATTERING:4||OPTICALPROPERTIES:4||CATALYSTS:4||CHEMISTRY:4||SOLARCELLS:4||polyimides:4||polypyromellitimides:4||SEGMENTAL REORIENTATIONS:4||ADSORPTION:4||INTERFACE:4||POLYMERSOLUTIONS:4||TRACER DIFFUSION:4||OXIDE) DIBLOCK COPOLYMER:4||POLYSTYRENEBPOLY(METHYL METHACRYLATE):4||POLYMER BLENDS:4||SIMULATION:4||CHAIN ORIENTATION:4||STYRENE:4||TOF MASSSPECTROMETRY:4||WATER:4||DISPLAYS:4||OLIGOMERS:4||PEPTIDES:4||CYCLIC POLYSTYRENE:4||LATTICE CLUSTER THEORY:4||2NDHARMONIC GENERATION:4||LIQUIDCRYSTAL ALIGNMENT:4||MONTECARLO:4||LangmuirBlodgett film:3||ASSEMBLIES:3||chromatography:3||HOLOGRAPHIC RELAXATION SPECTROSCOPY:3||MULTIPLE MORPHOLOGIES:3||INTERACTION CHROMATOGRAPHY:3||NORMALPHASE:3||DIFFUSION:3||BRANCHED POLYSTYRENE:3||NANOPARTICLES:3||LITHOGRAPHY:3||POLYMER:3||LASERLIGHTSCATTERING:3||HIGH MOLECULARWEIGHT:3||CUBIC PHASE:3||AMPHIPHILIC BLOCKCOPOLYMERS:3||AQUEOUSSOLUTION:3||MODEL:3||FORCED RAYLEIGHSCATTERING:3||HYDRODYNAMIC PROPERTIES:3||4MIKTOARM STAR COPOLYMER:3||SYSTEM:3||PHASEBEHAVIOR:3||AQUEOUSSOLUTIONS:3||RHEOLOGY:3||LB film:3||2DIMENSIONAL LIQUIDCHROMATOGRAPHY:3||VISCOSITY:3||DIBLOCK COPOLYMER MELTS:3||ORDERORDER TRANSITION:3||GYROID PHASE:3||BINDING:3||BLOCK POLYELECTROLYTES:3||DERIVATIVES:3||MELT:3||PHASE LIQUIDCHROMATOGRAPHY:3||high temperature:3||ELEVATEDTEMPERATURE:3||RETENTION:3||MICELLE FORMATION:3||ELECTRONMICROSCOPY:3||Electrospray ionization:2||FRACTIONS:2||nalkanes:2||ISOCRATIC SEPARATION:2||ASSOCIATION:2||POLY(METHYL METHACRYLATE)S:2||2D correlation spectroscopy:2||CARBONATION:2||GLASSTRANSITION BEHAVIORS:2||MECHANICAL PROPERTIES:2||DIMENSIONS:2||POLYMER MIXTURES:2||ALUMINUM PORPHYRIN:2||LEAD STEARATE:2||FERROCENE:2||POLY(EPSILONCAPROLACTONE):2||DIAGRAM:2||nucleosides:2||Selective recognition by preconcentration:2||Electrochemical impedance spectroscopy:2||DOPAMINE:2||Silica:2||Silyl Ester:2||DIETHYL ESTER) PRECURSORS:2||SURFACE CHARACTERIZATION:2||MICROSTRUCTURE:2||polystyreneblockpolyisoprene:2||MICROPHASESEPARATED STRUCTURES:2||IMPEDANCE MEASUREMENTS:2||HEMEPROTEINS:2||SOLID SUBSTRATE:2||MOISTURE ABSORPTION:2||aromatic polyimide:2||INDUCED MORPHOLOGICALCHANGES:2||STABILITY:2||LC alignment layers:2||POLYPYROMELLITIMIDES:2||Ion mobility:2||Chiral polymer:2||OLIGOSACCHARIDES:2||OXIDE:2||SIDECHAIN:2||RETARDATION:2||functionality:2||temperature effects:2||phase transition:2||glass transition temperature:2||spincoated film:2||ESTER) PRECURSORS:2||PRECURSOR BLEND:2||Xray reflectivity:2||SIGMABONDS:2||aluminum porphyrin catalysts:2||METALLOPORPHYRIN:2||SILICON:2||MASSSPECTROMETRY ANALYSIS:2||STAR POLYMERS:2||SIZE DISTRIBUTIONS:2||GIANT VESICLES:2||POLY(3ALKYLTHIOPHENES):2||ADHESION:2||LIGHT:2||POLYSTYRENEBPOLYISOPRENE:2||HPLC fractionation:2||SILVER ELECTRODES:2||ENHANCED RESONANCE RAMAN:2||SEQUENCE:2||POLYELECTROLYTE/NONELECTROLYTE SHELLS:2||polyimide:2||liquid crystal alignment layer:2||SOLUBLE POLYIMIDES:2||POLYBUTADIENECOATED ZIRCONIA:2||PRETILT ANGLES:2||CROSSSECTIONS:2||IMSMS:2||POLYISOPRENE COPOLYMERS:2||POLYIMIDE THINFILMS:2||POLYMER SURFACES:2||RAMAN:2||STEREOREGULAR PMMA:2||poly(tertbutyl methacrylate) (PtBMA):2||TIME:2||POLYIMIDE COMPOSITE:2||CARBOXYLATO COMPLEXES:2||AGOSTIC INTERACTIONS:2||MOLECULARSTRUCTURE:2||ALKENE:2||TRANSISTOR MEMORY:2||DEVICES:2||ORTHOGONALITY:2||molecular characterization:2||ORGANOSILICATE DIELECTRIC FILMS:2||AMPHIPHILES:2||Serotonin:2||Anodic stripping differential pulse voltammetry:2||transmission electron microtomography:2||LIQUIDCHROMATOGRAPHY ANALYSIS:2||PHASEDIAGRAM:2||CARBON NANOTUBES:2||TRANSFER MECHANISM:2||BINARY MIXTURES:2||REFLECTOMETRY:2||ROD:2||DROPS:2||CONSTANT:2||TRIBLOCK COPOLYMER:2||POLYMER VESICLES:2||CLICK CHEMISTRY:2||ARRAYS:2||COMPOSITES:2||MALDITOF MS:2||POLYMER THINFILMS:2||HYDROPHOBIC INTERACTION CHROMATOGRAPHY:2||retention mechanism:2||GRAZINGINCIDENCE:2||NANOPOROSITY:2||soluble poly(amic esteraltimide)s:2||DIFFERENTIAL SCANNING CALORIMETRY:2||RESIDUALSTRESS:2||CHEMICALCOMPOSITION:2||POLY(AMIC DIETHYL ESTER) PRECURSOR:2||POLY(DIMETHYL SILOXANES):2||MASS POLYSTYRENES:2||cyclic propylene carbonate:2||propylene oxide:2||ACETATE) TOLUENE SOLUTIONS:2||TRANSIENT GRATING METHOD:2||MASS DIFFUSION:2||MICROPHASE SEPARATION TRANSITION:2||POLYSTYRENES:2||POLYSILANE:2||CARBOHYDRATEBASED PHOSPHOLIPIDS:2||HELICAL STRANDS:2||FLUORESCENCE DETECTION:2||SENSITIVE DETERMINATION:2||COMPOSITE FILMS:2||microphase:2||3MERCAPTOPROPIONIC ACID:2||BUTADIENE BLOCK COPOLYMER:2||HYBRID POLYMERIC MICELLES:2||AQUEOUSMEDIA:2||CONTACTANGLE:2||TRANSISTORCIRCUITS:2||ABTYPE POLY(ETHERIMIDE)S:2||CORRELATION SPECTROSCOPY:2||GASPHASE CONFORMATIONS:2||DECANE:2||INFRAREDSPECTROSCOPY:2||MICELLIZATION:2||ENERGIES:2||ACID) PRECURSORS:2||PHOTOALIGNMENT:2||polymers:2||SUBSTRATE:2||carbon dioxide:2||oligomeric propylene carbonate:2||THERMALDIFFUSION:2||CRYSTAL:2||PHASETRANSITION:2||REFLECTIVITY:2||ANALOGS:2||supramolecular chemistry:2||LYSOPHOSPHATIDIC ACID:2||PHOSPHOCHOLINE:2||POLY(3HEXYLTHIOPHENE):2||Receptor:2||MODIFIED GOLD ELECTRODES:2||ASCORBICACID:2||HUMAN URINE:2||Hybrid Nanocomposite:2||Dielectric Constant:2||AU(111) ELECTRODES:2||NANOFILMS:2||HYDROPHOBIC CORES:2||DRIVEN:2||FLEXIBLE SIDECHAINS:2||MESOGEN:2||size exclusion chromatography:2||ORGANIZATION:2||POLY(LACTIC ACID):2||MOLECULAR ARCHITECTURE:2||COUPLER:2||POLYSTYRENE COPOLYMER:2||diffusion coefficient:2||XRAY REFLECTIVITY:2||temperature gradient interaction chromatography polystyryllithium:2||VISCOELASTIC PROPERTIES:2||polyisoprene:2||CRYSTALSTRUCTURES:2||POLYCARBONATE:2||MULTILAYERS:2||DEPOSITION:2||FULL ADSORPTION MECHANISMS:2||QUANTUM DOTS:2||CRITICAL ORDERING TRANSITION:2||CORE:2||PARACRYSTALLINE DISTORTION:2||PERFORATED LAYER PHASE:2||liposomes:2||phospholipids:2||UNILAMELLAR VESICLES:2||VOLTAMMETRIC DETERMINATION:2||Polyimide:2||FOURIERTRANSFORM:2||SURFACE:2||SIZE EXCLUSION CHROMATOGRAPHY:2||NEUTRON REFLECTIVITY:2||ORDERED STRUCTURE:2||RIGID ROD POLYMERS:2||DISPLACEMENT POLYMERIZATION:2||PHOTOSENSITIVE POLYIMIDE:2||EFFICIENCY:2||films:2||Polylactide:2||CHROMATOGRAPHIC CRITICAL CONDITION:2||RETENTION MECHANISM:2||COPPER PHTHALOCYANINE:2||C60:2||COPOLYMER:2||micelle:2||LINEAR POLYETHYLENE:2||LIQUIDS:2||ARMS:2||HIGHPERFORMANCE LIQUID:2||alternating copolyimides:2||PHASE SEPARATION:2||POLYMERCHAINS:2||STYRYLPYRIDINIUM:2||ANGLES:2||MOBILITY:2||PROBE:2||ACIDS:2||BLUE:2||POSITIONS:2||CYCLOPENTADIENYL:2||HIGHMOLECULARWEIGHT:2||FUELCELLS:2||TIN OXIDE:2||NANOCRYSTALS:2||SURFACE MICELLE FORMATION:2||DISORDER TRANSITION:2||BIREFRINGENCE:2||LIPIDCOMPOSITION:2||CONJUGATED POLYMERS:2||GLASSYCARBON ELECTRODE:2||ELECTROCHEMICAL DETECTION:2||MULTIPLE DETECTION:2||aromatic polyimides:2||MOLECULARWEIGHT HOMOPOLYMERS:2||BINARYMIXTURE:2||PATTERNS:2||photoluminescent polyimide:2||photosensitive polyimide:2||DEPENDENT MICELLIZATION:2||SPEED:2||synthesis:2||COIL BLOCKCOPOLYMERS:2||LIQUIDCRYSTALLINE ASSEMBLIES:2||OXIDE):2||molecular weight distribution:2||CONJUGATED POLYMER:2||polymer characterization:2||NONIONIC SURFACTANTS:2||STEREOREGULAR POLY(METHYL METHACRYLATE):2||structure:2||RODLIKE POLYIMIDE:2||FLEXIBLE POLYIMIDE:2||THERMAL IMIDIZATION:2||IN SITU RODCHAIN FORMATION:2||PHASESEPARATION:2||VINYL ETHER):2||EQUILIBRIUM:2||STRESS:2||STRUCTURAL RELAXATION:2||LIVING POLYMERIZATION:2||CONTAIN:2||SALT:2||WAVEGUIDE:2||XRAY DIFFRACTION:2||WALLED CARBON NANOTUBES:2||SILICON NANOWIRES:2||IR:2||DIELECTRIC THINFILMS:2||Selfassembled monolayer:2||PARAMETERS:2||Temperature gradient interaction chromatography:2||SOLIDSURFACES:2||FLOW:2||RATES:2||PRECURSORS:2||FILM BALANCE:2||SIDECHAINS:2||SUPRAMOLECULAR MATERIALS:2||CHAINS:2||POLYSTYRENE:39||ANIONICPOLYMERIZATION:34||GRADIENT INTERACTION CHROMATOGRAPHY:31||SEPARATION:27||BEHAVIOR:24||LIQUIDCHROMATOGRAPHY:22||POLYMERS:22||SIZEEXCLUSION CHROMATOGRAPHY:19||BLOCKCOPOLYMERS:17||DIBLOCK COPOLYMERS:17||THINFILMS:16||POLYISOPRENE:14||HPLC:13||SYNTHETICPOLYMERS:12||PERFORMANCE LIQUIDCHROMATOGRAPHY:11||DIBLOCK COPOLYMER:11||MOLECULARWEIGHT DISTRIBUTION:10||MACROMOLECULES:10||BLOCKCOPOLYMER:10||REVERSEDPHASE:10||RETENTION BEHAVIOR:10||MORPHOLOGY:9||MOLECULARWEIGHT:9||MELTS:9||AROMATIC POLYIMIDES:8||XRAYSCATTERING:8||polystyrene:8||MIXTURES:7||block copolymer:7||SURFACES:7||DEPENDENCE:7||COPOLYMERS:7||POLYMERIZATION:7||AIR/WATER INTERFACE:7||DEFINED BRUSH POLYIMIDE:6||TEMPERATURE:6||FULLY RODLIKE BACKBONE:6||MONOLAYERS:6||POLYIMIDES:6||CHAIN:6||COMPLEX POLYMERS:6||MOLECULARREORIENTATION:6||temperature gradient interaction chromatography:6||POLYMERFILMS:6||GELPERMEATION CHROMATOGRAPHY:6||ELUTION:6||ORDERDISORDER TRANSITION:6||SURFACEMORPHOLOGY:6||ORIENTATION:6||SYSTEMS:6||CRITICAL ADSORPTION POINT:6||LIGHTSCATTERING:5||PROBE DIFFUSION:5||POLYDISPERSITY:5||AIRWATERINTERFACE:5||MICROPHASE SEPARATION:5||GLASSTRANSITION:5||BLENDS:5||FILMS:5||ADSORPTION CHROMATOGRAPHY:5||MECHANISM:5||CO2:5||ETHYLENEOXIDE:5||ALIGNMENT:5||COMPLEXES:5||FRACTIONATION:5||MISCIBILITY:5||POLYMER CHARACTERIZATION:5||HEXAGONALLY PERFORATED LAYER:5||TRANSITION:5||FLIGHT MASSSPECTROMETRY:5||ARCHITECTURE:5||POLY(METHYL METHACRYLATE):5||ALTERNATING COPOLYMERIZATION:4||THICKNESS:4||THERMODYNAMICS:4||CRITICAL RANGE:4||ULTRATHIN POLYMERFILMS:4||DYNAMICS:4||CLIMATECHANGE:4||PHASE:4||GLASSTRANSITION TEMPERATURE:4||EPOXIDE:4||selfassembly:4||SPECTROSCOPY:4||SELFDIFFUSION:4||SCATTERING:4||OPTICALPROPERTIES:4||CATALYSTS:4||CHEMISTRY:4||SOLARCELLS:4||polyimides:4||polypyromellitimides:4||SEGMENTAL REORIENTATIONS:4||ADSORPTION:4||INTERFACE:4||POLYMERSOLUTIONS:4||TRACER DIFFUSION:4||OXIDE) DIBLOCK COPOLYMER:4||POLYSTYRENEBPOLY(METHYL METHACRYLATE):4||POLYMER BLENDS:4||SIMULATION:4||CHAIN ORIENTATION:4||STYRENE:4||TOF MASSSPECTROMETRY:4||WATER:4||DISPLAYS:4||OLIGOMERS:4||PEPTIDES:4||CYCLIC POLYSTYRENE:4||LATTICE CLUSTER THEORY:4||2NDHARMONIC GENERATION:4||LIQUIDCRYSTAL ALIGNMENT:4||MONTECARLO:4||LangmuirBlodgett film:3||ASSEMBLIES:3||chromatography:3||HOLOGRAPHIC RELAXATION SPECTROSCOPY:3||MULTIPLE MORPHOLOGIES:3||INTERACTION CHROMATOGRAPHY:3||NORMALPHASE:3||DIFFUSION:3||BRANCHED POLYSTYRENE:3||NANOPARTICLES:3||LITHOGRAPHY:3||POLYMER:3||LASERLIGHTSCATTERING:3||HIGH MOLECULARWEIGHT:3||CUBIC PHASE:3||AMPHIPHILIC BLOCKCOPOLYMERS:3||AQUEOUSSOLUTION:3||MODEL:3||FORCED RAYLEIGHSCATTERING:3||HYDRODYNAMIC PROPERTIES:3||4MIKTOARM STAR COPOLYMER:3||SYSTEM:3||PHASEBEHAVIOR:3||AQUEOUSSOLUTIONS:3||RHEOLOGY:3||LB film:3||2DIMENSIONAL LIQUIDCHROMATOGRAPHY:3||VISCOSITY:3||DIBLOCK COPOLYMER MELTS:3||ORDERORDER TRANSITION:3||GYROID PHASE:3||BINDING:3||BLOCK POLYELECTROLYTES:3||DERIVATIVES:3||MELT:3||PHASE LIQUIDCHROMATOGRAPHY:3||high temperature:3||ELEVATEDTEMPERATURE:3||RETENTION:3||MICELLE FORMATION:3||ELECTRONMICROSCOPY:3||Electrospray ionization:2||FRACTIONS:2||nalkanes:2||ISOCRATIC SEPARATION:2||ASSOCIATION:2||POLY(METHYL METHACRYLATE)S:2||2D correlation spectroscopy:2||CARBONATION:2||GLASSTRANSITION BEHAVIORS:2||MECHANICAL PROPERTIES:2||DIMENSIONS:2||POLYMER MIXTURES:2||ALUMINUM PORPHYRIN:2||LEAD STEARATE:2||FERROCENE:2||POLY(EPSILONCAPROLACTONE):2||DIAGRAM:2||nucleosides:2||Selective recognition by preconcentration:2||Electrochemical impedance spectroscopy:2||DOPAMINE:2||Silica:2||Silyl Ester:2||DIETHYL ESTER) PRECURSORS:2||SURFACE CHARACTERIZATION:2||MICROSTRUCTURE:2||polystyreneblockpolyisoprene:2||MICROPHASESEPARATED STRUCTURES:2||IMPEDANCE MEASUREMENTS:2||HEMEPROTEINS:2||SOLID SUBSTRATE:2||MOISTURE ABSORPTION:2||aromatic polyimide:2||INDUCED MORPHOLOGICALCHANGES:2||STABILITY:2||LC alignment layers:2||POLYPYROMELLITIMIDES:2||Ion mobility:2||Chiral polymer:2||OLIGOSACCHARIDES:2||OXIDE:2||SIDECHAIN:2||RETARDATION:2||functionality:2||temperature effects:2||phase transition:2||glass transition temperature:2||spincoated film:2||ESTER) PRECURSORS:2||PRECURSOR BLEND:2||Xray reflectivity:2||SIGMABONDS:2||aluminum porphyrin catalysts:2||METALLOPORPHYRIN:2||SILICON:2||MASSSPECTROMETRY ANALYSIS:2||STAR POLYMERS:2||SIZE DISTRIBUTIONS:2||GIANT VESICLES:2||POLY(3ALKYLTHIOPHENES):2||ADHESION:2||LIGHT:2||POLYSTYRENEBPOLYISOPRENE:2||HPLC fractionation:2||SILVER ELECTRODES:2||ENHANCED RESONANCE RAMAN:2||SEQUENCE:2||POLYELECTROLYTE/NONELECTROLYTE SHELLS:2||polyimide:2||liquid crystal alignment layer:2||SOLUBLE POLYIMIDES:2||POLYBUTADIENECOATED ZIRCONIA:2||PRETILT ANGLES:2||CROSSSECTIONS:2||IMSMS:2||POLYISOPRENE COPOLYMERS:2||POLYIMIDE THINFILMS:2||POLYMER SURFACES:2||RAMAN:2||STEREOREGULAR PMMA:2||poly(tertbutyl methacrylate) (PtBMA):2||TIME:2||POLYIMIDE COMPOSITE:2||CARBOXYLATO COMPLEXES:2||AGOSTIC INTERACTIONS:2||MOLECULARSTRUCTURE:2||ALKENE:2||TRANSISTOR MEMORY:2||DEVICES:2||ORTHOGONALITY:2||molecular characterization:2||ORGANOSILICATE DIELECTRIC FILMS:2||AMPHIPHILES:2||Serotonin:2||Anodic stripping differential pulse voltammetry:2||transmission electron microtomography:2||LIQUIDCHROMATOGRAPHY ANALYSIS:2||PHASEDIAGRAM:2||CARBON NANOTUBES:2||TRANSFER MECHANISM:2||BINARY MIXTURES:2||REFLECTOMETRY:2||ROD:2||DROPS:2||CONSTANT:2||TRIBLOCK COPOLYMER:2||POLYMER VESICLES:2||CLICK CHEMISTRY:2||ARRAYS:2||COMPOSITES:2||MALDITOF MS:2||POLYMER THINFILMS:2||HYDROPHOBIC INTERACTION CHROMATOGRAPHY:2||retention mechanism:2||GRAZINGINCIDENCE:2||NANOPOROSITY:2||soluble poly(amic esteraltimide)s:2||DIFFERENTIAL SCANNING CALORIMETRY:2||RESIDUALSTRESS:2||CHEMICALCOMPOSITION:2||POLY(AMIC DIETHYL ESTER) PRECURSOR:2||POLY(DIMETHYL SILOXANES):2||MASS POLYSTYRENES:2||cyclic propylene carbonate:2||propylene oxide:2||ACETATE) TOLUENE SOLUTIONS:2||TRANSIENT GRATING METHOD:2||MASS DIFFUSION:2||MICROPHASE SEPARATION TRANSITION:2||POLYSTYRENES:2||POLYSILANE:2||CARBOHYDRATEBASED PHOSPHOLIPIDS:2||HELICAL STRANDS:2||FLUORESCENCE DETECTION:2||SENSITIVE DETERMINATION:2||COMPOSITE FILMS:2||microphase:2||3MERCAPTOPROPIONIC ACID:2||BUTADIENE BLOCK COPOLYMER:2||HYBRID POLYMERIC MICELLES:2||AQUEOUSMEDIA:2||CONTACTANGLE:2||TRANSISTORCIRCUITS:2||ABTYPE POLY(ETHERIMIDE)S:2||CORRELATION SPECTROSCOPY:2||GASPHASE CONFORMATIONS:2||DECANE:2||INFRAREDSPECTROSCOPY:2||MICELLIZATION:2||ENERGIES:2||ACID) PRECURSORS:2||PHOTOALIGNMENT:2||polymers:2||SUBSTRATE:2||carbon dioxide:2||oligomeric propylene carbonate:2||THERMALDIFFUSION:2||CRYSTAL:2||PHASETRANSITION:2||REFLECTIVITY:2||ANALOGS:2||supramolecular chemistry:2||LYSOPHOSPHATIDIC ACID:2||PHOSPHOCHOLINE:2||POLY(3HEXYLTHIOPHENE):2||Receptor:2||MODIFIED GOLD ELECTRODES:2||ASCORBICACID:2||HUMAN URINE:2||Hybrid Nanocomposite:2||Dielectric Constant:2||AU(111) ELECTRODES:2||NANOFILMS:2||HYDROPHOBIC CORES:2||DRIVEN:2||FLEXIBLE SIDECHAINS:2||MESOGEN:2||size exclusion chromatography:2||ORGANIZATION:2||POLY(LACTIC ACID):2||MOLECULAR ARCHITECTURE:2||COUPLER:2||POLYSTYRENE COPOLYMER:2||diffusion coefficient:2||XRAY REFLECTIVITY:2||temperature gradient interaction chromatography polystyryllithium:2||VISCOELASTIC PROPERTIES:2||polyisoprene:2||CRYSTALSTRUCTURES:2||POLYCARBONATE:2||MULTILAYERS:2||DEPOSITION:2||FULL ADSORPTION MECHANISMS:2||QUANTUM DOTS:2||CRITICAL ORDERING TRANSITION:2||CORE:2||PARACRYSTALLINE DISTORTION:2||PERFORATED LAYER PHASE:2||liposomes:2||phospholipids:2||UNILAMELLAR VESICLES:2||VOLTAMMETRIC DETERMINATION:2||Polyimide:2||FOURIERTRANSFORM:2||SURFACE:2||SIZE EXCLUSION CHROMATOGRAPHY:2||NEUTRON REFLECTIVITY:2||ORDERED STRUCTURE:2||RIGID ROD POLYMERS:2||DISPLACEMENT POLYMERIZATION:2||PHOTOSENSITIVE POLYIMIDE:2||EFFICIENCY:2||films:2||Polylactide:2||CHROMATOGRAPHIC CRITICAL CONDITION:2||RETENTION MECHANISM:2||COPPER PHTHALOCYANINE:2||C60:2||COPOLYMER:2||micelle:2||LINEAR POLYETHYLENE:2||LIQUIDS:2||ARMS:2||HIGHPERFORMANCE LIQUID:2||alternating copolyimides:2||PHASE SEPARATION:2||POLYMERCHAINS:2||STYRYLPYRIDINIUM:2||ANGLES:2||MOBILITY:2||PROBE:2||ACIDS:2||BLUE:2||POSITIONS:2||CYCLOPENTADIENYL:2||HIGHMOLECULARWEIGHT:2||FUELCELLS:2||TIN OXIDE:2||NANOCRYSTALS:2||SURFACE MICELLE FORMATION:2||DISORDER TRANSITION:2||BIREFRINGENCE:2||LIPIDCOMPOSITION:2||CONJUGATED POLYMERS:2||GLASSYCARBON ELECTRODE:2||ELECTROCHEMICAL DETECTION:2||MULTIPLE DETECTION:2||aromatic polyimides:2||MOLECULARWEIGHT HOMOPOLYMERS:2||BINARYMIXTURE:2||PATTERNS:2||photoluminescent polyimide:2||photosensitive polyimide:2||DEPENDENT MICELLIZATION:2||SPEED:2||synthesis:2||COIL BLOCKCOPOLYMERS:2||LIQUIDCRYSTALLINE ASSEMBLIES:2||OXIDE):2||molecular weight distribution:2||CONJUGATED POLYMER:2||polymer characterization:2||NONIONIC SURFACTANTS:2||STEREOREGULAR POLY(METHYL METHACRYLATE):2||structure:2||RODLIKE POLYIMIDE:2||FLEXIBLE POLYIMIDE:2||THERMAL IMIDIZATION:2||IN SITU RODCHAIN FORMATION:2||PHASESEPARATION:2||VINYL ETHER):2||EQUILIBRIUM:2||STRESS:2||STRUCTURAL RELAXATION:2||LIVING POLYMERIZATION:2||CONTAIN:2||SALT:2||WAVEGUIDE:2||XRAY DIFFRACTION:2||WALLED CARBON NANOTUBES:2||SILICON NANOWIRES:2||IR:2||DIELECTRIC THINFILMS:2||Selfassembled monolayer:2||PARAMETERS:2||Temperature gradient interaction chromatography:2||SOLIDSURFACES:2||FLOW:2||RATES:2||PRECURSORS:2||FILM BALANCE:2||SIDECHAINS:2||SUPRAMOLECULAR MATERIALS:2||CHAINS:2||POLYSTYRENE:39||ANIONICPOLYMERIZATION:34||GRADIENT INTERACTION CHROMATOGRAPHY:31||SEPARATION:27||BEHAVIOR:24||LIQUIDCHROMATOGRAPHY:22||POLYMERS:22||SIZEEXCLUSION CHROMATOGRAPHY:19||BLOCKCOPOLYMERS:17||DIBLOCK COPOLYMERS:17||THINFILMS:16||POLYISOPRENE:14||HPLC:13||SYNTHETICPOLYMERS:12||PERFORMANCE LIQUIDCHROMATOGRAPHY:11||DIBLOCK COPOLYMER:11||MOLECULARWEIGHT DISTRIBUTION:10||MACROMOLECULES:10||BLOCKCOPOLYMER:10||REVERSEDPHASE:10||RETENTION BEHAVIOR:10||MORPHOLOGY:9||MOLECULARWEIGHT:9||MELTS:9||AROMATIC POLYIMIDES:8||XRAYSCATTERING:8||polystyrene:8||MIXTURES:7||block copolymer:7||SURFACES:7||DEPENDENCE:7||COPOLYMERS:7||POLYMERIZATION:7||AIR/WATER INTERFACE:7||DEFINED BRUSH POLYIMIDE:6||TEMPERATURE:6||FULLY RODLIKE BACKBONE:6||MONOLAYERS:6||POLYIMIDES:6||CHAIN:6||COMPLEX POLYMERS:6||MOLECULARREORIENTATION:6||temperature gradient interaction chromatography:6||POLYMERFILMS:6||GELPERMEATION CHROMATOGRAPHY:6||ELUTION:6||ORDERDISORDER TRANSITION:6||SURFACEMORPHOLOGY:6||ORIENTATION:6||SYSTEMS:6||CRITICAL ADSORPTION POINT:6||LIGHTSCATTERING:5||PROBE DIFFUSION:5||POLYDISPERSITY:5||AIRWATERINTERFACE:5||MICROPHASE SEPARATION:5||GLASSTRANSITION:5||BLENDS:5||FILMS:5||ADSORPTION CHROMATOGRAPHY:5||MECHANISM:5||CO2:5||ETHYLENEOXIDE:5||ALIGNMENT:5||COMPLEXES:5||FRACTIONATION:5||MISCIBILITY:5||POLYMER CHARACTERIZATION:5||HEXAGONALLY PERFORATED LAYER:5||TRANSITION:5||FLIGHT MASSSPECTROMETRY:5||ARCHITECTURE:5||POLY(METHYL METHACRYLATE):5||ALTERNATING COPOLYMERIZATION:4||THICKNESS:4||THERMODYNAMICS:4||CRITICAL RANGE:4||ULTRATHIN POLYMERFILMS:4||DYNAMICS:4||CLIMATECHANGE:4||PHASE:4||GLASSTRANSITION TEMPERATURE:4||EPOXIDE:4||selfassembly:4||SPECTROSCOPY:4||SELFDIFFUSION:4||SCATTERING:4||OPTICALPROPERTIES:4||CATALYSTS:4||CHEMISTRY:4||SOLARCELLS:4||polyimides:4||polypyromellitimides:4||SEGMENTAL REORIENTATIONS:4||ADSORPTION:4||INTERFACE:4||POLYMERSOLUTIONS:4||TRACER DIFFUSION:4||OXIDE) DIBLOCK COPOLYMER:4||POLYSTYRENEBPOLY(METHYL METHACRYLATE):4||POLYMER BLENDS:4||SIMULATION:4||CHAIN ORIENTATION:4||STYRENE:4||TOF MASSSPECTROMETRY:4||WATER:4||DISPLAYS:4||OLIGOMERS:4||PEPTIDES:4||CYCLIC POLYSTYRENE:4||LATTICE CLUSTER THEORY:4||2NDHARMONIC GENERATION:4||LIQUIDCRYSTAL ALIGNMENT:4||MONTECARLO:4||LangmuirBlodgett film:3||ASSEMBLIES:3||chromatography:3||HOLOGRAPHIC RELAXATION SPECTROSCOPY:3||MULTIPLE MORPHOLOGIES:3||INTERACTION CHROMATOGRAPHY:3||NORMALPHASE:3||DIFFUSION:3||BRANCHED POLYSTYRENE:3||NANOPARTICLES:3||LITHOGRAPHY:3||POLYMER:3||LASERLIGHTSCATTERING:3||HIGH MOLECULARWEIGHT:3||CUBIC PHASE:3||AMPHIPHILIC BLOCKCOPOLYMERS:3||AQUEOUSSOLUTION:3||MODEL:3||FORCED RAYLEIGHSCATTERING:3||HYDRODYNAMIC PROPERTIES:3||4MIKTOARM STAR COPOLYMER:3||SYSTEM:3||PHASEBEHAVIOR:3||AQUEOUSSOLUTIONS:3||RHEOLOGY:3||LB film:3||2DIMENSIONAL LIQUIDCHROMATOGRAPHY:3||VISCOSITY:3||DIBLOCK COPOLYMER MELTS:3||ORDERORDER TRANSITION:3||GYROID PHASE:3||BINDING:3||BLOCK POLYELECTROLYTES:3||DERIVATIVES:3||MELT:3||PHASE LIQUIDCHROMATOGRAPHY:3||high temperature:3||ELEVATEDTEMPERATURE:3||RETENTION:3||MICELLE FORMATION:3||ELECTRONMICROSCOPY:3||Electrospray ionization:2||FRACTIONS:2||nalkanes:2||ISOCRATIC SEPARATION:2||ASSOCIATION:2||POLY(METHYL METHACRYLATE)S:2||2D correlation spectroscopy:2||CARBONATION:2||GLASSTRANSITION BEHAVIORS:2||MECHANICAL PROPERTIES:2||DIMENSIONS:2||POLYMER MIXTURES:2||ALUMINUM PORPHYRIN:2||LEAD STEARATE:2||FERROCENE:2||POLY(EPSILONCAPROLACTONE):2||DIAGRAM:2||nucleosides:2||Selective recognition by preconcentration:2||Electrochemical impedance spectroscopy:2||DOPAMINE:2||Silica:2||Silyl Ester:2||DIETHYL ESTER) PRECURSORS:2||SURFACE CHARACTERIZATION:2||MICROSTRUCTURE:2||polystyreneblockpolyisoprene:2||MICROPHASESEPARATED STRUCTURES:2||IMPEDANCE MEASUREMENTS:2||HEMEPROTEINS:2||SOLID SUBSTRATE:2||MOISTURE ABSORPTION:2||aromatic polyimide:2||INDUCED MORPHOLOGICALCHANGES:2||STABILITY:2||LC alignment layers:2||POLYPYROMELLITIMIDES:2||Ion mobility:2||Chiral polymer:2||OLIGOSACCHARIDES:2||OXIDE:2||SIDECHAIN:2||RETARDATION:2||functionality:2||temperature effects:2||phase transition:2||glass transition temperature:2||spincoated film:2||ESTER) PRECURSORS:2||PRECURSOR BLEND:2||Xray reflectivity:2||SIGMABONDS:2||aluminum porphyrin catalysts:2||METALLOPORPHYRIN:2||SILICON:2||MASSSPECTROMETRY ANALYSIS:2||STAR POLYMERS:2||SIZE DISTRIBUTIONS:2||GIANT VESICLES:2||POLY(3ALKYLTHIOPHENES):2||ADHESION:2||LIGHT:2||POLYSTYRENEBPOLYISOPRENE:2||HPLC fractionation:2||SILVER ELECTRODES:2||ENHANCED RESONANCE RAMAN:2||SEQUENCE:2||POLYELECTROLYTE/NONELECTROLYTE SHELLS:2||polyimide:2||liquid crystal alignment layer:2||SOLUBLE POLYIMIDES:2||POLYBUTADIENECOATED ZIRCONIA:2||PRETILT ANGLES:2||CROSSSECTIONS:2||IMSMS:2||POLYISOPRENE COPOLYMERS:2||POLYIMIDE THINFILMS:2||POLYMER SURFACES:2||RAMAN:2||STEREOREGULAR PMMA:2||poly(tertbutyl methacrylate) (PtBMA):2||TIME:2||POLYIMIDE COMPOSITE:2||CARBOXYLATO COMPLEXES:2||AGOSTIC INTERACTIONS:2||MOLECULARSTRUCTURE:2||ALKENE:2||TRANSISTOR MEMORY:2||DEVICES:2||ORTHOGONALITY:2||molecular characterization:2||ORGANOSILICATE DIELECTRIC FILMS:2||AMPHIPHILES:2||Serotonin:2||Anodic stripping differential pulse voltammetry:2||transmission electron microtomography:2||LIQUIDCHROMATOGRAPHY ANALYSIS:2||PHASEDIAGRAM:2||CARBON NANOTUBES:2||TRANSFER MECHANISM:2||BINARY MIXTURES:2||REFLECTOMETRY:2||ROD:2||DROPS:2||CONSTANT:2||TRIBLOCK COPOLYMER:2||POLYMER VESICLES:2||CLICK CHEMISTRY:2||ARRAYS:2||COMPOSITES:2||MALDITOF MS:2||POLYMER THINFILMS:2||HYDROPHOBIC INTERACTION CHROMATOGRAPHY:2||retention mechanism:2||GRAZINGINCIDENCE:2||NANOPOROSITY:2||soluble poly(amic esteraltimide)s:2||DIFFERENTIAL SCANNING CALORIMETRY:2||RESIDUALSTRESS:2||CHEMICALCOMPOSITION:2||POLY(AMIC DIETHYL ESTER) PRECURSOR:2||POLY(DIMETHYL SILOXANES):2||MASS POLYSTYRENES:2||cyclic propylene carbonate:2||propylene oxide:2||ACETATE) TOLUENE SOLUTIONS:2||TRANSIENT GRATING METHOD:2||MASS DIFFUSION:2||MICROPHASE SEPARATION TRANSITION:2||POLYSTYRENES:2||POLYSILANE:2||CARBOHYDRATEBASED PHOSPHOLIPIDS:2||HELICAL STRANDS:2||FLUORESCENCE DETECTION:2||SENSITIVE DETERMINATION:2||COMPOSITE FILMS:2||microphase:2||3MERCAPTOPROPIONIC ACID:2||BUTADIENE BLOCK COPOLYMER:2||HYBRID POLYMERIC MICELLES:2||AQUEOUSMEDIA:2||CONTACTANGLE:2||TRANSISTORCIRCUITS:2||ABTYPE POLY(ETHERIMIDE)S:2||CORRELATION SPECTROSCOPY:2||GASPHASE CONFORMATIONS:2||DECANE:2||INFRAREDSPECTROSCOPY:2||MICELLIZATION:2||ENERGIES:2||ACID) PRECURSORS:2||PHOTOALIGNMENT:2||polymers:2||SUBSTRATE:2||carbon dioxide:2||oligomeric propylene carbonate:2||THERMALDIFFUSION:2||CRYSTAL:2||PHASETRANSITION:2||REFLECTIVITY:2||ANALOGS:2||supramolecular chemistry:2||LYSOPHOSPHATIDIC ACID:2||PHOSPHOCHOLINE:2||POLY(3HEXYLTHIOPHENE):2||Receptor:2||MODIFIED GOLD ELECTRODES:2||ASCORBICACID:2||HUMAN URINE:2||Hybrid Nanocomposite:2||Dielectric Constant:2||AU(111) ELECTRODES:2||NANOFILMS:2||HYDROPHOBIC CORES:2||DRIVEN:2||FLEXIBLE SIDECHAINS:2||MESOGEN:2||size exclusion chromatography:2||ORGANIZATION:2||POLY(LACTIC ACID):2||MOLECULAR ARCHITECTURE:2||COUPLER:2||POLYSTYRENE COPOLYMER:2||diffusion coefficient:2||XRAY REFLECTIVITY:2||temperature gradient interaction chromatography polystyryllithium:2||VISCOELASTIC PROPERTIES:2||polyisoprene:2||CRYSTALSTRUCTURES:2||POLYCARBONATE:2||MULTILAYERS:2||DEPOSITION:2||FULL ADSORPTION MECHANISMS:2||QUANTUM DOTS:2||CRITICAL ORDERING TRANSITION:2||CORE:2||PARACRYSTALLINE DISTORTION:2||PERFORATED LAYER PHASE:2||liposomes:2||phospholipids:2||UNILAMELLAR VESICLES:2||VOLTAMMETRIC DETERMINATION:2||Polyimide:2||FOURIERTRANSFORM:2||SURFACE:2||SIZE EXCLUSION CHROMATOGRAPHY:2||NEUTRON REFLECTIVITY:2||ORDERED STRUCTURE:2||RIGID ROD POLYMERS:2||DISPLACEMENT POLYMERIZATION:2||PHOTOSENSITIVE POLYIMIDE:2||EFFICIENCY:2||films:2||Polylactide:2||CHROMATOGRAPHIC CRITICAL CONDITION:2||RETENTION MECHANISM:2||COPPER PHTHALOCYANINE:2||C60:2||COPOLYMER:2||micelle:2||LINEAR POLYETHYLENE:2||LIQUIDS:2||ARMS:2||HIGHPERFORMANCE LIQUID:2||alternating copolyimides:2||PHASE SEPARATION:2||POLYMERCHAINS:2||STYRYLPYRIDINIUM:2||ANGLES:2||MOBILITY:2||PROBE:2||ACIDS:2||BLUE:2||POSITIONS:2||CYCLOPENTADIENYL:2||HIGHMOLECULARWEIGHT:2||FUELCELLS:2||TIN OXIDE:2||NANOCRYSTALS:2||SURFACE MICELLE FORMATION:2||DISORDER TRANSITION:2||BIREFRINGENCE:2||LIPIDCOMPOSITION:2||CONJUGATED POLYMERS:2||GLASSYCARBON ELECTRODE:2||ELECTROCHEMICAL DETECTION:2||MULTIPLE DETECTION:2||aromatic polyimides:2||MOLECULARWEIGHT HOMOPOLYMERS:2||BINARYMIXTURE:2||PATTERNS:2||photoluminescent polyimide:2||photosensitive polyimide:2||DEPENDENT MICELLIZATION:2||SPEED:2||synthesis:2||COIL BLOCKCOPOLYMERS:2||LIQUIDCRYSTALLINE ASSEMBLIES:2||OXIDE):2||molecular weight distribution:2||CONJUGATED POLYMER:2||polymer characterization:2||NONIONIC SURFACTANTS:2||STEREOREGULAR POLY(METHYL METHACRYLATE):2||structure:2||RODLIKE POLYIMIDE:2||FLEXIBLE POLYIMIDE:2||THERMAL IMIDIZATION:2||IN SITU RODCHAIN FORMATION:2||PHASESEPARATION:2||VINYL ETHER):2||EQUILIBRIUM:2||STRESS:2||STRUCTURAL RELAXATION:2||LIVING POLYMERIZATION:2||CONTAIN:2||SALT:2||WAVEGUIDE:2||XRAY DIFFRACTION:2||WALLED CARBON NANOTUBES:2||SILICON NANOWIRES:2||IR:2||DIELECTRIC THINFILMS:2||Selfassembled monolayer:2||PARAMETERS:2||Temperature gradient interaction chromatography:2||SOLIDSURFACES:2||FLOW:2||RATES:2||PRECURSORS:2||FILM BALANCE:2||SIDECHAINS:2||SUPRAMOLECULAR MATERIALS:2||CHAINS:2||POLYSTYRENE:39||ANIONICPOLYMERIZATION:34||GRADIENT INTERACTION CHROMATOGRAPHY:31||SEPARATION:27||BEHAVIOR:24||LIQUIDCHROMATOGRAPHY:22||POLYMERS:22||SIZEEXCLUSION CHROMATOGRAPHY:19||BLOCKCOPOLYMERS:17||DIBLOCK