Open Access System for Information Sharing
All
Title
Author
Subject
Login
Library
Help
검색
HOME
Communities & Collections
Researchers
Title
Browse by Researchers
CHANG, TAIHYUN (장태현)
Convergence Science and Technology(융합대학원)
Field(s)
Homepage
Loading...
Export
Journal Papers
(International)
Journal Papers
(Domestic)
Conference Papers
(International)
Conference Papers
(Domestic)
Journal Papers(International)
Journal Papers(Domestic)
Conference Papers(International)
Conference Papers(Domestic)
20 items
100 items
200 items
Show more items...
Keyword
POLYSTYRENE:39||ANIONICPOLYMERIZATION:34||GRADIENT INTERACTION CHROMATOGRAPHY:31||SEPARATION:26||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||CHAIN:6||POLYIMIDES: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||POLY(METHYL METHACRYLATE):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||FLIGHT MASSSPECTROMETRY:5||ARCHITECTURE:5||LIGHTSCATTERING: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||SEGMENTAL REORIENTATIONS:4||polyimides:4||polypyromellitimides: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||TRANSITION: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||HIGH MOLECULARWEIGHT:3||LASERLIGHTSCATTERING:3||CUBIC PHASE:3||AMPHIPHILIC BLOCKCOPOLYMERS:3||AQUEOUSSOLUTION:3||MODEL:3||HYDRODYNAMIC PROPERTIES:3||FORCED RAYLEIGHSCATTERING:3||4MIKTOARM STAR COPOLYMER:3||SYSTEM:3||PHASEBEHAVIOR: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||RETENTION:3||high temperature:3||ELEVATEDTEMPERATURE:3||MICELLE FORMATION:3||ELECTRONMICROSCOPY:3||Electrospray ionization:2||FRACTIONS:2||nalkanes:2||ISOCRATIC SEPARATION:2||2D correlation spectroscopy:2||CARBONATION:2||POLY(METHYL METHACRYLATE)S:2||ASSOCIATION:2||DIMENSIONS:2||POLYMER MIXTURES:2||ALUMINUM PORPHYRIN:2||GLASSTRANSITION BEHAVIORS:2||LEAD STEARATE:2||MECHANICAL PROPERTIES: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||MOISTURE ABSORPTION:2||SOLID SUBSTRATE:2||aromatic polyimide:2||INDUCED MORPHOLOGICALCHANGES:2||STABILITY:2||LC alignment layers:2||POLYPYROMELLITIMIDES:2||IMPEDANCE MEASUREMENTS:2||HEMEPROTEINS:2||Ion mobility:2||Chiral polymer:2||OLIGOSACCHARIDES:2||OXIDE:2||SIDECHAIN:2||RETARDATION:2||functionality:2||temperature effects:2||glass transition temperature:2||spincoated film:2||phase transition:2||Xray reflectivity:2||ESTER) PRECURSORS:2||aluminum porphyrin catalysts:2||METALLOPORPHYRIN:2||SIGMABONDS:2||PRECURSOR BLEND: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||POLYELECTROLYTE/NONELECTROLYTE SHELLS:2||polyimide:2||liquid crystal alignment layer:2||SOLUBLE POLYIMIDES:2||SEQUENCE:2||POLYBUTADIENECOATED ZIRCONIA:2||PRETILT ANGLES:2||ENHANCED RESONANCE RAMAN:2||SILVER ELECTRODES:2||CROSSSECTIONS:2||IMSMS:2||POLYISOPRENE COPOLYMERS:2||POLYIMIDE THINFILMS:2||POLYMER SURFACES:2||poly(tertbutyl methacrylate) (PtBMA):2||STEREOREGULAR PMMA:2||RAMAN:2||TIME:2||CARBOXYLATO COMPLEXES:2||AGOSTIC INTERACTIONS:2||MOLECULARSTRUCTURE:2||ALKENE:2||POLYIMIDE COMPOSITE: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||BINARY MIXTURES:2||REFLECTOMETRY:2||ROD:2||TRIBLOCK COPOLYMER:2||POLYMER VESICLES:2||CARBON NANOTUBES:2||TRANSFER MECHANISM:2||CLICK CHEMISTRY:2||POLYMER THINFILMS:2||ARRAYS:2||COMPOSITES:2||MALDITOF MS:2||HYDROPHOBIC INTERACTION CHROMATOGRAPHY:2||retention