COPOLYMERS:17||THINFILMS:16||POLYISOPRENE:14||HPLC:13||SYNTHETICPOLYMERS:12||PERFORMANCE LIQUIDCHROMATOGRAPHY:11||DIBLOCK COPOLYMER:11||MOLECULARWEIGHT DISTRIBUTION:10||MACROMOLECULES:10||BLOCKCOPOLYMER:10||REVERSEDPHASE:10||RETENTION BEHAVIOR:10||MORPHOLOGY:9||MOLECULARWEIGHT:9||MELTS:9||AROMATIC POLYIMIDES:8||XRAYSCATTERING:8||polystyrene:8||MIXTURES:7||block copolymer:7||SURFACES:7||DEPENDENCE:7||COPOLYMERS:7||POLYMERIZATION:7||AIR/WATER INTERFACE:7||DEFINED BRUSH POLYIMIDE:6||TEMPERATURE:6||FULLY RODLIKE BACKBONE:6||MONOLAYERS:6||POLYIMIDES:6||CHAIN:6||COMPLEX POLYMERS:6||MOLECULARREORIENTATION:6||temperature gradient interaction chromatography:6||POLYMERFILMS:6||GELPERMEATION CHROMATOGRAPHY:6||ELUTION:6||ORDERDISORDER TRANSITION:6||SURFACEMORPHOLOGY:6||ORIENTATION:6||SYSTEMS:6||CRITICAL ADSORPTION POINT:6||LIGHTSCATTERING:5||PROBE DIFFUSION:5||POLYDISPERSITY:5||AIRWATERINTERFACE:5||MICROPHASE SEPARATION:5||GLASSTRANSITION:5||BLENDS:5||FILMS:5||ADSORPTION CHROMATOGRAPHY:5||MECHANISM:5||CO2:5||ETHYLENEOXIDE:5||ALIGNMENT:5||COMPLEXES:5||FRACTIONATION:5||MISCIBILITY:5||POLYMER CHARACTERIZATION:5||HEXAGONALLY PERFORATED LAYER:5||TRANSITION:5||FLIGHT MASSSPECTROMETRY:5||ARCHITECTURE:5||POLY(METHYL METHACRYLATE):5||ALTERNATING COPOLYMERIZATION:4||THICKNESS:4||THERMODYNAMICS:4||CRITICAL RANGE:4||ULTRATHIN POLYMERFILMS:4||DYNAMICS:4||CLIMATECHANGE:4||PHASE:4||GLASSTRANSITION TEMPERATURE:4||EPOXIDE:4||selfassembly:4||SPECTROSCOPY:4||SELFDIFFUSION:4||SCATTERING:4||OPTICALPROPERTIES:4||CATALYSTS:4||CHEMISTRY:4||SOLARCELLS:4||polyimides:4||polypyromellitimides:4||SEGMENTAL REORIENTATIONS:4||ADSORPTION:4||INTERFACE:4||POLYMERSOLUTIONS:4||TRACER DIFFUSION:4||OXIDE) DIBLOCK COPOLYMER:4||POLYSTYRENEBPOLY(METHYL METHACRYLATE):4||POLYMER BLENDS:4||SIMULATION:4||CHAIN ORIENTATION:4||STYRENE:4||TOF MASSSPECTROMETRY:4||WATER:4||DISPLAYS:4||OLIGOMERS:4||PEPTIDES:4||CYCLIC POLYSTYRENE:4||LATTICE CLUSTER THEORY:4||2NDHARMONIC GENERATION:4||LIQUIDCRYSTAL ALIGNMENT:4||MONTECARLO:4||LangmuirBlodgett film:3||ASSEMBLIES:3||chromatography:3||HOLOGRAPHIC RELAXATION SPECTROSCOPY:3||MULTIPLE MORPHOLOGIES:3||INTERACTION CHROMATOGRAPHY:3||NORMALPHASE:3||DIFFUSION:3||BRANCHED POLYSTYRENE:3||NANOPARTICLES:3||LITHOGRAPHY:3||POLYMER:3||LASERLIGHTSCATTERING:3||HIGH MOLECULARWEIGHT:3||CUBIC PHASE:3||AMPHIPHILIC BLOCKCOPOLYMERS:3||AQUEOUSSOLUTION:3||MODEL:3||FORCED RAYLEIGHSCATTERING:3||HYDRODYNAMIC PROPERTIES:3||4MIKTOARM STAR COPOLYMER:3||SYSTEM:3||PHASEBEHAVIOR:3||AQUEOUSSOLUTIONS:3||RHEOLOGY:3||LB film:3||2DIMENSIONAL LIQUIDCHROMATOGRAPHY:3||VISCOSITY:3||DIBLOCK COPOLYMER MELTS:3||ORDERORDER TRANSITION:3||GYROID PHASE:3||BINDING:3||BLOCK POLYELECTROLYTES:3||DERIVATIVES:3||MELT:3||PHASE LIQUIDCHROMATOGRAPHY:3||high temperature:3||ELEVATEDTEMPERATURE:3||RETENTION:3||MICELLE FORMATION:3||ELECTRONMICROSCOPY:3||Electrospray ionization:2||FRACTIONS:2||nalkanes:2||ISOCRATIC SEPARATION:2||ASSOCIATION:2||POLY(METHYL METHACRYLATE)S:2||2D correlation spectroscopy:2||CARBONATION:2||GLASSTRANSITION BEHAVIORS:2||MECHANICAL PROPERTIES:2||DIMENSIONS:2||POLYMER MIXTURES:2||ALUMINUM PORPHYRIN:2||LEAD STEARATE:2||FERROCENE:2||POLY(EPSILONCAPROLACTONE):2||DIAGRAM:2||nucleosides:2||Selective recognition by preconcentration:2||Electrochemical impedance spectroscopy:2||DOPAMINE:2||Silica:2||Silyl Ester:2||DIETHYL ESTER) PRECURSORS:2||SURFACE CHARACTERIZATION:2||MICROSTRUCTURE:2||polystyreneblockpolyisoprene:2||MICROPHASESEPARATED STRUCTURES:2||IMPEDANCE MEASUREMENTS:2||HEMEPROTEINS:2||SOLID SUBSTRATE:2||MOISTURE ABSORPTION:2||aromatic polyimide:2||INDUCED MORPHOLOGICALCHANGES:2||STABILITY:2||LC alignment layers:2||POLYPYROMELLITIMIDES:2||Ion mobility:2||Chiral polymer:2||OLIGOSACCHARIDES:2||OXIDE:2||SIDECHAIN:2||RETARDATION:2||functionality:2||temperature effects:2||phase transition:2||glass transition temperature:2||spincoated film:2||ESTER) PRECURSORS:2||PRECURSOR BLEND:2||Xray reflectivity:2||SIGMABONDS:2||aluminum porphyrin catalysts:2||METALLOPORPHYRIN:2||SILICON:2||MASSSPECTROMETRY ANALYSIS:2||STAR POLYMERS:2||SIZE DISTRIBUTIONS:2||GIANT VESICLES:2||POLY(3ALKYLTHIOPHENES):2||ADHESION:2||LIGHT:2||POLYSTYRENEBPOLYISOPRENE:2||HPLC fractionation:2||SILVER ELECTRODES:2||ENHANCED RESONANCE RAMAN:2||SEQUENCE:2||POLYELECTROLYTE/NONELECTROLYTE SHELLS:2||polyimide:2||liquid crystal alignment layer:2||SOLUBLE POLYIMIDES:2||POLYBUTADIENECOATED ZIRCONIA:2||PRETILT ANGLES:2||CROSSSECTIONS:2||IMSMS:2||POLYISOPRENE COPOLYMERS:2||POLYIMIDE THINFILMS:2||POLYMER SURFACES:2||RAMAN:2||STEREOREGULAR PMMA:2||poly(tertbutyl methacrylate) (PtBMA):2||TIME:2||POLYIMIDE COMPOSITE:2||CARBOXYLATO COMPLEXES:2||AGOSTIC INTERACTIONS:2||MOLECULARSTRUCTURE:2||ALKENE:2||TRANSISTOR MEMORY:2||DEVICES:2||ORTHOGONALITY:2||molecular characterization:2||ORGANOSILICATE DIELECTRIC FILMS:2||AMPHIPHILES:2||Serotonin:2||Anodic stripping differential pulse voltammetry:2||transmission electron microtomography:2||LIQUIDCHROMATOGRAPHY ANALYSIS:2||PHASEDIAGRAM:2||CARBON NANOTUBES:2||TRANSFER MECHANISM:2||BINARY MIXTURES:2||REFLECTOMETRY:2||ROD:2||DROPS:2||CONSTANT:2||TRIBLOCK COPOLYMER:2||POLYMER VESICLES:2||CLICK CHEMISTRY:2||ARRAYS:2||COMPOSITES:2||MALDITOF MS:2||POLYMER THINFILMS:2||HYDROPHOBIC INTERACTION CHROMATOGRAPHY:2||retention mechanism:2||GRAZINGINCIDENCE:2||NANOPOROSITY:2||soluble poly(amic esteraltimide)s:2||DIFFERENTIAL SCANNING CALORIMETRY:2||RESIDUALSTRESS:2||CHEMICALCOMPOSITION:2||POLY(AMIC DIETHYL ESTER) PRECURSOR:2||POLY(DIMETHYL SILOXANES):2||MASS POLYSTYRENES:2||cyclic propylene carbonate:2||propylene oxide:2||ACETATE) TOLUENE SOLUTIONS:2||TRANSIENT GRATING METHOD:2||MASS DIFFUSION:2||MICROPHASE SEPARATION TRANSITION:2||POLYSTYRENES:2||POLYSILANE:2||CARBOHYDRATEBASED PHOSPHOLIPIDS:2||HELICAL STRANDS:2||FLUORESCENCE DETECTION:2||SENSITIVE DETERMINATION:2||COMPOSITE FILMS:2||microphase:2||3MERCAPTOPROPIONIC ACID:2||BUTADIENE BLOCK COPOLYMER:2||HYBRID POLYMERIC MICELLES:2||AQUEOUSMEDIA:2||CONTACTANGLE:2||TRANSISTORCIRCUITS:2||ABTYPE POLY(ETHERIMIDE)S:2||CORRELATION SPECTROSCOPY:2||GASPHASE CONFORMATIONS:2||DECANE:2||INFRAREDSPECTROSCOPY:2||MICELLIZATION:2||ENERGIES:2||ACID) PRECURSORS:2||PHOTOALIGNMENT:2||polymers:2||SUBSTRATE:2||carbon dioxide:2||oligomeric propylene carbonate:2||THERMALDIFFUSION:2||CRYSTAL:2||PHASETRANSITION:2||REFLECTIVITY:2||ANALOGS:2||supramolecular chemistry:2||LYSOPHOSPHATIDIC ACID:2||PHOSPHOCHOLINE:2||POLY(3HEXYLTHIOPHENE):2||Receptor:2||MODIFIED GOLD ELECTRODES:2||ASCORBICACID:2||HUMAN URINE:2||Hybrid Nanocomposite:2||Dielectric Constant:2||AU(111) ELECTRODES:2||NANOFILMS:2||HYDROPHOBIC CORES:2||DRIVEN:2||FLEXIBLE SIDECHAINS:2||MESOGEN:2||size exclusion chromatography:2||ORGANIZATION:2||POLY(LACTIC ACID):2||MOLECULAR ARCHITECTURE:2||COUPLER:2||POLYSTYRENE COPOLYMER:2||diffusion coefficient:2||XRAY REFLECTIVITY:2||temperature gradient interaction chromatography polystyryllithium:2||VISCOELASTIC PROPERTIES:2||polyisoprene:2||CRYSTALSTRUCTURES:2||POLYCARBONATE:2||MULTILAYERS:2||DEPOSITION:2||FULL ADSORPTION MECHANISMS:2||QUANTUM DOTS:2||CRITICAL ORDERING TRANSITION:2||CORE:2||PARACRYSTALLINE DISTORTION:2||PERFORATED LAYER PHASE:2||liposomes:2||phospholipids:2||UNILAMELLAR VESICLES:2||VOLTAMMETRIC DETERMINATION:2||Polyimide:2||FOURIERTRANSFORM:2||SURFACE:2||SIZE EXCLUSION CHROMATOGRAPHY:2||NEUTRON REFLECTIVITY:2||ORDERED STRUCTURE:2||RIGID ROD POLYMERS:2||DISPLACEMENT POLYMERIZATION:2||PHOTOSENSITIVE POLYIMIDE:2||EFFICIENCY:2||films:2||Polylactide:2||CHROMATOGRAPHIC CRITICAL CONDITION:2||RETENTION MECHANISM:2||COPPER PHTHALOCYANINE:2||C60:2||COPOLYMER:2||micelle:2||LINEAR POLYETHYLENE:2||LIQUIDS:2||ARMS:2||HIGHPERFORMANCE LIQUID:2||alternating copolyimides:2||PHASE SEPARATION:2||POLYMERCHAINS:2||STYRYLPYRIDINIUM:2||ANGLES:2||MOBILITY:2||PROBE:2||ACIDS:2||BLUE:2||POSITIONS:2||CYCLOPENTADIENYL:2||HIGHMOLECULARWEIGHT:2||FUELCELLS:2||TIN OXIDE:2||NANOCRYSTALS:2||SURFACE MICELLE FORMATION:2||DISORDER TRANSITION:2||BIREFRINGENCE:2||LIPIDCOMPOSITION:2||CONJUGATED POLYMERS:2||GLASSYCARBON ELECTRODE:2||ELECTROCHEMICAL DETECTION:2||MULTIPLE DETECTION:2||aromatic polyimides:2||MOLECULARWEIGHT HOMOPOLYMERS:2||BINARYMIXTURE:2||PATTERNS:2||photoluminescent polyimide:2||photosensitive polyimide:2||DEPENDENT MICELLIZATION:2||SPEED:2||synthesis:2||COIL BLOCKCOPOLYMERS:2||LIQUIDCRYSTALLINE ASSEMBLIES:2||OXIDE):2||molecular weight distribution:2||CONJUGATED POLYMER:2||polymer characterization:2||NONIONIC SURFACTANTS:2||STEREOREGULAR POLY(METHYL METHACRYLATE):2||structure:2||RODLIKE POLYIMIDE:2||FLEXIBLE POLYIMIDE:2||THERMAL IMIDIZATION:2||IN SITU RODCHAIN FORMATION:2||PHASESEPARATION:2||VINYL ETHER):2||EQUILIBRIUM:2||STRESS:2||STRUCTURAL RELAXATION:2||LIVING POLYMERIZATION:2||CONTAIN:2||SALT:2||WAVEGUIDE:2||XRAY DIFFRACTION:2||WALLED CARBON NANOTUBES:2||SILICON NANOWIRES:2||IR:2||DIELECTRIC THINFILMS:2||Selfassembled monolayer:2||PARAMETERS:2||Temperature gradient interaction chromatography:2||SOLIDSURFACES:2||FLOW:2||RATES:2||PRECURSORS:2||FILM BALANCE:2||SIDECHAINS:2||SUPRAMOLECULAR MATERIALS:2||CHAINS:2||POLYSTYRENE:39||ANIONICPOLYMERIZATION:34||GRADIENT INTERACTION CHROMATOGRAPHY:31||SEPARATION:27||BEHAVIOR:24||LIQUIDCHROMATOGRAPHY:22||POLYMERS:22||SIZEEXCLUSION CHROMATOGRAPHY:19||BLOCKCOPOLYMERS:17||DIBLOCK COPOLYMERS:17||THINFILMS:16||POLYISOPRENE:14||HPLC:13||SYNTHETICPOLYMERS:12||PERFORMANCE LIQUIDCHROMATOGRAPHY:11||DIBLOCK COPOLYMER:11||MOLECULARWEIGHT DISTRIBUTION:10||MACROMOLECULES:10||BLOCKCOPOLYMER:10||REVERSEDPHASE:10||RETENTION BEHAVIOR:10||MORPHOLOGY:9||MOLECULARWEIGHT:9||MELTS:9||AROMATIC POLYIMIDES:8||XRAYSCATTERING:8||polystyrene:8||MIXTURES:7||block copolymer:7||SURFACES:7||DEPENDENCE:7||COPOLYMERS:7||POLYMERIZATION:7||AIR/WATER INTERFACE:7||DEFINED BRUSH POLYIMIDE:6||TEMPERATURE:6||FULLY RODLIKE BACKBONE:6||MONOLAYERS:6||POLYIMIDES:6||CHAIN:6||COMPLEX POLYMERS:6||MOLECULARREORIENTATION:6||temperature gradient interaction chromatography:6||POLYMERFILMS:6||GELPERMEATION CHROMATOGRAPHY:6||ELUTION:6||ORDERDISORDER TRANSITION:6||SURFACEMORPHOLOGY:6||ORIENTATION:6||SYSTEMS:6||CRITICAL ADSORPTION POINT:6||LIGHTSCATTERING:5||PROBE DIFFUSION:5||POLYDISPERSITY:5||AIRWATERINTERFACE:5||MICROPHASE SEPARATION:5||GLASSTRANSITION:5||BLENDS:5||FILMS:5||ADSORPTION CHROMATOGRAPHY:5||MECHANISM:5||CO2:5||ETHYLENEOXIDE:5||ALIGNMENT:5||COMPLEXES:5||FRACTIONATION:5||MISCIBILITY:5||POLYMER CHARACTERIZATION:5||HEXAGONALLY PERFORATED LAYER:5||TRANSITION:5||FLIGHT MASSSPECTROMETRY:5||ARCHITECTURE:5||POLY(METHYL METHACRYLATE):5||ALTERNATING COPOLYMERIZATION:4||THICKNESS:4||THERMODYNAMICS:4||CRITICAL RANGE:4||ULTRATHIN POLYMERFILMS:4||DYNAMICS:4||CLIMATECHANGE:4||PHASE:4||GLASSTRANSITION TEMPERATURE:4||EPOXIDE:4||selfassembly:4||SPECTROSCOPY:4||SELFDIFFUSION:4||SCATTERING:4||OPTICALPROPERTIES:4||CATALYSTS:4||CHEMISTRY:4||SOLARCELLS:4||polyimides:4||polypyromellitimides:4||SEGMENTAL REORIENTATIONS:4||ADSORPTION:4||INTERFACE:4||POLYMERSOLUTIONS:4||TRACER DIFFUSION:4||OXIDE) DIBLOCK COPOLYMER:4||POLYSTYRENEBPOLY(METHYL METHACRYLATE):4||POLYMER BLENDS:4||SIMULATION:4||CHAIN ORIENTATION:4||STYRENE:4||TOF MASSSPECTROMETRY:4||WATER:4||DISPLAYS:4||OLIGOMERS:4||PEPTIDES:4||CYCLIC POLYSTYRENE:4||LATTICE CLUSTER THEORY:4||2NDHARMONIC GENERATION:4||LIQUIDCRYSTAL ALIGNMENT:4||MONTECARLO:4||LangmuirBlodgett film:3||ASSEMBLIES:3||chromatography:3||HOLOGRAPHIC RELAXATION SPECTROSCOPY:3||MULTIPLE MORPHOLOGIES:3||INTERACTION CHROMATOGRAPHY:3||NORMALPHASE:3||DIFFUSION:3||BRANCHED POLYSTYRENE:3||NANOPARTICLES:3||LITHOGRAPHY:3||POLYMER:3||LASERLIGHTSCATTERING:3||HIGH MOLECULARWEIGHT:3||CUBIC PHASE:3||AMPHIPHILIC BLOCKCOPOLYMERS:3||AQUEOUSSOLUTION:3||MODEL:3||FORCED RAYLEIGHSCATTERING:3||HYDRODYNAMIC PROPERTIES:3||4MIKTOARM STAR COPOLYMER:3||SYSTEM:3||PHASEBEHAVIOR:3||AQUEOUSSOLUTIONS:3||RHEOLOGY:3||LB film:3||2DIMENSIONAL LIQUIDCHROMATOGRAPHY:3||VISCOSITY:3||DIBLOCK COPOLYMER MELTS:3||ORDERORDER TRANSITION:3||GYROID PHASE:3||BINDING:3||BLOCK POLYELECTROLYTES:3||DERIVATIVES:3||MELT:3||PHASE LIQUIDCHROMATOGRAPHY:3||high temperature:3||ELEVATEDTEMPERATURE:3||RETENTION:3||MICELLE FORMATION:3||ELECTRONMICROSCOPY:3||Electrospray ionization:2||FRACTIONS:2||nalkanes:2||ISOCRATIC SEPARATION:2||ASSOCIATION:2||POLY(METHYL METHACRYLATE)S:2||2D correlation spectroscopy:2||CARBONATION:2||GLASSTRANSITION BEHAVIORS:2||MECHANICAL PROPERTIES:2||DIMENSIONS:2||POLYMER MIXTURES:2||ALUMINUM PORPHYRIN:2||LEAD STEARATE:2||FERROCENE:2||POLY(EPSILONCAPROLACTONE):2||DIAGRAM:2||nucleosides:2||Selective recognition by preconcentration:2||Electrochemical impedance spectroscopy:2||DOPAMINE:2||Silica:2||Silyl Ester:2||DIETHYL ESTER) PRECURSORS:2||SURFACE CHARACTERIZATION:2||MICROSTRUCTURE:2||polystyreneblockpolyisoprene:2||MICROPHASESEPARATED STRUCTURES:2||IMPEDANCE MEASUREMENTS:2||HEMEPROTEINS:2||SOLID SUBSTRATE:2||MOISTURE ABSORPTION:2||aromatic polyimide:2||INDUCED MORPHOLOGICALCHANGES:2||STABILITY:2||LC alignment layers:2||POLYPYROMELLITIMIDES:2||Ion mobility:2||Chiral polymer:2||OLIGOSACCHARIDES:2||OXIDE:2||SIDECHAIN:2||RETARDATION:2||functionality:2||temperature effects:2||phase transition:2||glass transition temperature:2||spincoated film:2||ESTER) PRECURSORS:2||PRECURSOR BLEND:2||Xray reflectivity:2||SIGMABONDS:2||aluminum porphyrin catalysts:2||METALLOPORPHYRIN:2||SILICON:2||MASSSPECTROMETRY ANALYSIS:2||STAR POLYMERS:2||SIZE DISTRIBUTIONS:2||GIANT VESICLES:2||POLY(3ALKYLTHIOPHENES):2||ADHESION:2||LIGHT:2||POLYSTYRENEBPOLYISOPRENE:2||HPLC fractionation:2||SILVER ELECTRODES:2||ENHANCED RESONANCE RAMAN:2||SEQUENCE:2||POLYELECTROLYTE/NONELECTROLYTE SHELLS:2||polyimide:2||liquid crystal alignment layer:2||SOLUBLE POLYIMIDES:2||POLYBUTADIENECOATED ZIRCONIA:2||PRETILT ANGLES:2||CROSSSECTIONS:2||IMSMS:2||POLYISOPRENE COPOLYMERS:2||POLYIMIDE THINFILMS:2||POLYMER SURFACES:2||RAMAN:2||STEREOREGULAR PMMA:2||poly(tertbutyl methacrylate) (PtBMA):2||TIME:2||POLYIMIDE COMPOSITE:2||CARBOXYLATO COMPLEXES:2||AGOSTIC INTERACTIONS:2||MOLECULARSTRUCTURE:2||ALKENE:2||TRANSISTOR MEMORY:2||DEVICES:2||ORTHOGONALITY:2||molecular characterization:2||ORGANOSILICATE DIELECTRIC FILMS:2||AMPHIPHILES:2||Serotonin:2||Anodic stripping differential pulse voltammetry:2||transmission electron microtomography:2||LIQUIDCHROMATOGRAPHY ANALYSIS:2||PHASEDIAGRAM:2||CARBON NANOTUBES:2||TRANSFER MECHANISM:2||BINARY MIXTURES:2||REFLECTOMETRY:2||ROD:2||DROPS:2||CONSTANT:2||TRIBLOCK COPOLYMER:2||POLYMER VESICLES:2||CLICK CHEMISTRY:2||ARRAYS:2||COMPOSITES:2||MALDITOF MS:2||POLYMER THINFILMS:2||HYDROPHOBIC INTERACTION CHROMATOGRAPHY:2||retention mechanism:2||GRAZINGINCIDENCE:2||NANOPOROSITY:2||soluble poly(amic esteraltimide)s:2||DIFFERENTIAL SCANNING CALORIMETRY:2||RESIDUALSTRESS:2||CHEMICALCOMPOSITION:2||POLY(AMIC DIETHYL ESTER) PRECURSOR:2||POLY(DIMETHYL SILOXANES):2||MASS POLYSTYRENES:2||cyclic propylene carbonate:2||propylene oxide:2||ACETATE) TOLUENE SOLUTIONS:2||TRANSIENT GRATING METHOD:2||MASS DIFFUSION:2||MICROPHASE SEPARATION TRANSITION:2||POLYSTYRENES:2||POLYSILANE:2||CARBOHYDRATEBASED PHOSPHOLIPIDS:2||HELICAL STRANDS:2||FLUORESCENCE DETECTION:2||SENSITIVE DETERMINATION:2||COMPOSITE FILMS:2||microphase:2||3MERCAPTOPROPIONIC ACID:2||BUTADIENE BLOCK COPOLYMER:2||HYBRID POLYMERIC MICELLES:2||AQUEOUSMEDIA:2||CONTACTANGLE:2||TRANSISTORCIRCUITS:2||ABTYPE POLY(ETHERIMIDE)S:2||CORRELATION SPECTROSCOPY:2||GASPHASE CONFORMATIONS:2||DECANE:2||INFRAREDSPECTROSCOPY:2||MICELLIZATION:2||ENERGIES:2||ACID) PRECURSORS:2||PHOTOALIGNMENT:2||polymers:2||SUBSTRATE:2||carbon dioxide:2||oligomeric propylene carbonate:2||THERMALDIFFUSION:2||CRYSTAL:2||PHASETRANSITION:2||REFLECTIVITY:2||ANALOGS:2||supramolecular chemistry:2||LYSOPHOSPHATIDIC ACID:2||PHOSPHOCHOLINE:2||POLY(3HEXYLTHIOPHENE):2||Receptor:2||MODIFIED GOLD ELECTRODES:2||ASCORBICACID:2||HUMAN URINE:2||Hybrid Nanocomposite:2||Dielectric Constant:2||AU(111) ELECTRODES:2||NANOFILMS:2||HYDROPHOBIC CORES:2||DRIVEN:2||FLEXIBLE SIDECHAINS:2||MESOGEN:2||size exclusion chromatography:2||ORGANIZATION:2||POLY(LACTIC ACID):2||MOLECULAR ARCHITECTURE:2||COUPLER:2||POLYSTYRENE COPOLYMER:2||diffusion coefficient:2||XRAY REFLECTIVITY:2||temperature gradient interaction chromatography polystyryllithium:2||VISCOELASTIC PROPERTIES:2||polyisoprene:2||CRYSTALSTRUCTURES:2||POLYCARBONATE:2||MULTILAYERS:2||DEPOSITION:2||FULL ADSORPTION MECHANISMS:2||QUANTUM DOTS:2||CRITICAL ORDERING TRANSITION:2||CORE:2||PARACRYSTALLINE DISTORTION:2||PERFORATED LAYER PHASE:2||liposomes:2||phospholipids:2||UNILAMELLAR VESICLES:2||VOLTAMMETRIC DETERMINATION:2||Polyimide:2||FOURIERTRANSFORM:2||SURFACE:2||SIZE EXCLUSION CHROMATOGRAPHY:2||NEUTRON REFLECTIVITY:2||ORDERED STRUCTURE:2||RIGID ROD POLYMERS:2||DISPLACEMENT POLYMERIZATION:2||PHOTOSENSITIVE POLYIMIDE:2||EFFICIENCY:2||films:2||Polylactide:2||CHROMATOGRAPHIC CRITICAL CONDITION:2||RETENTION MECHANISM:2||COPPER PHTHALOCYANINE:2||C60:2||COPOLYMER:2||micelle:2||LINEAR POLYETHYLENE:2||LIQUIDS:2||ARMS:2||HIGHPERFORMANCE LIQUID:2||alternating copolyimides:2||PHASE SEPARATION:2||POLYMERCHAINS:2||STYRYLPYRIDINIUM:2||ANGLES:2||MOBILITY:2||PROBE:2||ACIDS:2||BLUE:2||POSITIONS:2||CYCLOPENTADIENYL:2||HIGHMOLECULARWEIGHT:2||FUELCELLS:2||TIN OXIDE:2||NANOCRYSTALS:2||SURFACE MICELLE FORMATION:2||DISORDER TRANSITION:2||BIREFRINGENCE:2||LIPIDCOMPOSITION:2||CONJUGATED POLYMERS:2||GLASSYCARBON ELECTRODE:2||ELECTROCHEMICAL DETECTION:2||MULTIPLE DETECTION:2||aromatic polyimides:2||MOLECULARWEIGHT HOMOPOLYMERS:2||BINARYMIXTURE:2||PATTERNS:2||photoluminescent polyimide:2||photosensitive polyimide:2||DEPENDENT MICELLIZATION:2||SPEED:2||synthesis:2||COIL BLOCKCOPOLYMERS:2||LIQUIDCRYSTALLINE ASSEMBLIES:2||OXIDE):2||molecular weight distribution:2||CONJUGATED POLYMER:2||polymer characterization:2||NONIONIC SURFACTANTS:2||STEREOREGULAR POLY(METHYL METHACRYLATE):2||structure:2||RODLIKE POLYIMIDE:2||FLEXIBLE POLYIMIDE:2||THERMAL IMIDIZATION:2||IN SITU RODCHAIN FORMATION:2||PHASESEPARATION:2||VINYL ETHER):2||EQUILIBRIUM:2||STRESS:2||STRUCTURAL RELAXATION:2||LIVING POLYMERIZATION:2||CONTAIN:2||SALT:2||WAVEGUIDE:2||XRAY DIFFRACTION:2||WALLED CARBON NANOTUBES:2||SILICON NANOWIRES:2||IR:2||DIELECTRIC THINFILMS:2||Selfassembled monolayer:2||PARAMETERS:2||Temperature gradient interaction chromatography:2||SOLIDSURFACES:2||FLOW:2||RATES:2||PRECURSORS:2||FILM BALANCE:2||SIDECHAINS:2||SUPRAMOLECULAR MATERIALS:2||CHAINS:2||POLYSTYRENE:39||ANIONICPOLYMERIZATION:34||GRADIENT INTERACTION CHROMATOGRAPHY:31||SEPARATION:27||BEHAVIOR:24||LIQUIDCHROMATOGRAPHY:22||POLYMERS:22||SIZEEXCLUSION CHROMATOGRAPHY:19||BLOCKCOPOLYMERS:17||DIBLOCK COPOLYMERS:17||THINFILMS:16||POLYISOPRENE:14||HPLC:13||SYNTHETICPOLYMERS:12||PERFORMANCE LIQUIDCHROMATOGRAPHY:11||DIBLOCK COPOLYMER:11||MOLECULARWEIGHT DISTRIBUTION:10||MACROMOLECULES:10||BLOCKCOPOLYMER:10||REVERSEDPHASE:10||RETENTION BEHAVIOR:10||MORPHOLOGY:9||MOLECULARWEIGHT:9||MELTS:9||AROMATIC POLYIMIDES:8||XRAYSCATTERING:8||polystyrene:8||MIXTURES:7||block copolymer:7||SURFACES:7||DEPENDENCE:7||COPOLYMERS:7||POLYMERIZATION:7||AIR/WATER INTERFACE:7||DEFINED BRUSH POLYIMIDE:6||TEMPERATURE:6||FULLY RODLIKE BACKBONE:6||MONOLAYERS:6||POLYIMIDES:6||CHAIN:6||COMPLEX POLYMERS:6||MOLECULARREORIENTATION:6||temperature gradient interaction chromatography:6||POLYMERFILMS:6||GELPERMEATION CHROMATOGRAPHY:6||ELUTION:6||ORDERDISORDER TRANSITION:6||SURFACEMORPHOLOGY:6||ORIENTATION:6||SYSTEMS:6||CRITICAL ADSORPTION POINT:6||LIGHTSCATTERING:5||PROBE DIFFUSION:5||POLYDISPERSITY:5||AIRWATERINTERFACE:5||MICROPHASE SEPARATION:5||GLASSTRANSITION:5||BLENDS:5||FILMS:5||ADSORPTION CHROMATOGRAPHY:5||MECHANISM:5||CO2:5||ETHYLENEOXIDE:5||ALIGNMENT:5||COMPLEXES:5||FRACTIONATION:5||MISCIBILITY:5||POLYMER CHARACTERIZATION:5||HEXAGONALLY PERFORATED LAYER:5||TRANSITION:5||FLIGHT MASSSPECTROMETRY:5||ARCHITECTURE:5||POLY(METHYL METHACRYLATE):5||ALTERNATING COPOLYMERIZATION:4||THICKNESS:4||THERMODYNAMICS:4||CRITICAL RANGE:4||ULTRATHIN POLYMERFILMS:4||DYNAMICS:4||CLIMATECHANGE:4||PHASE:4||GLASSTRANSITION TEMPERATURE:4||EPOXIDE:4||selfassembly:4||SPECTROSCOPY:4||SELFDIFFUSION:4||SCATTERING:4||OPTICALPROPERTIES:4||CATALYSTS:4||CHEMISTRY:4||SOLARCELLS:4||polyimides:4||polypyromellitimides:4||SEGMENTAL REORIENTATIONS:4||ADSORPTION:4||INTERFACE:4||POLYMERSOLUTIONS:4||TRACER DIFFUSION:4||OXIDE) DIBLOCK COPOLYMER:4||POLYSTYRENEBPOLY(METHYL METHACRYLATE):4||POLYMER BLENDS:4||SIMULATION:4||CHAIN ORIENTATION:4||STYRENE:4||TOF MASSSPECTROMETRY:4||WATER:4||DISPLAYS:4||OLIGOMERS:4||PEPTIDES:4||CYCLIC POLYSTYRENE:4||LATTICE CLUSTER THEORY:4||2NDHARMONIC GENERATION:4||LIQUIDCRYSTAL ALIGNMENT:4||MONTECARLO:4||LangmuirBlodgett film:3||ASSEMBLIES:3||chromatography:3||HOLOGRAPHIC RELAXATION SPECTROSCOPY:3||MULTIPLE MORPHOLOGIES:3||INTERACTION CHROMATOGRAPHY:3||NORMALPHASE:3||DIFFUSION:3||BRANCHED POLYSTYRENE:3||NANOPARTICLES:3||LITHOGRAPHY:3||POLYMER:3||LASERLIGHTSCATTERING:3||HIGH MOLECULARWEIGHT:3||CUBIC PHASE:3||AMPHIPHILIC BLOCKCOPOLYMERS:3||AQUEOUSSOLUTION:3||MODEL:3||FORCED RAYLEIGHSCATTERING:3||HYDRODYNAMIC PROPERTIES:3||4MIKTOARM STAR COPOLYMER:3||SYSTEM:3||PHASEBEHAVIOR:3||AQUEOUSSOLUTIONS:3||RHEOLOGY:3||LB film:3||2DIMENSIONAL LIQUIDCHROMATOGRAPHY:3||VISCOSITY:3||DIBLOCK COPOLYMER MELTS:3||ORDERORDER TRANSITION:3||GYROID PHASE:3||BINDING:3||BLOCK POLYELECTROLYTES:3||DERIVATIVES:3||MELT:3||PHASE LIQUIDCHROMATOGRAPHY:3||high temperature:3||ELEVATEDTEMPERATURE:3||RETENTION:3||MICELLE FORMATION:3||ELECTRONMICROSCOPY:3||Electrospray ionization:2||FRACTIONS:2||nalkanes:2||ISOCRATIC SEPARATION:2||ASSOCIATION:2||POLY(METHYL METHACRYLATE)S:2||2D correlation spectroscopy:2||CARBONATION:2||GLASSTRANSITION BEHAVIORS:2||MECHANICAL PROPERTIES:2||DIMENSIONS:2||POLYMER MIXTURES:2||ALUMINUM PORPHYRIN:2||LEAD STEARATE:2||FERROCENE:2||POLY(EPSILONCAPROLACTONE):2||DIAGRAM:2||nucleosides:2||Selective recognition by preconcentration:2||Electrochemical impedance spectroscopy:2||DOPAMINE:2||Silica:2||Silyl Ester:2||DIETHYL ESTER) PRECURSORS:2||SURFACE CHARACTERIZATION:2||MICROSTRUCTURE:2||polystyreneblockpolyisoprene:2||MICROPHASESEPARATED STRUCTURES:2||IMPEDANCE MEASUREMENTS:2||HEMEPROTEINS:2||SOLID SUBSTRATE:2||MOISTURE ABSORPTION:2||aromatic polyimide:2||INDUCED MORPHOLOGICALCHANGES:2||STABILITY:2||LC alignment layers:2||POLYPYROMELLITIMIDES:2||Ion mobility:2||Chiral polymer:2||OLIGOSACCHARIDES:2||OXIDE:2||SIDECHAIN:2||RETARDATION:2||functionality:2||temperature effects:2||phase transition:2||glass transition temperature:2||spincoated film:2||ESTER) PRECURSORS:2||PRECURSOR BLEND:2||Xray reflectivity:2||SIGMABONDS:2||aluminum porphyrin catalysts:2||METALLOPORPHYRIN:2||SILICON:2||MASSSPECTROMETRY ANALYSIS:2||STAR POLYMERS:2||SIZE DISTRIBUTIONS:2||GIANT VESICLES:2||POLY(3ALKYLTHIOPHENES):2||ADHESION:2||LIGHT:2||POLYSTYRENEBPOLYISOPRENE:2||HPLC fractionation:2||SILVER ELECTRODES:2||ENHANCED RESONANCE RAMAN:2||SEQUENCE:2||POLYELECTROLYTE/NONELECTROLYTE SHELLS:2||polyimide:2||liquid crystal alignment layer:2||SOLUBLE POLYIMIDES:2||POLYBUTADIENECOATED ZIRCONIA:2||PRETILT ANGLES:2||CROSSSECTIONS:2||IMSMS:2||POLYISOPRENE COPOLYMERS:2||POLYIMIDE THINFILMS:2||POLYMER SURFACES:2||RAMAN:2||STEREOREGULAR PMMA:2||poly(tertbutyl methacrylate) (PtBMA):2||TIME:2||POLYIMIDE COMPOSITE:2||CARBOXYLATO COMPLEXES:2||AGOSTIC INTERACTIONS:2||MOLECULARSTRUCTURE:2||ALKENE:2||TRANSISTOR MEMORY:2||DEVICES:2||ORTHOGONALITY:2||molecular characterization:2||ORGANOSILICATE DIELECTRIC FILMS:2||AMPHIPHILES:2||Serotonin:2||Anodic stripping differential pulse voltammetry:2||transmission electron microtomography:2||LIQUIDCHROMATOGRAPHY ANALYSIS:2||PHASEDIAGRAM:2||CARBON NANOTUBES:2||TRANSFER MECHANISM:2||BINARY MIXTURES:2||REFLECTOMETRY:2||ROD:2||DROPS:2||CONSTANT:2||TRIBLOCK COPOLYMER:2||POLYMER VESICLES:2||CLICK CHEMISTRY:2||ARRAYS:2||COMPOSITES:2||MALDITOF MS:2||POLYMER THINFILMS:2||HYDROPHOBIC INTERACTION CHROMATOGRAPHY:2||retention mechanism:2||GRAZINGINCIDENCE:2||NANOPOROSITY:2||soluble poly(amic esteraltimide)s:2||DIFFERENTIAL SCANNING CALORIMETRY:2||RESIDUALSTRESS:2||CHEMICALCOMPOSITION:2||POLY(AMIC DIETHYL ESTER) PRECURSOR:2||POLY(DIMETHYL SILOXANES):2||MASS POLYSTYRENES:2||cyclic propylene carbonate:2||propylene oxide:2||ACETATE) TOLUENE SOLUTIONS:2||TRANSIENT GRATING METHOD:2||MASS DIFFUSION:2||MICROPHASE SEPARATION TRANSITION:2||POLYSTYRENES:2||POLYSILANE:2||CARBOHYDRATEBASED PHOSPHOLIPIDS:2||HELICAL STRANDS:2||FLUORESCENCE DETECTION:2||SENSITIVE DETERMINATION:2||COMPOSITE FILMS:2||microphase:2||3MERCAPTOPROPIONIC ACID:2||BUTADIENE BLOCK COPOLYMER:2||HYBRID POLYMERIC MICELLES:2||AQUEOUSMEDIA:2||CONTACTANGLE:2||TRANSISTORCIRCUITS:2||ABTYPE POLY(ETHERIMIDE)S:2||CORRELATION SPECTROSCOPY:2||GASPHASE CONFORMATIONS:2||DECANE:2||INFRAREDSPECTROSCOPY:2||MICELLIZATION:2||ENERGIES:2||ACID) PRECURSORS:2||PHOTOALIGNMENT:2||polymers:2||SUBSTRATE:2||carbon dioxide:2||oligomeric propylene carbonate:2||THERMALDIFFUSION:2||CRYSTAL:2||PHASETRANSITION:2||REFLECTIVITY:2||ANALOGS:2||supramolecular chemistry:2||LYSOPHOSPHATIDIC ACID:2||PHOSPHOCHOLINE:2||POLY(3HEXYLTHIOPHENE):2||Receptor:2||MODIFIED GOLD ELECTRODES:2||ASCORBICACID:2||HUMAN URINE:2||Hybrid Nanocomposite:2||Dielectric Constant:2||AU(111) ELECTRODES:2||NANOFILMS:2||HYDROPHOBIC CORES:2||DRIVEN:2||FLEXIBLE SIDECHAINS:2||MESOGEN:2||size exclusion chromatography:2||ORGANIZATION:2||POLY(LACTIC ACID):2||MOLECULAR ARCHITECTURE:2||COUPLER:2||POLYSTYRENE COPOLYMER:2||diffusion coefficient:2||XRAY REFLECTIVITY:2||temperature gradient interaction chromatography polystyryllithium:2||VISCOELASTIC PROPERTIES:2||polyisoprene:2||CRYSTALSTRUCTURES:2||POLYCARBONATE:2||MULTILAYERS:2||DEPOSITION:2||FULL ADSORPTION MECHANISMS:2||QUANTUM DOTS:2||CRITICAL ORDERING TRANSITION:2||CORE:2||PARACRYSTALLINE DISTORTION:2||PERFORATED LAYER PHASE:2||liposomes:2||phospholipids:2||UNILAMELLAR VESICLES:2||VOLTAMMETRIC DETERMINATION:2||Polyimide:2||FOURIERTRANSFORM:2||SURFACE:2||SIZE EXCLUSION CHROMATOGRAPHY:2||NEUTRON REFLECTIVITY:2||ORDERED STRUCTURE:2||RIGID ROD POLYMERS:2||DISPLACEMENT POLYMERIZATION:2||PHOTOSENSITIVE POLYIMIDE:2||EFFICIENCY:2||films:2||Polylactide:2||CHROMATOGRAPHIC CRITICAL CONDITION:2||RETENTION MECHANISM:2||COPPER PHTHALOCYANINE:2||C60:2||COPOLYMER:2||micelle:2||LINEAR POLYETHYLENE:2||LIQUIDS:2||ARMS:2||HIGHPERFORMANCE LIQUID:2||alternating copolyimides:2||PHASE SEPARATION:2||POLYMERCHAINS:2||STYRYLPYRIDINIUM:2||ANGLES:2||MOBILITY:2||PROBE:2||ACIDS:2||BLUE:2||POSITIONS:2||CYCLOPENTADIENYL:2||HIGHMOLECULARWEIGHT:2||FUELCELLS:2||TIN OXIDE:2||NANOCRYSTALS:2||SURFACE MICELLE FORMATION:2||DISORDER TRANSITION:2||BIREFRINGENCE:2||LIPIDCOMPOSITION:2||CONJUGATED POLYMERS:2||GLASSYCARBON ELECTRODE:2||ELECTROCHEMICAL DETECTION:2||MULTIPLE DETECTION:2||aromatic polyimides:2||MOLECULARWEIGHT HOMOPOLYMERS:2||BINARYMIXTURE:2||PATTERNS:2||photoluminescent polyimide:2||photosensitive polyimide:2||DEPENDENT MICELLIZATION:2||SPEED:2||synthesis:2||COIL BLOCKCOPOLYMERS:2||LIQUIDCRYSTALLINE ASSEMBLIES:2||OXIDE):2||molecular weight distribution:2||CONJUGATED POLYMER:2||polymer characterization:2||NONIONIC SURFACTANTS:2||STEREOREGULAR POLY(METHYL METHACRYLATE):2||structure:2||RODLIKE POLYIMIDE:2||FLEXIBLE POLYIMIDE:2||THERMAL IMIDIZATION:2||IN SITU RODCHAIN FORMATION:2||PHASESEPARATION:2||VINYL ETHER):2||EQUILIBRIUM:2||STRESS:2||STRUCTURAL RELAXATION:2||LIVING POLYMERIZATION:2||CONTAIN:2||SALT:2||WAVEGUIDE:2||XRAY DIFFRACTION:2||WALLED CARBON NANOTUBES:2||SILICON NANOWIRES:2||IR:2||DIELECTRIC THINFILMS:2||Selfassembled monolayer:2||PARAMETERS:2||Temperature gradient interaction chromatography:2||SOLIDSURFACES:2||FLOW:2||RATES:2||PRECURSORS:2||FILM BALANCE:2||SIDECHAINS:2||SUPRAMOLECULAR MATERIALS:2||CHAINS:2||POLYSTYRENE:39||ANIONICPOLYMERIZATION:34||GRADIENT INTERACTION CHROMATOGRAPHY:31||SEPARATION:27||BEHAVIOR:24||LIQUIDCHROMATOGRAPHY:22||POLYMERS:22||SIZEEXCLUSION CHROMATOGRAPHY:19||BLOCKCOPOLYMERS:17||DIBLOCK COPOLYMERS:17||THINFILMS:16||POLYISOPRENE:14||HPLC:13||SYNTHETICPOLYMERS:12||PERFORMANCE LIQUIDCHROMATOGRAPHY:11||DIBLOCK COPOLYMER:11||MOLECULARWEIGHT DISTRIBUTION:10||MACROMOLECULES:10||BLOCKCOPOLYMER:10||REVERSEDPHASE:10||RETENTION BEHAVIOR:10||MORPHOLOGY:9||MOLECULARWEIGHT:9||MELTS:9||AROMATIC POLYIMIDES:8||XRAYSCATTERING:8||polystyrene:8||MIXTURES:7||block copolymer:7||SURFACES:7||DEPENDENCE:7||COPOLYMERS:7||POLYMERIZATION:7||AIR/WATER INTERFACE:7||DEFINED BRUSH POLYIMIDE:6||TEMPERATURE:6||FULLY RODLIKE BACKBONE:6||MONOLAYERS:6||POLYIMIDES:6||CHAIN:6||COMPLEX POLYMERS:6||MOLECULARREORIENTATION:6||temperature gradient interaction chromatography:6||POLYMERFILMS:6||GELPERMEATION CHROMATOGRAPHY:6||ELUTION:6||ORDERDISORDER TRANSITION:6||SURFACEMORPHOLOGY:6||ORIENTATION:6||SYSTEMS:6||CRITICAL ADSORPTION POINT:6||LIGHTSCATTERING:5||PROBE DIFFUSION:5||POLYDISPERSITY:5||AIRWATERINTERFACE:5||MICROPHASE SEPARATION:5||GLASSTRANSITION:5||BLENDS:5||FILMS:5||ADSORPTION CHROMATOGRAPHY:5||MECHANISM:5||CO2:5||ETHYLENEOXIDE:5||ALIGNMENT:5||COMPLEXES:5||FRACTIONATION:5||MISCIBILITY:5||POLYMER CHARACTERIZATION:5||HEXAGONALLY PERFORATED LAYER:5||TRANSITION:5||FLIGHT MASSSPECTROMETRY:5||ARCHITECTURE:5||POLY(METHYL METHACRYLATE):5||ALTERNATING COPOLYMERIZATION:4||THICKNESS:4||THERMODYNAMICS:4||CRITICAL RANGE:4||ULTRATHIN POLYMERFILMS:4||DYNAMICS:4||CLIMATECHANGE:4||PHASE:4||GLASSTRANSITION TEMPERATURE:4||EPOXIDE:4||selfassembly:4||SPECTROSCOPY:4||SELFDIFFUSION:4||SCATTERING:4||OPTICALPROPERTIES:4||CATALYSTS:4||CHEMISTRY:4||SOLARCELLS:4||polyimides:4||polypyromellitimides:4||SEGMENTAL REORIENTATIONS:4||ADSORPTION:4||INTERFACE:4||POLYMERSOLUTIONS:4||TRACER DIFFUSION:4||OXIDE) DIBLOCK COPOLYMER:4||POLYSTYRENEBPOLY(METHYL METHACRYLATE):4||POLYMER BLENDS:4||SIMULATION:4||CHAIN ORIENTATION:4||STYRENE:4||TOF MASSSPECTROMETRY:4||WATER:4||DISPLAYS:4||OLIGOMERS:4||PEPTIDES:4||CYCLIC POLYSTYRENE:4||LATTICE CLUSTER THEORY:4||2NDHARMONIC GENERATION:4||LIQUIDCRYSTAL ALIGNMENT:4||MONTECARLO:4||LangmuirBlodgett film:3||ASSEMBLIES:3||chromatography:3||HOLOGRAPHIC RELAXATION SPECTROSCOPY:3||MULTIPLE MORPHOLOGIES:3||INTERACTION CHROMATOGRAPHY:3||NORMALPHASE:3||DIFFUSION:3||BRANCHED POLYSTYRENE:3||NANOPARTICLES:3||LITHOGRAPHY:3||POLYMER:3||LASERLIGHTSCATTERING:3||HIGH MOLECULARWEIGHT:3||CUBIC PHASE:3||AMPHIPHILIC BLOCKCOPOLYMERS:3||AQUEOUSSOLUTION:3||MODEL:3||FORCED RAYLEIGHSCATTERING:3||HYDRODYNAMIC PROPERTIES:3||4MIKTOARM STAR COPOLYMER:3||SYSTEM:3||PHASEBEHAVIOR:3||AQUEOUSSOLUTIONS:3||RHEOLOGY:3||LB film:3||2DIMENSIONAL LIQUIDCHROMATOGRAPHY:3||VISCOSITY:3||DIBLOCK COPOLYMER MELTS:3||ORDERORDER TRANSITION:3||GYROID PHASE:3||BINDING:3||BLOCK POLYELECTROLYTES:3||DERIVATIVES:3||MELT:3||PHASE LIQUIDCHROMATOGRAPHY:3||high temperature:3||ELEVATEDTEMPERATURE:3||RETENTION:3||MICELLE FORMATION:3||ELECTRONMICROSCOPY:3||Electrospray ionization:2||FRACTIONS:2||nalkanes:2||ISOCRATIC SEPARATION:2||ASSOCIATION:2||POLY(METHYL METHACRYLATE)S:2||2D correlation spectroscopy:2||CARBONATION:2||GLASSTRANSITION BEHAVIORS:2||MECHANICAL PROPERTIES:2||DIMENSIONS:2||POLYMER MIXTURES:2||ALUMINUM PORPHYRIN:2||LEAD STEARATE:2||FERROCENE:2||POLY(EPSILONCAPROLACTONE):2||DIAGRAM:2||nucleosides:2||Selective recognition by preconcentration:2||Electrochemical impedance spectroscopy:2||DOPAMINE:2||Silica:2||Silyl Ester:2||DIETHYL ESTER) PRECURSORS:2||SURFACE CHARACTERIZATION:2||MICROSTRUCTURE:2||polystyreneblockpolyisoprene:2||MICROPHASESEPARATED STRUCTURES:2||IMPEDANCE MEASUREMENTS:2||HEMEPROTEINS:2||SOLID SUBSTRATE:2||MOISTURE ABSORPTION:2||aromatic polyimide:2||INDUCED MORPHOLOGICALCHANGES:2||STABILITY:2||LC alignment layers:2||POLYPYROMELLITIMIDES:2||Ion mobility:2||Chiral polymer:2||OLIGOSACCHARIDES:2||OXIDE:2||SIDECHAIN:2||RETARDATION:2||functionality:2||temperature effects:2||phase transition:2||glass transition temperature:2||spincoated film:2||ESTER) PRECURSORS:2||PRECURSOR BLEND:2||Xray reflectivity:2||SIGMABONDS:2||aluminum porphyrin catalysts:2||METALLOPORPHYRIN:2||SILICON:2||MASSSPECTROMETRY ANALYSIS:2||STAR POLYMERS:2||SIZE DISTRIBUTIONS:2||GIANT VESICLES:2||POLY(3ALKYLTHIOPHENES):2||ADHESION:2||LIGHT:2||POLYSTYRENEBPOLYISOPRENE:2||HPLC fractionation:2||SILVER ELECTRODES:2||ENHANCED RESONANCE RAMAN:2||SEQUENCE:2||POLYELECTROLYTE/NONELECTROLYTE SHELLS:2||polyimide:2||liquid crystal alignment layer:2||SOLUBLE POLYIMIDES:2||POLYBUTADIENECOATED ZIRCONIA:2||PRETILT ANGLES:2||CROSSSECTIONS:2||IMSMS:2||POLYISOPRENE COPOLYMERS:2||POLYIMIDE THINFILMS:2||POLYMER SURFACES:2||RAMAN:2||STEREOREGULAR PMMA:2||poly(tertbutyl methacrylate) (PtBMA):2||TIME:2||POLYIMIDE COMPOSITE:2||CARBOXYLATO COMPLEXES:2||AGOSTIC INTERACTIONS:2||MOLECULARSTRUCTURE:2||ALKENE:2||TRANSISTOR MEMORY:2||DEVICES:2||ORTHOGONALITY:2||molecular characterization:2||ORGANOSILICATE DIELECTRIC FILMS:2||AMPHIPHILES:2||Serotonin:2||Anodic stripping differential pulse voltammetry:2||transmission electron microtomography:2||LIQUIDCHROMATOGRAPHY ANALYSIS:2||PHASEDIAGRAM:2||CARBON NANOTUBES:2||TRANSFER MECHANISM:2||BINARY MIXTURES:2||REFLECTOMETRY:2||ROD:2||DROPS:2||CONSTANT:2||TRIBLOCK COPOLYMER:2||POLYMER VESICLES:2||CLICK CHEMISTRY:2||ARRAYS:2||COMPOSITES:2||MALDITOF MS:2||POLYMER THINFILMS:2||HYDROPHOBIC INTERACTION CHROMATOGRAPHY:2||retention mechanism:2||GRAZINGINCIDENCE:2||NANOPOROSITY:2||soluble poly(amic esteraltimide)s:2||DIFFERENTIAL SCANNING CALORIMETRY:2||RESIDUALSTRESS:2||CHEMICALCOMPOSITION:2||POLY(AMIC DIETHYL ESTER) PRECURSOR:2||POLY(DIMETHYL SILOXANES):2||MASS POLYSTYRENES:2||cyclic propylene carbonate:2||propylene oxide:2||ACETATE) TOLUENE SOLUTIONS:2||TRANSIENT GRATING METHOD:2||MASS DIFFUSION:2||MICROPHASE SEPARATION TRANSITION:2||POLYSTYRENES:2||POLYSILANE:2||CARBOHYDRATEBASED PHOSPHOLIPIDS:2||HELICAL STRANDS:2||FLUORESCENCE DETECTION:2||SENSITIVE DETERMINATION:2||COMPOSITE FILMS:2||microphase:2||3MERCAPTOPROPIONIC ACID:2||BUTADIENE BLOCK COPOLYMER:2||HYBRID POLYMERIC MICELLES:2||AQUEOUSMEDIA:2||CONTACTANGLE:2||TRANSISTORCIRCUITS:2||ABTYPE POLY(ETHERIMIDE)S:2||CORRELATION SPECTROSCOPY:2||GASPHASE CONFORMATIONS:2||DECANE:2||INFRAREDSPECTROSCOPY:2||MICELLIZATION:2||ENERGIES:2||ACID) PRECURSORS:2||PHOTOALIGNMENT:2||polymers:2||SUBSTRATE:2||carbon dioxide:2||oligomeric propylene carbonate:2||THERMALDIFFUSION:2||CRYSTAL:2||PHASETRANSITION:2||REFLECTIVITY:2||ANALOGS:2||supramolecular chemistry:2||LYSOPHOSPHATIDIC ACID:2||PHOSPHOCHOLINE:2||POLY(3HEXYLTHIOPHENE):2||Receptor:2||MODIFIED GOLD ELECTRODES:2||ASCORBICACID:2||HUMAN URINE:2||Hybrid Nanocomposite:2||Dielectric Constant:2||AU(111) ELECTRODES:2||NANOFILMS:2||HYDROPHOBIC CORES:2||DRIVEN:2||FLEXIBLE SIDECHAINS:2||MESOGEN:2||size exclusion chromatography:2||ORGANIZATION:2||POLY(LACTIC ACID):2||MOLECULAR ARCHITECTURE:2||COUPLER:2||POLYSTYRENE COPOLYMER:2||diffusion coefficient:2||XRAY REFLECTIVITY:2||temperature gradient interaction chromatography polystyryllithium:2||VISCOELASTIC PROPERTIES:2||polyisoprene:2||CRYSTALSTRUCTURES:2||POLYCARBONATE:2||MULTILAYERS:2||DEPOSITION:2||FULL ADSORPTION MECHANISMS:2||QUANTUM DOTS:2||CRITICAL ORDERING TRANSITION:2||CORE:2||PARACRYSTALLINE DISTORTION:2||PERFORATED LAYER PHASE:2||liposomes:2||phospholipids:2||UNILAMELLAR VESICLES:2||VOLTAMMETRIC DETERMINATION:2||Polyimide:2||FOURIERTRANSFORM:2||SURFACE:2||SIZE EXCLUSION CHROMATOGRAPHY:2||NEUTRON REFLECTIVITY:2||ORDERED STRUCTURE:2||RIGID ROD POLYMERS:2||DISPLACEMENT POLYMERIZATION:2||PHOTOSENSITIVE POLYIMIDE:2||EFFICIENCY:2||films:2||Polylactide:2||CHROMATOGRAPHIC CRITICAL CONDITION:2||RETENTION MECHANISM:2||COPPER PHTHALOCYANINE:2||C60:2||COPOLYMER:2||micelle:2||LINEAR POLYETHYLENE:2||LIQUIDS:2||ARMS:2||HIGHPERFORMANCE LIQUID:2||alternating copolyimides:2||PHASE SEPARATION:2||POLYMERCHAINS:2||STYRYLPYRIDINIUM:2||ANGLES:2||MOBILITY:2||PROBE:2||ACIDS:2||BLUE:2||POSITIONS:2||CYCLOPENTADIENYL:2||HIGHMOLECULARWEIGHT:2||FUELCELLS:2||TIN OXIDE:2||NANOCRYSTALS:2||SURFACE MICELLE FORMATION:2||DISORDER TRANSITION:2||BIREFRINGENCE:2||LIPIDCOMPOSITION:2||CONJUGATED POLYMERS:2||GLASSYCARBON ELECTRODE:2||ELECTROCHEMICAL DETECTION:2||MULTIPLE DETECTION:2||aromatic polyimides:2||MOLECULARWEIGHT HOMOPOLYMERS:2||BINARYMIXTURE:2||PATTERNS:2||photoluminescent polyimide:2||photosensitive polyimide:2||DEPENDENT MICELLIZATION:2||SPEED:2||synthesis:2||COIL BLOCKCOPOLYMERS:2||LIQUIDCRYSTALLINE ASSEMBLIES:2||OXIDE):2||molecular weight distribution:2||CONJUGATED POLYMER:2||polymer characterization:2||NONIONIC SURFACTANTS:2||STEREOREGULAR POLY(METHYL METHACRYLATE):2||structure:2||RODLIKE POLYIMIDE:2||FLEXIBLE POLYIMIDE:2||THERMAL IMIDIZATION:2||IN SITU RODCHAIN FORMATION:2||PHASESEPARATION:2||VINYL ETHER):2||EQUILIBRIUM:2||STRESS:2||STRUCTURAL RELAXATION:2||LIVING POLYMERIZATION:2||CONTAIN:2||SALT:2||WAVEGUIDE:2||XRAY DIFFRACTION:2||WALLED CARBON NANOTUBES:2||SILICON NANOWIRES:2||IR:2||DIELECTRIC THINFILMS:2||Selfassembled monolayer:2||PARAMETERS:2||Temperature gradient interaction chromatography:2||SOLIDSURFACES:2||FLOW:2||RATES:2||PRECURSORS:2||FILM BALANCE:2||SIDECHAINS:2||SUPRAMOLECULAR MATERIALS:2||CHAINS:2||POLYSTYRENE:39||ANIONICPOLYMERIZATION:34||GRADIENT INTERACTION CHROMATOGRAPHY:31||SEPARATION:27||BEHAVIOR:24||LIQUIDCHROMATOGRAPHY:22||POLYMERS:22||SIZEEXCLUSION CHROMATOGRAPHY:19||BLOCKCOPOLYMERS:17||DIBLOCK COPOLYMERS:17||THINFILMS:16||POLYISOPRENE:14||HPLC:13||SYNTHETICPOLYMERS:12||PERFORMANCE LIQUIDCHROMATOGRAPHY:11||DIBLOCK COPOLYMER:11||MOLECULARWEIGHT DISTRIBUTION:10||MACROMOLECULES:10||BLOCKCOPOLYMER:10||REVERSEDPHASE:10||RETENTION BEHAVIOR:10||MORPHOLOGY:9||MOLECULARWEIGHT:9||MELTS:9||AROMATIC POLYIMIDES:8||XRAYSCATTERING:8||polystyrene:8||MIXTURES:7||block copolymer:7||SURFACES:7||DEPENDENCE:7||COPOLYMERS:7||POLYMERIZATION:7||AIR/WATER INTERFACE:7||DEFINED BRUSH POLYIMIDE:6||TEMPERATURE:6||FULLY RODLIKE BACKBONE:6||MONOLAYERS:6||POLYIMIDES:6||CHAIN:6||COMPLEX POLYMERS:6||MOLECULARREORIENTATION:6||temperature gradient interaction chromatography:6||POLYMERFILMS:6||GELPERMEATION CHROMATOGRAPHY:6||ELUTION:6||ORDERDISORDER TRANSITION:6||SURFACEMORPHOLOGY:6||ORIENTATION:6||SYSTEMS:6||CRITICAL ADSORPTION POINT:6||LIGHTSCATTERING:5||PROBE DIFFUSION:5||POLYDISPERSITY:5||AIRWATERINTERFACE:5||MICROPHASE SEPARATION:5||GLASSTRANSITION:5||BLENDS:5||FILMS:5||ADSORPTION CHROMATOGRAPHY:5||MECHANISM:5||CO2:5||ETHYLENEOXIDE:5||ALIGNMENT:5||COMPLEXES:5||FRACTIONATION:5||MISCIBILITY:5||POLYMER CHARACTERIZATION:5||HEXAGONALLY PERFORATED LAYER:5||TRANSITION:5||FLIGHT MASSSPECTROMETRY:5||ARCHITECTURE:5||POLY(METHYL METHACRYLATE):5||ALTERNATING COPOLYMERIZATION:4||THICKNESS:4||THERMODYNAMICS:4||CRITICAL RANGE:4||ULTRATHIN POLYMERFILMS:4||DYNAMICS:4||CLIMATECHANGE:4||PHASE:4||GLASSTRANSITION TEMPERATURE:4||EPOXIDE:4||selfassembly:4||SPECTROSCOPY:4||SELFDIFFUSION:4||SCATTERING:4||OPTICALPROPERTIES:4||CATALYSTS:4||CHEMISTRY:4||SOLARCELLS:4||polyimides:4||polypyromellitimides:4||SEGMENTAL REORIENTATIONS:4||ADSORPTION:4||INTERFACE:4||POLYMERSOLUTIONS:4||TRACER DIFFUSION:4||OXIDE) DIBLOCK COPOLYMER:4||POLYSTYRENEBPOLY(METHYL METHACRYLATE):4||POLYMER BLENDS:4||SIMULATION:4||CHAIN ORIENTATION:4||STYRENE:4||TOF MASSSPECTROMETRY:4||WATER:4||DISPLAYS:4||OLIGOMERS:4||PEPTIDES:4||CYCLIC POLYSTYRENE:4||LATTICE CLUSTER THEORY:4||2NDHARMONIC GENERATION:4||LIQUIDCRYSTAL ALIGNMENT:4||MONTECARLO:4||LangmuirBlodgett film:3||ASSEMBLIES:3||chromatography:3||HOLOGRAPHIC RELAXATION SPECTROSCOPY:3||MULTIPLE MORPHOLOGIES:3||INTERACTION CHROMATOGRAPHY:3||NORMALPHASE:3||DIFFUSION:3||BRANCHED POLYSTYRENE:3||NANOPARTICLES:3||LITHOGRAPHY:3||POLYMER:3||LASERLIGHTSCATTERING:3||HIGH MOLECULARWEIGHT:3||CUBIC PHASE:3||AMPHIPHILIC BLOCKCOPOLYMERS:3||AQUEOUSSOLUTION:3||MODEL:3||FORCED RAYLEIGHSCATTERING:3||HYDRODYNAMIC PROPERTIES:3||4MIKTOARM STAR COPOLYMER:3||SYSTEM:3||PHASEBEHAVIOR:3||AQUEOUSSOLUTIONS:3||RHEOLOGY:3||LB film:3||2DIMENSIONAL LIQUIDCHROMATOGRAPHY:3||VISCOSITY:3||DIBLOCK COPOLYMER MELTS:3||ORDERORDER TRANSITION:3||GYROID PHASE:3||BINDING:3||BLOCK POLYELECTROLYTES:3||DERIVATIVES:3||MELT:3||PHASE LIQUIDCHROMATOGRAPHY:3||high temperature:3||ELEVATEDTEMPERATURE:3||RETENTION:3||MICELLE FORMATION:3||ELECTRONMICROSCOPY:3||Electrospray ionization:2||FRACTIONS:2||nalkanes:2||ISOCRATIC SEPARATION:2||ASSOCIATION:2||POLY(METHYL METHACRYLATE)S:2||2D correlation spectroscopy:2||CARBONATION:2||GLASSTRANSITION BEHAVIORS:2||MECHANICAL PROPERTIES:2||DIMENSIONS:2||POLYMER MIXTURES:2||ALUMINUM PORPHYRIN:2||LEAD STEARATE:2||FERROCENE:2||POLY(EPSILONCAPROLACTONE):2||DIAGRAM:2||nucleosides:2||Selective recognition by preconcentration:2||Electrochemical impedance spectroscopy:2||DOPAMINE:2||Silica:2||Silyl Ester:2||DIETHYL ESTER) PRECURSORS:2||SURFACE CHARACTERIZATION:2||MICROSTRUCTURE:2||polystyreneblockpolyisoprene:2||MICROPHASESEPARATED STRUCTURES:2||IMPEDANCE MEASUREMENTS:2||HEMEPROTEINS:2||SOLID SUBSTRATE:2||MOISTURE ABSORPTION:2||aromatic polyimide:2||INDUCED MORPHOLOGICALCHANGES:2||STABILITY:2||LC alignment layers:2||POLYPYROMELLITIMIDES:2||Ion mobility:2||Chiral polymer:2||OLIGOSACCHARIDES:2||OXIDE:2||SIDECHAIN:2||RETARDATION:2||functionality:2||temperature effects:2||phase transition:2||glass transition temperature:2||spincoated film:2||ESTER) PRECURSORS:2||PRECURSOR BLEND:2||Xray reflectivity:2||SIGMABONDS:2||aluminum porphyrin catalysts:2||METALLOPORPHYRIN:2||SILICON:2||MASSSPECTROMETRY ANALYSIS:2||STAR POLYMERS:2||SIZE DISTRIBUTIONS:2||GIANT VESICLES:2||POLY(3ALKYLTHIOPHENES):2||ADHESION:2||LIGHT:2||POLYSTYRENEBPOLYISOPRENE:2||HPLC fractionation:2||SILVER ELECTRODES:2||ENHANCED RESONANCE RAMAN:2||SEQUENCE:2||POLYELECTROLYTE/NONELECTROLYTE SHELLS:2||polyimide:2||liquid crystal alignment layer:2||SOLUBLE POLYIMIDES:2||POLYBUTADIENECOATED ZIRCONIA:2||PRETILT ANGLES:2||CROSSSECTIONS:2||IMSMS:2||POLYISOPRENE COPOLYMERS:2||POLYIMIDE THINFILMS:2||POLYMER SURFACES:2||RAMAN:2||STEREOREGULAR PMMA:2||poly(tertbutyl methacrylate) (PtBMA):2||TIME:2||POLYIMIDE COMPOSITE:2||CARBOXYLATO COMPLEXES:2||AGOSTIC INTERACTIONS:2||MOLECULARSTRUCTURE:2||ALKENE:2||TRANSISTOR MEMORY:2||DEVICES:2||ORTHOGONALITY:2||molecular characterization:2||ORGANOSILICATE DIELECTRIC FILMS:2||AMPHIPHILES:2||Serotonin:2||Anodic stripping differential pulse voltammetry:2||transmission electron microtomography:2||LIQUIDCHROMATOGRAPHY ANALYSIS:2||PHASEDIAGRAM:2||CARBON NANOTUBES:2||TRANSFER MECHANISM:2||BINARY MIXTURES:2||REFLECTOMETRY:2||ROD:2||DROPS:2||CONSTANT:2||TRIBLOCK COPOLYMER:2||POLYMER VESICLES:2||CLICK CHEMISTRY:2||ARRAYS:2||COMPOSITES:2||MALDITOF MS:2||POLYMER THINFILMS:2||HYDROPHOBIC INTERACTION CHROMATOGRAPHY:2||retention mechanism:2||GRAZINGINCIDENCE:2||NANOPOROSITY:2||soluble poly(amic esteraltimide)s:2||DIFFERENTIAL SCANNING CALORIMETRY:2||RESIDUALSTRESS:2||CHEMICALCOMPOSITION:2||POLY(AMIC DIETHYL ESTER) PRECURSOR:2||POLY(DIMETHYL SILOXANES):2||MASS POLYSTYRENES:2||cyclic propylene carbonate:2||propylene oxide:2||ACETATE) TOLUENE SOLUTIONS:2||TRANSIENT GRATING METHOD:2||MASS DIFFUSION:2||MICROPHASE SEPARATION TRANSITION:2||POLYSTYRENES:2||POLYSILANE:2||CARBOHYDRATEBASED PHOSPHOLIPIDS:2||HELICAL STRANDS:2||FLUORESCENCE DETECTION:2||SENSITIVE DETERMINATION:2||COMPOSITE FILMS:2||microphase:2||3MERCAPTOPROPIONIC ACID:2||BUTADIENE BLOCK COPOLYMER:2||HYBRID POLYMERIC MICELLES:2||AQUEOUSMEDIA:2||CONTACTANGLE:2||TRANSISTORCIRCUITS:2||ABTYPE POLY(ETHERIMIDE)S:2||CORRELATION SPECTROSCOPY:2||GASPHASE CONFORMATIONS:2||DECANE:2||INFRAREDSPECTROSCOPY:2||MICELLIZATION:2||ENERGIES:2||ACID) PRECURSORS:2||PHOTOALIGNMENT:2||polymers:2||SUBSTRATE:2||carbon dioxide:2||oligomeric propylene carbonate:2||THERMALDIFFUSION:2||CRYSTAL:2||PHASETRANSITION:2||REFLECTIVITY:2||ANALOGS:2||supramolecular chemistry:2||LYSOPHOSPHATIDIC ACID:2||PHOSPHOCHOLINE:2||POLY(3HEXYLTHIOPHENE):2||Receptor:2||MODIFIED GOLD ELECTRODES:2||ASCORBICACID:2||HUMAN URINE:2||Hybrid Nanocomposite:2||Dielectric Constant:2||AU(111) ELECTRODES:2||NANOFILMS:2||HYDROPHOBIC CORES:2||DRIVEN:2||FLEXIBLE SIDECHAINS:2||MESOGEN:2||size exclusion chromatography:2||ORGANIZATION:2||POLY(LACTIC ACID):2||MOLECULAR ARCHITECTURE:2||COUPLER:2||POLYSTYRENE COPOLYMER:2||diffusion coefficient:2||XRAY REFLECTIVITY:2||temperature gradient interaction chromatography polystyryllithium:2||VISCOELASTIC PROPERTIES:2||polyisoprene:2||CRYSTALSTRUCTURES:2||POLYCARBONATE:2||MULTILAYERS:2||DEPOSITION:2||FULL ADSORPTION MECHANISMS:2||QUANTUM DOTS:2||CRITICAL ORDERING TRANSITION:2||CORE:2||PARACRYSTALLINE DISTORTION:2||PERFORATED LAYER PHASE:2||liposomes:2||phospholipids:2||UNILAMELLAR VESICLES:2||VOLTAMMETRIC DETERMINATION:2||Polyimide:2||FOURIERTRANSFORM:2||SURFACE:2||SIZE EXCLUSION CHROMATOGRAPHY:2||NEUTRON REFLECTIVITY:2||ORDERED STRUCTURE:2||RIGID ROD POLYMERS:2||DISPLACEMENT POLYMERIZATION:2||PHOTOSENSITIVE POLYIMIDE:2||EFFICIENCY:2||films:2||Polylactide:2||CHROMATOGRAPHIC CRITICAL CONDITION:2||RETENTION MECHANISM:2||COPPER PHTHALOCYANINE:2||C60:2||COPOLYMER:2||micelle:2||LINEAR POLYETHYLENE:2||LIQUIDS:2||ARMS:2||HIGHPERFORMANCE LIQUID:2||alternating copolyimides:2||PHASE SEPARATION:2||POLYMERCHAINS:2||STYRYLPYRIDINIUM:2||ANGLES:2||MOBILITY:2||PROBE:2||ACIDS:2||BLUE:2||POSITIONS:2||CYCLOPENTADIENYL:2||HIGHMOLECULARWEIGHT:2||FUELCELLS:2||TIN OXIDE:2||NANOCRYSTALS:2||SURFACE MICELLE FORMATION:2||DISORDER TRANSITION:2||BIREFRINGENCE:2||LIPIDCOMPOSITION:2||CONJUGATED POLYMERS:2||GLASSYCARBON ELECTRODE:2||ELECTROCHEMICAL DETECTION:2||MULTIPLE DETECTION:2||aromatic polyimides:2||MOLECULARWEIGHT HOMOPOLYMERS:2||BINARYMIXTURE:2||PATTERNS:2||photoluminescent polyimide:2||photosensitive polyimide:2||DEPENDENT MICELLIZATION:2||SPEED:2||synthesis:2||COIL BLOCKCOPOLYMERS:2||LIQUIDCRYSTALLINE ASSEMBLIES:2||OXIDE):2||molecular weight distribution:2||CONJUGATED POLYMER:2||polymer characterization:2||NONIONIC SURFACTANTS:2||STEREOREGULAR POLY(METHYL METHACRYLATE):2||structure:2||RODLIKE POLYIMIDE:2||FLEXIBLE POLYIMIDE:2||THERMAL IMIDIZATION:2||IN SITU RODCHAIN FORMATION:2||PHASESEPARATION:2||VINYL ETHER):2||EQUILIBRIUM:2||STRESS:2||STRUCTURAL RELAXATION:2||LIVING POLYMERIZATION:2||CONTAIN:2||SALT:2||WAVEGUIDE:2||XRAY DIFFRACTION:2||WALLED CARBON NANOTUBES:2||SILICON NANOWIRES:2||IR:2||DIELECTRIC THINFILMS:2||Selfassembled monolayer:2||PARAMETERS:2||Temperature gradient interaction chromatography:2||SOLIDSURFACES:2||FLOW:2||RATES:2||PRECURSORS:2||FILM BALANCE:2||SIDECHAINS:2||SUPRAMOLECULAR MATERIALS:2||CHAINS:2||POLYSTYRENE:39||ANIONICPOLYMERIZATION:34||GRADIENT INTERACTION CHROMATOGRAPHY:31||SEPARATION:27||BEHAVIOR:24||LIQUIDCHROMATOGRAPHY:22||POLYMERS:22||SIZEEXCLUSION CHROMATOGRAPHY:19||BLOCKCOPOLYMERS:17||DIBLOCK COPOLYMERS:17||THINFILMS:16||POLYISOPRENE:14||HPLC:13||SYNTHETICPOLYMERS:12||PERFORMANCE LIQUIDCHROMATOGRAPHY:11||DIBLOCK COPOLYMER:11||MOLECULARWEIGHT DISTRIBUTION:10||MACROMOLECULES:10||BLOCKCOPOLYMER:10||REVERSEDPHASE:10||RETENTION BEHAVIOR:10||MORPHOLOGY:9||MOLECULARWEIGHT:9||MELTS:9||AROMATIC POLYIMIDES:8||XRAYSCATTERING:8||polystyrene:8||MIXTURES:7||block copolymer:7||SURFACES:7||DEPENDENCE:7||COPOLYMERS:7||POLYMERIZATION:7||AIR/WATER INTERFACE:7||DEFINED BRUSH POLYIMIDE:6||TEMPERATURE:6||FULLY RODLIKE BACKBONE:6||MONOLAYERS:6||POLYIMIDES:6||CHAIN:6||COMPLEX POLYMERS:6||MOLECULARREORIENTATION:6||temperature gradient interaction chromatography:6||POLYMERFILMS:6||GELPERMEATION CHROMATOGRAPHY:6||ELUTION:6||ORDERDISORDER TRANSITION:6||SURFACEMORPHOLOGY:6||ORIENTATION:6||SYSTEMS:6||CRITICAL ADSORPTION POINT:6||LIGHTSCATTERING:5||PROBE DIFFUSION:5||POLYDISPERSITY:5||AIRWATERINTERFACE:5||MICROPHASE SEPARATION:5||GLASSTRANSITION:5||BLENDS:5||FILMS:5||ADSORPTION CHROMATOGRAPHY:5||MECHANISM:5||CO2:5||ETHYLENEOXIDE:5||ALIGNMENT:5||COMPLEXES:5||FRACTIONATION:5||MISCIBILITY:5||POLYMER CHARACTERIZATION:5||HEXAGONALLY PERFORATED LAYER:5||TRANSITION:5||FLIGHT MASSSPECTROMETRY:5||ARCHITECTURE:5||POLY(METHYL METHACRYLATE):5||ALTERNATING COPOLYMERIZATION:4||THICKNESS:4||THERMODYNAMICS:4||CRITICAL RANGE:4||ULTRATHIN POLYMERFILMS:4||DYNAMICS:4||CLIMATECHANGE:4||PHASE:4||GLASSTRANSITION TEMPERATURE:4||EPOXIDE:4||selfassembly:4||SPECTROSCOPY:4||SELFDIFFUSION:4||SCATTERING:4||OPTICALPROPERTIES:4||CATALYSTS:4||CHEMISTRY:4||SOLARCELLS:4||polyimides:4||polypyromellitimides:4||SEGMENTAL REORIENTATIONS:4||ADSORPTION:4||INTERFACE:4||POLYMERSOLUTIONS:4||TRACER DIFFUSION:4||OXIDE) DIBLOCK COPOLYMER:4||POLYSTYRENEBPOLY(METHYL METHACRYLATE):4||POLYMER BLENDS:4||SIMULATION:4||CHAIN ORIENTATION:4||STYRENE:4||TOF MASSSPECTROMETRY:4||WATER:4||DISPLAYS:4||OLIGOMERS:4||PEPTIDES:4||CYCLIC POLYSTYRENE:4||LATTICE CLUSTER THEORY:4||2NDHARMONIC GENERATION:4||LIQUIDCRYSTAL ALIGNMENT:4||MONTECARLO:4||LangmuirBlodgett film:3||ASSEMBLIES:3||chromatography:3||HOLOGRAPHIC RELAXATION SPECTROSCOPY:3||MULTIPLE MORPHOLOGIES:3||INTERACTION CHROMATOGRAPHY:3||NORMALPHASE:3||DIFFUSION:3||BRANCHED POLYSTYRENE:3||NANOPARTICLES:3||LITHOGRAPHY:3||POLYMER:3||LASERLIGHTSCATTERING:3||HIGH MOLECULARWEIGHT:3||CUBIC PHASE:3||AMPHIPHILIC BLOCKCOPOLYMERS:3||AQUEOUSSOLUTION:3||MODEL:3||FORCED RAYLEIGHSCATTERING:3||HYDRODYNAMIC PROPERTIES:3||4MIKTOARM STAR COPOLYMER:3||SYSTEM:3||PHASEBEHAVIOR:3||AQUEOUSSOLUTIONS:3||RHEOLOGY:3||LB film:3||2DIMENSIONAL LIQUIDCHROMATOGRAPHY:3||VISCOSITY:3||DIBLOCK COPOLYMER MELTS:3||ORDERORDER TRANSITION:3||GYROID PHASE:3||BINDING:3||BLOCK POLYELECTROLYTES:3||DERIVATIVES:3||MELT:3||PHASE LIQUIDCHROMATOGRAPHY:3||high temperature:3||ELEVATEDTEMPERATURE:3||RETENTION:3||MICELLE FORMATION:3||ELECTRONMICROSCOPY:3||Electrospray ionization:2||FRACTIONS:2||nalkanes:2||ISOCRATIC SEPARATION:2||ASSOCIATION:2||POLY(METHYL METHACRYLATE)S:2||2D correlation spectroscopy:2||CARBONATION:2||GLASSTRANSITION BEHAVIORS:2||MECHANICAL PROPERTIES:2||DIMENSIONS:2||POLYMER MIXTURES:2||ALUMINUM PORPHYRIN:2||LEAD STEARATE:2||FERROCENE:2||POLY(EPSILONCAPROLACTONE):2||DIAGRAM:2||nucleosides:2||Selective recognition by preconcentration:2||Electrochemical impedance spectroscopy:2||DOPAMINE:2||Silica:2||Silyl Ester:2||DIETHYL ESTER) PRECURSORS:2||SURFACE CHARACTERIZATION:2||MICROSTRUCTURE:2||polystyreneblockpolyisoprene:2||MICROPHASESEPARATED STRUCTURES:2||IMPEDANCE MEASUREMENTS:2||HEMEPROTEINS:2||SOLID SUBSTRATE:2||MOISTURE ABSORPTION:2||aromatic polyimide:2||INDUCED MORPHOLOGICALCHANGES:2||STABILITY:2||LC alignment layers:2||POLYPYROMELLITIMIDES:2||Ion mobility:2||Chiral polymer:2||OLIGOSACCHARIDES:2||OXIDE:2||SIDECHAIN:2||RETARDATION:2||functionality:2||temperature effects:2||phase transition:2||glass transition temperature:2||spincoated film:2||ESTER) PRECURSORS:2||PRECURSOR BLEND:2||Xray reflectivity:2||SIGMABONDS:2||aluminum porphyrin catalysts:2||METALLOPORPHYRIN:2||SILICON:2||MASSSPECTROMETRY ANALYSIS:2||STAR POLYMERS:2||SIZE DISTRIBUTIONS:2||GIANT VESICLES:2||POLY(3ALKYLTHIOPHENES):2||ADHESION:2||LIGHT:2||POLYSTYRENEBPOLYISOPRENE:2||HPLC fractionation:2||SILVER ELECTRODES:2||ENHANCED RESONANCE RAMAN:2||SEQUENCE:2||POLYELECTROLYTE/NONELECTROLYTE SHELLS:2||polyimide:2||liquid crystal alignment layer:2||SOLUBLE POLYIMIDES:2||POLYBUTADIENECOATED ZIRCONIA:2||PRETILT ANGLES:2||CROSSSECTIONS:2||IMSMS:2||POLYISOPRENE COPOLYMERS:2||POLYIMIDE THINFILMS:2||POLYMER SURFACES:2||RAMAN:2||STEREOREGULAR PMMA:2||poly(tertbutyl methacrylate) (PtBMA):2||TIME:2||POLYIMIDE COMPOSITE:2||CARBOXYLATO COMPLEXES:2||AGOSTIC INTERACTIONS:2||MOLECULARSTRUCTURE:2||ALKENE:2||TRANSISTOR MEMORY:2||DEVICES:2||ORTHOGONALITY:2||molecular characterization:2||ORGANOSILICATE DIELECTRIC FILMS:2||AMPHIPHILES:2||Serotonin:2||Anodic stripping differential pulse voltammetry:2||transmission electron microtomography:2||LIQUIDCHROMATOGRAPHY ANALYSIS:2||PHASEDIAGRAM:2||CARBON NANOTUBES:2||TRANSFER MECHANISM:2||BINARY MIXTURES:2||REFLECTOMETRY:2||ROD:2||DROPS:2||CONSTANT:2||TRIBLOCK COPOLYMER:2||POLYMER VESICLES:2||CLICK CHEMISTRY:2||ARRAYS:2||COMPOSITES:2||MALDITOF MS:2||POLYMER THINFILMS:2||HYDROPHOBIC INTERACTION CHROMATOGRAPHY:2||retention mechanism:2||GRAZINGINCIDENCE:2||NANOPOROSITY:2||soluble poly(amic esteraltimide)s:2||DIFFERENTIAL SCANNING CALORIMETRY:2||RESIDUALSTRESS:2||CHEMICALCOMPOSITION:2||POLY(AMIC DIETHYL ESTER) PRECURSOR:2||POLY(DIMETHYL SILOXANES):2||MASS POLYSTYRENES:2||cyclic propylene carbonate:2||propylene oxide:2||ACETATE) TOLUENE SOLUTIONS:2||TRANSIENT GRATING METHOD:2||MASS DIFFUSION:2||MICROPHASE SEPARATION TRANSITION:2||POLYSTYRENES:2||POLYSILANE:2||CARBOHYDRATEBASED PHOSPHOLIPIDS:2||HELICAL STRANDS:2||FLUORESCENCE DETECTION:2||SENSITIVE DETERMINATION:2||COMPOSITE FILMS:2||microphase:2||3MERCAPTOPROPIONIC ACID:2||BUTADIENE BLOCK COPOLYMER:2||HYBRID POLYMERIC MICELLES:2||AQUEOUSMEDIA:2||CONTACTANGLE:2||TRANSISTORCIRCUITS:2||ABTYPE POLY(ETHERIMIDE)S:2||CORRELATION SPECTROSCOPY:2||GASPHASE CONFORMATIONS:2||DECANE:2||INFRAREDSPECTROSCOPY:2||MICELLIZATION:2||ENERGIES:2||ACID) PRECURSORS:2||PHOTOALIGNMENT:2||polymers:2||SUBSTRATE:2||carbon dioxide:2||oligomeric propylene carbonate:2||THERMALDIFFUSION:2||CRYSTAL:2||PHASETRANSITION:2||REFLECTIVITY:2||ANALOGS:2||supramolecular chemistry:2||LYSOPHOSPHATIDIC ACID:2||PHOSPHOCHOLINE:2||POLY(3HEXYLTHIOPHENE):2||Receptor:2||MODIFIED