mechanism:2||GRAZINGINCIDENCE:2||POLY(DIMETHYL SILOXANES):2||NANOPOROSITY:2||MASS POLYSTYRENES:2||soluble poly(amic esteraltimide)s:2||DIFFERENTIAL SCANNING CALORIMETRY:2||RESIDUALSTRESS:2||CHEMICALCOMPOSITION:2||propylene oxide:2||cyclic propylene carbonate:2||ACETATE) TOLUENE SOLUTIONS:2||TRANSIENT GRATING METHOD:2||MASS DIFFUSION:2||MICROPHASE SEPARATION TRANSITION:2||POLYSTYRENES:2||POLY(AMIC DIETHYL ESTER) PRECURSOR:2||POLYSILANE:2||CARBOHYDRATEBASED PHOSPHOLIPIDS:2||HELICAL STRANDS:2||FLUORESCENCE DETECTION:2||SENSITIVE DETERMINATION:2||COMPOSITE FILMS:2||microphase:2||HYBRID POLYMERIC MICELLES:2||AQUEOUSMEDIA:2||ABTYPE POLY(ETHERIMIDE)S:2||CORRELATION SPECTROSCOPY:2||3MERCAPTOPROPIONIC ACID:2||BUTADIENE BLOCK COPOLYMER:2||GASPHASE CONFORMATIONS:2||DECANE:2||ENERGIES:2||INFRAREDSPECTROSCOPY:2||MICELLIZATION:2||PHOTOALIGNMENT:2||polymers:2||ACID) PRECURSORS: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||HYDROPHOBIC CORES:2||FLEXIBLE SIDECHAINS:2||NANOFILMS:2||MESOGEN:2||size exclusion chromatography:2||ORGANIZATION:2||AU(111) ELECTRODES:2||POLY(LACTIC ACID):2||MOLECULAR ARCHITECTURE:2||POLYSTYRENE COPOLYMER:2||COUPLER:2||diffusion coefficient:2||temperature gradient interaction chromatography polystyryllithium:2||XRAY REFLECTIVITY:2||polyisoprene:2||VISCOELASTIC PROPERTIES:2||AQUEOUSSOLUTIONS:2||POLYCARBONATE:2||CRYSTALSTRUCTURES:2||MULTILAYERS:2||DEPOSITION:2||FULL ADSORPTION MECHANISMS:2||QUANTUM DOTS:2||CRITICAL ORDERING TRANSITION:2||CORE:2||PERFORATED LAYER PHASE:2||PARACRYSTALLINE DISTORTION:2||liposomes:2||phospholipids:2||UNILAMELLAR VESICLES:2||VOLTAMMETRIC DETERMINATION:2||Polyimide:2||SIZE EXCLUSION CHROMATOGRAPHY:2||NEUTRON REFLECTIVITY:2||RIGID ROD POLYMERS:2||DISPLACEMENT POLYMERIZATION:2||PHOTOSENSITIVE POLYIMIDE:2||EFFICIENCY:2||films:2||FOURIERTRANSFORM:2||SURFACE:2||ORDERED STRUCTURE:2||Polylactide:2||CHROMATOGRAPHIC CRITICAL CONDITION:2||COPPER PHTHALOCYANINE:2||C60:2||COPOLYMER:2||RETENTION MECHANISM:2||micelle:2||LINEAR POLYETHYLENE:2||LIQUIDS:2||ARMS:2||HIGHPERFORMANCE LIQUID:2||POLYMERCHAINS:2||STYRYLPYRIDINIUM:2||ANGLES:2||ACIDS:2||alternating copolyimides:2||MOBILITY:2||PROBE:2||BLUE:2||POSITIONS:2||PHASE SEPARATION: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||photosensitive polyimide:2||photoluminescent polyimide:2||aromatic polyimides:2||DEPENDENT MICELLIZATION:2||SPEED:2||synthesis:2||COIL BLOCKCOPOLYMERS:2||LIQUIDCRYSTALLINE ASSEMBLIES:2||MOLECULARWEIGHT HOMOPOLYMERS:2||BINARYMIXTURE:2||CONJUGATED POLYMER:2||OXIDE):2||molecular weight distribution:2||polymer characterization:2||NONIONIC SURFACTANTS:2||STEREOREGULAR POLY(METHYL METHACRYLATE):2||STRESS:2||structure:2||STRUCTURAL RELAXATION:2||SALT:2||LIVING POLYMERIZATION:2||CONTAIN:2||WAVEGUIDE:2||RODLIKE POLYIMIDE:2||FLEXIBLE POLYIMIDE:2||PHASESEPARATION:2||THERMAL IMIDIZATION:2||IN SITU RODCHAIN FORMATION:2||VINYL ETHER):2||EQUILIBRIUM:2||XRAY DIFFRACTION:2||IR:2||WALLED CARBON NANOTUBES:2||SILICON NANOWIRES:2||DIELECTRIC THINFILMS:2||PARAMETERS:2||Selfassembled monolayer:2||PRECURSORS:2||FILM BALANCE:2||SIDECHAINS:2||SUPRAMOLECULAR MATERIALS:2||Temperature gradient interaction chromatography:2||CHAINS:2||
Publication & Time Cited Count
(For the Last 5 years)
Browse
Communities & Collections
Researcher
Title
Login
Library
Help