GOLD ELECTRODES:2||ASCORBICACID:2||HUMAN URINE:2||Hybrid Nanocomposite:2||Dielectric Constant:2||AU(111) ELECTRODES:2||NANOFILMS:2||HYDROPHOBIC CORES:2||DRIVEN:2||FLEXIBLE SIDECHAINS:2||MESOGEN:2||size exclusion chromatography:2||ORGANIZATION:2||POLY(LACTIC ACID):2||MOLECULAR ARCHITECTURE:2||COUPLER:2||POLYSTYRENE COPOLYMER:2||diffusion coefficient:2||XRAY REFLECTIVITY:2||temperature gradient interaction chromatography polystyryllithium:2||VISCOELASTIC PROPERTIES:2||polyisoprene:2||CRYSTALSTRUCTURES:2||POLYCARBONATE:2||MULTILAYERS:2||DEPOSITION:2||FULL ADSORPTION MECHANISMS:2||QUANTUM DOTS:2||CRITICAL ORDERING TRANSITION:2||CORE:2||PARACRYSTALLINE DISTORTION:2||PERFORATED LAYER PHASE:2||liposomes:2||phospholipids:2||UNILAMELLAR VESICLES:2||VOLTAMMETRIC DETERMINATION:2||Polyimide:2||FOURIERTRANSFORM:2||SURFACE:2||SIZE EXCLUSION CHROMATOGRAPHY:2||NEUTRON REFLECTIVITY:2||ORDERED STRUCTURE:2||RIGID ROD POLYMERS:2||DISPLACEMENT POLYMERIZATION:2||PHOTOSENSITIVE POLYIMIDE:2||EFFICIENCY:2||films:2||Polylactide:2||CHROMATOGRAPHIC CRITICAL CONDITION:2||RETENTION MECHANISM:2||COPPER PHTHALOCYANINE:2||C60:2||COPOLYMER:2||micelle:2||LINEAR POLYETHYLENE:2||LIQUIDS:2||ARMS:2||HIGHPERFORMANCE LIQUID:2||alternating copolyimides:2||PHASE SEPARATION:2||POLYMERCHAINS:2||STYRYLPYRIDINIUM:2||ANGLES:2||MOBILITY:2||PROBE:2||ACIDS:2||BLUE:2||POSITIONS:2||CYCLOPENTADIENYL:2||HIGHMOLECULARWEIGHT:2||FUELCELLS:2||TIN OXIDE:2||NANOCRYSTALS:2||SURFACE MICELLE FORMATION:2||DISORDER TRANSITION:2||BIREFRINGENCE:2||LIPIDCOMPOSITION:2||CONJUGATED POLYMERS:2||GLASSYCARBON ELECTRODE:2||ELECTROCHEMICAL DETECTION:2||MULTIPLE DETECTION:2||aromatic polyimides:2||MOLECULARWEIGHT HOMOPOLYMERS:2||BINARYMIXTURE:2||PATTERNS:2||photoluminescent polyimide:2||photosensitive polyimide:2||DEPENDENT MICELLIZATION:2||SPEED:2||synthesis:2||COIL BLOCKCOPOLYMERS:2||LIQUIDCRYSTALLINE ASSEMBLIES:2||OXIDE):2||molecular weight distribution:2||CONJUGATED POLYMER:2||polymer characterization:2||NONIONIC SURFACTANTS:2||STEREOREGULAR POLY(METHYL METHACRYLATE):2||structure:2||RODLIKE POLYIMIDE:2||FLEXIBLE POLYIMIDE:2||THERMAL IMIDIZATION:2||IN SITU RODCHAIN FORMATION:2||PHASESEPARATION:2||VINYL ETHER):2||EQUILIBRIUM:2||STRESS:2||STRUCTURAL RELAXATION:2||LIVING POLYMERIZATION:2||CONTAIN:2||SALT:2||WAVEGUIDE:2||XRAY DIFFRACTION:2||WALLED CARBON NANOTUBES:2||SILICON NANOWIRES:2||IR:2||DIELECTRIC THINFILMS:2||Selfassembled monolayer:2||PARAMETERS:2||Temperature gradient interaction chromatography:2||SOLIDSURFACES:2||FLOW:2||RATES:2||PRECURSORS:2||FILM BALANCE:2||SIDECHAINS:2||SUPRAMOLECULAR MATERIALS:2||CHAINS:2||POLYSTYRENE:39||ANIONICPOLYMERIZATION:34||GRADIENT INTERACTION CHROMATOGRAPHY:31||SEPARATION:27||BEHAVIOR:24||LIQUIDCHROMATOGRAPHY:22||POLYMERS:22||SIZEEXCLUSION CHROMATOGRAPHY:19||BLOCKCOPOLYMERS:17||DIBLOCK COPOLYMERS:17||THINFILMS:16||POLYISOPRENE:14||HPLC:13||SYNTHETICPOLYMERS:12||PERFORMANCE LIQUIDCHROMATOGRAPHY:11||DIBLOCK COPOLYMER:11||MOLECULARWEIGHT DISTRIBUTION:10||MACROMOLECULES:10||BLOCKCOPOLYMER:10||REVERSEDPHASE:10||RETENTION BEHAVIOR:10||MORPHOLOGY:9||MOLECULARWEIGHT:9||MELTS:9||AROMATIC POLYIMIDES:8||XRAYSCATTERING:8||polystyrene:8||MIXTURES:7||block copolymer:7||SURFACES:7||DEPENDENCE:7||COPOLYMERS:7||POLYMERIZATION:7||AIR/WATER INTERFACE:7||DEFINED BRUSH POLYIMIDE:6||TEMPERATURE:6||FULLY RODLIKE BACKBONE:6||MONOLAYERS:6||POLYIMIDES:6||CHAIN:6||COMPLEX POLYMERS:6||MOLECULARREORIENTATION:6||temperature gradient interaction chromatography:6||POLYMERFILMS:6||GELPERMEATION CHROMATOGRAPHY:6||ELUTION:6||ORDERDISORDER TRANSITION:6||SURFACEMORPHOLOGY:6||ORIENTATION:6||SYSTEMS:6||CRITICAL ADSORPTION POINT:6||LIGHTSCATTERING:5||PROBE DIFFUSION:5||POLYDISPERSITY:5||AIRWATERINTERFACE:5||MICROPHASE SEPARATION:5||GLASSTRANSITION:5||BLENDS:5||FILMS:5||ADSORPTION CHROMATOGRAPHY:5||MECHANISM:5||CO2:5||ETHYLENEOXIDE:5||ALIGNMENT:5||COMPLEXES:5||FRACTIONATION:5||MISCIBILITY:5||POLYMER CHARACTERIZATION:5||HEXAGONALLY PERFORATED LAYER:5||TRANSITION:5||FLIGHT MASSSPECTROMETRY:5||ARCHITECTURE:5||POLY(METHYL METHACRYLATE):5||ALTERNATING COPOLYMERIZATION:4||THICKNESS:4||THERMODYNAMICS:4||CRITICAL RANGE:4||ULTRATHIN POLYMERFILMS:4||DYNAMICS:4||CLIMATECHANGE:4||PHASE:4||GLASSTRANSITION TEMPERATURE:4||EPOXIDE:4||selfassembly:4||SPECTROSCOPY:4||SELFDIFFUSION:4||SCATTERING:4||OPTICALPROPERTIES:4||CATALYSTS:4||CHEMISTRY:4||SOLARCELLS:4||polyimides:4||polypyromellitimides:4||SEGMENTAL REORIENTATIONS:4||ADSORPTION:4||INTERFACE:4||POLYMERSOLUTIONS:4||TRACER DIFFUSION:4||OXIDE) DIBLOCK COPOLYMER:4||POLYSTYRENEBPOLY(METHYL METHACRYLATE):4||POLYMER BLENDS:4||SIMULATION:4||CHAIN ORIENTATION:4||STYRENE:4||TOF MASSSPECTROMETRY:4||WATER:4||DISPLAYS:4||OLIGOMERS:4||PEPTIDES:4||CYCLIC POLYSTYRENE:4||LATTICE CLUSTER THEORY:4||2NDHARMONIC GENERATION:4||LIQUIDCRYSTAL ALIGNMENT:4||MONTECARLO:4||LangmuirBlodgett film:3||ASSEMBLIES:3||chromatography:3||HOLOGRAPHIC RELAXATION SPECTROSCOPY:3||MULTIPLE MORPHOLOGIES:3||INTERACTION CHROMATOGRAPHY:3||NORMALPHASE:3||DIFFUSION:3||BRANCHED POLYSTYRENE:3||NANOPARTICLES:3||LITHOGRAPHY:3||POLYMER:3||LASERLIGHTSCATTERING:3||HIGH MOLECULARWEIGHT:3||CUBIC PHASE:3||AMPHIPHILIC BLOCKCOPOLYMERS:3||AQUEOUSSOLUTION:3||MODEL:3||FORCED RAYLEIGHSCATTERING:3||HYDRODYNAMIC PROPERTIES:3||4MIKTOARM STAR COPOLYMER:3||SYSTEM:3||PHASEBEHAVIOR:3||AQUEOUSSOLUTIONS:3||RHEOLOGY:3||LB film:3||2DIMENSIONAL LIQUIDCHROMATOGRAPHY:3||VISCOSITY:3||DIBLOCK COPOLYMER MELTS:3||ORDERORDER TRANSITION:3||GYROID PHASE:3||BINDING:3||BLOCK POLYELECTROLYTES:3||DERIVATIVES:3||MELT:3||PHASE LIQUIDCHROMATOGRAPHY:3||high temperature:3||ELEVATEDTEMPERATURE:3||RETENTION:3||MICELLE FORMATION:3||ELECTRONMICROSCOPY:3||Electrospray ionization:2||FRACTIONS:2||nalkanes:2||ISOCRATIC SEPARATION:2||ASSOCIATION:2||POLY(METHYL METHACRYLATE)S:2||2D correlation spectroscopy:2||CARBONATION:2||GLASSTRANSITION BEHAVIORS:2||MECHANICAL PROPERTIES:2||DIMENSIONS:2||POLYMER MIXTURES:2||ALUMINUM PORPHYRIN:2||LEAD STEARATE:2||FERROCENE:2||POLY(EPSILONCAPROLACTONE):2||DIAGRAM:2||nucleosides:2||Selective recognition by preconcentration:2||Electrochemical impedance spectroscopy:2||DOPAMINE:2||Silica:2||Silyl Ester:2||DIETHYL ESTER) PRECURSORS:2||SURFACE CHARACTERIZATION:2||MICROSTRUCTURE:2||polystyreneblockpolyisoprene:2||MICROPHASESEPARATED STRUCTURES:2||IMPEDANCE MEASUREMENTS:2||HEMEPROTEINS:2||SOLID SUBSTRATE:2||MOISTURE ABSORPTION:2||aromatic polyimide:2||INDUCED MORPHOLOGICALCHANGES:2||STABILITY:2||LC alignment layers:2||POLYPYROMELLITIMIDES:2||Ion mobility:2||Chiral polymer:2||OLIGOSACCHARIDES:2||OXIDE:2||SIDECHAIN:2||RETARDATION:2||functionality:2||temperature effects:2||phase transition:2||glass transition temperature:2||spincoated film:2||ESTER) PRECURSORS:2||PRECURSOR BLEND:2||Xray reflectivity:2||SIGMABONDS:2||aluminum porphyrin catalysts:2||METALLOPORPHYRIN:2||SILICON:2||MASSSPECTROMETRY ANALYSIS:2||STAR POLYMERS:2||SIZE DISTRIBUTIONS:2||GIANT VESICLES:2||POLY(3ALKYLTHIOPHENES):2||ADHESION:2||LIGHT:2||POLYSTYRENEBPOLYISOPRENE:2||HPLC fractionation:2||SILVER ELECTRODES:2||ENHANCED RESONANCE RAMAN:2||SEQUENCE:2||POLYELECTROLYTE/NONELECTROLYTE SHELLS:2||polyimide:2||liquid crystal alignment layer:2||SOLUBLE POLYIMIDES:2||POLYBUTADIENECOATED ZIRCONIA:2||PRETILT ANGLES:2||CROSSSECTIONS:2||IMSMS:2||POLYISOPRENE COPOLYMERS:2||POLYIMIDE THINFILMS:2||POLYMER SURFACES:2||RAMAN:2||STEREOREGULAR PMMA:2||poly(tertbutyl methacrylate) (PtBMA):2||TIME:2||POLYIMIDE COMPOSITE:2||CARBOXYLATO COMPLEXES:2||AGOSTIC INTERACTIONS:2||MOLECULARSTRUCTURE:2||ALKENE:2||TRANSISTOR MEMORY:2||DEVICES:2||ORTHOGONALITY:2||molecular characterization:2||ORGANOSILICATE DIELECTRIC FILMS:2||AMPHIPHILES:2||Serotonin:2||Anodic stripping differential pulse voltammetry:2||transmission electron microtomography:2||LIQUIDCHROMATOGRAPHY ANALYSIS:2||PHASEDIAGRAM:2||CARBON NANOTUBES:2||TRANSFER MECHANISM:2||BINARY MIXTURES:2||REFLECTOMETRY:2||ROD:2||DROPS:2||CONSTANT:2||TRIBLOCK COPOLYMER:2||POLYMER VESICLES:2||CLICK CHEMISTRY:2||ARRAYS:2||COMPOSITES:2||MALDITOF MS:2||POLYMER THINFILMS:2||HYDROPHOBIC INTERACTION CHROMATOGRAPHY:2||retention mechanism:2||GRAZINGINCIDENCE:2||NANOPOROSITY:2||soluble poly(amic esteraltimide)s:2||DIFFERENTIAL SCANNING CALORIMETRY:2||RESIDUALSTRESS:2||CHEMICALCOMPOSITION:2||POLY(AMIC DIETHYL ESTER) PRECURSOR:2||POLY(DIMETHYL SILOXANES):2||MASS POLYSTYRENES:2||cyclic propylene carbonate:2||propylene oxide:2||ACETATE) TOLUENE SOLUTIONS:2||TRANSIENT GRATING METHOD:2||MASS DIFFUSION:2||MICROPHASE SEPARATION TRANSITION:2||POLYSTYRENES:2||POLYSILANE:2||CARBOHYDRATEBASED PHOSPHOLIPIDS:2||HELICAL STRANDS:2||FLUORESCENCE DETECTION:2||SENSITIVE DETERMINATION:2||COMPOSITE FILMS:2||microphase:2||3MERCAPTOPROPIONIC ACID:2||BUTADIENE BLOCK COPOLYMER:2||HYBRID POLYMERIC MICELLES:2||AQUEOUSMEDIA:2||CONTACTANGLE:2||TRANSISTORCIRCUITS:2||ABTYPE POLY(ETHERIMIDE)S:2||CORRELATION SPECTROSCOPY:2||GASPHASE CONFORMATIONS:2||DECANE:2||INFRAREDSPECTROSCOPY:2||MICELLIZATION:2||ENERGIES:2||ACID) PRECURSORS:2||PHOTOALIGNMENT:2||polymers:2||SUBSTRATE:2||carbon dioxide:2||oligomeric propylene carbonate:2||THERMALDIFFUSION:2||CRYSTAL:2||PHASETRANSITION:2||REFLECTIVITY:2||ANALOGS:2||supramolecular chemistry:2||LYSOPHOSPHATIDIC ACID:2||PHOSPHOCHOLINE:2||POLY(3HEXYLTHIOPHENE):2||Receptor:2||MODIFIED GOLD ELECTRODES:2||ASCORBICACID:2||HUMAN URINE:2||Hybrid Nanocomposite:2||Dielectric Constant:2||AU(111) ELECTRODES:2||NANOFILMS:2||HYDROPHOBIC CORES:2||DRIVEN:2||FLEXIBLE SIDECHAINS:2||MESOGEN:2||size exclusion chromatography:2||ORGANIZATION:2||POLY(LACTIC ACID):2||MOLECULAR ARCHITECTURE:2||COUPLER:2||POLYSTYRENE COPOLYMER:2||diffusion coefficient:2||XRAY REFLECTIVITY:2||temperature gradient interaction chromatography polystyryllithium:2||VISCOELASTIC PROPERTIES:2||polyisoprene:2||CRYSTALSTRUCTURES:2||POLYCARBONATE:2||MULTILAYERS:2||DEPOSITION:2||FULL ADSORPTION MECHANISMS:2||QUANTUM DOTS:2||CRITICAL ORDERING TRANSITION:2||CORE:2||PARACRYSTALLINE DISTORTION:2||PERFORATED LAYER PHASE:2||liposomes:2||phospholipids:2||UNILAMELLAR VESICLES:2||VOLTAMMETRIC DETERMINATION:2||Polyimide:2||FOURIERTRANSFORM:2||SURFACE:2||SIZE EXCLUSION CHROMATOGRAPHY:2||NEUTRON REFLECTIVITY:2||ORDERED STRUCTURE:2||RIGID ROD POLYMERS:2||DISPLACEMENT POLYMERIZATION:2||PHOTOSENSITIVE POLYIMIDE:2||EFFICIENCY:2||films:2||Polylactide:2||CHROMATOGRAPHIC CRITICAL CONDITION:2||RETENTION MECHANISM:2||COPPER PHTHALOCYANINE:2||C60:2||COPOLYMER:2||micelle:2||LINEAR POLYETHYLENE:2||LIQUIDS:2||ARMS:2||HIGHPERFORMANCE LIQUID:2||alternating copolyimides:2||PHASE SEPARATION:2||POLYMERCHAINS:2||STYRYLPYRIDINIUM:2||ANGLES:2||MOBILITY:2||PROBE:2||ACIDS:2||BLUE:2||POSITIONS:2||CYCLOPENTADIENYL:2||HIGHMOLECULARWEIGHT:2||FUELCELLS:2||TIN OXIDE:2||NANOCRYSTALS:2||SURFACE MICELLE FORMATION:2||DISORDER TRANSITION:2||BIREFRINGENCE:2||LIPIDCOMPOSITION:2||CONJUGATED POLYMERS:2||GLASSYCARBON ELECTRODE:2||ELECTROCHEMICAL DETECTION:2||MULTIPLE DETECTION:2||aromatic polyimides:2||MOLECULARWEIGHT HOMOPOLYMERS:2||BINARYMIXTURE:2||PATTERNS:2||photoluminescent polyimide:2||photosensitive polyimide:2||DEPENDENT MICELLIZATION:2||SPEED:2||synthesis:2||COIL BLOCKCOPOLYMERS:2||LIQUIDCRYSTALLINE ASSEMBLIES:2||OXIDE):2||molecular weight distribution:2||CONJUGATED POLYMER:2||polymer characterization:2||NONIONIC SURFACTANTS:2||STEREOREGULAR POLY(METHYL METHACRYLATE):2||structure:2||RODLIKE POLYIMIDE:2||FLEXIBLE POLYIMIDE:2||THERMAL IMIDIZATION:2||IN SITU RODCHAIN FORMATION:2||PHASESEPARATION:2||VINYL ETHER):2||EQUILIBRIUM:2||STRESS:2||STRUCTURAL RELAXATION:2||LIVING POLYMERIZATION:2||CONTAIN:2||SALT:2||WAVEGUIDE:2||XRAY DIFFRACTION:2||WALLED CARBON NANOTUBES:2||SILICON NANOWIRES:2||IR:2||DIELECTRIC THINFILMS:2||Selfassembled monolayer:2||PARAMETERS:2||Temperature gradient interaction chromatography:2||SOLIDSURFACES:2||FLOW:2||RATES:2||PRECURSORS:2||FILM BALANCE:2||SIDECHAINS:2||SUPRAMOLECULAR MATERIALS:2||CHAINS:2||POLYSTYRENE:39||ANIONICPOLYMERIZATION:34||GRADIENT INTERACTION CHROMATOGRAPHY:31||SEPARATION:27||BEHAVIOR:24||LIQUIDCHROMATOGRAPHY:22||POLYMERS:22||SIZEEXCLUSION CHROMATOGRAPHY:19||BLOCKCOPOLYMERS:17||DIBLOCK COPOLYMERS:17||THINFILMS:16||POLYISOPRENE:14||HPLC:13||SYNTHETICPOLYMERS:12||PERFORMANCE LIQUIDCHROMATOGRAPHY:11||DIBLOCK COPOLYMER:11||MOLECULARWEIGHT DISTRIBUTION:10||MACROMOLECULES:10||BLOCKCOPOLYMER:10||REVERSEDPHASE:10||RETENTION BEHAVIOR:10||MORPHOLOGY:9||MOLECULARWEIGHT:9||MELTS:9||AROMATIC POLYIMIDES:8||XRAYSCATTERING:8||polystyrene:8||MIXTURES:7||block copolymer:7||SURFACES:7||DEPENDENCE:7||COPOLYMERS:7||POLYMERIZATION:7||AIR/WATER INTERFACE:7||DEFINED BRUSH POLYIMIDE:6||TEMPERATURE:6||FULLY RODLIKE BACKBONE:6||MONOLAYERS:6||POLYIMIDES:6||CHAIN:6||COMPLEX POLYMERS:6||MOLECULARREORIENTATION:6||temperature gradient interaction chromatography:6||POLYMERFILMS:6||GELPERMEATION CHROMATOGRAPHY:6||ELUTION:6||ORDERDISORDER TRANSITION:6||SURFACEMORPHOLOGY:6||ORIENTATION:6||SYSTEMS:6||CRITICAL ADSORPTION POINT:6||LIGHTSCATTERING:5||PROBE DIFFUSION:5||POLYDISPERSITY:5||AIRWATERINTERFACE:5||MICROPHASE SEPARATION:5||GLASSTRANSITION:5||BLENDS:5||FILMS:5||ADSORPTION CHROMATOGRAPHY:5||MECHANISM:5||CO2:5||ETHYLENEOXIDE:5||ALIGNMENT:5||COMPLEXES:5||FRACTIONATION:5||MISCIBILITY:5||POLYMER CHARACTERIZATION:5||HEXAGONALLY PERFORATED LAYER:5||TRANSITION:5||FLIGHT MASSSPECTROMETRY:5||ARCHITECTURE:5||POLY(METHYL METHACRYLATE):5||ALTERNATING COPOLYMERIZATION:4||THICKNESS:4||THERMODYNAMICS:4||CRITICAL RANGE:4||ULTRATHIN POLYMERFILMS:4||DYNAMICS:4||CLIMATECHANGE:4||PHASE:4||GLASSTRANSITION TEMPERATURE:4||EPOXIDE:4||selfassembly:4||SPECTROSCOPY:4||SELFDIFFUSION:4||SCATTERING:4||OPTICALPROPERTIES:4||CATALYSTS:4||CHEMISTRY:4||SOLARCELLS:4||polyimides:4||polypyromellitimides:4||SEGMENTAL REORIENTATIONS:4||ADSORPTION:4||INTERFACE:4||POLYMERSOLUTIONS:4||TRACER DIFFUSION:4||OXIDE) DIBLOCK COPOLYMER:4||POLYSTYRENEBPOLY(METHYL METHACRYLATE):4||POLYMER BLENDS:4||SIMULATION:4||CHAIN ORIENTATION:4||STYRENE:4||TOF MASSSPECTROMETRY:4||WATER:4||DISPLAYS:4||OLIGOMERS:4||PEPTIDES:4||CYCLIC POLYSTYRENE:4||LATTICE CLUSTER THEORY:4||2NDHARMONIC GENERATION:4||LIQUIDCRYSTAL ALIGNMENT:4||MONTECARLO:4||LangmuirBlodgett film:3||ASSEMBLIES:3||chromatography:3||HOLOGRAPHIC RELAXATION SPECTROSCOPY:3||MULTIPLE MORPHOLOGIES:3||INTERACTION CHROMATOGRAPHY:3||NORMALPHASE:3||DIFFUSION:3||BRANCHED POLYSTYRENE:3||NANOPARTICLES:3||LITHOGRAPHY:3||POLYMER:3||LASERLIGHTSCATTERING:3||HIGH MOLECULARWEIGHT:3||CUBIC PHASE:3||AMPHIPHILIC BLOCKCOPOLYMERS:3||AQUEOUSSOLUTION:3||MODEL:3||FORCED RAYLEIGHSCATTERING:3||HYDRODYNAMIC PROPERTIES:3||4MIKTOARM STAR COPOLYMER:3||SYSTEM:3||PHASEBEHAVIOR:3||AQUEOUSSOLUTIONS:3||RHEOLOGY:3||LB film:3||2DIMENSIONAL LIQUIDCHROMATOGRAPHY:3||VISCOSITY:3||DIBLOCK COPOLYMER MELTS:3||ORDERORDER TRANSITION:3||GYROID PHASE:3||BINDING:3||BLOCK POLYELECTROLYTES:3||DERIVATIVES:3||MELT:3||PHASE LIQUIDCHROMATOGRAPHY:3||high temperature:3||ELEVATEDTEMPERATURE:3||RETENTION:3||MICELLE FORMATION:3||ELECTRONMICROSCOPY:3||Electrospray ionization:2||FRACTIONS:2||nalkanes:2||ISOCRATIC SEPARATION:2||ASSOCIATION:2||POLY(METHYL METHACRYLATE)S:2||2D correlation spectroscopy:2||CARBONATION:2||GLASSTRANSITION BEHAVIORS:2||MECHANICAL PROPERTIES:2||DIMENSIONS:2||POLYMER MIXTURES:2||ALUMINUM PORPHYRIN:2||LEAD STEARATE:2||FERROCENE:2||POLY(EPSILONCAPROLACTONE):2||DIAGRAM:2||nucleosides:2||Selective recognition by preconcentration:2||Electrochemical impedance spectroscopy:2||DOPAMINE:2||Silica:2||Silyl Ester:2||DIETHYL ESTER) PRECURSORS:2||SURFACE CHARACTERIZATION:2||MICROSTRUCTURE:2||polystyreneblockpolyisoprene:2||MICROPHASESEPARATED STRUCTURES:2||IMPEDANCE MEASUREMENTS:2||HEMEPROTEINS:2||SOLID SUBSTRATE:2||MOISTURE ABSORPTION:2||aromatic polyimide:2||INDUCED MORPHOLOGICALCHANGES:2||STABILITY:2||LC alignment layers:2||POLYPYROMELLITIMIDES:2||Ion mobility:2||Chiral polymer:2||OLIGOSACCHARIDES:2||OXIDE:2||SIDECHAIN:2||RETARDATION:2||functionality:2||temperature effects:2||phase transition:2||glass transition temperature:2||spincoated film:2||ESTER) PRECURSORS:2||PRECURSOR BLEND:2||Xray reflectivity:2||SIGMABONDS:2||aluminum porphyrin catalysts:2||METALLOPORPHYRIN:2||SILICON:2||MASSSPECTROMETRY ANALYSIS:2||STAR POLYMERS:2||SIZE DISTRIBUTIONS:2||GIANT VESICLES:2||POLY(3ALKYLTHIOPHENES):2||ADHESION:2||LIGHT:2||POLYSTYRENEBPOLYISOPRENE:2||HPLC fractionation:2||SILVER ELECTRODES:2||ENHANCED RESONANCE RAMAN:2||SEQUENCE:2||POLYELECTROLYTE/NONELECTROLYTE SHELLS:2||polyimide:2||liquid crystal alignment layer:2||SOLUBLE POLYIMIDES:2||POLYBUTADIENECOATED ZIRCONIA:2||PRETILT ANGLES:2||CROSSSECTIONS:2||IMSMS:2||POLYISOPRENE COPOLYMERS:2||POLYIMIDE THINFILMS:2||POLYMER SURFACES:2||RAMAN:2||STEREOREGULAR PMMA:2||poly(tertbutyl methacrylate) (PtBMA):2||TIME:2||POLYIMIDE COMPOSITE:2||CARBOXYLATO COMPLEXES:2||AGOSTIC INTERACTIONS:2||MOLECULARSTRUCTURE:2||ALKENE:2||TRANSISTOR MEMORY:2||DEVICES:2||ORTHOGONALITY:2||molecular characterization:2||ORGANOSILICATE DIELECTRIC FILMS:2||AMPHIPHILES:2||Serotonin:2||Anodic stripping differential pulse voltammetry:2||transmission electron microtomography:2||LIQUIDCHROMATOGRAPHY ANALYSIS:2||PHASEDIAGRAM:2||CARBON NANOTUBES:2||TRANSFER MECHANISM:2||BINARY MIXTURES:2||REFLECTOMETRY:2||ROD:2||DROPS:2||CONSTANT:2||TRIBLOCK COPOLYMER:2||POLYMER VESICLES:2||CLICK CHEMISTRY:2||ARRAYS:2||COMPOSITES:2||MALDITOF MS:2||POLYMER THINFILMS:2||HYDROPHOBIC INTERACTION CHROMATOGRAPHY:2||retention mechanism:2||GRAZINGINCIDENCE:2||NANOPOROSITY:2||soluble poly(amic esteraltimide)s:2||DIFFERENTIAL SCANNING CALORIMETRY:2||RESIDUALSTRESS:2||CHEMICALCOMPOSITION:2||POLY(AMIC DIETHYL ESTER) PRECURSOR:2||POLY(DIMETHYL SILOXANES):2||MASS POLYSTYRENES:2||cyclic propylene carbonate:2||propylene oxide:2||ACETATE) TOLUENE SOLUTIONS:2||TRANSIENT GRATING METHOD:2||MASS DIFFUSION:2||MICROPHASE SEPARATION TRANSITION:2||POLYSTYRENES:2||POLYSILANE:2||CARBOHYDRATEBASED PHOSPHOLIPIDS:2||HELICAL STRANDS:2||FLUORESCENCE DETECTION:2||SENSITIVE DETERMINATION:2||COMPOSITE FILMS:2||microphase:2||3MERCAPTOPROPIONIC ACID:2||BUTADIENE BLOCK COPOLYMER:2||HYBRID POLYMERIC MICELLES:2||AQUEOUSMEDIA:2||CONTACTANGLE:2||TRANSISTORCIRCUITS:2||ABTYPE POLY(ETHERIMIDE)S:2||CORRELATION SPECTROSCOPY:2||GASPHASE CONFORMATIONS:2||DECANE:2||INFRAREDSPECTROSCOPY:2||MICELLIZATION:2||ENERGIES:2||ACID) PRECURSORS:2||PHOTOALIGNMENT:2||polymers:2||SUBSTRATE:2||carbon dioxide:2||oligomeric propylene carbonate:2||THERMALDIFFUSION:2||CRYSTAL:2||PHASETRANSITION:2||REFLECTIVITY:2||ANALOGS:2||supramolecular chemistry:2||LYSOPHOSPHATIDIC ACID:2||PHOSPHOCHOLINE:2||POLY(3HEXYLTHIOPHENE):2||Receptor:2||MODIFIED GOLD ELECTRODES:2||ASCORBICACID:2||HUMAN URINE:2||Hybrid Nanocomposite:2||Dielectric Constant:2||AU(111) ELECTRODES:2||NANOFILMS:2||HYDROPHOBIC CORES:2||DRIVEN:2||FLEXIBLE SIDECHAINS:2||MESOGEN:2||size exclusion chromatography:2||ORGANIZATION:2||POLY(LACTIC ACID):2||MOLECULAR ARCHITECTURE:2||COUPLER:2||POLYSTYRENE COPOLYMER:2||diffusion coefficient:2||XRAY REFLECTIVITY:2||temperature gradient interaction chromatography polystyryllithium:2||VISCOELASTIC PROPERTIES:2||polyisoprene:2||CRYSTALSTRUCTURES:2||POLYCARBONATE:2||MULTILAYERS:2||DEPOSITION:2||FULL ADSORPTION MECHANISMS:2||QUANTUM DOTS:2||CRITICAL ORDERING TRANSITION:2||CORE:2||PARACRYSTALLINE DISTORTION:2||PERFORATED LAYER PHASE:2||liposomes:2||phospholipids:2||UNILAMELLAR VESICLES:2||VOLTAMMETRIC DETERMINATION:2||Polyimide:2||FOURIERTRANSFORM:2||SURFACE:2||SIZE EXCLUSION CHROMATOGRAPHY:2||NEUTRON REFLECTIVITY:2||ORDERED STRUCTURE:2||RIGID ROD POLYMERS:2||DISPLACEMENT POLYMERIZATION:2||PHOTOSENSITIVE POLYIMIDE:2||EFFICIENCY:2||films:2||Polylactide:2||CHROMATOGRAPHIC CRITICAL CONDITION:2||RETENTION MECHANISM:2||COPPER PHTHALOCYANINE:2||C60:2||COPOLYMER:2||micelle:2||LINEAR POLYETHYLENE:2||LIQUIDS:2||ARMS:2||HIGHPERFORMANCE LIQUID:2||alternating copolyimides:2||PHASE SEPARATION:2||POLYMERCHAINS:2||STYRYLPYRIDINIUM:2||ANGLES:2||MOBILITY:2||PROBE:2||ACIDS:2||BLUE:2||POSITIONS:2||CYCLOPENTADIENYL:2||HIGHMOLECULARWEIGHT:2||FUELCELLS:2||TIN OXIDE:2||NANOCRYSTALS:2||SURFACE MICELLE FORMATION:2||DISORDER TRANSITION:2||BIREFRINGENCE:2||LIPIDCOMPOSITION:2||CONJUGATED POLYMERS:2||GLASSYCARBON ELECTRODE:2||ELECTROCHEMICAL DETECTION:2||MULTIPLE DETECTION:2||aromatic polyimides:2||MOLECULARWEIGHT HOMOPOLYMERS:2||BINARYMIXTURE:2||PATTERNS:2||photoluminescent polyimide:2||photosensitive polyimide:2||DEPENDENT MICELLIZATION:2||SPEED:2||synthesis:2||COIL BLOCKCOPOLYMERS:2||LIQUIDCRYSTALLINE ASSEMBLIES:2||OXIDE):2||molecular weight distribution:2||CONJUGATED POLYMER:2||polymer characterization:2||NONIONIC SURFACTANTS:2||STEREOREGULAR POLY(METHYL METHACRYLATE):2||structure:2||RODLIKE POLYIMIDE:2||FLEXIBLE POLYIMIDE:2||THERMAL IMIDIZATION:2||IN SITU RODCHAIN FORMATION:2||PHASESEPARATION:2||VINYL ETHER):2||EQUILIBRIUM:2||STRESS:2||STRUCTURAL RELAXATION:2||LIVING POLYMERIZATION:2||CONTAIN:2||SALT:2||WAVEGUIDE:2||XRAY DIFFRACTION:2||WALLED CARBON NANOTUBES:2||SILICON NANOWIRES:2||IR:2||DIELECTRIC THINFILMS:2||Selfassembled monolayer:2||PARAMETERS:2||Temperature gradient interaction chromatography:2||SOLIDSURFACES:2||FLOW:2||RATES:2||PRECURSORS:2||FILM BALANCE:2||SIDECHAINS:2||SUPRAMOLECULAR MATERIALS:2||CHAINS:2||POLYSTYRENE:39||ANIONICPOLYMERIZATION:34||GRADIENT INTERACTION CHROMATOGRAPHY:31||SEPARATION:27||BEHAVIOR:24||LIQUIDCHROMATOGRAPHY:22||POLYMERS:22||SIZEEXCLUSION CHROMATOGRAPHY:19||BLOCKCOPOLYMERS:17||DIBLOCK COPOLYMERS:17||THINFILMS:16||POLYISOPRENE:14||HPLC:13||SYNTHETICPOLYMERS:12||PERFORMANCE LIQUIDCHROMATOGRAPHY:11||DIBLOCK COPOLYMER:11||MOLECULARWEIGHT DISTRIBUTION:10||MACROMOLECULES:10||BLOCKCOPOLYMER:10||REVERSEDPHASE:10||RETENTION BEHAVIOR:10||MORPHOLOGY:9||MOLECULARWEIGHT:9||MELTS:9||AROMATIC POLYIMIDES:8||XRAYSCATTERING:8||polystyrene:8||MIXTURES:7||block copolymer:7||SURFACES:7||DEPENDENCE:7||COPOLYMERS:7||POLYMERIZATION:7||AIR/WATER INTERFACE:7||DEFINED BRUSH POLYIMIDE:6||TEMPERATURE:6||FULLY RODLIKE BACKBONE:6||MONOLAYERS:6||POLYIMIDES:6||CHAIN:6||COMPLEX POLYMERS:6||MOLECULARREORIENTATION:6||temperature gradient interaction chromatography:6||POLYMERFILMS:6||GELPERMEATION CHROMATOGRAPHY:6||ELUTION:6||ORDERDISORDER TRANSITION:6||SURFACEMORPHOLOGY:6||ORIENTATION:6||SYSTEMS:6||CRITICAL ADSORPTION POINT:6||LIGHTSCATTERING:5||PROBE DIFFUSION:5||POLYDISPERSITY:5||AIRWATERINTERFACE:5||MICROPHASE SEPARATION:5||GLASSTRANSITION:5||BLENDS:5||FILMS:5||ADSORPTION CHROMATOGRAPHY:5||MECHANISM:5||CO2:5||ETHYLENEOXIDE:5||ALIGNMENT:5||COMPLEXES:5||FRACTIONATION:5||MISCIBILITY:5||POLYMER CHARACTERIZATION:5||HEXAGONALLY PERFORATED LAYER:5||TRANSITION:5||FLIGHT MASSSPECTROMETRY:5||ARCHITECTURE:5||POLY(METHYL METHACRYLATE):5||ALTERNATING COPOLYMERIZATION:4||THICKNESS:4||THERMODYNAMICS:4||CRITICAL RANGE:4||ULTRATHIN POLYMERFILMS:4||DYNAMICS:4||CLIMATECHANGE:4||PHASE:4||GLASSTRANSITION TEMPERATURE:4||EPOXIDE:4||selfassembly:4||SPECTROSCOPY:4||SELFDIFFUSION:4||SCATTERING:4||OPTICALPROPERTIES:4||CATALYSTS:4||CHEMISTRY:4||SOLARCELLS:4||polyimides:4||polypyromellitimides:4||SEGMENTAL REORIENTATIONS:4||ADSORPTION:4||INTERFACE:4||POLYMERSOLUTIONS:4||TRACER DIFFUSION:4||OXIDE) DIBLOCK COPOLYMER:4||POLYSTYRENEBPOLY(METHYL METHACRYLATE):4||POLYMER BLENDS:4||SIMULATION:4||CHAIN ORIENTATION:4||STYRENE:4||TOF MASSSPECTROMETRY:4||WATER:4||DISPLAYS:4||OLIGOMERS:4||PEPTIDES:4||CYCLIC POLYSTYRENE:4||LATTICE CLUSTER THEORY:4||2NDHARMONIC GENERATION:4||LIQUIDCRYSTAL ALIGNMENT:4||MONTECARLO:4||LangmuirBlodgett film:3||ASSEMBLIES:3||chromatography:3||HOLOGRAPHIC RELAXATION SPECTROSCOPY:3||MULTIPLE MORPHOLOGIES:3||INTERACTION CHROMATOGRAPHY:3||NORMALPHASE:3||DIFFUSION:3||BRANCHED POLYSTYRENE:3||NANOPARTICLES:3||LITHOGRAPHY:3||POLYMER:3||LASERLIGHTSCATTERING:3||HIGH MOLECULARWEIGHT:3||CUBIC PHASE:3||AMPHIPHILIC BLOCKCOPOLYMERS:3||AQUEOUSSOLUTION:3||MODEL:3||FORCED RAYLEIGHSCATTERING:3||HYDRODYNAMIC PROPERTIES:3||4MIKTOARM STAR COPOLYMER:3||SYSTEM:3||PHASEBEHAVIOR:3||AQUEOUSSOLUTIONS:3||RHEOLOGY:3||LB film:3||2DIMENSIONAL LIQUIDCHROMATOGRAPHY:3||VISCOSITY:3||DIBLOCK COPOLYMER MELTS:3||ORDERORDER TRANSITION:3||GYROID PHASE:3||BINDING:3||BLOCK POLYELECTROLYTES:3||DERIVATIVES:3||MELT:3||PHASE LIQUIDCHROMATOGRAPHY:3||high temperature:3||ELEVATEDTEMPERATURE:3||RETENTION:3||MICELLE FORMATION:3||ELECTRONMICROSCOPY:3||Electrospray ionization:2||FRACTIONS:2||nalkanes:2||ISOCRATIC SEPARATION:2||ASSOCIATION:2||POLY(METHYL METHACRYLATE)S:2||2D correlation spectroscopy:2||CARBONATION:2||GLASSTRANSITION BEHAVIORS:2||MECHANICAL PROPERTIES:2||DIMENSIONS:2||POLYMER MIXTURES:2||ALUMINUM PORPHYRIN:2||LEAD STEARATE:2||FERROCENE:2||POLY(EPSILONCAPROLACTONE):2||DIAGRAM:2||nucleosides:2||Selective recognition by preconcentration:2||Electrochemical impedance spectroscopy:2||DOPAMINE:2||Silica:2||Silyl Ester:2||DIETHYL ESTER) PRECURSORS:2||SURFACE CHARACTERIZATION:2||MICROSTRUCTURE:2||polystyreneblockpolyisoprene:2||MICROPHASESEPARATED STRUCTURES:2||IMPEDANCE MEASUREMENTS:2||HEMEPROTEINS:2||SOLID SUBSTRATE:2||MOISTURE ABSORPTION:2||aromatic polyimide:2||INDUCED MORPHOLOGICALCHANGES:2||STABILITY:2||LC alignment layers:2||POLYPYROMELLITIMIDES:2||Ion mobility:2||Chiral polymer:2||OLIGOSACCHARIDES:2||OXIDE:2||SIDECHAIN:2||RETARDATION:2||functionality:2||temperature effects:2||phase transition:2||glass transition temperature:2||spincoated film:2||ESTER) PRECURSORS:2||PRECURSOR BLEND:2||Xray reflectivity:2||SIGMABONDS:2||aluminum porphyrin catalysts:2||METALLOPORPHYRIN:2||SILICON:2||MASSSPECTROMETRY ANALYSIS:2||STAR POLYMERS:2||SIZE DISTRIBUTIONS:2||GIANT VESICLES:2||POLY(3ALKYLTHIOPHENES):2||ADHESION:2||LIGHT:2||POLYSTYRENEBPOLYISOPRENE:2||HPLC fractionation:2||SILVER ELECTRODES:2||ENHANCED RESONANCE RAMAN:2||SEQUENCE:2||POLYELECTROLYTE/NONELECTROLYTE SHELLS:2||polyimide:2||liquid crystal alignment layer:2||SOLUBLE POLYIMIDES:2||POLYBUTADIENECOATED ZIRCONIA:2||PRETILT ANGLES:2||CROSSSECTIONS:2||IMSMS:2||POLYISOPRENE COPOLYMERS:2||POLYIMIDE THINFILMS:2||POLYMER SURFACES:2||RAMAN:2||STEREOREGULAR PMMA:2||poly(tertbutyl methacrylate) (PtBMA):2||TIME:2||POLYIMIDE COMPOSITE:2||CARBOXYLATO COMPLEXES:2||AGOSTIC INTERACTIONS:2||MOLECULARSTRUCTURE:2||ALKENE:2||TRANSISTOR MEMORY:2||DEVICES:2||ORTHOGONALITY:2||molecular characterization:2||ORGANOSILICATE DIELECTRIC FILMS:2||AMPHIPHILES:2||Serotonin:2||Anodic stripping differential pulse voltammetry:2||transmission electron microtomography:2||LIQUIDCHROMATOGRAPHY ANALYSIS:2||PHASEDIAGRAM:2||CARBON NANOTUBES:2||TRANSFER MECHANISM:2||BINARY MIXTURES:2||REFLECTOMETRY:2||ROD:2||DROPS:2||CONSTANT:2||TRIBLOCK COPOLYMER:2||POLYMER VESICLES:2||CLICK CHEMISTRY:2||ARRAYS:2||COMPOSITES:2||MALDITOF MS:2||POLYMER THINFILMS:2||HYDROPHOBIC INTERACTION CHROMATOGRAPHY:2||retention mechanism:2||GRAZINGINCIDENCE:2||NANOPOROSITY:2||soluble poly(amic esteraltimide)s:2||DIFFERENTIAL SCANNING CALORIMETRY:2||RESIDUALSTRESS:2||CHEMICALCOMPOSITION:2||POLY(AMIC DIETHYL ESTER) PRECURSOR:2||POLY(DIMETHYL SILOXANES):2||MASS POLYSTYRENES:2||cyclic propylene carbonate:2||propylene oxide:2||ACETATE) TOLUENE SOLUTIONS:2||TRANSIENT GRATING METHOD:2||MASS DIFFUSION:2||MICROPHASE SEPARATION TRANSITION:2||POLYSTYRENES:2||POLYSILANE:2||CARBOHYDRATEBASED PHOSPHOLIPIDS:2||HELICAL STRANDS:2||FLUORESCENCE DETECTION:2||SENSITIVE DETERMINATION:2||COMPOSITE FILMS:2||microphase:2||3MERCAPTOPROPIONIC ACID:2||BUTADIENE BLOCK COPOLYMER:2||HYBRID POLYMERIC MICELLES:2||AQUEOUSMEDIA:2||CONTACTANGLE:2||TRANSISTORCIRCUITS:2||ABTYPE POLY(ETHERIMIDE)S:2||CORRELATION SPECTROSCOPY:2||GASPHASE CONFORMATIONS:2||DECANE:2||INFRAREDSPECTROSCOPY:2||MICELLIZATION:2||ENERGIES:2||ACID) PRECURSORS:2||PHOTOALIGNMENT:2||polymers:2||SUBSTRATE:2||carbon dioxide:2||oligomeric propylene carbonate:2||THERMALDIFFUSION:2||CRYSTAL:2||PHASETRANSITION:2||REFLECTIVITY:2||ANALOGS:2||supramolecular chemistry:2||LYSOPHOSPHATIDIC ACID:2||PHOSPHOCHOLINE:2||POLY(3HEXYLTHIOPHENE):2||Receptor:2||MODIFIED GOLD ELECTRODES:2||ASCORBICACID:2||HUMAN URINE:2||Hybrid Nanocomposite:2||Dielectric Constant:2||AU(111) ELECTRODES:2||NANOFILMS:2||HYDROPHOBIC CORES:2||DRIVEN:2||FLEXIBLE SIDECHAINS:2||MESOGEN:2||size exclusion chromatography:2||ORGANIZATION:2||POLY(LACTIC ACID):2||MOLECULAR ARCHITECTURE:2||COUPLER:2||POLYSTYRENE COPOLYMER:2||diffusion coefficient:2||XRAY REFLECTIVITY:2||temperature gradient interaction chromatography polystyryllithium:2||VISCOELASTIC PROPERTIES:2||polyisoprene:2||CRYSTALSTRUCTURES:2||POLYCARBONATE:2||MULTILAYERS:2||DEPOSITION:2||FULL ADSORPTION MECHANISMS:2||QUANTUM DOTS:2||CRITICAL ORDERING TRANSITION:2||CORE:2||PARACRYSTALLINE DISTORTION:2||PERFORATED LAYER PHASE:2||liposomes:2||phospholipids:2||UNILAMELLAR VESICLES:2||VOLTAMMETRIC DETERMINATION:2||Polyimide:2||FOURIERTRANSFORM:2||SURFACE:2||SIZE EXCLUSION CHROMATOGRAPHY:2||NEUTRON REFLECTIVITY:2||ORDERED STRUCTURE:2||RIGID ROD POLYMERS:2||DISPLACEMENT POLYMERIZATION:2||PHOTOSENSITIVE POLYIMIDE:2||EFFICIENCY:2||films:2||Polylactide:2||CHROMATOGRAPHIC CRITICAL CONDITION:2||RETENTION MECHANISM:2||COPPER PHTHALOCYANINE:2||C60:2||COPOLYMER:2||micelle:2||LINEAR POLYETHYLENE:2||LIQUIDS:2||ARMS:2||HIGHPERFORMANCE LIQUID:2||alternating copolyimides:2||PHASE SEPARATION:2||POLYMERCHAINS:2||STYRYLPYRIDINIUM:2||ANGLES:2||MOBILITY:2||PROBE:2||ACIDS:2||BLUE:2||POSITIONS:2||CYCLOPENTADIENYL:2||HIGHMOLECULARWEIGHT:2||FUELCELLS:2||TIN OXIDE:2||NANOCRYSTALS:2||SURFACE MICELLE FORMATION:2||DISORDER TRANSITION:2||BIREFRINGENCE:2||LIPIDCOMPOSITION:2||CONJUGATED POLYMERS:2||GLASSYCARBON ELECTRODE:2||ELECTROCHEMICAL DETECTION:2||MULTIPLE DETECTION:2||aromatic polyimides:2||MOLECULARWEIGHT HOMOPOLYMERS:2||BINARYMIXTURE:2||PATTERNS:2||photoluminescent polyimide:2||photosensitive polyimide:2||DEPENDENT MICELLIZATION:2||SPEED:2||synthesis:2||COIL BLOCKCOPOLYMERS:2||LIQUIDCRYSTALLINE ASSEMBLIES:2||OXIDE):2||molecular weight distribution:2||CONJUGATED POLYMER:2||polymer characterization:2||NONIONIC SURFACTANTS:2||STEREOREGULAR POLY(METHYL METHACRYLATE):2||structure:2||RODLIKE POLYIMIDE:2||FLEXIBLE POLYIMIDE:2||THERMAL IMIDIZATION:2||IN SITU RODCHAIN FORMATION:2||PHASESEPARATION:2||VINYL ETHER):2||EQUILIBRIUM:2||STRESS:2||STRUCTURAL RELAXATION:2||LIVING POLYMERIZATION:2||CONTAIN:2||SALT:2||WAVEGUIDE:2||XRAY DIFFRACTION:2||WALLED CARBON NANOTUBES:2||SILICON NANOWIRES:2||IR:2||DIELECTRIC THINFILMS:2||Selfassembled monolayer:2||PARAMETERS:2||Temperature gradient interaction chromatography:2||SOLIDSURFACES:2||FLOW:2||RATES:2||PRECURSORS:2||FILM BALANCE:2||SIDECHAINS:2||SUPRAMOLECULAR MATERIALS:2||CHAINS:2||POLYSTYRENE:39||ANIONICPOLYMERIZATION:34||GRADIENT INTERACTION CHROMATOGRAPHY:31||SEPARATION:27||BEHAVIOR:24||LIQUIDCHROMATOGRAPHY:22||POLYMERS:22||SIZEEXCLUSION CHROMATOGRAPHY:19||BLOCKCOPOLYMERS:17||DIBLOCK COPOLYMERS:17||THINFILMS:16||POLYISOPRENE:14||HPLC:13||SYNTHETICPOLYMERS:12||PERFORMANCE LIQUIDCHROMATOGRAPHY:11||DIBLOCK COPOLYMER:11||MOLECULARWEIGHT DISTRIBUTION:10||MACROMOLECULES:10||BLOCKCOPOLYMER:10||REVERSEDPHASE:10||RETENTION BEHAVIOR:10||MORPHOLOGY:9||MOLECULARWEIGHT:9||MELTS:9||AROMATIC POLYIMIDES:8||XRAYSCATTERING:8||polystyrene:8||MIXTURES:7||block copolymer:7||SURFACES:7||DEPENDENCE:7||COPOLYMERS:7||POLYMERIZATION:7||AIR/WATER INTERFACE:7||DEFINED BRUSH POLYIMIDE:6||TEMPERATURE:6||FULLY RODLIKE BACKBONE:6||MONOLAYERS:6||POLYIMIDES:6||CHAIN:6||COMPLEX POLYMERS:6||MOLECULARREORIENTATION:6||temperature gradient interaction chromatography:6||POLYMERFILMS:6||GELPERMEATION CHROMATOGRAPHY:6||ELUTION:6||ORDERDISORDER TRANSITION:6||SURFACEMORPHOLOGY:6||ORIENTATION:6||SYSTEMS:6||CRITICAL ADSORPTION POINT:6||LIGHTSCATTERING:5||PROBE DIFFUSION:5||POLYDISPERSITY:5||AIRWATERINTERFACE:5||MICROPHASE SEPARATION:5||GLASSTRANSITION:5||BLENDS:5||FILMS:5||ADSORPTION CHROMATOGRAPHY:5||MECHANISM:5||CO2:5||ETHYLENEOXIDE:5||ALIGNMENT:5||COMPLEXES:5||FRACTIONATION:5||MISCIBILITY:5||POLYMER CHARACTERIZATION:5||HEXAGONALLY PERFORATED LAYER:5||TRANSITION:5||FLIGHT MASSSPECTROMETRY:5||ARCHITECTURE:5||POLY(METHYL METHACRYLATE):5||ALTERNATING COPOLYMERIZATION:4||THICKNESS:4||THERMODYNAMICS:4||CRITICAL RANGE:4||ULTRATHIN POLYMERFILMS:4||DYNAMICS:4||CLIMATECHANGE:4||PHASE:4||GLASSTRANSITION TEMPERATURE:4||EPOXIDE:4||selfassembly:4||SPECTROSCOPY:4||SELFDIFFUSION:4||SCATTERING:4||OPTICALPROPERTIES:4||CATALYSTS:4||CHEMISTRY:4||SOLARCELLS:4||polyimides:4||polypyromellitimides:4||SEGMENTAL REORIENTATIONS:4||ADSORPTION:4||INTERFACE:4||POLYMERSOLUTIONS:4||TRACER DIFFUSION:4||OXIDE) DIBLOCK COPOLYMER:4||POLYSTYRENEBPOLY(METHYL METHACRYLATE):4||POLYMER BLENDS:4||SIMULATION:4||CHAIN ORIENTATION:4||STYRENE:4||TOF MASSSPECTROMETRY:4||WATER:4||DISPLAYS:4||OLIGOMERS:4||PEPTIDES:4||CYCLIC POLYSTYRENE:4||LATTICE CLUSTER THEORY:4||2NDHARMONIC GENERATION:4||LIQUIDCRYSTAL ALIGNMENT:4||MONTECARLO:4||LangmuirBlodgett film:3||ASSEMBLIES:3||chromatography:3||HOLOGRAPHIC RELAXATION SPECTROSCOPY:3||MULTIPLE MORPHOLOGIES:3||INTERACTION CHROMATOGRAPHY:3||NORMALPHASE:3||DIFFUSION:3||BRANCHED POLYSTYRENE:3||NANOPARTICLES:3||LITHOGRAPHY:3||POLYMER:3||LASERLIGHTSCATTERING:3||HIGH MOLECULARWEIGHT:3||CUBIC PHASE:3||AMPHIPHILIC BLOCKCOPOLYMERS:3||AQUEOUSSOLUTION:3||MODEL:3||FORCED RAYLEIGHSCATTERING:3||HYDRODYNAMIC PROPERTIES:3||4MIKTOARM STAR COPOLYMER:3||SYSTEM:3||PHASEBEHAVIOR:3||AQUEOUSSOLUTIONS:3||RHEOLOGY:3||LB film:3||2DIMENSIONAL LIQUIDCHROMATOGRAPHY:3||VISCOSITY:3||DIBLOCK COPOLYMER MELTS:3||ORDERORDER TRANSITION:3||GYROID PHASE:3||BINDING:3||BLOCK POLYELECTROLYTES:3||DERIVATIVES:3||MELT:3||PHASE LIQUIDCHROMATOGRAPHY:3||high temperature:3||ELEVATEDTEMPERATURE:3||RETENTION:3||MICELLE FORMATION:3||ELECTRONMICROSCOPY:3||Electrospray ionization:2||FRACTIONS:2||nalkanes:2||ISOCRATIC SEPARATION:2||ASSOCIATION:2||POLY(METHYL METHACRYLATE)S:2||2D correlation spectroscopy:2||CARBONATION:2||GLASSTRANSITION BEHAVIORS:2||MECHANICAL PROPERTIES:2||DIMENSIONS:2||POLYMER MIXTURES:2||ALUMINUM PORPHYRIN:2||LEAD STEARATE:2||FERROCENE:2||POLY(EPSILONCAPROLACTONE):2||DIAGRAM:2||nucleosides:2||Selective recognition by preconcentration:2||Electrochemical impedance spectroscopy:2||DOPAMINE:2||Silica:2||Silyl Ester:2||DIETHYL ESTER) PRECURSORS:2||SURFACE CHARACTERIZATION:2||MICROSTRUCTURE:2||polystyreneblockpolyisoprene:2||MICROPHASESEPARATED STRUCTURES:2||IMPEDANCE MEASUREMENTS:2||HEMEPROTEINS:2||SOLID SUBSTRATE:2||MOISTURE ABSORPTION:2||aromatic polyimide:2||INDUCED MORPHOLOGICALCHANGES:2||STABILITY:2||LC alignment layers:2||POLYPYROMELLITIMIDES:2||Ion mobility:2||Chiral polymer:2||OLIGOSACCHARIDES:2||OXIDE:2||SIDECHAIN:2||RETARDATION:2||functionality:2||temperature effects:2||phase transition:2||glass transition temperature:2||spincoated film:2||ESTER) PRECURSORS:2||PRECURSOR BLEND:2||Xray reflectivity:2||SIGMABONDS:2||aluminum porphyrin catalysts:2||METALLOPORPHYRIN:2||SILICON:2||MASSSPECTROMETRY ANALYSIS:2||STAR POLYMERS:2||SIZE DISTRIBUTIONS:2||GIANT VESICLES:2||POLY(3ALKYLTHIOPHENES):2||ADHESION:2||LIGHT:2||POLYSTYRENEBPOLYISOPRENE:2||HPLC fractionation:2||SILVER ELECTRODES:2||ENHANCED RESONANCE RAMAN:2||SEQUENCE:2||POLYELECTROLYTE/NONELECTROLYTE SHELLS:2||polyimide:2||liquid crystal alignment layer:2||SOLUBLE POLYIMIDES:2||POLYBUTADIENECOATED ZIRCONIA:2||PRETILT ANGLES:2||CROSSSECTIONS:2||IMSMS:2||POLYISOPRENE COPOLYMERS:2||POLYIMIDE THINFILMS:2||POLYMER SURFACES:2||RAMAN:2||STEREOREGULAR PMMA:2||poly(tertbutyl methacrylate) (PtBMA):2||TIME:2||POLYIMIDE COMPOSITE:2||CARBOXYLATO COMPLEXES:2||AGOSTIC INTERACTIONS:2||MOLECULARSTRUCTURE:2||ALKENE:2||TRANSISTOR MEMORY:2||DEVICES:2||ORTHOGONALITY:2||molecular characterization:2||ORGANOSILICATE DIELECTRIC FILMS:2||AMPHIPHILES:2||Serotonin:2||Anodic stripping differential pulse voltammetry:2||transmission electron microtomography:2||LIQUIDCHROMATOGRAPHY ANALYSIS:2||PHASEDIAGRAM:2||CARBON NANOTUBES:2||TRANSFER MECHANISM:2||BINARY MIXTURES:2||REFLECTOMETRY:2||ROD:2||DROPS:2||CONSTANT:2||TRIBLOCK COPOLYMER:2||POLYMER VESICLES:2||CLICK CHEMISTRY:2||ARRAYS:2||COMPOSITES:2||MALDITOF MS:2||POLYMER THINFILMS:2||HYDROPHOBIC INTERACTION CHROMATOGRAPHY:2||retention mechanism:2||GRAZINGINCIDENCE:2||NANOPOROSITY:2||soluble poly(amic esteraltimide)s:2||DIFFERENTIAL SCANNING CALORIMETRY:2||RESIDUALSTRESS:2||CHEMICALCOMPOSITION:2||POLY(AMIC DIETHYL ESTER) PRECURSOR:2||POLY(DIMETHYL SILOXANES):2||MASS POLYSTYRENES:2||cyclic propylene carbonate:2||propylene oxide:2||ACETATE) TOLUENE SOLUTIONS:2||TRANSIENT GRATING METHOD:2||MASS DIFFUSION:2||MICROPHASE SEPARATION TRANSITION:2||POLYSTYRENES:2||POLYSILANE:2||CARBOHYDRATEBASED PHOSPHOLIPIDS:2||HELICAL STRANDS:2||FLUORESCENCE DETECTION:2||SENSITIVE DETERMINATION:2||COMPOSITE FILMS:2||microphase:2||3MERCAPTOPROPIONIC ACID:2||BUTADIENE BLOCK COPOLYMER:2||HYBRID POLYMERIC MICELLES:2||AQUEOUSMEDIA:2||CONTACTANGLE:2||TRANSISTORCIRCUITS:2||ABTYPE POLY(ETHERIMIDE)S:2||CORRELATION SPECTROSCOPY:2||GASPHASE CONFORMATIONS:2||DECANE:2||INFRAREDSPECTROSCOPY:2||MICELLIZATION:2||ENERGIES:2||ACID) PRECURSORS:2||PHOTOALIGNMENT:2||polymers:2||SUBSTRATE:2||carbon dioxide:2||oligomeric propylene carbonate:2||THERMALDIFFUSION:2||CRYSTAL:2||PHASETRANSITION:2||REFLECTIVITY:2||ANALOGS:2||supramolecular chemistry:2||LYSOPHOSPHATIDIC ACID:2||PHOSPHOCHOLINE:2||POLY(3HEXYLTHIOPHENE):2||Receptor:2||MODIFIED GOLD ELECTRODES:2||ASCORBICACID:2||HUMAN URINE:2||Hybrid Nanocomposite:2||Dielectric Constant:2||AU(111) ELECTRODES:2||NANOFILMS:2||HYDROPHOBIC CORES:2||DRIVEN:2||FLEXIBLE SIDECHAINS:2||MESOGEN:2||size exclusion chromatography:2||ORGANIZATION:2||POLY(LACTIC ACID):2||MOLECULAR ARCHITECTURE:2||COUPLER:2||POLYSTYRENE COPOLYMER:2||diffusion coefficient:2||XRAY REFLECTIVITY:2||temperature gradient interaction chromatography polystyryllithium:2||VISCOELASTIC PROPERTIES:2||polyisoprene:2||CRYSTALSTRUCTURES:2||POLYCARBONATE:2||MULTILAYERS:2||DEPOSITION:2||FULL ADSORPTION MECHANISMS:2||QUANTUM DOTS:2||CRITICAL ORDERING TRANSITION:2||CORE:2||PARACRYSTALLINE DISTORTION:2||PERFORATED LAYER PHASE:2||liposomes:2||phospholipids:2||UNILAMELLAR VESICLES:2||VOLTAMMETRIC DETERMINATION:2||Polyimide:2||FOURIERTRANSFORM:2||SURFACE:2||SIZE EXCLUSION CHROMATOGRAPHY:2||NEUTRON REFLECTIVITY:2||ORDERED STRUCTURE:2||RIGID ROD POLYMERS:2||DISPLACEMENT POLYMERIZATION:2||PHOTOSENSITIVE POLYIMIDE:2||EFFICIENCY:2||films:2||Polylactide:2||CHROMATOGRAPHIC CRITICAL CONDITION:2||RETENTION MECHANISM:2||COPPER PHTHALOCYANINE:2||C60:2||COPOLYMER:2||micelle:2||LINEAR POLYETHYLENE:2||LIQUIDS:2||ARMS:2||HIGHPERFORMANCE LIQUID:2||alternating copolyimides:2||PHASE SEPARATION:2||POLYMERCHAINS:2||STYRYLPYRIDINIUM:2||ANGLES:2||MOBILITY:2||PROBE:2||ACIDS:2||BLUE:2||POSITIONS:2||CYCLOPENTADIENYL:2||HIGHMOLECULARWEIGHT:2||FUELCELLS:2||TIN OXIDE:2||NANOCRYSTALS:2||SURFACE MICELLE FORMATION:2||DISORDER TRANSITION:2||BIREFRINGENCE:2||LIPIDCOMPOSITION:2||CONJUGATED POLYMERS:2||GLASSYCARBON ELECTRODE:2||ELECTROCHEMICAL DETECTION:2||MULTIPLE DETECTION:2||aromatic polyimides:2||MOLECULARWEIGHT HOMOPOLYMERS:2||BINARYMIXTURE:2||PATTERNS:2||photoluminescent polyimide:2||photosensitive polyimide:2||DEPENDENT MICELLIZATION:2||SPEED:2||synthesis:2||COIL BLOCKCOPOLYMERS:2||LIQUIDCRYSTALLINE ASSEMBLIES:2||OXIDE):2||molecular weight distribution:2||CONJUGATED POLYMER:2||polymer characterization:2||NONIONIC SURFACTANTS:2||STEREOREGULAR POLY(METHYL METHACRYLATE):2||structure:2||RODLIKE POLYIMIDE:2||FLEXIBLE POLYIMIDE:2||THERMAL IMIDIZATION:2||IN SITU RODCHAIN FORMATION:2||PHASESEPARATION:2||VINYL ETHER):2||EQUILIBRIUM:2||STRESS:2||STRUCTURAL RELAXATION:2||LIVING POLYMERIZATION:2||CONTAIN:2||SALT:2||WAVEGUIDE:2||XRAY DIFFRACTION:2||WALLED CARBON NANOTUBES:2||SILICON NANOWIRES:2||IR:2||DIELECTRIC THINFILMS:2||Selfassembled monolayer:2||PARAMETERS:2||Temperature gradient interaction chromatography:2||SOLIDSURFACES:2||FLOW:2||RATES:2||PRECURSORS:2||FILM BALANCE:2||SIDECHAINS:2||SUPRAMOLECULAR MATERIALS:2||CHAINS:2||POLYSTYRENE:39||ANIONICPOLYMERIZATION:34||GRADIENT INTERACTION CHROMATOGRAPHY:31||SEPARATION:27||BEHAVIOR:24||LIQUIDCHROMATOGRAPHY:22||POLYMERS:22||SIZEEXCLUSION CHROMATOGRAPHY:19||BLOCKCOPOLYMERS:17||DIBLOCK COPOLYMERS:17||THINFILMS:16||POLYISOPRENE:14||HPLC:13||SYNTHETICPOLYMERS:12||PERFORMANCE LIQUIDCHROMATOGRAPHY:11||DIBLOCK COPOLYMER:11||MOLECULARWEIGHT DISTRIBUTION:10||MACROMOLECULES:10||BLOCKCOPOLYMER:10||REVERSEDPHASE:10||RETENTION BEHAVIOR:10||MORPHOLOGY:9||MOLECULARWEIGHT:9||MELTS:9||AROMATIC POLYIMIDES:8||XRAYSCATTERING:8||polystyrene:8||MIXTURES:7||block copolymer:7||SURFACES:7||DEPENDENCE:7||COPOLYMERS:7||POLYMERIZATION:7||AIR/WATER INTERFACE:7||DEFINED BRUSH POLYIMIDE:6||TEMPERATURE:6||FULLY RODLIKE BACKBONE:6||MONOLAYERS:6||POLYIMIDES:6||CHAIN:6||COMPLEX POLYMERS:6||MOLECULARREORIENTATION:6||temperature gradient interaction chromatography:6||POLYMERFILMS:6||GELPERMEATION CHROMATOGRAPHY:6||ELUTION:6||ORDERDISORDER TRANSITION:6||SURFACEMORPHOLOGY:6||ORIENTATION:6||SYSTEMS:6||CRITICAL ADSORPTION POINT:6||LIGHTSCATTERING:5||PROBE DIFFUSION:5||POLYDISPERSITY:5||AIRWATERINTERFACE:5||MICROPHASE SEPARATION:5||GLASSTRANSITION:5||BLENDS:5||FILMS:5||ADSORPTION CHROMATOGRAPHY:5||MECHANISM:5||CO2:5||ETHYLENEOXIDE:5||ALIGNMENT:5||COMPLEXES:5||FRACTIONATION:5||MISCIBILITY:5||POLYMER CHARACTERIZATION:5||HEXAGONALLY PERFORATED LAYER:5||TRANSITION:5||FLIGHT MASSSPECTROMETRY:5||ARCHITECTURE:5||POLY(METHYL METHACRYLATE):5||ALTERNATING COPOLYMERIZATION:4||THICKNESS:4||THERMODYNAMICS:4||CRITICAL RANGE:4||ULTRATHIN POLYMERFILMS:4||DYNAMICS:4||CLIMATECHANGE:4||PHASE:4||GLASSTRANSITION TEMPERATURE:4||EPOXIDE:4||selfassembly:4||SPECTROSCOPY:4||SELFDIFFUSION:4||SCATTERING:4||OPTICALPROPERTIES:4||CATALYSTS:4||CHEMISTRY:4||SOLARCELLS:4||polyimides:4||polypyromellitimides:4||SEGMENTAL REORIENTATIONS:4||ADSORPTION:4||INTERFACE:4||POLYMERSOLUTIONS:4||TRACER DIFFUSION:4||OXIDE) DIBLOCK COPOLYMER:4||POLYSTYRENEBPOLY(METHYL METHACRYLATE):4||POLYMER BLENDS:4||SIMULATION:4||CHAIN ORIENTATION:4||STYRENE:4||TOF MASSSPECTROMETRY:4||WATER:4||DISPLAYS:4||OLIGOMERS:4||PEPTIDES:4||CYCLIC POLYSTYRENE:4||LATTICE CLUSTER THEORY:4||2NDHARMONIC GENERATION:4||LIQUIDCRYSTAL ALIGNMENT:4||MONTECARLO:4||LangmuirBlodgett film:3||ASSEMBLIES:3||chromatography:3||HOLOGRAPHIC RELAXATION SPECTROSCOPY:3||MULTIPLE MORPHOLOGIES:3||INTERACTION CHROMATOGRAPHY:3||NORMALPHASE:3||DIFFUSION:3||BRANCHED POLYSTYRENE:3||NANOPARTICLES:3||LITHOGRAPHY:3||POLYMER:3||LASERLIGHTSCATTERING:3||HIGH MOLECULARWEIGHT:3||CUBIC PHASE:3||AMPHIPHILIC BLOCKCOPOLYMERS:3||AQUEOUSSOLUTION:3||MODEL:3||FORCED RAYLEIGHSCATTERING:3||HYDRODYNAMIC PROPERTIES:3||4MIKTOARM STAR COPOLYMER:3||SYSTEM:3||PHASEBEHAVIOR:3||AQUEOUSSOLUTIONS:3||RHEOLOGY:3||LB film:3||2DIMENSIONAL LIQUIDCHROMATOGRAPHY:3||VISCOSITY:3||DIBLOCK COPOLYMER MELTS:3||ORDERORDER TRANSITION:3||GYROID PHASE:3||BINDING:3||BLOCK POLYELECTROLYTES:3||DERIVATIVES:3||MELT:3||PHASE LIQUIDCHROMATOGRAPHY:3||high temperature:3||ELEVATEDTEMPERATURE:3||RETENTION:3||MICELLE FORMATION:3||ELECTRONMICROSCOPY:3||Electrospray ionization:2||FRACTIONS:2||nalkanes:2||ISOCRATIC SEPARATION:2||ASSOCIATION:2||POLY(METHYL METHACRYLATE)S:2||2D correlation spectroscopy:2||CARBONATION:2||GLASSTRANSITION BEHAVIORS:2||MECHANICAL PROPERTIES:2||DIMENSIONS:2||POLYMER MIXTURES:2||ALUMINUM PORPHYRIN:2||LEAD STEARATE:2||FERROCENE:2||POLY(EPSILONCAPROLACTONE):2||DIAGRAM:2||nucleosides:2||Selective recognition by preconcentration:2||Electrochemical impedance spectroscopy:2||DOPAMINE:2||Silica:2||Silyl Ester:2||DIETHYL ESTER) PRECURSORS:2||SURFACE CHARACTERIZATION:2||MICROSTRUCTURE:2||polystyreneblockpolyisoprene:2||MICROPHASESEPARATED STRUCTURES:2||IMPEDANCE MEASUREMENTS:2||HEMEPROTEINS:2||SOLID SUBSTRATE:2||MOISTURE ABSORPTION:2||aromatic polyimide:2||INDUCED MORPHOLOGICALCHANGES:2||STABILITY:2||LC alignment layers:2||POLYPYROMELLITIMIDES:2||Ion mobility:2||Chiral polymer:2||OLIGOSACCHARIDES:2||OXIDE:2||SIDECHAIN:2||RETARDATION:2||functionality:2||temperature effects:2||phase transition:2||glass transition temperature:2||spincoated film:2||ESTER) PRECURSORS:2||PRECURSOR BLEND:2||Xray reflectivity:2||SIGMABONDS:2||aluminum porphyrin catalysts:2||METALLOPORPHYRIN:2||SILICON:2||MASSSPECTROMETRY ANALYSIS:2||STAR POLYMERS:2||SIZE DISTRIBUTIONS:2||GIANT VESICLES:2||POLY(3ALKYLTHIOPHENES):2||ADHESION:2||LIGHT:2||POLYSTYRENEBPOLYISOPRENE:2||HPLC fractionation:2||SILVER ELECTRODES:2||ENHANCED RESONANCE RAMAN:2||SEQUENCE:2||POLYELECTROLYTE/NONELECTROLYTE SHELLS:2||polyimide:2||liquid crystal alignment layer:2||SOLUBLE POLYIMIDES:2||POLYBUTADIENECOATED ZIRCONIA:2||PRETILT ANGLES:2||CROSSSECTIONS:2||IMSMS:2||POLYISOPRENE COPOLYMERS:2||POLYIMIDE THINFILMS:2||POLYMER SURFACES:2||RAMAN:2||STEREOREGULAR PMMA:2||poly(tertbutyl methacrylate) (PtBMA):2||TIME:2||POLYIMIDE COMPOSITE:2||CARBOXYLATO COMPLEXES:2||AGOSTIC INTERACTIONS:2||MOLECULARSTRUCTURE:2||ALKENE:2||TRANSISTOR MEMORY:2||DEVICES:2||ORTHOGONALITY:2||molecular characterization:2||ORGANOSILICATE DIELECTRIC FILMS:2||AMPHIPHILES:2||Serotonin:2||Anodic stripping differential pulse voltammetry:2||transmission electron microtomography:2||LIQUIDCHROMATOGRAPHY ANALYSIS:2||PHASEDIAGRAM:2||CARBON NANOTUBES:2||TRANSFER MECHANISM:2||BINARY MIXTURES:2||REFLECTOMETRY:2||ROD:2||DROPS:2||CONSTANT:2||TRIBLOCK COPOLYMER:2||POLYMER VESICLES:2||CLICK CHEMISTRY:2||ARRAYS:2||COMPOSITES:2||MALDITOF MS:2||POLYMER THINFILMS:2||HYDROPHOBIC INTERACTION CHROMATOGRAPHY:2||retention mechanism:2||GRAZINGINCIDENCE:2||NANOPOROSITY:2||soluble poly(amic esteraltimide)s:2||DIFFERENTIAL SCANNING CALORIMETRY:2||RESIDUALSTRESS:2||CHEMICALCOMPOSITION:2||POLY(AMIC DIETHYL ESTER) PRECURSOR:2||POLY(DIMETHYL SILOXANES):2||MASS POLYSTYRENES:2||cyclic propylene carbonate:2||propylene oxide:2||ACETATE) TOLUENE SOLUTIONS:2||TRANSIENT GRATING METHOD:2||MASS DIFFUSION:2||MICROPHASE SEPARATION TRANSITION:2||POLYSTYRENES:2||POLYSILANE:2||CARBOHYDRATEBASED PHOSPHOLIPIDS:2||HELICAL STRANDS:2||FLUORESCENCE DETECTION:2||SENSITIVE DETERMINATION:2||COMPOSITE FILMS:2||microphase:2||3MERCAPTOPROPIONIC ACID:2||BUTADIENE BLOCK COPOLYMER:2||HYBRID POLYMERIC MICELLES:2||AQUEOUSMEDIA:2||CONTACTANGLE:2||TRANSISTORCIRCUITS:2||ABTYPE POLY(ETHERIMIDE)S:2||CORRELATION SPECTROSCOPY:2||GASPHASE CONFORMATIONS:2||DECANE:2||INFRAREDSPECTROSCOPY:2||MICELLIZATION:2||ENERGIES:2||ACID) PRECURSORS:2||PHOTOALIGNMENT:2||polymers:2||SUBSTRATE:2||carbon dioxide:2||oligomeric propylene carbonate:2||THERMALDIFFUSION:2||CRYSTAL:2||PHASETRANSITION:2||REFLECTIVITY:2||ANALOGS:2||supramolecular chemistry:2||LYSOPHOSPHATIDIC ACID:2||PHOSPHOCHOLINE:2||POLY(3HEXYLTHIOPHENE):2||Receptor:2||MODIFIED GOLD ELECTRODES:2||ASCORBICACID:2||HUMAN URINE:2||Hybrid Nanocomposite:2||Dielectric Constant:2||AU(111) ELECTRODES:2||NANOFILMS:2||HYDROPHOBIC CORES:2||DRIVEN:2||FLEXIBLE SIDECHAINS:2||MESOGEN:2||size exclusion chromatography:2||ORGANIZATION:2||POLY(LACTIC ACID):2||MOLECULAR ARCHITECTURE:2||COUPLER:2||POLYSTYRENE COPOLYMER:2||diffusion coefficient:2||XRAY REFLECTIVITY:2||temperature gradient interaction chromatography polystyryllithium:2||VISCOELASTIC PROPERTIES:2||polyisoprene:2||CRYSTALSTRUCTURES:2||POLYCARBONATE:2||MULTILAYERS:2||DEPOSITION:2||FULL ADSORPTION MECHANISMS:2||QUANTUM DOTS:2||CRITICAL ORDERING TRANSITION:2||CORE:2||PARACRYSTALLINE DISTORTION:2||PERFORATED LAYER PHASE:2||liposomes:2||phospholipids:2||UNILAMELLAR VESICLES:2||VOLTAMMETRIC DETERMINATION:2||Polyimide:2||FOURIERTRANSFORM:2||SURFACE:2||SIZE EXCLUSION CHROMATOGRAPHY:2||NEUTRON REFLECTIVITY:2||ORDERED STRUCTURE:2||RIGID ROD POLYMERS:2||DISPLACEMENT POLYMERIZATION:2||PHOTOSENSITIVE POLYIMIDE:2||EFFICIENCY:2||films:2||Polylactide:2||CHROMATOGRAPHIC CRITICAL CONDITION:2||RETENTION MECHANISM:2||COPPER PHTHALOCYANINE:2||C60:2||COPOLYMER:2||micelle:2||LINEAR POLYETHYLENE:2||LIQUIDS:2||ARMS:2||HIGHPERFORMANCE LIQUID:2||alternating copolyimides:2||PHASE SEPARATION:2||POLYMERCHAINS:2||STYRYLPYRIDINIUM:2||ANGLES:2||MOBILITY:2||PROBE:2||ACIDS:2||BLUE:2||POSITIONS:2||CYCLOPENTADIENYL:2||HIGHMOLECULARWEIGHT:2||FUELCELLS:2||TIN OXIDE:2||NANOCRYSTALS:2||SURFACE MICELLE FORMATION:2||DISORDER TRANSITION:2||BIREFRINGENCE:2||LIPIDCOMPOSITION:2||CONJUGATED POLYMERS:2||GLASSYCARBON ELECTRODE:2||ELECTROCHEMICAL DETECTION:2||MULTIPLE DETECTION:2||aromatic polyimides:2||MOLECULARWEIGHT HOMOPOLYMERS:2||BINARYMIXTURE:2||PATTERNS:2||photoluminescent polyimide:2||photosensitive polyimide:2||DEPENDENT MICELLIZATION:2||SPEED:2||synthesis:2||COIL BLOCKCOPOLYMERS:2||LIQUIDCRYSTALLINE ASSEMBLIES:2||OXIDE):2||molecular weight distribution:2||CONJUGATED POLYMER:2||polymer characterization:2||NONIONIC SURFACTANTS:2||STEREOREGULAR POLY(METHYL METHACRYLATE):2||structure:2||RODLIKE POLYIMIDE:2||FLEXIBLE POLYIMIDE:2||THERMAL IMIDIZATION:2||IN SITU RODCHAIN FORMATION:2||PHASESEPARATION:2||VINYL ETHER):2||EQUILIBRIUM:2||STRESS:2||STRUCTURAL RELAXATION:2||LIVING POLYMERIZATION:2||CONTAIN:2||SALT:2||WAVEGUIDE:2||XRAY DIFFRACTION:2||WALLED CARBON NANOTUBES:2||SILICON NANOWIRES:2||IR:2||DIELECTRIC THINFILMS:2||Selfassembled monolayer:2||PARAMETERS:2||Temperature gradient interaction chromatography:2||SOLIDSURFACES:2||FLOW:2||RATES:2||PRECURSORS:2||FILM BALANCE:2||SIDECHAINS:2||SUPRAMOLECULAR MATERIALS:2||CHAINS:2||POLYSTYRENE:39||ANIONICPOLYMERIZATION:34||GRADIENT INTERACTION CHROMATOGRAPHY:31||SEPARATION:27||BEHAVIOR:24||LIQUIDCHROMATOGRAPHY:22||POLYMERS:22||SIZEEXCLUSION CHROMATOGRAPHY:19||BLOCKCOPOLYMERS:17||DIBLOCK COPOLYMERS:17||THINFILMS:16||POLYISOPRENE:14||HPLC:13||SYNTHETICPOLYMERS:12||PERFORMANCE LIQUIDCHROMATOGRAPHY:11||DIBLOCK COPOLYMER:11||MOLECULARWEIGHT DISTRIBUTION:10||MACROMOLECULES:10||BLOCKCOPOLYMER:10||REVERSEDPHASE:10||RETENTION BEHAVIOR:10||MORPHOLOGY:9||MOLECULARWEIGHT:9||MELTS:9||AROMATIC POLYIMIDES:8||XRAYSCATTERING:8||polystyrene:8||MIXTURES:7||block copolymer:7||SURFACES:7||DEPENDENCE:7||COPOLYMERS:7||POLYMERIZATION:7||AIR/WATER INTERFACE:7||DEFINED BRUSH POLYIMIDE:6||TEMPERATURE:6||FULLY RODLIKE BACKBONE:6||MONOLAYERS:6||POLYIMIDES:6||CHAIN:6||COMPLEX POLYMERS:6||MOLECULARREORIENTATION:6||temperature gradient interaction chromatography:6||POLYMERFILMS:6||GELPERMEATION CHROMATOGRAPHY:6||ELUTION:6||ORDERDISORDER TRANSITION:6||SURFACEMORPHOLOGY:6||ORIENTATION:6||SYSTEMS:6||CRITICAL ADSORPTION POINT:6||LIGHTSCATTERING:5||PROBE DIFFUSION:5||POLYDISPERSITY:5||AIRWATERINTERFACE:5||MICROPHASE SEPARATION:5||GLASSTRANSITION:5||BLENDS:5||FILMS:5||ADSORPTION CHROMATOGRAPHY:5||MECHANISM:5||CO2:5||ETHYLENEOXIDE:5||ALIGNMENT:5||COMPLEXES:5||FRACTIONATION:5||MISCIBILITY:5||POLYMER CHARACTERIZATION:5||HEXAGONALLY PERFORATED LAYER:5||TRANSITION:5||FLIGHT MASSSPECTROMETRY:5||ARCHITECTURE:5||POLY(METHYL METHACRYLATE):5||ALTERNATING COPOLYMERIZATION:4||THICKNESS:4||THERMODYNAMICS:4||CRITICAL RANGE:4||ULTRATHIN POLYMERFILMS:4||DYNAMICS:4||CLIMATECHANGE:4||PHASE:4||GLASSTRANSITION TEMPERATURE:4||EPOXIDE:4||selfassembly:4||SPECTROSCOPY:4||SELFDIFFUSION:4||SCATTERING:4||OPTICALPROPERTIES:4||CATALYSTS:4||CHEMISTRY:4||SOLARCELLS:4||polyimides:4||polypyromellitimides:4||SEGMENTAL REORIENTATIONS:4||ADSORPTION:4||INTERFACE:4||POLYMERSOLUTIONS:4||TRACER DIFFUSION:4||OXIDE) DIBLOCK COPOLYMER:4||POLYSTYRENEBPOLY(METHYL METHACRYLATE):4||POLYMER BLENDS:4||SIMULATION:4||CHAIN ORIENTATION:4||STYRENE:4||TOF MASSSPECTROMETRY:4||WATER:4||DISPLAYS:4||OLIGOMERS:4||PEPTIDES:4||CYCLIC POLYSTYRENE:4||LATTICE CLUSTER THEORY:4||2NDHARMONIC GENERATION:4||LIQUIDCRYSTAL ALIGNMENT:4||MONTECARLO:4||LangmuirBlodgett film:3||ASSEMBLIES:3||chromatography:3||HOLOGRAPHIC RELAXATION SPECTROSCOPY:3||MULTIPLE MORPHOLOGIES:3||INTERACTION CHROMATOGRAPHY:3||NORMALPHASE:3||DIFFUSION:3||BRANCHED POLYSTYRENE:3||NANOPARTICLES:3||LITHOGRAPHY:3||POLYMER:3||LASERLIGHTSCATTERING:3||HIGH MOLECULARWEIGHT:3||CUBIC PHASE:3||AMPHIPHILIC BLOCKCOPOLYMERS:3||AQUEOUSSOLUTION:3||MODEL:3||FORCED RAYLEIGHSCATTERING:3||HYDRODYNAMIC PROPERTIES:3||4MIKTOARM STAR COPOLYMER:3||SYSTEM:3||PHASEBEHAVIOR:3||AQUEOUSSOLUTIONS:3||RHEOLOGY:3||LB film:3||2DIMENSIONAL LIQUIDCHROMATOGRAPHY:3||VISCOSITY:3||DIBLOCK COPOLYMER MELTS:3||ORDERORDER TRANSITION:3||GYROID PHASE:3||BINDING:3||BLOCK POLYELECTROLYTES:3||DERIVATIVES:3||MELT:3||PHASE LIQUIDCHROMATOGRAPHY:3||high temperature:3||ELEVATEDTEMPERATURE:3||RETENTION:3||MICELLE FORMATION:3||ELECTRONMICROSCOPY:3||Electrospray ionization:2||FRACTIONS:2||nalkanes:2||ISOCRATIC SEPARATION:2||ASSOCIATION:2||POLY(METHYL METHACRYLATE)S:2||2D correlation spectroscopy:2||CARBONATION:2||GLASSTRANSITION BEHAVIORS:2||MECHANICAL PROPERTIES:2||DIMENSIONS:2||POLYMER MIXTURES:2||ALUMINUM PORPHYRIN:2||LEAD STEARATE:2||FERROCENE:2||POLY(EPSILONCAPROLACTONE):2||DIAGRAM:2||nucleosides:2||Selective recognition by preconcentration:2||Electrochemical impedance spectroscopy:2||DOPAMINE:2||Silica:2||Silyl Ester:2||DIETHYL ESTER) PRECURSORS:2||SURFACE CHARACTERIZATION:2||MICROSTRUCTURE:2||polystyreneblockpolyisoprene:2||MICROPHASESEPARATED STRUCTURES:2||IMPEDANCE MEASUREMENTS:2||HEMEPROTEINS:2||SOLID SUBSTRATE:2||MOISTURE ABSORPTION:2||aromatic polyimide:2||INDUCED MORPHOLOGICALCHANGES:2||STABILITY:2||LC alignment layers:2||POLYPYROMELLITIMIDES:2||Ion mobility:2||Chiral polymer:2||OLIGOSACCHARIDES:2||OXIDE:2||SIDECHAIN:2||RETARDATION:2||functionality:2||temperature effects:2||phase transition:2||glass transition temperature:2||spincoated film:2||ESTER) PRECURSORS:2||PRECURSOR BLEND:2||Xray reflectivity:2||SIGMABONDS:2||aluminum porphyrin catalysts:2||METALLOPORPHYRIN:2||SILICON:2||MASSSPECTROMETRY ANALYSIS:2||STAR POLYMERS:2||SIZE DISTRIBUTIONS:2||GIANT VESICLES:2||POLY(3ALKYLTHIOPHENES):2||ADHESION:2||LIGHT:2||POLYSTYRENEBPOLYISOPRENE:2||HPLC fractionation:2||SILVER ELECTRODES:2||ENHANCED RESONANCE RAMAN:2||SEQUENCE:2||POLYELECTROLYTE/NONELECTROLYTE SHELLS:2||polyimide:2||liquid crystal alignment layer:2||SOLUBLE POLYIMIDES:2||POLYBUTADIENECOATED ZIRCONIA:2||PRETILT ANGLES:2||CROSSSECTIONS:2||IMSMS:2||POLYISOPRENE COPOLYMERS:2||POLYIMIDE THINFILMS:2||POLYMER SURFACES:2||RAMAN:2||STEREOREGULAR PMMA:2||poly(tertbutyl methacrylate) (PtBMA):2||TIME:2||POLYIMIDE COMPOSITE:2||CARBOXYLATO COMPLEXES:2||AGOSTIC INTERACTIONS:2||MOLECULARSTRUCTURE:2||ALKENE:2||TRANSISTOR MEMORY:2||DEVICES:2||ORTHOGONALITY:2||molecular characterization:2||ORGANOSILICATE DIELECTRIC FILMS:2||AMPHIPHILES:2||Serotonin:2||Anodic stripping differential pulse voltammetry:2||transmission electron microtomography:2||LIQUIDCHROMATOGRAPHY ANALYSIS:2||PHASEDIAGRAM:2||CARBON NANOTUBES:2||TRANSFER MECHANISM:2||BINARY MIXTURES:2||REFLECTOMETRY:2||ROD:2||DROPS:2||CONSTANT:2||TRIBLOCK COPOLYMER:2||POLYMER VESICLES:2||CLICK CHEMISTRY:2||ARRAYS:2||COMPOSITES:2||MALDITOF MS:2||POLYMER THINFILMS:2||HYDROPHOBIC INTERACTION CHROMATOGRAPHY:2||retention mechanism:2||GRAZINGINCIDENCE:2||NANOPOROSITY:2||soluble poly(amic esteraltimide)s:2||DIFFERENTIAL SCANNING CALORIMETRY:2||RESIDUALSTRESS:2||CHEMICALCOMPOSITION:2||POLY(AMIC DIETHYL ESTER) PRECURSOR:2||POLY(DIMETHYL SILOXANES):2||MASS POLYSTYRENES:2||cyclic propylene carbonate:2||propylene oxide:2||ACETATE) TOLUENE SOLUTIONS:2||TRANSIENT GRATING METHOD:2||MASS DIFFUSION:2||MICROPHASE SEPARATION TRANSITION:2||POLYSTYRENES:2||POLYSILANE:2||CARBOHYDRATEBASED PHOSPHOLIPIDS:2||HELICAL STRANDS:2||FLUORESCENCE DETECTION:2||SENSITIVE DETERMINATION:2||COMPOSITE FILMS:2||microphase:2||3MERCAPTOPROPIONIC ACID:2||BUTADIENE BLOCK COPOLYMER:2||HYBRID POLYMERIC MICELLES:2||AQUEOUSMEDIA:2||CONTACTANGLE:2||TRANSISTORCIRCUITS:2||ABTYPE POLY(ETHERIMIDE)S:2||CORRELATION SPECTROSCOPY:2||GASPHASE CONFORMATIONS:2||DECANE:2||INFRAREDSPECTROSCOPY:2||MICELLIZATION:2||ENERGIES:2||ACID) PRECURSORS:2||PHOTOALIGNMENT:2||polymers:2||SUBSTRATE:2||carbon dioxide:2||oligomeric propylene carbonate:2||THERMALDIFFUSION:2||CRYSTAL:2||PHASETRANSITION:2||REFLECTIVITY:2||ANALOGS:2||supramolecular chemistry:2||LYSOPHOSPHATIDIC ACID:2||PHOSPHOCHOLINE:2||POLY(3HEXYLTHIOPHENE):2||Receptor:2||MODIFIED GOLD ELECTRODES:2||ASCORBICACID:2||HUMAN URINE:2||Hybrid Nanocomposite:2||Dielectric Constant:2||AU(111) ELECTRODES:2||NANOFILMS:2||HYDROPHOBIC CORES:2||DRIVEN:2||FLEXIBLE SIDECHAINS:2||MESOGEN:2||size exclusion chromatography:2||ORGANIZATION:2||POLY(LACTIC ACID):2||MOLECULAR ARCHITECTURE:2||COUPLER:2||POLYSTYRENE COPOLYMER:2||diffusion coefficient:2||XRAY REFLECTIVITY:2||temperature gradient interaction chromatography polystyryllithium:2||VISCOELASTIC PROPERTIES:2||polyisoprene:2||CRYSTALSTRUCTURES:2||POLYCARBONATE:2||MULTILAYERS:2||DEPOSITION:2||FULL ADSORPTION MECHANISMS:2||QUANTUM DOTS:2||CRITICAL ORDERING TRANSITION:2||CORE:2||PARACRYSTALLINE DISTORTION:2||PERFORATED LAYER PHASE:2||liposomes:2||phospholipids:2||UNILAMELLAR VESICLES:2||VOLTAMMETRIC DETERMINATION:2||Polyimide:2||FOURIERTRANSFORM:2||SURFACE:2||SIZE EXCLUSION CHROMATOGRAPHY:2||NEUTRON REFLECTIVITY:2||ORDERED STRUCTURE:2||RIGID ROD POLYMERS:2||DISPLACEMENT POLYMERIZATION:2||PHOTOSENSITIVE POLYIMIDE:2||EFFICIENCY:2||films:2||Polylactide:2||CHROMATOGRAPHIC CRITICAL CONDITION:2||RETENTION MECHANISM:2||COPPER PHTHALOCYANINE:2||C60:2||COPOLYMER:2||micelle:2||LINEAR POLYETHYLENE:2||LIQUIDS:2||ARMS:2||HIGHPERFORMANCE LIQUID:2||alternating copolyimides:2||PHASE SEPARATION:2||POLYMERCHAINS:2||STYRYLPYRIDINIUM:2||ANGLES:2||MOBILITY:2||PROBE:2||ACIDS:2||BLUE:2||POSITIONS:2||CYCLOPENTADIENYL:2||HIGHMOLECULARWEIGHT:2||FUELCELLS:2||TIN OXIDE:2||NANOCRYSTALS:2||SURFACE MICELLE FORMATION:2||DISORDER TRANSITION:2||BIREFRINGENCE:2||LIPIDCOMPOSITION:2||CONJUGATED POLYMERS:2||GLASSYCARBON ELECTRODE:2||ELECTROCHEMICAL DETECTION:2||MULTIPLE DETECTION:2||aromatic polyimides:2||MOLECULARWEIGHT HOMOPOLYMERS:2||BINARYMIXTURE:2||PATTERNS:2||photoluminescent polyimide:2||photosensitive polyimide:2||DEPENDENT MICELLIZATION:2||SPEED:2||synthesis:2||COIL BLOCKCOPOLYMERS:2||LIQUIDCRYSTALLINE ASSEMBLIES:2||OXIDE):2||molecular weight distribution:2||CONJUGATED POLYMER:2||polymer characterization:2||NONIONIC SURFACTANTS:2||STEREOREGULAR POLY(METHYL METHACRYLATE):2||structure:2||RODLIKE POLYIMIDE:2||FLEXIBLE POLYIMIDE:2||THERMAL IMIDIZATION:2||IN SITU RODCHAIN FORMATION:2||PHASESEPARATION:2||VINYL ETHER):2||EQUILIBRIUM:2||STRESS:2||STRUCTURAL RELAXATION:2||LIVING POLYMERIZATION:2||CONTAIN:2||SALT:2||WAVEGUIDE:2||XRAY DIFFRACTION:2||WALLED CARBON NANOTUBES:2||SILICON NANOWIRES:2||IR:2||DIELECTRIC THINFILMS:2||Selfassembled monolayer:2||PARAMETERS:2||Temperature gradient interaction chromatography:2||SOLIDSURFACES:2||FLOW:2||RATES:2||PRECURSORS:2||FILM BALANCE:2||SIDECHAINS:2||SUPRAMOLECULAR MATERIALS:2||CHAINS:2||POLYSTYRENE:39||ANIONICPOLYMERIZATION:34||GRADIENT INTERACTION CHROMATOGRAPHY:31||SEPARATION:27||BEHAVIOR:24||LIQUIDCHROMATOGRAPHY:22||POLYMERS:22||SIZEEXCLUSION CHROMATOGRAPHY:19||BLOCKCOPOLYMERS:17||DIBLOCK COPOLYMERS:17||THINFILMS:16||POLYISOPRENE:14||HPLC:13||SYNTHETICPOLYMERS:12||PERFORMANCE LIQUIDCHROMATOGRAPHY:11||DIBLOCK COPOLYMER:11||MOLECULARWEIGHT DISTRIBUTION:10||MACROMOLECULES:10||BLOCKCOPOLYMER:10||REVERSEDPHASE:10||RETENTION BEHAVIOR:10||MORPHOLOGY:9||MOLECULARWEIGHT:9||MELTS:9||AROMATIC POLYIMIDES:8||XRAYSCATTERING:8||polystyrene:8||MIXTURES:7||block copolymer:7||SURFACES:7||DEPENDENCE:7||COPOLYMERS:7||POLYMERIZATION:7||AIR/WATER INTERFACE:7||DEFINED BRUSH POLYIMIDE:6||TEMPERATURE:6||FULLY RODLIKE BACKBONE:6||MONOLAYERS:6||POLYIMIDES:6||CHAIN:6||COMPLEX POLYMERS:6||MOLECULARREORIENTATION:6||temperature gradient interaction chromatography:6||POLYMERFILMS:6||GELPERMEATION CHROMATOGRAPHY:6||ELUTION:6||ORDERDISORDER TRANSITION:6||SURFACEMORPHOLOGY:6||ORIENTATION:6||SYSTEMS:6||CRITICAL ADSORPTION POINT:6||LIGHTSCATTERING:5||PROBE DIFFUSION:5||POLYDISPERSITY:5||AIRWATERINTERFACE:5||MICROPHASE SEPARATION:5||GLASSTRANSITION:5||BLENDS:5||FILMS:5||ADSORPTION CHROMATOGRAPHY:5||MECHANISM:5||CO2:5||ETHYLENEOXIDE:5||ALIGNMENT:5||COMPLEXES:5||FRACTIONATION:5||MISCIBILITY:5||POLYMER CHARACTERIZATION:5||HEXAGONALLY PERFORATED LAYER:5||TRANSITION:5||FLIGHT MASSSPECTROMETRY:5||ARCHITECTURE:5||POLY(METHYL METHACRYLATE):5||ALTERNATING COPOLYMERIZATION:4||THICKNESS:4||THERMODYNAMICS:4||CRITICAL RANGE:4||ULTRATHIN POLYMERFILMS:4||DYNAMICS:4||CLIMATECHANGE:4||PHASE:4||GLASSTRANSITION TEMPERATURE:4||EPOXIDE:4||selfassembly:4||SPECTROSCOPY:4||SELFDIFFUSION:4||SCATTERING:4||OPTICALPROPERTIES:4||CATALYSTS:4||CHEMISTRY:4||SOLARCELLS:4||polyimides:4||polypyromellitimides:4||SEGMENTAL REORIENTATIONS:4||ADSORPTION:4||INTERFACE:4||POLYMERSOLUTIONS:4||TRACER DIFFUSION:4||OXIDE) DIBLOCK COPOLYMER:4||POLYSTYRENEBPOLY(METHYL METHACRYLATE):4||POLYMER BLENDS:4||SIMULATION:4||CHAIN ORIENTATION:4||STYRENE:4||TOF MASSSPECTROMETRY:4||WATER:4||DISPLAYS:4||OLIGOMERS:4||PEPTIDES:4||CYCLIC POLYSTYRENE:4||LATTICE CLUSTER THEORY:4||2NDHARMONIC GENERATION:4||LIQUIDCRYSTAL ALIGNMENT:4||MONTECARLO:4||LangmuirBlodgett film:3||ASSEMBLIES:3||chromatography:3||HOLOGRAPHIC RELAXATION SPECTROSCOPY:3||MULTIPLE MORPHOLOGIES:3||INTERACTION CHROMATOGRAPHY:3||NORMALPHASE:3||DIFFUSION:3||BRANCHED POLYSTYRENE:3||NANOPARTICLES:3||LITHOGRAPHY:3||POLYMER:3||LASERLIGHTSCATTERING:3||HIGH MOLECULARWEIGHT:3||CUBIC PHASE:3||AMPHIPHILIC BLOCKCOPOLYMERS:3||AQUEOUSSOLUTION:3||MODEL:3||FORCED RAYLEIGHSCATTERING:3||HYDRODYNAMIC PROPERTIES:3||4MIKTOARM STAR COPOLYMER:3||SYSTEM:3||PHASEBEHAVIOR:3||AQUEOUSSOLUTIONS:3||RHEOLOGY:3||LB film:3||2DIMENSIONAL LIQUIDCHROMATOGRAPHY:3||VISCOSITY:3||DIBLOCK COPOLYMER MELTS:3||ORDERORDER TRANSITION:3||GYROID PHASE:3||BINDING:3||BLOCK POLYELECTROLYTES:3||DERIVATIVES:3||MELT:3||PHASE LIQUIDCHROMATOGRAPHY:3||high temperature:3||ELEVATEDTEMPERATURE:3||RETENTION:3||MICELLE FORMATION:3||ELECTRONMICROSCOPY:3||Electrospray ionization:2||FRACTIONS:2||nalkanes:2||ISOCRATIC SEPARATION:2||ASSOCIATION:2||POLY(METHYL METHACRYLATE)S:2||2D correlation spectroscopy:2||CARBONATION:2||GLASSTRANSITION BEHAVIORS:2||MECHANICAL PROPERTIES:2||DIMENSIONS:2||POLYMER MIXTURES:2||ALUMINUM PORPHYRIN:2||LEAD STEARATE:2||FERROCENE:2||POLY(EPSILONCAPROLACTONE):2||DIAGRAM:2||nucleosides:2||Selective recognition by preconcentration:2||Electrochemical impedance spectroscopy:2||DOPAMINE:2||Silica:2||Silyl Ester:2||DIETHYL ESTER) PRECURSORS:2||SURFACE CHARACTERIZATION:2||MICROSTRUCTURE:2||polystyreneblockpolyisoprene:2||MICROPHASESEPARATED STRUCTURES:2||IMPEDANCE MEASUREMENTS:2||HEMEPROTEINS:2||SOLID SUBSTRATE:2||MOISTURE ABSORPTION:2||aromatic polyimide:2||INDUCED MORPHOLOGICALCHANGES:2||STABILITY:2||LC alignment layers:2||POLYPYROMELLITIMIDES:2||Ion mobility:2||Chiral polymer:2||OLIGOSACCHARIDES:2||OXIDE:2||SIDECHAIN:2||RETARDATION:2||functionality:2||temperature effects:2||phase transition:2||glass transition temperature:2||spincoated film:2||ESTER) PRECURSORS:2||PRECURSOR BLEND:2||Xray reflectivity:2||SIGMABONDS:2||aluminum porphyrin catalysts:2||METALLOPORPHYRIN:2||SILICON:2||MASSSPECTROMETRY ANALYSIS:2||STAR POLYMERS:2||SIZE DISTRIBUTIONS:2||GIANT VESICLES:2||POLY(3ALKYLTHIOPHENES):2||ADHESION:2||LIGHT:2||POLYSTYRENEBPOLYISOPRENE:2||HPLC fractionation:2||SILVER ELECTRODES:2||ENHANCED RESONANCE RAMAN:2||SEQUENCE:2||POLYELECTROLYTE/NONELECTROLYTE SHELLS:2||polyimide:2||liquid crystal alignment layer:2||SOLUBLE POLYIMIDES:2||POLYBUTADIENECOATED ZIRCONIA:2||PRETILT ANGLES:2||CROSSSECTIONS:2||IMSMS:2||POLYISOPRENE COPOLYMERS:2||POLYIMIDE THINFILMS:2||POLYMER SURFACES:2||RAMAN:2||STEREOREGULAR PMMA:2||poly(tertbutyl methacrylate) (PtBMA):2||TIME:2||POLYIMIDE COMPOSITE:2||CARBOXYLATO COMPLEXES:2||AGOSTIC INTERACTIONS:2||MOLECULARSTRUCTURE:2||ALKENE:2||TRANSISTOR MEMORY:2||DEVICES:2||ORTHOGONALITY:2||molecular characterization:2||ORGANOSILICATE DIELECTRIC FILMS:2||AMPHIPHILES:2||Serotonin:2||Anodic stripping differential pulse voltammetry:2||transmission electron microtomography:2||LIQUIDCHROMATOGRAPHY ANALYSIS:2||PHASEDIAGRAM:2||CARBON NANOTUBES:2||TRANSFER MECHANISM:2||BINARY MIXTURES:2||REFLECTOMETRY:2||ROD:2||DROPS:2||CONSTANT:2||TRIBLOCK COPOLYMER:2||POLYMER VESICLES:2||CLICK CHEMISTRY:2||ARRAYS:2||COMPOSITES:2||MALDITOF MS:2||POLYMER THINFILMS:2||HYDROPHOBIC INTERACTION CHROMATOGRAPHY:2||retention mechanism:2||GRAZINGINCIDENCE:2||NANOPOROSITY:2||soluble poly(amic esteraltimide)s:2||DIFFERENTIAL SCANNING CALORIMETRY:2||RESIDUALSTRESS:2||CHEMICALCOMPOSITION:2||POLY(AMIC DIETHYL ESTER) PRECURSOR:2||POLY(DIMETHYL SILOXANES):2||MASS POLYSTYRENES:2||cyclic propylene carbonate:2||propylene oxide:2||ACETATE) TOLUENE SOLUTIONS:2||TRANSIENT GRATING METHOD:2||MASS DIFFUSION:2||MICROPHASE SEPARATION TRANSITION:2||POLYSTYRENES:2||POLYSILANE:2||CARBOHYDRATEBASED PHOSPHOLIPIDS:2||HELICAL STRANDS:2||FLUORESCENCE DETECTION:2||SENSITIVE DETERMINATION:2||COMPOSITE FILMS:2||microphase:2||3MERCAPTOPROPIONIC ACID:2||BUTADIENE BLOCK COPOLYMER:2||HYBRID POLYMERIC MICELLES:2||AQUEOUSMEDIA:2||CONTACTANGLE:2||TRANSISTORCIRCUITS:2||ABTYPE POLY(ETHERIMIDE)S:2||CORRELATION SPECTROSCOPY:2||GASPHASE CONFORMATIONS:2||DECANE:2||INFRAREDSPECTROSCOPY:2||MICELLIZATION:2||ENERGIES:2||ACID) PRECURSORS:2||PHOTOALIGNMENT:2||polymers:2||SUBSTRATE:2||carbon dioxide:2||oligomeric propylene carbonate:2||THERMALDIFFUSION:2||CRYSTAL:2||PHASETRANSITION:2||REFLECTIVITY:2||ANALOGS:2||supramolecular chemistry:2||LYSOPHOSPHATIDIC ACID:2||PHOSPHOCHOLINE:2||POLY(3HEXYLTHIOPHENE):2||Receptor:2||MODIFIED GOLD ELECTRODES:2||ASCORBICACID:2||HUMAN URINE:2||Hybrid Nanocomposite:2||Dielectric Constant:2||AU(111) ELECTRODES:2||NANOFILMS:2||HYDROPHOBIC CORES:2||DRIVEN:2||FLEXIBLE SIDECHAINS:2||MESOGEN:2||size exclusion chromatography:2||ORGANIZATION:2||POLY(LACTIC ACID):2||MOLECULAR ARCHITECTURE:2||COUPLER:2||POLYSTYRENE COPOLYMER:2||diffusion coefficient:2||XRAY REFLECTIVITY:2||temperature gradient interaction chromatography polystyryllithium:2||VISCOELASTIC PROPERTIES:2||polyisoprene:2||CRYSTALSTRUCTURES:2||POLYCARBONATE:2||MULTILAYERS:2||DEPOSITION:2||FULL ADSORPTION MECHANISMS:2||QUANTUM DOTS:2||CRITICAL ORDERING TRANSITION:2||CORE:2||PARACRYSTALLINE DISTORTION:2||PERFORATED LAYER PHASE:2||liposomes:2||phospholipids:2||UNILAMELLAR VESICLES:2||VOLTAMMETRIC DETERMINATION:2||Polyimide:2||FOURIERTRANSFORM:2||SURFACE:2||SIZE EXCLUSION CHROMATOGRAPHY:2||NEUTRON REFLECTIVITY:2||ORDERED STRUCTURE:2||RIGID ROD POLYMERS:2||DISPLACEMENT POLYMERIZATION:2||PHOTOSENSITIVE POLYIMIDE:2||EFFICIENCY:2||films:2||Polylactide:2||CHROMATOGRAPHIC CRITICAL CONDITION:2||RETENTION MECHANISM:2||COPPER PHTHALOCYANINE:2||C60:2||COPOLYMER:2||micelle:2||LINEAR POLYETHYLENE:2||LIQUIDS:2||ARMS:2||HIGHPERFORMANCE LIQUID:2||alternating copolyimides:2||PHASE SEPARATION:2||POLYMERCHAINS:2||STYRYLPYRIDINIUM:2||ANGLES:2||MOBILITY:2||PROBE:2||ACIDS:2||BLUE:2||POSITIONS:2||CYCLOPENTADIENYL:2||HIGHMOLECULARWEIGHT:2||FUELCELLS:2||TIN OXIDE:2||NANOCRYSTALS:2||SURFACE MICELLE FORMATION:2||DISORDER TRANSITION:2||BIREFRINGENCE:2||LIPIDCOMPOSITION:2||CONJUGATED POLYMERS:2||GLASSYCARBON ELECTRODE:2||ELECTROCHEMICAL DETECTION:2||MULTIPLE DETECTION:2||aromatic polyimides:2||MOLECULARWEIGHT HOMOPOLYMERS:2||BINARYMIXTURE:2||PATTERNS:2||photoluminescent polyimide:2||photosensitive polyimide:2||DEPENDENT MICELLIZATION:2||SPEED:2||synthesis:2||COIL BLOCKCOPOLYMERS:2||LIQUIDCRYSTALLINE ASSEMBLIES:2||OXIDE):2||molecular weight distribution:2||CONJUGATED POLYMER:2||polymer characterization:2||NONIONIC SURFACTANTS:2||STEREOREGULAR POLY(METHYL METHACRYLATE):2||structure:2||RODLIKE POLYIMIDE:2||FLEXIBLE POLYIMIDE:2||THERMAL IMIDIZATION:2||IN SITU RODCHAIN FORMATION:2||PHASESEPARATION:2||VINYL ETHER):2||EQUILIBRIUM:2||STRESS:2||STRUCTURAL RELAXATION:2||LIVING POLYMERIZATION:2||CONTAIN:2||SALT:2||WAVEGUIDE:2||XRAY DIFFRACTION:2||WALLED CARBON NANOTUBES:2||SILICON NANOWIRES:2||IR:2||DIELECTRIC THINFILMS:2||Selfassembled monolayer:2||PARAMETERS:2||Temperature gradient interaction chromatography:2||SOLIDSURFACES:2||FLOW:2||RATES:2||PRECURSORS:2||FILM BALANCE:2||SIDECHAINS:2||SUPRAMOLECULAR MATERIALS:2||CHAINS:2||POLYSTYRENE:39||ANIONICPOLYMERIZATION:34||GRADIENT INTERACTION CHROMATOGRAPHY:31||SEPARATION:27||BEHAVIOR:24||LIQUIDCHROMATOGRAPHY:22||POLYMERS:22||SIZEEXCLUSION CHROMATOGRAPHY:19||BLOCKCOPOLYMERS:17||DIBLOCK COPOLYMERS:17||THINFILMS:16||POLYISOPRENE:14||HPLC:13||SYNTHETICPOLYMERS:12||PERFORMANCE LIQUIDCHROMATOGRAPHY:11||DIBLOCK COPOLYMER:11||MOLECULARWEIGHT DISTRIBUTION:10||MACROMOLECULES:10||BLOCKCOPOLYMER:10||REVERSEDPHASE:10||RETENTION BEHAVIOR:10||MORPHOLOGY:9||MOLECULARWEIGHT:9||MELTS:9||AROMATIC POLYIMIDES:8||XRAYSCATTERING:8||polystyrene:8||MIXTURES:7||block copolymer:7||SURFACES:7||DEPENDENCE:7||COPOLYMERS:7||POLYMERIZATION:7||AIR/WATER INTERFACE:7||DEFINED BRUSH POLYIMIDE:6||TEMPERATURE:6||FULLY RODLIKE BACKBONE:6||MONOLAYERS:6||POLYIMIDES:6||CHAIN:6||COMPLEX POLYMERS:6||MOLECULARREORIENTATION:6||temperature gradient interaction chromatography:6||POLYMERFILMS:6||GELPERMEATION CHROMATOGRAPHY:6||ELUTION:6||ORDERDISORDER TRANSITION:6||SURFACEMORPHOLOGY:6||ORIENTATION:6||SYSTEMS:6||CRITICAL ADSORPTION POINT:6||LIGHTSCATTERING:5||PROBE DIFFUSION:5||POLYDISPERSITY:5||AIRWATERINTERFACE:5||MICROPHASE SEPARATION:5||GLASSTRANSITION:5||BLENDS:5||FILMS:5||ADSORPTION CHROMATOGRAPHY:5||MECHANISM:5||CO2:5||ETHYLENEOXIDE:5||ALIGNMENT:5||COMPLEXES:5||FRACTIONATION:5||MISCIBILITY:5||POLYMER CHARACTERIZATION:5||HEXAGONALLY PERFORATED LAYER:5||TRANSITION:5||FLIGHT MASSSPECTROMETRY:5||ARCHITECTURE:5||POLY(METHYL METHACRYLATE):5||ALTERNATING COPOLYMERIZATION:4||THICKNESS:4||THERMODYNAMICS:4||CRITICAL RANGE:4||ULTRATHIN POLYMERFILMS:4||DYNAMICS:4||CLIMATECHANGE:4||PHASE:4||GLASSTRANSITION TEMPERATURE:4||EPOXIDE:4||selfassembly:4||SPECTROSCOPY:4||SELFDIFFUSION:4||SCATTERING:4||OPTICALPROPERTIES:4||CATALYSTS:4||CHEMISTRY:4||SOLARCELLS:4||polyimides:4||polypyromellitimides:4||SEGMENTAL REORIENTATIONS:4||ADSORPTION:4||INTERFACE:4||POLYMERSOLUTIONS:4||TRACER DIFFUSION:4||OXIDE) DIBLOCK COPOLYMER:4||POLYSTYRENEBPOLY(METHYL METHACRYLATE):4||POLYMER BLENDS:4||SIMULATION:4||CHAIN ORIENTATION:4||STYRENE:4||TOF MASSSPECTROMETRY:4||WATER:4||DISPLAYS:4||OLIGOMERS:4||PEPTIDES:4||CYCLIC POLYSTYRENE:4||LATTICE CLUSTER THEORY:4||2NDHARMONIC GENERATION:4||LIQUIDCRYSTAL ALIGNMENT:4||MONTECARLO:4||LangmuirBlodgett film:3||ASSEMBLIES:3||chromatography:3||HOLOGRAPHIC RELAXATION SPECTROSCOPY:3||MULTIPLE MORPHOLOGIES:3||INTERACTION CHROMATOGRAPHY:3||NORMALPHASE:3||DIFFUSION:3||BRANCHED POLYSTYRENE:3||NANOPARTICLES:3||LITHOGRAPHY:3||POLYMER:3||LASERLIGHTSCATTERING:3||HIGH MOLECULARWEIGHT:3||CUBIC PHASE:3||AMPHIPHILIC BLOCKCOPOLYMERS:3||AQUEOUSSOLUTION:3||MODEL:3||FORCED RAYLEIGHSCATTERING:3||HYDRODYNAMIC PROPERTIES:3||4MIKTOARM STAR COPOLYMER:3||SYSTEM:3||PHASEBEHAVIOR:3||AQUEOUSSOLUTIONS:3||RHEOLOGY:3||LB film:3||2DIMENSIONAL LIQUIDCHROMATOGRAPHY:3||VISCOSITY:3||DIBLOCK COPOLYMER MELTS:3||ORDERORDER TRANSITION:3||GYROID PHASE:3||BINDING:3||BLOCK POLYELECTROLYTES:3||DERIVATIVES:3||MELT:3||PHASE LIQUIDCHROMATOGRAPHY:3||high temperature:3||ELEVATEDTEMPERATURE:3||RETENTION:3||MICELLE FORMATION:3||ELECTRONMICROSCOPY:3||Electrospray ionization:2||FRACTIONS:2||nalkanes:2||ISOCRATIC SEPARATION:2||ASSOCIATION:2||POLY(METHYL METHACRYLATE)S:2||2D correlation spectroscopy:2||CARBONATION:2||GLASSTRANSITION BEHAVIORS:2||MECHANICAL PROPERTIES:2||DIMENSIONS:2||POLYMER MIXTURES:2||ALUMINUM PORPHYRIN:2||LEAD STEARATE:2||FERROCENE:2||POLY(EPSILONCAPROLACTONE):2||DIAGRAM:2||nucleosides:2||Selective recognition by preconcentration:2||Electrochemical impedance spectroscopy:2||DOPAMINE:2||Silica:2||Silyl Ester:2||DIETHYL ESTER) PRECURSORS:2||SURFACE CHARACTERIZATION:2||MICROSTRUCTURE:2||polystyreneblockpolyisoprene:2||MICROPHASESEPARATED STRUCTURES:2||IMPEDANCE MEASUREMENTS:2||HEMEPROTEINS:2||SOLID SUBSTRATE:2||MOISTURE ABSORPTION:2||aromatic polyimide:2||INDUCED MORPHOLOGICALCHANGES:2||STABILITY:2||LC alignment layers:2||POLYPYROMELLITIMIDES:2||Ion mobility:2||Chiral polymer:2||OLIGOSACCHARIDES:2||OXIDE:2||SIDECHAIN:2||RETARDATION:2||functionality:2||temperature effects:2||phase transition:2||glass transition temperature:2||spincoated film:2||ESTER) PRECURSORS:2||PRECURSOR BLEND:2||Xray reflectivity:2||SIGMABONDS:2||aluminum porphyrin catalysts:2||METALLOPORPHYRIN:2||SILICON:2||MASSSPECTROMETRY ANALYSIS:2||STAR POLYMERS:2||SIZE DISTRIBUTIONS:2||GIANT VESICLES:2||POLY(3ALKYLTHIOPHENES):2||ADHESION:2||LIGHT:2||POLYSTYRENEBPOLYISOPRENE:2||HPLC fractionation:2||SILVER ELECTRODES:2||ENHANCED RESONANCE RAMAN:2||SEQUENCE:2||POLYELECTROLYTE/NONELECTROLYTE SHELLS:2||polyimide:2||liquid crystal alignment layer:2||SOLUBLE POLYIMIDES:2||POLYBUTADIENECOATED ZIRCONIA:2||PRETILT ANGLES:2||CROSSSECTIONS:2||IMSMS:2||POLYISOPRENE COPOLYMERS:2||POLYIMIDE THINFILMS:2||POLYMER SURFACES:2||RAMAN:2||STEREOREGULAR PMMA:2||poly(tertbutyl methacrylate) (PtBMA):2||TIME:2||POLYIMIDE COMPOSITE:2||CARBOXYLATO COMPLEXES:2||AGOSTIC INTERACTIONS:2||MOLECULARSTRUCTURE:2||ALKENE:2||TRANSISTOR MEMORY:2||DEVICES:2||ORTHOGONALITY:2||molecular characterization:2||ORGANOSILICATE DIELECTRIC FILMS:2||AMPHIPHILES:2||Serotonin:2||Anodic stripping differential pulse voltammetry:2||transmission electron microtomography:2||LIQUIDCHROMATOGRAPHY ANALYSIS:2||PHASEDIAGRAM:2||CARBON NANOTUBES:2||TRANSFER MECHANISM:2||BINARY MIXTURES:2||REFLECTOMETRY:2||ROD:2||DROPS:2||CONSTANT:2||TRIBLOCK COPOLYMER:2||POLYMER VESICLES:2||CLICK CHEMISTRY:2||ARRAYS:2||COMPOSITES:2||MALDITOF MS:2||POLYMER THINFILMS:2||HYDROPHOBIC INTERACTION CHROMATOGRAPHY:2||retention mechanism:2||GRAZINGINCIDENCE:2||NANOPOROSITY:2||soluble poly(amic esteraltimide)s:2||DIFFERENTIAL SCANNING CALORIMETRY:2||RESIDUALSTRESS:2||CHEMICALCOMPOSITION:2||POLY(AMIC DIETHYL ESTER) PRECURSOR:2||POLY(DIMETHYL SILOXANES):2||MASS POLYSTYRENES:2||cyclic propylene carbonate:2||propylene oxide:2||ACETATE) TOLUENE SOLUTIONS:2||TRANSIENT GRATING METHOD:2||MASS DIFFUSION:2||MICROPHASE SEPARATION TRANSITION:2||POLYSTYRENES:2||POLYSILANE:2||CARBOHYDRATEBASED PHOSPHOLIPIDS:2||HELICAL STRANDS:2||FLUORESCENCE DETECTION:2||SENSITIVE DETERMINATION:2||COMPOSITE FILMS:2||microphase:2||3MERCAPTOPROPIONIC ACID:2||BUTADIENE BLOCK COPOLYMER:2||HYBRID POLYMERIC MICELLES:2||AQUEOUSMEDIA:2||CONTACTANGLE:2||TRANSISTORCIRCUITS:2||ABTYPE POLY(ETHERIMIDE)S:2||CORRELATION SPECTROSCOPY:2||GASPHASE CONFORMATIONS:2||DECANE:2||INFRAREDSPECTROSCOPY:2||MICELLIZATION:2||ENERGIES:2||ACID) PRECURSORS:2||PHOTOALIGNMENT:2||polymers:2||SUBSTRATE:2||carbon dioxide:2||oligomeric propylene carbonate:2||THERMALDIFFUSION:2||CRYSTAL:2||PHASETRANSITION:2||REFLECTIVITY:2||ANALOGS:2||supramolecular chemistry:2||LYSOPHOSPHATIDIC ACID:2||PHOSPHOCHOLINE:2||POLY(3HEXYLTHIOPHENE):2||Receptor:2||MODIFIED GOLD ELECTRODES:2||ASCORBICACID:2||HUMAN URINE:2||Hybrid Nanocomposite:2||Dielectric Constant:2||AU(111) ELECTRODES:2||NANOFILMS:2||HYDROPHOBIC CORES:2||DRIVEN:2||FLEXIBLE SIDECHAINS:2||MESOGEN:2||size exclusion chromatography:2||ORGANIZATION:2||POLY(LACTIC ACID):2||MOLECULAR ARCHITECTURE:2||COUPLER:2||POLYSTYRENE COPOLYMER:2||diffusion coefficient:2||XRAY REFLECTIVITY:2||temperature gradient interaction chromatography polystyryllithium:2||VISCOELASTIC PROPERTIES:2||polyisoprene:2||CRYSTALSTRUCTURES:2||POLYCARBONATE:2||MULTILAYERS:2||DEPOSITION:2||FULL ADSORPTION MECHANISMS:2||QUANTUM DOTS:2||CRITICAL ORDERING TRANSITION:2||CORE:2||PARACRYSTALLINE DISTORTION:2||PERFORATED LAYER PHASE:2||liposomes:2||phospholipids:2||UNILAMELLAR VESICLES:2||VOLTAMMETRIC DETERMINATION:2||Polyimide:2||FOURIERTRANSFORM:2||SURFACE:2||SIZE EXCLUSION CHROMATOGRAPHY:2||NEUTRON REFLECTIVITY:2||ORDERED STRUCTURE:2||RIGID ROD POLYMERS:2||DISPLACEMENT POLYMERIZATION:2||PHOTOSENSITIVE POLYIMIDE:2||EFFICIENCY:2||films:2||Polylactide:2||CHROMATOGRAPHIC CRITICAL CONDITION:2||RETENTION MECHANISM:2||COPPER PHTHALOCYANINE:2||C60:2||COPOLYMER:2||micelle:2||LINEAR POLYETHYLENE:2||LIQUIDS:2||ARMS:2||HIGHPERFORMANCE LIQUID:2||alternating copolyimides:2||PHASE SEPARATION:2||POLYMERCHAINS:2||STYRYLPYRIDINIUM:2||ANGLES:2||MOBILITY:2||PROBE:2||ACIDS:2||BLUE:2||POSITIONS:2||CYCLOPENTADIENYL:2||HIGHMOLECULARWEIGHT:2||FUELCELLS:2||TIN OXIDE:2||NANOCRYSTALS:2||SURFACE MICELLE FORMATION:2||DISORDER TRANSITION:2||BIREFRINGENCE:2||LIPIDCOMPOSITION:2||CONJUGATED POLYMERS:2||GLASSYCARBON ELECTRODE:2||ELECTROCHEMICAL DETECTION:2||MULTIPLE DETECTION:2||aromatic polyimides:2||MOLECULARWEIGHT HOMOPOLYMERS:2||BINARYMIXTURE:2||PATTERNS:2||photoluminescent polyimide:2||photosensitive polyimide:2||DEPENDENT MICELLIZATION:2||SPEED:2||synthesis:2||COIL BLOCKCOPOLYMERS:2||LIQUIDCRYSTALLINE ASSEMBLIES:2||OXIDE):2||molecular weight distribution:2||CONJUGATED POLYMER:2||polymer characterization:2||NONIONIC SURFACTANTS:2||STEREOREGULAR POLY(METHYL METHACRYLATE):2||structure:2||RODLIKE POLYIMIDE:2||FLEXIBLE POLYIMIDE:2||THERMAL IMIDIZATION:2||IN SITU RODCHAIN FORMATION:2||PHASESEPARATION:2||VINYL ETHER):2||EQUILIBRIUM:2||STRESS:2||STRUCTURAL RELAXATION:2||LIVING POLYMERIZATION:2||CONTAIN:2||SALT:2||WAVEGUIDE:2||XRAY DIFFRACTION:2||WALLED CARBON NANOTUBES:2||SILICON NANOWIRES:2||IR:2||DIELECTRIC THINFILMS:2||Selfassembled monolayer:2||PARAMETERS:2||Temperature gradient interaction chromatography:2||SOLIDSURFACES:2||FLOW:2||RATES:2||PRECURSORS:2||FILM BALANCE:2||SIDECHAINS:2||SUPRAMOLECULAR MATERIALS:2||CHAINS:2||POLYSTYRENE:39||ANIONICPOLYMERIZATION:34||GRADIENT INTERACTION CHROMATOGRAPHY:31||SEPARATION:27||BEHAVIOR:24||LIQUIDCHROMATOGRAPHY:22||POLYMERS:22||SIZEEXCLUSION CHROMATOGRAPHY:19||BLOCKCOPOLYMERS:17||DIBLOCK COPOLYMERS:17||THINFILMS:16||POLYISOPRENE:14||HPLC:13||SYNTHETICPOLYMERS:12||PERFORMANCE LIQUIDCHROMATOGRAPHY:11||DIBLOCK COPOLYMER:11||MOLECULARWEIGHT DISTRIBUTION:10||MACROMOLECULES:10||BLOCKCOPOLYMER:10||REVERSEDPHASE:10||RETENTION BEHAVIOR:10||MORPHOLOGY:9||MOLECULARWEIGHT:9||MELTS:9||AROMATIC POLYIMIDES:8||XRAYSCATTERING:8||polystyrene:8||MIXTURES:7||block copolymer:7||SURFACES:7||DEPENDENCE:7||COPOLYMERS:7||POLYMERIZATION:7||AIR/WATER INTERFACE:7||DEFINED BRUSH POLYIMIDE:6||TEMPERATURE:6||FULLY RODLIKE BACKBONE:6||MONOLAYERS:6||POLYIMIDES:6||CHAIN:6||COMPLEX POLYMERS:6||MOLECULARREORIENTATION:6||temperature gradient interaction chromatography:6||POLYMERFILMS:6||GELPERMEATION CHROMATOGRAPHY:6||ELUTION:6||ORDERDISORDER TRANSITION:6||SURFACEMORPHOLOGY:6||ORIENTATION:6||SYSTEMS:6||CRITICAL ADSORPTION POINT:6||LIGHTSCATTERING:5||PROBE DIFFUSION:5||POLYDISPERSITY:5||AIRWATERINTERFACE:5||MICROPHASE SEPARATION:5||GLASSTRANSITION:5||BLENDS:5||FILMS:5||ADSORPTION CHROMATOGRAPHY:5||MECHANISM:5||CO2:5||ETHYLENEOXIDE:5||ALIGNMENT:5||COMPLEXES:5||FRACTIONATION:5||MISCIBILITY:5||POLYMER CHARACTERIZATION:5||HEXAGONALLY PERFORATED LAYER:5||TRANSITION:5||FLIGHT MASSSPECTROMETRY:5||ARCHITECTURE:5||POLY(METHYL METHACRYLATE):5||ALTERNATING COPOLYMERIZATION:4||THICKNESS:4||THERMODYNAMICS:4||CRITICAL RANGE:4||ULTRATHIN POLYMERFILMS:4||DYNAMICS:4||CLIMATECHANGE:4||PHASE:4||GLASSTRANSITION TEMPERATURE:4||EPOXIDE:4||selfassembly:4||SPECTROSCOPY:4||SELFDIFFUSION:4||SCATTERING:4||OPTICALPROPERTIES:4||CATALYSTS:4||CHEMISTRY:4||SOLARCELLS:4||polyimides:4||polypyromellitimides:4||SEGMENTAL REORIENTATIONS:4||ADSORPTION:4||INTERFACE:4||POLYMERSOLUTIONS:4||TRACER DIFFUSION:4||OXIDE) DIBLOCK COPOLYMER:4||POLYSTYRENEBPOLY(METHYL METHACRYLATE):4||POLYMER BLENDS:4||SIMULATION:4||CHAIN ORIENTATION:4||STYRENE:4||TOF MASSSPECTROMETRY:4||WATER:4||DISPLAYS:4||OLIGOMERS:4||PEPTIDES:4||CYCLIC POLYSTYRENE:4||LATTICE CLUSTER THEORY:4||2NDHARMONIC GENERATION:4||LIQUIDCRYSTAL ALIGNMENT:4||MONTECARLO:4||LangmuirBlodgett film:3||ASSEMBLIES:3||chromatography:3||HOLOGRAPHIC RELAXATION SPECTROSCOPY:3||MULTIPLE MORPHOLOGIES:3||INTERACTION CHROMATOGRAPHY:3||NORMALPHASE:3||DIFFUSION:3||BRANCHED POLYSTYRENE:3||NANOPARTICLES:3||LITHOGRAPHY:3||POLYMER:3||LASERLIGHTSCATTERING:3||HIGH MOLECULARWEIGHT:3||CUBIC PHASE:3||AMPHIPHILIC BLOCKCOPOLYMERS:3||AQUEOUSSOLUTION:3||MODEL:3||FORCED RAYLEIGHSCATTERING:3||HYDRODYNAMIC PROPERTIES:3||4MIKTOARM STAR COPOLYMER:3||SYSTEM:3||PHASEBEHAVIOR:3||AQUEOUSSOLUTIONS:3||RHEOLOGY:3||LB film:3||2DIMENSIONAL LIQUIDCHROMATOGRAPHY:3||VISCOSITY:3||DIBLOCK COPOLYMER MELTS:3||ORDERORDER TRANSITION:3||GYROID PHASE:3||BINDING:3||BLOCK POLYELECTROLYTES:3||DERIVATIVES:3||MELT:3||PHASE LIQUIDCHROMATOGRAPHY:3||high temperature:3||ELEVATEDTEMPERATURE:3||RETENTION:3||MICELLE FORMATION:3||ELECTRONMICROSCOPY:3||Electrospray ionization:2||FRACTIONS:2||nalkanes:2||ISOCRATIC SEPARATION:2||ASSOCIATION:2||POLY(METHYL METHACRYLATE)S:2||2D correlation spectroscopy:2||CARBONATION:2||GLASSTRANSITION BEHAVIORS:2||MECHANICAL PROPERTIES:2||DIMENSIONS:2||POLYMER MIXTURES:2||ALUMINUM PORPHYRIN:2||LEAD STEARATE:2||FERROCENE:2||POLY(EPSILONCAPROLACTONE):2||DIAGRAM:2||nucleosides:2||Selective recognition by preconcentration:2||Electrochemical impedance spectroscopy:2||DOPAMINE:2||Silica:2||Silyl Ester:2||DIETHYL ESTER) PRECURSORS:2||SURFACE CHARACTERIZATION:2||MICROSTRUCTURE:2||polystyreneblockpolyisoprene:2||MICROPHASESEPARATED STRUCTURES:2||IMPEDANCE MEASUREMENTS:2||HEMEPROTEINS:2||SOLID SUBSTRATE:2||MOISTURE ABSORPTION:2||aromatic polyimide:2||INDUCED MORPHOLOGICALCHANGES:2||STABILITY:2||LC alignment layers:2||POLYPYROMELLITIMIDES:2||Ion mobility:2||Chiral polymer:2||OLIGOSACCHARIDES:2||OXIDE:2||SIDECHAIN:2||RETARDATION:2||functionality:2||temperature effects:2||phase transition:2||glass transition temperature:2||spincoated film:2||ESTER) PRECURSORS:2||PRECURSOR BLEND:2||Xray reflectivity:2||SIGMABONDS:2||aluminum porphyrin catalysts:2||METALLOPORPHYRIN:2||SILICON:2||MASSSPECTROMETRY ANALYSIS:2||STAR POLYMERS:2||SIZE DISTRIBUTIONS:2||GIANT VESICLES:2||POLY(3ALKYLTHIOPHENES):2||ADHESION:2||LIGHT:2||POLYSTYRENEBPOLYISOPRENE:2||HPLC fractionation:2||SILVER ELECTRODES:2||ENHANCED RESONANCE RAMAN:2||SEQUENCE:2||POLYELECTROLYTE/NONELECTROLYTE SHELLS:2||polyimide:2||liquid crystal alignment layer:2||SOLUBLE POLYIMIDES:2||POLYBUTADIENECOATED ZIRCONIA:2||PRETILT ANGLES:2||CROSSSECTIONS:2||IMSMS:2||POLYISOPRENE COPOLYMERS:2||POLYIMIDE THINFILMS:2||POLYMER SURFACES:2||RAMAN:2||STEREOREGULAR PMMA:2||poly(tertbutyl methacrylate) (PtBMA):2||TIME:2||POLYIMIDE COMPOSITE:2||CARBOXYLATO COMPLEXES:2||AGOSTIC INTERACTIONS:2||MOLECULARSTRUCTURE:2||ALKENE:2||TRANSISTOR MEMORY:2||DEVICES:2||ORTHOGONALITY:2||molecular characterization:2||ORGANOSILICATE DIELECTRIC FILMS:2||AMPHIPHILES:2||Serotonin:2||Anodic stripping differential pulse voltammetry:2||transmission electron microtomography:2||LIQUIDCHROMATOGRAPHY ANALYSIS:2||PHASEDIAGRAM:2||CARBON NANOTUBES:2||TRANSFER MECHANISM:2||BINARY MIXTURES:2||REFLECTOMETRY:2||ROD:2||DROPS:2||CONSTANT:2||TRIBLOCK COPOLYMER:2||POLYMER VESICLES:2||CLICK CHEMISTRY:2||ARRAYS:2||COMPOSITES:2||MALDITOF MS:2||POLYMER THINFILMS:2||HYDROPHOBIC INTERACTION CHROMATOGRAPHY:2||retention mechanism:2||GRAZINGINCIDENCE:2||NANOPOROSITY:2||soluble poly(amic esteraltimide)s:2||DIFFERENTIAL SCANNING CALORIMETRY:2||RESIDUALSTRESS:2||CHEMICALCOMPOSITION:2||POLY(AMIC DIETHYL ESTER) PRECURSOR:2||POLY(DIMETHYL SILOXANES):2||MASS POLYSTYRENES:2||cyclic propylene carbonate:2||propylene oxide:2||ACETATE) TOLUENE SOLUTIONS:2||TRANSIENT GRATING METHOD:2||MASS DIFFUSION:2||MICROPHASE SEPARATION TRANSITION:2||POLYSTYRENES:2||POLYSILANE:2||CARBOHYDRATEBASED PHOSPHOLIPIDS:2||HELICAL STRANDS:2||FLUORESCENCE DETECTION:2||SENSITIVE DETERMINATION:2||COMPOSITE FILMS:2||microphase:2||3MERCAPTOPROPIONIC ACID:2||BUTADIENE BLOCK COPOLYMER:2||HYBRID POLYMERIC MICELLES:2||AQUEOUSMEDIA:2||CONTACTANGLE:2||TRANSISTORCIRCUITS:2||ABTYPE POLY(ETHERIMIDE)S:2||CORRELATION SPECTROSCOPY:2||GASPHASE CONFORMATIONS:2||DECANE:2||INFRAREDSPECTROSCOPY:2||MICELLIZATION:2||ENERGIES:2||ACID) PRECURSORS:2||PHOTOALIGNMENT:2||polymers:2||SUBSTRATE:2||carbon dioxide:2||oligomeric propylene carbonate:2||THERMALDIFFUSION:2||CRYSTAL:2||PHASETRANSITION:2||REFLECTIVITY:2||ANALOGS:2||supramolecular chemistry:2||LYSOPHOSPHATIDIC ACID:2||PHOSPHOCHOLINE:2||POLY(3HEXYLTHIOPHENE):2||Receptor:2||MODIFIED GOLD ELECTRODES:2||ASCORBICACID:2||HUMAN URINE:2||Hybrid Nanocomposite:2||Dielectric Constant:2||AU(111) ELECTRODES:2||NANOFILMS:2||HYDROPHOBIC CORES:2||DRIVEN:2||FLEXIBLE SIDECHAINS:2||MESOGEN:2||size exclusion chromatography:2||ORGANIZATION:2||POLY(LACTIC ACID):2||MOLECULAR ARCHITECTURE:2||COUPLER:2||POLYSTYRENE COPOLYMER:2||diffusion coefficient:2||XRAY REFLECTIVITY:2||temperature gradient interaction chromatography polystyryllithium:2||VISCOELASTIC PROPERTIES:2||polyisoprene:2||CRYSTALSTRUCTURES:2||POLYCARBONATE:2||MULTILAYERS:2||DEPOSITION:2||FULL ADSORPTION MECHANISMS:2||QUANTUM DOTS:2||CRITICAL ORDERING TRANSITION:2||CORE:2||PARACRYSTALLINE DISTORTION:2||PERFORATED LAYER PHASE:2||liposomes:2||phospholipids:2||UNILAMELLAR VESICLES:2||VOLTAMMETRIC DETERMINATION:2||Polyimide:2||FOURIERTRANSFORM:2||SURFACE:2||SIZE EXCLUSION CHROMATOGRAPHY:2||NEUTRON REFLECTIVITY:2||ORDERED STRUCTURE:2||RIGID ROD POLYMERS:2||DISPLACEMENT POLYMERIZATION:2||PHOTOSENSITIVE POLYIMIDE:2||EFFICIENCY:2||films:2||Polylactide:2||CHROMATOGRAPHIC CRITICAL CONDITION:2||RETENTION MECHANISM:2||COPPER PHTHALOCYANINE:2||C60:2||COPOLYMER:2||micelle:2||LINEAR POLYETHYLENE:2||LIQUIDS:2||ARMS:2||HIGHPERFORMANCE LIQUID:2||alternating copolyimides:2||PHASE SEPARATION:2||POLYMERCHAINS:2||STYRYLPYRIDINIUM:2||ANGLES:2||MOBILITY:2||PROBE:2||ACIDS:2||BLUE:2||POSITIONS:2||CYCLOPENTADIENYL:2||HIGHMOLECULARWEIGHT:2||FUELCELLS:2||TIN OXIDE:2||NANOCRYSTALS:2||SURFACE MICELLE FORMATION:2||DISORDER TRANSITION:2||BIREFRINGENCE:2||LIPIDCOMPOSITION:2||CONJUGATED POLYMERS:2||GLASSYCARBON ELECTRODE:2||ELECTROCHEMICAL DETECTION:2||MULTIPLE DETECTION:2||aromatic polyimides:2||MOLECULARWEIGHT HOMOPOLYMERS:2||BINARYMIXTURE:2||PATTERNS:2||photoluminescent polyimide:2||photosensitive polyimide:2||DEPENDENT MICELLIZATION:2||SPEED:2||synthesis:2||COIL BLOCKCOPOLYMERS:2||LIQUIDCRYSTALLINE ASSEMBLIES:2||OXIDE):2||molecular weight distribution:2||CONJUGATED POLYMER:2||polymer characterization:2||NONIONIC SURFACTANTS:2||STEREOREGULAR POLY(METHYL METHACRYLATE):2||structure:2||RODLIKE POLYIMIDE:2||FLEXIBLE POLYIMIDE:2||THERMAL IMIDIZATION:2||IN SITU RODCHAIN FORMATION:2||PHASESEPARATION:2||VINYL ETHER):2||EQUILIBRIUM:2||STRESS:2||STRUCTURAL RELAXATION:2||LIVING POLYMERIZATION:2||CONTAIN:2||SALT:2||WAVEGUIDE:2||XRAY DIFFRACTION:2||WALLED CARBON NANOTUBES:2||SILICON NANOWIRES:2||IR:2||DIELECTRIC THINFILMS:2||Selfassembled monolayer:2||PARAMETERS:2||Temperature gradient interaction chromatography:2||SOLIDSURFACES:2||FLOW:2||RATES:2||PRECURSORS:2||FILM BALANCE:2||SIDECHAINS:2||SUPRAMOLECULAR MATERIALS:2||CHAINS:2||POLYSTYRENE:39||ANIONICPOLYMERIZATION:34||GRADIENT INTERACTION CHROMATOGRAPHY:31||SEPARATION:27||BEHAVIOR:24||LIQUIDCHROMATOGRAPHY:22||POLYMERS:22||SIZEEXCLUSION CHROMATOGRAPHY:19||BLOCKCOPOLYMERS:17||DIBLOCK COPOLYMERS:17||THINFILMS:16||POLYISOPRENE:14||HPLC:13||SYNTHETICPOLYMERS:12||PERFORMANCE LIQUIDCHROMATOGRAPHY:11||DIBLOCK COPOLYMER:11||MOLECULARWEIGHT DISTRIBUTION:10||MACROMOLECULES:10||BLOCKCOPOLYMER:10||REVERSEDPHASE:10||RETENTION BEHAVIOR:10||MORPHOLOGY:9||MOLECULARWEIGHT:9||MELTS:9||AROMATIC POLYIMIDES:8||XRAYSCATTERING:8||polystyrene:8||MIXTURES:7||block copolymer:7||SURFACES:7||DEPENDENCE:7||COPOLYMERS:7||POLYMERIZATION:7||AIR/WATER INTERFACE:7||DEFINED BRUSH POLYIMIDE:6||TEMPERATURE:6||FULLY RODLIKE BACKBONE:6||MONOLAYERS:6||POLYIMIDES:6||CHAIN:6||COMPLEX POLYMERS:6||MOLECULARREORIENTATION:6||temperature gradient interaction chromatography:6||POLYMERFILMS:6||GELPERMEATION CHROMATOGRAPHY:6||ELUTION:6||ORDERDISORDER TRANSITION:6||SURFACEMORPHOLOGY:6||ORIENTATION:6||SYSTEMS:6||CRITICAL ADSORPTION POINT:6||LIGHTSCATTERING:5||PROBE DIFFUSION:5||POLYDISPERSITY:5||AIRWATERINTERFACE:5||MICROPHASE SEPARATION:5||GLASSTRANSITION:5||BLENDS:5||FILMS:5||ADSORPTION CHROMATOGRAPHY:5||MECHANISM:5||CO2:5||ETHYLENEOXIDE:5||ALIGNMENT:5||COMPLEXES:5||FRACTIONATION:5||MISCIBILITY:5||POLYMER CHARACTERIZATION:5||HEXAGONALLY PERFORATED LAYER:5||TRANSITION:5||FLIGHT MASSSPECTROMETRY:5||ARCHITECTURE:5||POLY(METHYL METHACRYLATE):5||ALTERNATING COPOLYMERIZATION:4||THICKNESS:4||THERMODYNAMICS:4||CRITICAL RANGE:4||ULTRATHIN POLYMERFILMS:4||DYNAMICS:4||CLIMATECHANGE:4||PHASE:4||GLASSTRANSITION TEMPERATURE:4||EPOXIDE:4||selfassembly:4||SPECTROSCOPY:4||SELFDIFFUSION:4||SCATTERING:4||OPTICALPROPERTIES:4||CATALYSTS:4||CHEMISTRY:4||SOLARCELLS:4||polyimides:4||polypyromellitimides:4||SEGMENTAL REORIENTATIONS:4||ADSORPTION:4||INTERFACE:4||POLYMERSOLUTIONS:4||TRACER DIFFUSION:4||OXIDE) DIBLOCK COPOLYMER:4||POLYSTYRENEBPOLY(METHYL METHACRYLATE):4||POLYMER BLENDS:4||SIMULATION:4||CHAIN ORIENTATION:4||STYRENE:4||TOF MASSSPECTROMETRY:4||WATER:4||DISPLAYS:4||OLIGOMERS:4||PEPTIDES:4||CYCLIC POLYSTYRENE:4||LATTICE CLUSTER THEORY:4||2NDHARMONIC GENERATION:4||LIQUIDCRYSTAL ALIGNMENT:4||MONTECARLO:4||LangmuirBlodgett film:3||ASSEMBLIES:3||chromatography:3||HOLOGRAPHIC RELAXATION SPECTROSCOPY:3||MULTIPLE MORPHOLOGIES:3||INTERACTION CHROMATOGRAPHY:3||NORMALPHASE:3||DIFFUSION:3||BRANCHED POLYSTYRENE:3||NANOPARTICLES:3||LITHOGRAPHY:3||POLYMER:3||LASERLIGHTSCATTERING:3||HIGH MOLECULARWEIGHT:3||CUBIC PHASE:3||AMPHIPHILIC BLOCKCOPOLYMERS:3||AQUEOUSSOLUTION:3||MODEL:3||FORCED RAYLEIGHSCATTERING:3||HYDRODYNAMIC PROPERTIES:3||4MIKTOARM STAR COPOLYMER:3||SYSTEM:3||PHASEBEHAVIOR:3||AQUEOUSSOLUTIONS:3||RHEOLOGY:3||LB film:3||2DIMENSIONAL LIQUIDCHROMATOGRAPHY:3||VISCOSITY:3||DIBLOCK COPOLYMER MELTS:3||ORDERORDER TRANSITION:3||GYROID PHASE:3||BINDING:3||BLOCK POLYELECTROLYTES:3||DERIVATIVES:3||MELT:3||PHASE LIQUIDCHROMATOGRAPHY:3||high temperature:3||ELEVATEDTEMPERATURE:3||RETENTION:3||MICELLE FORMATION:3||ELECTRONMICROSCOPY:3||Electrospray ionization:2||FRACTIONS:2||nalkanes:2||ISOCRATIC SEPARATION:2||ASSOCIATION:2||POLY(METHYL METHACRYLATE)S:2||2D correlation spectroscopy:2||CARBONATION:2||GLASSTRANSITION BEHAVIORS:2||MECHANICAL PROPERTIES:2||DIMENSIONS:2||POLYMER MIXTURES:2||ALUMINUM PORPHYRIN:2||LEAD STEARATE:2||FERROCENE:2||POLY(EPSILONCAPROLACTONE):2||DIAGRAM:2||nucleosides:2||Selective recognition by preconcentration:2||Electrochemical impedance spectroscopy:2||DOPAMINE:2||Silica:2||Silyl Ester:2||DIETHYL ESTER) PRECURSORS:2||SURFACE CHARACTERIZATION:2||MICROSTRUCTURE:2||polystyreneblockpolyisoprene:2||MICROPHASESEPARATED STRUCTURES:2||IMPEDANCE MEASUREMENTS:2||HEMEPROTEINS:2||SOLID SUBSTRATE:2||MOISTURE ABSORPTION:2||aromatic polyimide:2||INDUCED MORPHOLOGICALCHANGES:2||STABILITY:2||LC alignment layers:2||POLYPYROMELLITIMIDES:2||Ion mobility:2||Chiral polymer:2||OLIGOSACCHARIDES:2||OXIDE:2||SIDECHAIN:2||RETARDATION:2||functionality:2||temperature effects:2||phase transition:2||glass transition temperature:2||spincoated film:2||ESTER) PRECURSORS:2||PRECURSOR BLEND:2||Xray reflectivity:2||SIGMABONDS:2||aluminum porphyrin catalysts:2||METALLOPORPHYRIN:2||SILICON:2||MASSSPECTROMETRY ANALYSIS:2||STAR POLYMERS:2||SIZE DISTRIBUTIONS:2||GIANT VESICLES:2||POLY(3ALKYLTHIOPHENES):2||ADHESION:2||LIGHT:2||POLYSTYRENEBPOLYISOPRENE:2||HPLC fractionation:2||SILVER ELECTRODES:2||ENHANCED RESONANCE RAMAN:2||SEQUENCE:2||POLYELECTROLYTE/NONELECTROLYTE SHELLS:2||polyimide:2||liquid crystal alignment layer:2||SOLUBLE POLYIMIDES:2||POLYBUTADIENECOATED ZIRCONIA:2||PRETILT ANGLES:2||CROSSSECTIONS:2||IMSMS:2||POLYISOPRENE COPOLYMERS:2||POLYIMIDE THINFILMS:2||POLYMER SURFACES:2||RAMAN:2||STEREOREGULAR PMMA:2||poly(tertbutyl methacrylate) (PtBMA):2||TIME:2||POLYIMIDE COMPOSITE:2||CARBOXYLATO COMPLEXES:2||AGOSTIC INTERACTIONS:2||MOLECULARSTRUCTURE:2||ALKENE:2||TRANSISTOR MEMORY:2||DEVICES:2||ORTHOGONALITY:2||molecular characterization:2||ORGANOSILICATE DIELECTRIC FILMS:2||AMPHIPHILES:2||Serotonin:2||Anodic stripping differential pulse voltammetry:2||transmission electron microtomography:2||LIQUIDCHROMATOGRAPHY ANALYSIS:2||PHASEDIAGRAM:2||CARBON NANOTUBES:2||TRANSFER MECHANISM:2||BINARY MIXTURES:2||REFLECTOMETRY:2||ROD:2||DROPS:2||CONSTANT:2||TRIBLOCK COPOLYMER:2||POLYMER VESICLES:2||CLICK CHEMISTRY:2||ARRAYS:2||COMPOSITES:2||MALDITOF MS:2||POLYMER THINFILMS:2||HYDROPHOBIC INTERACTION CHROMATOGRAPHY:2||retention mechanism:2||GRAZINGINCIDENCE:2||NANOPOROSITY:2||soluble poly(amic esteraltimide)s:2||DIFFERENTIAL SCANNING CALORIMETRY:2||RESIDUALSTRESS:2||CHEMICALCOMPOSITION:2||POLY(AMIC DIETHYL ESTER) PRECURSOR:2||POLY(DIMETHYL SILOXANES):2||MASS POLYSTYRENES:2||cyclic propylene carbonate:2||propylene oxide:2||ACETATE) TOLUENE SOLUTIONS:2||TRANSIENT GRATING METHOD:2||MASS DIFFUSION:2||MICROPHASE SEPARATION TRANSITION:2||POLYSTYRENES:2||POLYSILANE:2||CARBOHYDRATEBASED PHOSPHOLIPIDS:2||HELICAL STRANDS:2||FLUORESCENCE DETECTION:2||SENSITIVE DETERMINATION:2||COMPOSITE FILMS:2||microphase:2||3MERCAPTOPROPIONIC ACID:2||BUTADIENE BLOCK COPOLYMER:2||HYBRID POLYMERIC MICELLES:2||AQUEOUSMEDIA:2||CONTACTANGLE:2||TRANSISTORCIRCUITS:2||ABTYPE POLY(ETHERIMIDE)S:2||CORRELATION SPECTROSCOPY:2||GASPHASE CONFORMATIONS:2||DECANE:2||INFRAREDSPECTROSCOPY:2||MICELLIZATION:2||ENERGIES:2||ACID) PRECURSORS:2||PHOTOALIGNMENT:2||polymers:2||SUBSTRATE:2||carbon dioxide:2||oligomeric propylene carbonate:2||THERMALDIFFUSION:2||CRYSTAL:2||PHASETRANSITION:2||REFLECTIVITY:2||ANALOGS:2||supramolecular chemistry:2||LYSOPHOSPHATIDIC ACID:2||PHOSPHOCHOLINE:2||POLY(3HEXYLTHIOPHENE):2||Receptor:2||MODIFIED GOLD ELECTRODES:2||ASCORBICACID:2||HUMAN URINE:2||Hybrid Nanocomposite:2||Dielectric Constant:2||AU(111) ELECTRODES:2||NANOFILMS:2||HYDROPHOBIC CORES:2||DRIVEN:2||FLEXIBLE SIDECHAINS:2||MESOGEN:2||size exclusion chromatography:2||ORGANIZATION:2||POLY(LACTIC ACID):2||MOLECULAR ARCHITECTURE:2||COUPLER:2||POLYSTYRENE COPOLYMER:2||diffusion coefficient:2||XRAY REFLECTIVITY:2||temperature gradient interaction chromatography polystyryllithium:2||VISCOELASTIC PROPERTIES:2||polyisoprene:2||CRYSTALSTRUCTURES:2||POLYCARBONATE:2||MULTILAYERS:2||DEPOSITION:2||FULL ADSORPTION MECHANISMS:2||QUANTUM DOTS:2||CRITICAL ORDERING TRANSITION:2||CORE:2||PARACRYSTALLINE DISTORTION:2||PERFORATED LAYER PHASE:2||liposomes:2||phospholipids:2||UNILAMELLAR VESICLES:2||VOLTAMMETRIC DETERMINATION:2||Polyimide:2||FOURIERTRANSFORM:2||SURFACE:2||SIZE EXCLUSION CHROMATOGRAPHY:2||NEUTRON REFLECTIVITY:2||ORDERED STRUCTURE:2||RIGID ROD POLYMERS:2||DISPLACEMENT POLYMERIZATION:2||PHOTOSENSITIVE POLYIMIDE:2||EFFICIENCY:2||films:2||Polylactide:2||CHROMATOGRAPHIC CRITICAL CONDITION:2||RETENTION MECHANISM:2||COPPER PHTHALOCYANINE:2||C60:2||COPOLYMER:2||micelle:2||LINEAR POLYETHYLENE:2||LIQUIDS:2||ARMS:2||HIGHPERFORMANCE LIQUID:2||alternating copolyimides:2||PHASE SEPARATION:2||POLYMERCHAINS:2||STYRYLPYRIDINIUM:2||ANGLES:2||MOBILITY:2||PROBE:2||ACIDS:2||BLUE:2||POSITIONS:2||CYCLOPENTADIENYL:2||HIGHMOLECULARWEIGHT:2||FUELCELLS:2||TIN OXIDE:2||NANOCRYSTALS:2||SURFACE MICELLE FORMATION:2||DISORDER TRANSITION:2||BIREFRINGENCE:2||LIPIDCOMPOSITION:2||CONJUGATED POLYMERS:2||GLASSYCARBON ELECTRODE:2||ELECTROCHEMICAL DETECTION:2||MULTIPLE DETECTION:2||aromatic polyimides:2||MOLECULARWEIGHT HOMOPOLYMERS:2||BINARYMIXTURE:2||PATTERNS:2||photoluminescent polyimide:2||photosensitive polyimide:2||DEPENDENT MICELLIZATION:2||SPEED:2||synthesis:2||COIL BLOCKCOPOLYMERS:2||LIQUIDCRYSTALLINE ASSEMBLIES:2||OXIDE):2||molecular weight distribution:2||CONJUGATED POLYMER:2||polymer characterization:2||NONIONIC SURFACTANTS:2||STEREOREGULAR POLY(METHYL METHACRYLATE):2||structure:2||RODLIKE POLYIMIDE:2||FLEXIBLE POLYIMIDE:2||THERMAL IMIDIZATION:2||IN SITU RODCHAIN FORMATION:2||PHASESEPARATION:2||VINYL ETHER):2||EQUILIBRIUM:2||STRESS:2||STRUCTURAL RELAXATION:2||LIVING POLYMERIZATION:2||CONTAIN:2||SALT:2||WAVEGUIDE:2||XRAY DIFFRACTION:2||WALLED CARBON NANOTUBES:2||SILICON NANOWIRES:2||IR:2||DIELECTRIC THINFILMS:2||Selfassembled monolayer:2||PARAMETERS:2||Temperature gradient interaction chromatography:2||SOLIDSURFACES:2||FLOW:2||RATES:2||PRECURSORS:2||FILM BALANCE:2||SIDECHAINS:2||SUPRAMOLECULAR MATERIALS:2||CHAINS:2||POLYSTYRENE:39||ANIONICPOLYMERIZATION:34||GRADIENT INTERACTION CHROMATOGRAPHY:31||SEPARATION:27||BEHAVIOR:24||LIQUIDCHROMATOGRAPHY:22||POLYMERS:22||SIZEEXCLUSION CHROMATOGRAPHY:19||BLOCKCOPOLYMERS:17||DIBLOCK COPOLYMERS:17||THINFILMS:16||POLYISOPRENE:14||HPLC:13||SYNTHETICPOLYMERS:12||PERFORMANCE LIQUIDCHROMATOGRAPHY:11||DIBLOCK COPOLYMER:11||MOLECULARWEIGHT DISTRIBUTION:10||MACROMOLECULES:10||BLOCKCOPOLYMER:10||REVERSEDPHASE:10||RETENTION BEHAVIOR:10||MORPHOLOGY:9||MOLECULARWEIGHT:9||MELTS:9||AROMATIC POLYIMIDES:8||XRAYSCATTERING:8||polystyrene:8||MIXTURES:7||block copolymer:7||SURFACES:7||DEPENDENCE:7||COPOLYMERS:7||POLYMERIZATION:7||AIR/WATER INTERFACE:7||DEFINED BRUSH POLYIMIDE:6||TEMPERATURE:6||FULLY RODLIKE BACKBONE:6||MONOLAYERS:6||POLYIMIDES:6||CHAIN:6||COMPLEX POLYMERS:6||MOLECULARREORIENTATION:6||temperature gradient interaction chromatography:6||POLYMERFILMS:6||GELPERMEATION CHROMATOGRAPHY:6||ELUTION:6||ORDERDISORDER TRANSITION:6||SURFACEMORPHOLOGY:6||ORIENTATION:6||SYSTEMS:6||CRITICAL ADSORPTION POINT:6||LIGHTSCATTERING:5||PROBE DIFFUSION:5||POLYDISPERSITY:5||AIRWATERINTERFACE:5||MICROPHASE SEPARATION:5||GLASSTRANSITION:5||BLENDS:5||FILMS:5||ADSORPTION CHROMATOGRAPHY:5||MECHANISM:5||CO2:5||ETHYLENEOXIDE:5||ALIGNMENT:5||COMPLEXES:5||FRACTIONATION:5||MISCIBILITY:5||POLYMER CHARACTERIZATION:5||HEXAGONALLY PERFORATED LAYER:5||TRANSITION:5||FLIGHT MASSSPECTROMETRY:5||ARCHITECTURE:5||POLY(METHYL METHACRYLATE):5||ALTERNATING COPOLYMERIZATION:4||THICKNESS:4||THERMODYNAMICS:4||CRITICAL RANGE:4||ULTRATHIN POLYMERFILMS:4||DYNAMICS:4||CLIMATECHANGE:4||PHASE:4||GLASSTRANSITION TEMPERATURE:4||EPOXIDE:4||selfassembly:4||SPECTROSCOPY:4||SELFDIFFUSION:4||SCATTERING:4||OPTICALPROPERTIES:4||CATALYSTS:4||CHEMISTRY:4||SOLARCELLS:4||polyimides:4||polypyromellitimides:4||SEGMENTAL REORIENTATIONS:4||ADSORPTION:4||INTERFACE:4||POLYMERSOLUTIONS:4||TRACER DIFFUSION:4||OXIDE) DIBLOCK COPOLYMER:4||POLYSTYRENEBPOLY(METHYL METHACRYLATE):4||POLYMER BLENDS:4||SIMULATION:4||CHAIN ORIENTATION:4||STYRENE:4||TOF MASSSPECTROMETRY:4||WATER:4||DISPLAYS:4||OLIGOMERS:4||PEPTIDES:4||CYCLIC POLYSTYRENE:4||LATTICE CLUSTER THEORY:4||2NDHARMONIC GENERATION:4||LIQUIDCRYSTAL ALIGNMENT:4||MONTECARLO:4||LangmuirBlodgett film:3||ASSEMBLIES:3||chromatography:3||HOLOGRAPHIC RELAXATION SPECTROSCOPY:3||MULTIPLE MORPHOLOGIES:3||INTERACTION CHROMATOGRAPHY:3||NORMALPHASE:3||DIFFUSION:3||BRANCHED POLYSTYRENE:3||NANOPARTICLES:3||LITHOGRAPHY:3||POLYMER:3||LASERLIGHTSCATTERING:3||HIGH MOLECULARWEIGHT:3||CUBIC PHASE:3||AMPHIPHILIC BLOCKCOPOLYMERS:3||AQUEOUSSOLUTION:3||MODEL:3||FORCED RAYLEIGHSCATTERING:3||HYDRODYNAMIC PROPERTIES:3||4MIKTOARM STAR COPOLYMER:3||SYSTEM:3||PHASEBEHAVIOR:3||AQUEOUSSOLUTIONS:3||RHEOLOGY:3||LB film:3||2DIMENSIONAL LIQUIDCHROMATOGRAPHY:3||VISCOSITY:3||DIBLOCK COPOLYMER MELTS:3||ORDERORDER TRANSITION:3||GYROID PHASE:3||BINDING:3||BLOCK POLYELECTROLYTES:3||DERIVATIVES:3||MELT:3||PHASE LIQUIDCHROMATOGRAPHY:3||high temperature:3||ELEVATEDTEMPERATURE:3||RETENTION:3||MICELLE FORMATION:3||ELECTRONMICROSCOPY:3||Electrospray ionization:2||FRACTIONS:2||nalkanes:2||ISOCRATIC SEPARATION:2||ASSOCIATION:2||POLY(METHYL METHACRYLATE)S:2||2D correlation spectroscopy:2||CARBONATION:2||GLASSTRANSITION BEHAVIORS:2||MECHANICAL PROPERTIES:2||DIMENSIONS:2||POLYMER MIXTURES:2||ALUMINUM PORPHYRIN:2||LEAD STEARATE:2||FERROCENE:2||POLY(EPSILONCAPROLACTONE):2||DIAGRAM:2||nucleosides:2||Selective recognition by preconcentration:2||Electrochemical impedance spectroscopy:2||DOPAMINE:2||Silica:2||Silyl Ester:2||DIETHYL ESTER) PRECURSORS:2||SURFACE CHARACTERIZATION:2||MICROSTRUCTURE:2||polystyreneblockpolyisoprene:2||MICROPHASESEPARATED STRUCTURES:2||IMPEDANCE MEASUREMENTS:2||HEMEPROTEINS:2||SOLID SUBSTRATE:2||MOISTURE ABSORPTION:2||aromatic polyimide:2||INDUCED MORPHOLOGICALCHANGES:2||STABILITY:2||LC alignment layers:2||POLYPYROMELLITIMIDES:2||Ion mobility:2||Chiral polymer:2||OLIGOSACCHARIDES:2||OXIDE:2||SIDECHAIN:2||RETARDATION:2||functionality:2||temperature effects:2||phase transition:2||glass transition temperature:2||spincoated film:2||ESTER) PRECURSORS:2||PRECURSOR BLEND:2||Xray reflectivity:2||SIGMABONDS:2||aluminum porphyrin catalysts:2||METALLOPORPHYRIN:2||SILICON:2||MASSSPECTROMETRY ANALYSIS:2||STAR POLYMERS:2||SIZE DISTRIBUTIONS:2||GIANT VESICLES:2||POLY(3ALKYLTHIOPHENES):2||ADHESION:2||LIGHT:2||POLYSTYRENEBPOLYISOPRENE:2||HPLC fractionation:2||SILVER ELECTRODES:2||ENHANCED RESONANCE RAMAN:2||SEQUENCE:2||POLYELECTROLYTE/NONELECTROLYTE SHELLS:2||polyimide:2||liquid crystal alignment layer:2||SOLUBLE POLYIMIDES:2||POLYBUTADIENECOATED ZIRCONIA:2||PRETILT ANGLES:2||CROSSSECTIONS:2||IMSMS:2||POLYISOPRENE COPOLYMERS:2||POLYIMIDE THINFILMS:2||POLYMER SURFACES:2||RAMAN:2||STEREOREGULAR PMMA:2||poly(tertbutyl methacrylate) (PtBMA):2||TIME:2||POLYIMIDE COMPOSITE:2||CARBOXYLATO COMPLEXES:2||AGOSTIC INTERACTIONS:2||MOLECULARSTRUCTURE:2||ALKENE:2||TRANSISTOR MEMORY:2||DEVICES:2||ORTHOGONALITY:2||molecular characterization:2||ORGANOSILICATE DIELECTRIC FILMS:2||AMPHIPHILES:2||Serotonin:2||Anodic stripping differential pulse voltammetry:2||transmission electron microtomography:2||LIQUIDCHROMATOGRAPHY ANALYSIS:2||PHASEDIAGRAM:2||CARBON NANOTUBES:2||TRANSFER MECHANISM:2||BINARY MIXTURES:2||REFLECTOMETRY:2||ROD:2||DROPS:2||CONSTANT:2||TRIBLOCK COPOLYMER:2||POLYMER VESICLES:2||CLICK CHEMISTRY:2||ARRAYS:2||COMPOSITES:2||MALDITOF MS:2||POLYMER THINFILMS:2||HYDROPHOBIC INTERACTION CHROMATOGRAPHY:2||retention mechanism:2||GRAZINGINCIDENCE:2||NANOPOROSITY:2||soluble poly(amic esteraltimide)s:2||DIFFERENTIAL SCANNING CALORIMETRY:2||RESIDUALSTRESS:2||CHEMICALCOMPOSITION:2||POLY(AMIC DIETHYL ESTER) PRECURSOR:2||POLY(DIMETHYL SILOXANES):2||MASS POLYSTYRENES:2||cyclic propylene carbonate:2||propylene oxide:2||ACETATE) TOLUENE SOLUTIONS:2||TRANSIENT GRATING METHOD:2||MASS DIFFUSION:2||MICROPHASE SEPARATION TRANSITION:2||POLYSTYRENES:2||POLYSILANE:2||CARBOHYDRATEBASED PHOSPHOLIPIDS:2||HELICAL STRANDS:2||FLUORESCENCE DETECTION:2||SENSITIVE DETERMINATION:2||COMPOSITE FILMS:2||microphase:2||3MERCAPTOPROPIONIC ACID:2||BUTADIENE BLOCK COPOLYMER:2||HYBRID POLYMERIC MICELLES:2||AQUEOUSMEDIA:2||CONTACTANGLE:2||TRANSISTORCIRCUITS:2||ABTYPE POLY(ETHERIMIDE)S:2||CORRELATION SPECTROSCOPY:2||GASPHASE CONFORMATIONS:2||DECANE:2||INFRAREDSPECTROSCOPY:2||MICELLIZATION:2||ENERGIES:2||ACID) PRECURSORS:2||PHOTOALIGNMENT:2||polymers:2||SUBSTRATE:2||carbon dioxide:2||oligomeric propylene carbonate:2||THERMALDIFFUSION:2||CRYSTAL:2||PHASETRANSITION:2||REFLECTIVITY:2||ANALOGS:2||supramolecular chemistry:2||LYSOPHOSPHATIDIC ACID:2||PHOSPHOCHOLINE:2||POLY(3HEXYLTHIOPHENE):2||Receptor:2||MODIFIED GOLD ELECTRODES:2||ASCORBICACID:2||HUMAN URINE:2||Hybrid Nanocomposite:2||Dielectric Constant:2||AU(111) ELECTRODES:2||NANOFILMS:2||HYDROPHOBIC CORES:2||DRIVEN:2||FLEXIBLE SIDECHAINS:2||MESOGEN:2||size exclusion chromatography:2||ORGANIZATION:2||POLY(LACTIC ACID):2||MOLECULAR ARCHITECTURE:2||COUPLER:2||POLYSTYRENE COPOLYMER:2||diffusion coefficient:2||XRAY REFLECTIVITY:2||temperature gradient interaction chromatography polystyryllithium:2||VISCOELASTIC PROPERTIES:2||polyisoprene:2||CRYSTALSTRUCTURES:2||POLYCARBONATE:2||MULTILAYERS:2||DEPOSITION:2||FULL ADSORPTION MECHANISMS:2||QUANTUM DOTS:2||CRITICAL ORDERING TRANSITION:2||CORE:2||PARACRYSTALLINE DISTORTION:2||PERFORATED LAYER PHASE:2||liposomes:2||phospholipids:2||UNILAMELLAR VESICLES:2||VOLTAMMETRIC DETERMINATION:2||Polyimide:2||FOURIERTRANSFORM:2||SURFACE:2||SIZE EXCLUSION CHROMATOGRAPHY:2||NEUTRON REFLECTIVITY:2||ORDERED STRUCTURE:2||RIGID ROD POLYMERS:2||DISPLACEMENT POLYMERIZATION:2||PHOTOSENSITIVE POLYIMIDE:2||EFFICIENCY:2||films:2||Polylactide:2||CHROMATOGRAPHIC CRITICAL CONDITION:2||RETENTION MECHANISM:2||COPPER PHTHALOCYANINE:2||C60:2||COPOLYMER:2||micelle:2||LINEAR POLYETHYLENE:2||LIQUIDS:2||ARMS:2||HIGHPERFORMANCE LIQUID:2||alternating copolyimides:2||PHASE SEPARATION:2||POLYMERCHAINS:2||STYRYLPYRIDINIUM:2||ANGLES:2||MOBILITY:2||PROBE:2||ACIDS:2||BLUE:2||POSITIONS:2||CYCLOPENTADIENYL:2||HIGHMOLECULARWEIGHT:2||FUELCELLS:2||TIN OXIDE:2||NANOCRYSTALS:2||SURFACE MICELLE FORMATION:2||DISORDER TRANSITION:2||BIREFRINGENCE:2||LIPIDCOMPOSITION:2||CONJUGATED POLYMERS:2||GLASSYCARBON ELECTRODE:2||ELECTROCHEMICAL DETECTION:2||MULTIPLE DETECTION:2||aromatic polyimides:2||MOLECULARWEIGHT HOMOPOLYMERS:2||BINARYMIXTURE:2||PATTERNS:2||photoluminescent polyimide:2||photosensitive polyimide:2||DEPENDENT MICELLIZATION:2||SPEED:2||synthesis:2||COIL BLOCKCOPOLYMERS:2||LIQUIDCRYSTALLINE ASSEMBLIES:2||OXIDE):2||molecular weight distribution:2||CONJUGATED POLYMER:2||polymer characterization:2||NONIONIC SURFACTANTS:2||STEREOREGULAR POLY(METHYL METHACRYLATE):2||structure:2||RODLIKE POLYIMIDE:2||FLEXIBLE POLYIMIDE:2||THERMAL IMIDIZATION:2||IN SITU RODCHAIN FORMATION:2||PHASESEPARATION:2||VINYL ETHER):2||EQUILIBRIUM:2||STRESS:2||STRUCTURAL RELAXATION:2||LIVING POLYMERIZATION:2||CONTAIN:2||SALT:2||WAVEGUIDE:2||XRAY DIFFRACTION:2||WALLED CARBON NANOTUBES:2||SILICON NANOWIRES:2||IR:2||DIELECTRIC THINFILMS:2||Selfassembled monolayer:2||PARAMETERS:2||Temperature gradient interaction chromatography:2||SOLIDSURFACES:2||FLOW:2||RATES:2||PRECURSORS:2||FILM BALANCE:2||SIDECHAINS:2||SUPRAMOLECULAR MATERIALS:2||CHAINS:2||POLYSTYRENE:39||ANIONICPOLYMERIZATION:34||GRADIENT INTERACTION CHROMATOGRAPHY:31||SEPARATION:27||BEHAVIOR:24||LIQUIDCHROMATOGRAPHY:22||POLYMERS:22||SIZEEXCLUSION CHROMATOGRAPHY:19||BLOCKCOPOLYMERS:17||DIBLOCK COPOLYMERS:17||THINFILMS:16||POLYISOPRENE:14||HPLC:13||SYNTHETICPOLYMERS:12||PERFORMANCE LIQUIDCHROMATOGRAPHY:11||DIBLOCK COPOLYMER:11||MOLECULARWEIGHT DISTRIBUTION:10||MACROMOLECULES:10||BLOCKCOPOLYMER:10||REVERSEDPHASE:10||RETENTION BEHAVIOR:10||MORPHOLOGY:9||MOLECULARWEIGHT:9||MELTS:9||AROMATIC POLYIMIDES:8||XRAYSCATTERING:8||polystyrene:8||MIXTURES:7||block copolymer:7||SURFACES:7||DEPENDENCE:7||COPOLYMERS:7||POLYMERIZATION:7||AIR/WATER INTERFACE:7||DEFINED BRUSH POLYIMIDE:6||TEMPERATURE:6||FULLY RODLIKE BACKBONE:6||MONOLAYERS:6||POLYIMIDES:6||CHAIN:6||COMPLEX POLYMERS:6||MOLECULARREORIENTATION:6||temperature gradient interaction chromatography:6||POLYMERFILMS:6||GELPERMEATION CHROMATOGRAPHY:6||ELUTION:6||ORDERDISORDER TRANSITION:6||SURFACEMORPHOLOGY:6||ORIENTATION:6||SYSTEMS:6||CRITICAL ADSORPTION POINT:6||LIGHTSCATTERING:5||PROBE DIFFUSION:5||POLYDISPERSITY:5||AIRWATERINTERFACE:5||MICROPHASE SEPARATION:5||GLASSTRANSITION:5||BLENDS:5||FILMS:5||ADSORPTION CHROMATOGRAPHY:5||MECHANISM:5||CO2:5||ETHYLENEOXIDE:5||ALIGNMENT:5||COMPLEXES:5||FRACTIONATION:5||MISCIBILITY:5||POLYMER CHARACTERIZATION:5||HEXAGONALLY PERFORATED LAYER:5||TRANSITION:5||FLIGHT MASSSPECTROMETRY:5||ARCHITECTURE:5||POLY(METHYL METHACRYLATE):5||ALTERNATING COPOLYMERIZATION:4||THICKNESS:4||THERMODYNAMICS:4||CRITICAL RANGE:4||ULTRATHIN POLYMERFILMS:4||DYNAMICS:4||CLIMATECHANGE:4||PHASE:4||GLASSTRANSITION TEMPERATURE:4||EPOXIDE:4||selfassembly:4||SPECTROSCOPY:4||SELFDIFFUSION:4||SCATTERING:4||OPTICALPROPERTIES:4||CATALYSTS:4||CHEMISTRY:4||SOLARCELLS:4||polyimides:4||polypyromellitimides:4||SEGMENTAL REORIENTATIONS:4||ADSORPTION:4||INTERFACE:4||POLYMERSOLUTIONS:4||TRACER DIFFUSION:4||OXIDE) DIBLOCK COPOLYMER:4||POLYSTYRENEBPOLY(METHYL METHACRYLATE):4||POLYMER BLENDS:4||SIMULATION:4||CHAIN ORIENTATION:4||STYRENE:4||TOF MASSSPECTROMETRY:4||WATER:4||DISPLAYS:4||OLIGOMERS:4||PEPTIDES:4||CYCLIC POLYSTYRENE:4||LATTICE CLUSTER THEORY:4||2NDHARMONIC GENERATION:4||LIQUIDCRYSTAL ALIGNMENT:4||MONTECARLO:4||LangmuirBlodgett film:3||ASSEMBLIES:3||chromatography:3||HOLOGRAPHIC RELAXATION SPECTROSCOPY:3||MULTIPLE MORPHOLOGIES:3||INTERACTION CHROMATOGRAPHY:3||NORMALPHASE:3||DIFFUSION:3||BRANCHED POLYSTYRENE:3||NANOPARTICLES:3||LITHOGRAPHY:3||POLYMER:3||LASERLIGHTSCATTERING:3||HIGH MOLECULARWEIGHT:3||CUBIC PHASE:3||AMPHIPHILIC BLOCKCOPOLYMERS:3||AQUEOUSSOLUTION:3||MODEL:3||FORCED RAYLEIGHSCATTERING:3||HYDRODYNAMIC PROPERTIES:3||4MIKTOARM STAR COPOLYMER:3||SYSTEM:3||PHASEBEHAVIOR:3||AQUEOUSSOLUTIONS:3||RHEOLOGY:3||LB film:3||2DIMENSIONAL LIQUIDCHROMATOGRAPHY:3||VISCOSITY:3||DIBLOCK COPOLYMER MELTS:3||ORDERORDER TRANSITION:3||GYROID PHASE:3||BINDING:3||BLOCK POLYELECTROLYTES:3||DERIVATIVES:3||MELT:3||PHASE LIQUIDCHROMATOGRAPHY:3||high temperature:3||ELEVATEDTEMPERATURE:3||RETENTION:3||MICELLE FORMATION:3||ELECTRONMICROSCOPY:3||Electrospray ionization:2||FRACTIONS:2||nalkanes:2||ISOCRATIC SEPARATION:2||ASSOCIATION:2||POLY(METHYL METHACRYLATE)S:2||2D correlation spectroscopy:2||CARBONATION:2||GLASSTRANSITION BEHAVIORS:2||MECHANICAL PROPERTIES:2||DIMENSIONS:2||POLYMER MIXTURES:2||ALUMINUM PORPHYRIN:2||LEAD STEARATE:2||FERROCENE:2||POLY(EPSILONCAPROLACTONE):2||DIAGRAM:2||nucleosides:2||Selective recognition by preconcentration:2||Electrochemical impedance spectroscopy:2||DOPAMINE:2||Silica:2||Silyl Ester:2||DIETHYL ESTER) PRECURSORS:2||SURFACE CHARACTERIZATION:2||MICROSTRUCTURE:2||polystyreneblockpolyisoprene:2||MICROPHASESEPARATED STRUCTURES:2||IMPEDANCE MEASUREMENTS:2||HEMEPROTEINS:2||SOLID SUBSTRATE:2||MOISTURE ABSORPTION:2||aromatic polyimide:2||INDUCED MORPHOLOGICALCHANGES:2||STABILITY:2||LC alignment layers:2||POLYPYROMELLITIMIDES:2||Ion mobility:2||Chiral polymer:2||OLIGOSACCHARIDES:2||OXIDE:2||SIDECHAIN:2||RETARDATION:2||functionality:2||temperature effects:2||phase transition:2||glass transition temperature:2||spincoated film:2||ESTER) PRECURSORS:2||PRECURSOR BLEND:2||Xray reflectivity:2||SIGMABONDS:2||aluminum porphyrin catalysts:2||METALLOPORPHYRIN:2||SILICON:2||MASSSPECTROMETRY ANALYSIS:2||STAR POLYMERS:2||SIZE DISTRIBUTIONS:2||GIANT VESICLES:2||POLY(3ALKYLTHIOPHENES):2||ADHESION:2||LIGHT:2||POLYSTYRENEBPOLYISOPRENE:2||HPLC fractionation:2||SILVER ELECTRODES:2||ENHANCED RESONANCE RAMAN:2||SEQUENCE:2||POLYELECTROLYTE/NONELECTROLYTE SHELLS:2||polyimide:2||liquid crystal alignment layer:2||SOLUBLE POLYIMIDES:2||POLYBUTADIENECOATED ZIRCONIA:2||PRETILT ANGLES:2||CROSSSECTIONS:2||IMSMS:2||POLYISOPRENE COPOLYMERS:2||POLYIMIDE THINFILMS:2||POLYMER SURFACES:2||RAMAN:2||STEREOREGULAR PMMA:2||poly(tertbutyl methacrylate) (PtBMA):2||TIME:2||POLYIMIDE COMPOSITE:2||CARBOXYLATO COMPLEXES:2||AGOSTIC INTERACTIONS:2||MOLECULARSTRUCTURE:2||ALKENE:2||TRANSISTOR MEMORY:2||DEVICES:2||ORTHOGONALITY:2||molecular characterization:2||ORGANOSILICATE DIELECTRIC FILMS:2||AMPHIPHILES:2||Serotonin:2||Anodic stripping differential pulse voltammetry:2||transmission electron microtomography:2||LIQUIDCHROMATOGRAPHY ANALYSIS:2||PHASEDIAGRAM:2||CARBON NANOTUBES:2||TRANSFER MECHANISM:2||BINARY MIXTURES:2||REFLECTOMETRY:2||ROD:2||DROPS:2||CONSTANT:2||TRIBLOCK COPOLYMER:2||POLYMER VESICLES:2||CLICK CHEMISTRY:2||ARRAYS:2||COMPOSITES:2||MALDITOF MS:2||POLYMER THINFILMS:2||HYDROPHOBIC INTERACTION CHROMATOGRAPHY:2||retention mechanism:2||GRAZINGINCIDENCE:2||NANOPOROSITY:2||soluble poly(amic esteraltimide)s:2||DIFFERENTIAL SCANNING CALORIMETRY:2||RESIDUALSTRESS:2||CHEMICALCOMPOSITION:2||POLY(AMIC DIETHYL ESTER) PRECURSOR:2||POLY(DIMETHYL SILOXANES):2||MASS POLYSTYRENES:2||cyclic propylene carbonate:2||propylene oxide:2||ACETATE) TOLUENE SOLUTIONS:2||TRANSIENT GRATING METHOD:2||MASS DIFFUSION:2||MICROPHASE SEPARATION TRANSITION:2||POLYSTYRENES:2||POLYSILANE:2||CARBOHYDRATEBASED PHOSPHOLIPIDS:2||HELICAL STRANDS:2||FLUORESCENCE DETECTION:2||SENSITIVE DETERMINATION:2||COMPOSITE FILMS:2||microphase:2||3MERCAPTOPROPIONIC ACID:2||BUTADIENE BLOCK COPOLYMER:2||HYBRID POLYMERIC MICELLES:2||AQUEOUSMEDIA:2||CONTACTANGLE:2||TRANSISTORCIRCUITS:2||ABTYPE POLY(ETHERIMIDE)S:2||CORRELATION SPECTROSCOPY:2||GASPHASE CONFORMATIONS:2||DECANE:2||INFRAREDSPECTROSCOPY:2||MICELLIZATION:2||ENERGIES:2||ACID) PRECURSORS:2||PHOTOALIGNMENT:2||polymers:2||SUBSTRATE:2||carbon dioxide:2||oligomeric propylene carbonate:2||THERMALDIFFUSION:2||CRYSTAL:2||PHASETRANSITION:2||REFLECTIVITY:2||ANALOGS:2||supramolecular chemistry:2||LYSOPHOSPHATIDIC ACID:2||PHOSPHOCHOLINE:2||POLY(3HEXYLTHIOPHENE):2||Receptor:2||MODIFIED GOLD ELECTRODES:2||ASCORBICACID:2||HUMAN URINE:2||Hybrid Nanocomposite:2||Dielectric Constant:2||AU(111) ELECTRODES:2||NANOFILMS:2||HYDROPHOBIC CORES:2||DRIVEN:2||FLEXIBLE SIDECHAINS:2||MESOGEN:2||size exclusion chromatography:2||ORGANIZATION:2||POLY(LACTIC ACID):2||MOLECULAR ARCHITECTURE:2||COUPLER:2||POLYSTYRENE COPOLYMER:2||diffusion coefficient:2||XRAY REFLECTIVITY:2||temperature gradient interaction chromatography polystyryllithium:2||VISCOELASTIC PROPERTIES:2||polyisoprene:2||CRYSTALSTRUCTURES:2||POLYCARBONATE:2||MULTILAYERS:2||DEPOSITION:2||FULL ADSORPTION MECHANISMS:2||QUANTUM DOTS:2||CRITICAL ORDERING TRANSITION:2||CORE:2||PARACRYSTALLINE DISTORTION:2||PERFORATED LAYER PHASE:2||liposomes:2||phospholipids:2||UNILAMELLAR VESICLES:2||VOLTAMMETRIC DETERMINATION:2||Polyimide:2||FOURIERTRANSFORM:2||SURFACE:2||SIZE EXCLUSION CHROMATOGRAPHY:2||NEUTRON REFLECTIVITY:2||ORDERED STRUCTURE:2||RIGID ROD POLYMERS:2||DISPLACEMENT POLYMERIZATION:2||PHOTOSENSITIVE POLYIMIDE:2||EFFICIENCY:2||films:2||Polylactide:2||CHROMATOGRAPHIC CRITICAL CONDITION:2||RETENTION MECHANISM:2||COPPER PHTHALOCYANINE:2||C60:2||COPOLYMER:2||micelle:2||LINEAR POLYETHYLENE:2||LIQUIDS:2||ARMS:2||HIGHPERFORMANCE LIQUID:2||alternating copolyimides:2||PHASE SEPARATION:2||POLYMERCHAINS:2||STYRYLPYRIDINIUM:2||ANGLES:2||MOBILITY:2||PROBE:2||ACIDS:2||BLUE:2||POSITIONS:2||CYCLOPENTADIENYL:2||HIGHMOLECULARWEIGHT:2||FUELCELLS:2||TIN OXIDE:2||NANOCRYSTALS:2||SURFACE MICELLE FORMATION:2||DISORDER TRANSITION:2||BIREFRINGENCE:2||LIPIDCOMPOSITION:2||CONJUGATED POLYMERS:2||GLASSYCARBON ELECTRODE:2||ELECTROCHEMICAL DETECTION:2||MULTIPLE DETECTION:2||aromatic polyimides:2||MOLECULARWEIGHT HOMOPOLYMERS:2||BINARYMIXTURE:2||PATTERNS:2||photoluminescent polyimide:2||photosensitive polyimide:2||DEPENDENT MICELLIZATION:2||SPEED:2||synthesis:2||COIL BLOCKCOPOLYMERS:2||LIQUIDCRYSTALLINE ASSEMBLIES:2||OXIDE):2||molecular weight distribution:2||CONJUGATED POLYMER:2||polymer characterization:2||NONIONIC SURFACTANTS:2||STEREOREGULAR POLY(METHYL METHACRYLATE):2||structure:2||RODLIKE POLYIMIDE:2||FLEXIBLE POLYIMIDE:2||THERMAL IMIDIZATION:2||IN SITU RODCHAIN FORMATION:2||PHASESEPARATION:2||VINYL ETHER):2||EQUILIBRIUM:2||STRESS:2||STRUCTURAL RELAXATION:2||LIVING POLYMERIZATION:2||CONTAIN:2||SALT:2||WAVEGUIDE:2||XRAY DIFFRACTION:2||WALLED CARBON NANOTUBES:2||SILICON NANOWIRES:2||IR:2||DIELECTRIC THINFILMS:2||Selfassembled monolayer:2||PARAMETERS:2||Temperature gradient interaction chromatography:2||SOLIDSURFACES:2||FLOW:2||RATES:2||PRECURSORS:2||FILM BALANCE:2||SIDECHAINS:2||SUPRAMOLECULAR MATERIALS:2||CHAINS:2||POLYSTYRENE:39||ANIONICPOLYMERIZATION:34||GRADIENT INTERACTION CHROMATOGRAPHY:31||SEPARATION:27||BEHAVIOR:24||LIQUIDCHROMATOGRAPHY:22||POLYMERS:22||SIZEEXCLUSION CHROMATOGRAPHY:19||BLOCKCOPOLYMERS:17||DIBLOCK COPOLYMERS:17||THINFILMS:16||POLYISOPRENE:14||HPLC:13||SYNTHETICPOLYMERS:12||PERFORMANCE LIQUIDCHROMATOGRAPHY:11||DIBLOCK COPOLYMER:11||MOLECULARWEIGHT DISTRIBUTION:10||MACROMOLECULES:10||BLOCKCOPOLYMER:10||REVERSEDPHASE:10||RETENTION BEHAVIOR:10||MORPHOLOGY:9||MOLECULARWEIGHT:9||MELTS:9||AROMATIC POLYIMIDES:8||XRAYSCATTERING:8||polystyrene:8||MIXTURES:7||block copolymer:7||SURFACES:7||DEPENDENCE:7||COPOLYMERS:7||POLYMERIZATION:7||AIR/WATER INTERFACE:7||DEFINED BRUSH POLYIMIDE:6||TEMPERATURE:6||FULLY RODLIKE BACKBONE:6||MONOLAYERS:6||POLYIMIDES:6||CHAIN:6||COMPLEX POLYMERS:6||MOLECULARREORIENTATION:6||temperature gradient interaction chromatography:6||POLYMERFILMS:6||GELPERMEATION CHROMATOGRAPHY:6||ELUTION:6||ORDERDISORDER TRANSITION:6||SURFACEMORPHOLOGY:6||ORIENTATION:6||SYSTEMS:6||CRITICAL ADSORPTION POINT:6||LIGHTSCATTERING:5||PROBE DIFFUSION:5||POLYDISPERSITY:5||AIRWATERINTERFACE:5||MICROPHASE SEPARATION:5||GLASSTRANSITION:5||BLENDS:5||FILMS:5||ADSORPTION CHROMATOGRAPHY:5||MECHANISM:5||CO2:5||ETHYLENEOXIDE:5||ALIGNMENT:5||COMPLEXES:5||FRACTIONATION:5||MISCIBILITY:5||POLYMER CHARACTERIZATION:5||HEXAGONALLY PERFORATED LAYER:5||TRANSITION:5||FLIGHT MASSSPECTROMETRY:5||ARCHITECTURE:5||POLY(METHYL METHACRYLATE):5||ALTERNATING COPOLYMERIZATION:4||THICKNESS:4||THERMODYNAMICS:4||CRITICAL RANGE:4||ULTRATHIN POLYMERFILMS:4||DYNAMICS:4||CLIMATECHANGE:4||PHASE:4||GLASSTRANSITION TEMPERATURE:4||EPOXIDE:4||selfassembly:4||SPECTROSCOPY:4||SELFDIFFUSION:4||SCATTERING:4||OPTICALPROPERTIES:4||CATALYSTS:4||CHEMISTRY:4||SOLARCELLS:4||polyimides:4||polypyromellitimides:4||SEGMENTAL REORIENTATIONS:4||ADSORPTION:4||INTERFACE:4||POLYMERSOLUTIONS:4||TRACER DIFFUSION:4||OXIDE) DIBLOCK COPOLYMER:4||POLYSTYRENEBPOLY(METHYL METHACRYLATE):4||POLYMER BLENDS:4||SIMULATION:4||CHAIN ORIENTATION:4||STYRENE:4||TOF MASSSPECTROMETRY:4||WATER:4||DISPLAYS:4||OLIGOMERS:4||PEPTIDES:4||CYCLIC POLYSTYRENE:4||LATTICE CLUSTER THEORY:4||2NDHARMONIC GENERATION:4||LIQUIDCRYSTAL ALIGNMENT:4||MONTECARLO:4||LangmuirBlodgett film:3||ASSEMBLIES:3||chromatography:3||HOLOGRAPHIC RELAXATION SPECTROSCOPY:3||MULTIPLE MORPHOLOGIES:3||INTERACTION CHROMATOGRAPHY:3||NORMALPHASE:3||DIFFUSION:3||BRANCHED POLYSTYRENE:3||NANOPARTICLES:3||LITHOGRAPHY:3||POLYMER:3||LASERLIGHTSCATTERING:3||HIGH MOLECULARWEIGHT:3||CUBIC PHASE:3||AMPHIPHILIC BLOCKCOPOLYMERS:3||AQUEOUSSOLUTION:3||MODEL:3||FORCED RAYLEIGHSCATTERING:3||HYDRODYNAMIC PROPERTIES:3||4MIKTOARM STAR COPOLYMER:3||SYSTEM:3||PHASEBEHAVIOR:3||AQUEOUSSOLUTIONS:3||RHEOLOGY:3||LB film:3||2DIMENSIONAL LIQUIDCHROMATOGRAPHY:3||VISCOSITY:3||DIBLOCK COPOLYMER MELTS:3||ORDERORDER TRANSITION:3||GYROID PHASE:3||BINDING:3||BLOCK POLYELECTROLYTES:3||DERIVATIVES:3||MELT:3||PHASE LIQUIDCHROMATOGRAPHY:3||high temperature:3||ELEVATEDTEMPERATURE:3||RETENTION:3||MICELLE FORMATION:3||ELECTRONMICROSCOPY:3||Electrospray ionization:2||FRACTIONS:2||nalkanes:2||ISOCRATIC SEPARATION:2||ASSOCIATION:2||POLY(METHYL METHACRYLATE)S:2||2D correlation spectroscopy:2||CARBONATION:2||GLASSTRANSITION BEHAVIORS:2||MECHANICAL PROPERTIES:2||DIMENSIONS:2||POLYMER MIXTURES:2||ALUMINUM PORPHYRIN:2||LEAD STEARATE:2||FERROCENE:2||POLY(EPSILONCAPROLACTONE):2||DIAGRAM:2||nucleosides:2||Selective recognition by preconcentration:2||Electrochemical impedance spectroscopy:2||DOPAMINE:2||Silica:2||Silyl Ester:2||DIETHYL ESTER) PRECURSORS:2||SURFACE CHARACTERIZATION:2||MICROSTRUCTURE:2||polystyreneblockpolyisoprene:2||MICROPHASESEPARATED STRUCTURES:2||IMPEDANCE MEASUREMENTS:2||HEMEPROTEINS:2||SOLID SUBSTRATE:2||MOISTURE ABSORPTION:2||aromatic polyimide:2||INDUCED MORPHOLOGICALCHANGES:2||STABILITY:2||LC alignment layers:2||POLYPYROMELLITIMIDES:2||Ion mobility:2||Chiral polymer:2||OLIGOSACCHARIDES:2||OXIDE:2||SIDECHAIN:2||RETARDATION:2||functionality:2||temperature effects:2||phase transition:2||glass transition temperature:2||spincoated film:2||ESTER) PRECURSORS:2||PRECURSOR BLEND:2||Xray reflectivity:2||SIGMABONDS:2||aluminum porphyrin catalysts:2||METALLOPORPHYRIN:2||SILICON:2||MASSSPECTROMETRY ANALYSIS:2||STAR POLYMERS:2||SIZE DISTRIBUTIONS:2||GIANT VESICLES:2||POLY(3ALKYLTHIOPHENES):2||ADHESION:2||LIGHT:2||POLYSTYRENEBPOLYISOPRENE:2||HPLC fractionation:2||SILVER ELECTRODES:2||ENHANCED RESONANCE RAMAN:2||SEQUENCE:2||POLYELECTROLYTE/NONELECTROLYTE SHELLS:2||polyimide:2||liquid crystal alignment layer:2||SOLUBLE POLYIMIDES:2||POLYBUTADIENECOATED ZIRCONIA:2||PRETILT ANGLES:2||CROSSSECTIONS:2||IMSMS:2||POLYISOPRENE COPOLYMERS:2||POLYIMIDE THINFILMS:2||POLYMER SURFACES:2||RAMAN:2||STEREOREGULAR PMMA:2||poly(tertbutyl methacrylate) (PtBMA):2||TIME:2||POLYIMIDE COMPOSITE:2||CARBOXYLATO COMPLEXES:2||AGOSTIC INTERACTIONS:2||MOLECULARSTRUCTURE:2||ALKENE:2||TRANSISTOR MEMORY:2||DEVICES:2||ORTHOGONALITY:2||molecular characterization:2||ORGANOSILICATE DIELECTRIC FILMS:2||AMPHIPHILES:2||Serotonin:2||Anodic stripping differential pulse voltammetry:2||transmission electron microtomography:2||LIQUIDCHROMATOGRAPHY ANALYSIS:2||PHASEDIAGRAM:2||CARBON NANOTUBES:2||TRANSFER MECHANISM:2||BINARY MIXTURES:2||REFLECTOMETRY:2||ROD:2||DROPS:2||CONSTANT:2||TRIBLOCK COPOLYMER:2||POLYMER VESICLES:2||CLICK CHEMISTRY:2||ARRAYS:2||COMPOSITES:2||MALDITOF MS:2||POLYMER THINFILMS:2||HYDROPHOBIC INTERACTION CHROMATOGRAPHY:2||retention mechanism:2||GRAZINGINCIDENCE:2||NANOPOROSITY:2||soluble poly(amic esteraltimide)s:2||DIFFERENTIAL SCANNING CALORIMETRY:2||RESIDUALSTRESS:2||CHEMICALCOMPOSITION:2||POLY(AMIC DIETHYL ESTER) PRECURSOR:2||POLY(DIMETHYL SILOXANES):2||MASS POLYSTYRENES:2||cyclic propylene carbonate:2||propylene oxide:2||ACETATE) TOLUENE SOLUTIONS:2||TRANSIENT GRATING METHOD:2||MASS DIFFUSION:2||MICROPHASE SEPARATION TRANSITION:2||POLYSTYRENES:2||POLYSILANE:2||CARBOHYDRATEBASED PHOSPHOLIPIDS:2||HELICAL STRANDS:2||FLUORESCENCE DETECTION:2||SENSITIVE DETERMINATION:2||COMPOSITE FILMS:2||microphase:2||3MERCAPTOPROPIONIC ACID:2||BUTADIENE BLOCK COPOLYMER:2||HYBRID POLYMERIC MICELLES:2||AQUEOUSMEDIA:2||CONTACTANGLE:2||TRANSISTORCIRCUITS:2||ABTYPE POLY(ETHERIMIDE)S:2||CORRELATION SPECTROSCOPY:2||GASPHASE CONFORMATIONS:2||DECANE:2||INFRAREDSPECTROSCOPY:2||MICELLIZATION:2||ENERGIES:2||ACID) PRECURSORS:2||PHOTOALIGNMENT:2||polymers:2||SUBSTRATE:2||carbon dioxide:2||oligomeric propylene carbonate:2||THERMALDIFFUSION:2||CRYSTAL:2||PHASETRANSITION:2||REFLECTIVITY:2||ANALOGS:2||supramolecular chemistry:2||LYSOPHOSPHATIDIC ACID:2||PHOSPHOCHOLINE:2||POLY(3HEXYLTHIOPHENE):2||Receptor:2||MODIFIED GOLD ELECTRODES:2||ASCORBICACID:2||HUMAN URINE:2||Hybrid Nanocomposite:2||Dielectric Constant:2||AU(111) ELECTRODES:2||NANOFILMS:2||HYDROPHOBIC CORES:2||DRIVEN:2||FLEXIBLE SIDECHAINS:2||MESOGEN:2||size exclusion chromatography:2||ORGANIZATION:2||POLY(LACTIC ACID):2||MOLECULAR ARCHITECTURE:2||COUPLER:2||POLYSTYRENE COPOLYMER:2||diffusion coefficient:2||XRAY REFLECTIVITY:2||temperature gradient interaction chromatography polystyryllithium:2||VISCOELASTIC PROPERTIES:2||polyisoprene:2||CRYSTALSTRUCTURES:2||POLYCARBONATE:2||MULTILAYERS:2||DEPOSITION:2||FULL ADSORPTION MECHANISMS:2||QUANTUM DOTS:2||CRITICAL ORDERING TRANSITION:2||CORE:2||PARACRYSTALLINE DISTORTION:2||PERFORATED LAYER PHASE:2||liposomes:2||phospholipids:2||UNILAMELLAR VESICLES:2||VOLTAMMETRIC DETERMINATION:2||Polyimide:2||FOURIERTRANSFORM:2||SURFACE:2||SIZE EXCLUSION CHROMATOGRAPHY:2||NEUTRON REFLECTIVITY:2||ORDERED STRUCTURE:2||RIGID ROD POLYMERS:2||DISPLACEMENT POLYMERIZATION:2||PHOTOSENSITIVE POLYIMIDE:2||EFFICIENCY:2||films:2||Polylactide:2||CHROMATOGRAPHIC CRITICAL CONDITION:2||RETENTION MECHANISM:2||COPPER PHTHALOCYANINE:2||C60:2||COPOLYMER:2||micelle:2||LINEAR POLYETHYLENE:2||LIQUIDS:2||ARMS:2||HIGHPERFORMANCE LIQUID:2||alternating copolyimides:2||PHASE SEPARATION:2||POLYMERCHAINS:2||STYRYLPYRIDINIUM:2||ANGLES:2||MOBILITY:2||PROBE:2||ACIDS:2||BLUE:2||POSITIONS:2||CYCLOPENTADIENYL:2||HIGHMOLECULARWEIGHT:2||FUELCELLS:2||TIN OXIDE:2||NANOCRYSTALS:2||SURFACE MICELLE FORMATION:2||DISORDER TRANSITION:2||BIREFRINGENCE:2||LIPIDCOMPOSITION:2||CONJUGATED POLYMERS:2||GLASSYCARBON ELECTRODE:2||ELECTROCHEMICAL DETECTION:2||MULTIPLE DETECTION:2||aromatic polyimides:2||MOLECULARWEIGHT HOMOPOLYMERS:2||BINARYMIXTURE:2||PATTERNS:2||photoluminescent polyimide:2||photosensitive polyimide:2||DEPENDENT MICELLIZATION:2||SPEED:2||synthesis:2||COIL BLOCKCOPOLYMERS:2||LIQUIDCRYSTALLINE ASSEMBLIES:2||OXIDE):2||molecular weight distribution:2||CONJUGATED POLYMER:2||polymer characterization:2||NONIONIC SURFACTANTS:2||STEREOREGULAR POLY(METHYL METHACRYLATE):2||structure:2||RODLIKE POLYIMIDE:2||FLEXIBLE POLYIMIDE:2||THERMAL IMIDIZATION:2||IN SITU RODCHAIN FORMATION:2||PHASESEPARATION:2||VINYL ETHER):2||EQUILIBRIUM:2||STRESS:2||STRUCTURAL RELAXATION:2||LIVING POLYMERIZATION:2||CONTAIN:2||SALT:2||WAVEGUIDE:2||XRAY DIFFRACTION:2||WALLED CARBON NANOTUBES:2||SILICON NANOWIRES:2||IR:2||DIELECTRIC THINFILMS:2||Selfassembled monolayer:2||PARAMETERS:2||Temperature gradient interaction chromatography:2||SOLIDSURFACES:2||FLOW:2||RATES:2||PRECURSORS:2||FILM BALANCE:2||SIDECHAINS:2||SUPRAMOLECULAR MATERIALS:2||CHAINS:2||POLYSTYRENE:39||ANIONICPOLYMERIZATION:34||GRADIENT INTERACTION CHROMATOGRAPHY:31||SEPARATION:27||BEHAVIOR:24||LIQUIDCHROMATOGRAPHY:22||POLYMERS:22||SIZEEXCLUSION CHROMATOGRAPHY:19||BLOCKCOPOLYMERS:17||DIBLOCK COPOLYMERS:17||THINFILMS:16||POLYISOPRENE:14||HPLC:13||SYNTHETICPOLYMERS:12||PERFORMANCE LIQUIDCHROMATOGRAPHY:11||DIBLOCK COPOLYMER:11||MOLECULARWEIGHT DISTRIBUTION:10||MACROMOLECULES:10||BLOCKCOPOLYMER:10||REVERSEDPHASE:10||RETENTION BEHAVIOR:10||MORPHOLOGY:9||MOLECULARWEIGHT:9||MELTS:9||AROMATIC POLYIMIDES:8||XRAYSCATTERING:8||polystyrene:8||MIXTURES:7||block copolymer:7||SURFACES:7||DEPENDENCE:7||COPOLYMERS:7||POLYMERIZATION:7||AIR/WATER INTERFACE:7||DEFINED BRUSH POLYIMIDE:6||TEMPERATURE:6||FULLY RODLIKE BACKBONE:6||MONOLAYERS:6||POLYIMIDES:6||CHAIN:6||COMPLEX POLYMERS:6||MOLECULARREORIENTATION:6||temperature gradient interaction chromatography:6||POLYMERFILMS:6||GELPERMEATION CHROMATOGRAPHY:6||ELUTION:6||ORDERDISORDER TRANSITION:6||SURFACEMORPHOLOGY:6||ORIENTATION:6||SYSTEMS:6||CRITICAL ADSORPTION POINT:6||LIGHTSCATTERING:5||PROBE DIFFUSION:5||POLYDISPERSITY:5||AIRWATERINTERFACE:5||MICROPHASE SEPARATION:5||GLASSTRANSITION:5||BLENDS:5||FILMS:5||ADSORPTION CHROMATOGRAPHY:5||MECHANISM:5||CO2:5||ETHYLENEOXIDE:5||ALIGNMENT:5||COMPLEXES:5||FRACTIONATION:5||MISCIBILITY:5||POLYMER CHARACTERIZATION:5||HEXAGONALLY PERFORATED LAYER:5||TRANSITION:5||FLIGHT MASSSPECTROMETRY:5||ARCHITECTURE:5||POLY(METHYL METHACRYLATE):5||ALTERNATING COPOLYMERIZATION:4||THICKNESS:4||THERMODYNAMICS:4||CRITICAL RANGE:4||ULTRATHIN POLYMERFILMS:4||DYNAMICS:4||CLIMATECHANGE:4||PHASE:4||GLASSTRANSITION TEMPERATURE:4||EPOXIDE:4||selfassembly:4||SPECTROSCOPY:4||SELFDIFFUSION:4||SCATTERING:4||OPTICALPROPERTIES:4||CATALYSTS:4||CHEMISTRY:4||SOLARCELLS:4||polyimides:4||polypyromellitimides:4||SEGMENTAL REORIENTATIONS:4||ADSORPTION:4||INTERFACE:4||POLYMERSOLUTIONS:4||TRACER DIFFUSION:4||OXIDE) DIBLOCK COPOLYMER:4||POLYSTYRENEBPOLY(METHYL METHACRYLATE):4||POLYMER BLENDS:4||SIMULATION:4||CHAIN ORIENTATION:4||STYRENE:4||TOF MASSSPECTROMETRY:4||WATER:4||DISPLAYS:4||OLIGOMERS:4||PEPTIDES:4||CYCLIC POLYSTYRENE:4||LATTICE CLUSTER THEORY:4||2NDHARMONIC GENERATION:4||LIQUIDCRYSTAL ALIGNMENT:4||MONTECARLO:4||LangmuirBlodgett film:3||ASSEMBLIES:3||chromatography:3||HOLOGRAPHIC RELAXATION SPECTROSCOPY:3||MULTIPLE MORPHOLOGIES:3||INTERACTION CHROMATOGRAPHY:3||NORMALPHASE:3||DIFFUSION:3||BRANCHED POLYSTYRENE:3||NANOPARTICLES:3||LITHOGRAPHY:3||POLYMER:3||LASERLIGHTSCATTERING:3||HIGH MOLECULARWEIGHT:3||CUBIC PHASE:3||AMPHIPHILIC BLOCKCOPOLYMERS:3||AQUEOUSSOLUTION:3||MODEL:3||FORCED RAYLEIGHSCATTERING:3||HYDRODYNAMIC PROPERTIES:3||4MIKTOARM STAR COPOLYMER:3||SYSTEM:3||PHASEBEHAVIOR:3||AQUEOUSSOLUTIONS:3||RHEOLOGY:3||LB film:3||2DIMENSIONAL LIQUIDCHROMATOGRAPHY:3||VISCOSITY:3||DIBLOCK COPOLYMER MELTS:3||ORDERORDER TRANSITION:3||GYROID PHASE:3||BINDING:3||BLOCK POLYELECTROLYTES:3||DERIVATIVES:3||MELT:3||PHASE LIQUIDCHROMATOGRAPHY:3||high temperature:3||ELEVATEDTEMPERATURE:3||RETENTION:3||MICELLE FORMATION:3||ELECTRONMICROSCOPY:3||Electrospray ionization:2||FRACTIONS:2||nalkanes:2||ISOCRATIC SEPARATION:2||ASSOCIATION:2||POLY(METHYL METHACRYLATE)S:2||2D correlation spectroscopy:2||CARBONATION:2||GLASSTRANSITION BEHAVIORS:2||MECHANICAL PROPERTIES:2||DIMENSIONS:2||POLYMER MIXTURES:2||ALUMINUM PORPHYRIN:2||LEAD STEARATE:2||FERROCENE:2||POLY(EPSILONCAPROLACTONE):2||DIAGRAM:2||nucleosides:2||Selective recognition by preconcentration:2||Electrochemical impedance spectroscopy:2||DOPAMINE:2||Silica:2||Silyl Ester:2||DIETHYL ESTER) PRECURSORS:2||SURFACE CHARACTERIZATION:2||MICROSTRUCTURE:2||polystyreneblockpolyisoprene:2||MICROPHASESEPARATED STRUCTURES:2||IMPEDANCE MEASUREMENTS:2||HEMEPROTEINS:2||SOLID SUBSTRATE:2||MOISTURE ABSORPTION:2||aromatic polyimide:2||INDUCED MORPHOLOGICALCHANGES:2||STABILITY:2||LC alignment layers:2||POLYPYROMELLITIMIDES:2||Ion mobility:2||Chiral polymer:2||OLIGOSACCHARIDES:2||OXIDE:2||SIDECHAIN:2||RETARDATION:2||functionality:2||temperature effects:2||phase transition:2||glass transition temperature:2||spincoated film:2||ESTER) PRECURSORS:2||PRECURSOR BLEND:2||Xray reflectivity:2||SIGMABONDS:2||aluminum porphyrin catalysts:2||METALLOPORPHYRIN:2||SILICON:2||MASSSPECTROMETRY ANALYSIS:2||STAR POLYMERS:2||SIZE DISTRIBUTIONS:2||GIANT VESICLES:2||POLY(3ALKYLTHIOPHENES):2||ADHESION:2||LIGHT:2||POLYSTYRENEBPOLYISOPRENE:2||HPLC fractionation:2||SILVER ELECTRODES:2||ENHANCED RESONANCE RAMAN:2||SEQUENCE:2||POLYELECTROLYTE/NONELECTROLYTE SHELLS:2||polyimide:2||liquid crystal alignment layer:2||SOLUBLE POLYIMIDES:2||POLYBUTADIENECOATED ZIRCONIA:2||PRETILT ANGLES:2||CROSSSECTIONS:2||IMSMS:2||POLYISOPRENE COPOLYMERS:2||POLYIMIDE THINFILMS:2||POLYMER SURFACES:2||RAMAN:2||STEREOREGULAR PMMA:2||poly(tertbutyl methacrylate) (PtBMA):2||TIME:2||POLYIMIDE COMPOSITE:2||CARBOXYLATO COMPLEXES:2||AGOSTIC INTERACTIONS:2||MOLECULARSTRUCTURE:2||ALKENE:2||TRANSISTOR MEMORY:2||DEVICES:2||ORTHOGONALITY:2||molecular characterization:2||ORGANOSILICATE DIELECTRIC FILMS:2||AMPHIPHILES:2||Serotonin:2||Anodic stripping differential pulse voltammetry:2||transmission electron microtomography:2||LIQUIDCHROMATOGRAPHY ANALYSIS:2||PHASEDIAGRAM:2||CARBON NANOTUBES:2||TRANSFER MECHANISM:2||BINARY MIXTURES:2||REFLECTOMETRY:2||ROD:2||DROPS:2||CONSTANT:2||TRIBLOCK COPOLYMER:2||POLYMER VESICLES:2||CLICK CHEMISTRY:2||ARRAYS:2||COMPOSITES:2||MALDITOF MS:2||POLYMER THINFILMS:2||HYDROPHOBIC INTERACTION CHROMATOGRAPHY:2||retention mechanism:2||GRAZINGINCIDENCE:2||NANOPOROSITY:2||soluble poly(amic esteraltimide)s:2||DIFFERENTIAL SCANNING CALORIMETRY:2||RESIDUALSTRESS:2||CHEMICALCOMPOSITION:2||POLY(AMIC DIETHYL ESTER) PRECURSOR:2||POLY(DIMETHYL SILOXANES):2||MASS POLYSTYRENES:2||cyclic propylene carbonate:2||propylene oxide:2||ACETATE) TOLUENE SOLUTIONS:2||TRANSIENT GRATING METHOD:2||MASS DIFFUSION:2||MICROPHASE SEPARATION TRANSITION:2||POLYSTYRENES:2||POLYSILANE:2||CARBOHYDRATEBASED PHOSPHOLIPIDS:2||HELICAL STRANDS:2||FLUORESCENCE DETECTION:2||SENSITIVE DETERMINATION:2||COMPOSITE FILMS:2||microphase:2||3MERCAPTOPROPIONIC ACID:2||BUTADIENE BLOCK COPOLYMER:2||HYBRID POLYMERIC MICELLES:2||AQUEOUSMEDIA:2||CONTACTANGLE:2||TRANSISTORCIRCUITS:2||ABTYPE POLY(ETHERIMIDE)S:2||CORRELATION SPECTROSCOPY:2||GASPHASE CONFORMATIONS:2||DECANE:2||INFRAREDSPECTROSCOPY:2||MICELLIZATION:2||ENERGIES:2||ACID) PRECURSORS:2||PHOTOALIGNMENT:2||polymers:2||SUBSTRATE:2||carbon dioxide:2||oligomeric propylene carbonate:2||THERMALDIFFUSION:2||CRYSTAL:2||PHASETRANSITION:2||REFLECTIVITY:2||ANALOGS:2||supramolecular chemistry:2||LYSOPHOSPHATIDIC ACID:2||PHOSPHOCHOLINE:2||POLY(3HEXYLTHIOPHENE):2||Receptor:2||MODIFIED GOLD ELECTRODES:2||ASCORBICACID:2||HUMAN URINE:2||Hybrid Nanocomposite:2||Dielectric Constant:2||AU(111) ELECTRODES:2||NANOFILMS:2||HYDROPHOBIC CORES:2||DRIVEN:2||FLEXIBLE SIDECHAINS:2||MESOGEN:2||size exclusion chromatography:2||ORGANIZATION:2||POLY(LACTIC ACID):2||MOLECULAR ARCHITECTURE:2||COUPLER:2||POLYSTYRENE COPOLYMER:2||diffusion coefficient:2||XRAY REFLECTIVITY:2||temperature gradient interaction chromatography polystyryllithium:2||VISCOELASTIC PROPERTIES:2||polyisoprene:2||CRYSTALSTRUCTURES:2||POLYCARBONATE:2||MULTILAYERS:2||DEPOSITION:2||FULL ADSORPTION MECHANISMS:2||QUANTUM DOTS:2||CRITICAL ORDERING TRANSITION:2||CORE:2||PARACRYSTALLINE DISTORTION:2||PERFORATED LAYER PHASE:2||liposomes:2||phospholipids:2||UNILAMELLAR VESICLES:2||VOLTAMMETRIC DETERMINATION:2||Polyimide:2||FOURIERTRANSFORM:2||SURFACE:2||SIZE EXCLUSION CHROMATOGRAPHY:2||NEUTRON REFLECTIVITY:2||ORDERED STRUCTURE:2||RIGID ROD POLYMERS:2||DISPLACEMENT POLYMERIZATION:2||PHOTOSENSITIVE POLYIMIDE:2||EFFICIENCY:2||films:2||Polylactide:2||CHROMATOGRAPHIC CRITICAL CONDITION:2||RETENTION MECHANISM:2||COPPER PHTHALOCYANINE:2||C60:2||COPOLYMER:2||micelle:2||LINEAR POLYETHYLENE:2||LIQUIDS:2||ARMS:2||HIGHPERFORMANCE LIQUID:2||alternating copolyimides:2||PHASE SEPARATION:2||POLYMERCHAINS:2||STYRYLPYRIDINIUM:2||ANGLES:2||MOBILITY:2||PROBE:2||ACIDS:2||BLUE:2||POSITIONS:2||CYCLOPENTADIENYL:2||HIGHMOLECULARWEIGHT:2||FUELCELLS:2||TIN OXIDE:2||NANOCRYSTALS:2||SURFACE MICELLE FORMATION:2||DISORDER TRANSITION:2||BIREFRINGENCE:2||LIPIDCOMPOSITION:2||CONJUGATED POLYMERS:2||GLASSYCARBON ELECTRODE:2||ELECTROCHEMICAL DETECTION:2||MULTIPLE DETECTION:2||aromatic polyimides:2||MOLECULARWEIGHT HOMOPOLYMERS:2||BINARYMIXTURE:2||PATTERNS:2||photoluminescent polyimide:2||photosensitive polyimide:2||DEPENDENT MICELLIZATION:2||SPEED:2||synthesis:2||COIL BLOCKCOPOLYMERS:2||LIQUIDCRYSTALLINE ASSEMBLIES:2||OXIDE):2||molecular weight distribution:2||CONJUGATED POLYMER:2||polymer characterization:2||NONIONIC SURFACTANTS:2||STEREOREGULAR POLY(METHYL METHACRYLATE):2||stru
