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JE, JUNG HO (제정호)
Dept of Materials Science & Engineering(신소재공학과)
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GROWTH:27||THINFILMS:16||SYNCHROTRONRADIATION:15||CONTRAST:11||RADIOLOGY:11||PARTICLES:11||FILMS:11||SILICON:10||RADIATION:10||DEPOSITION:10||RESOLUTION:9||CRYSTALS:8||SILICONCARBIDE:7||XRAYS:7||MAMMOGRAPHY:7||Xray diffraction:7||synchrotron radiation:6||XRAYSCATTERING:6||MODEL:6||microstructure:6||DYNAMICS:5||ELECTRODEPOSITION:5||LAYERS:5||CHEMICALVAPORDEPOSITION:5||TEMPERATURE:5||TOMOGRAPHY:5||COMPUTEDTOMOGRAPHY:5||SAPPHIRE:5||MEDIA:5||NANOWIRES:5||DIFFRACTION:4||TISSUES:4||pulsed laser deposition:4||phase contrast imaging:4||LAYER:4||IMAGES:4||DIODES:4||FIELDEFFECT TRANSISTORS:4||ptype GaN:4||MICROSCOPY:4||REDUCTION:4||POLYMER:4||DEFECTS:3||COHERENCE:3||MICROTOMOGRAPHY:3||NANOPARTICLES:3||synchrotron:3||LIGHT:3||TRANSISTORS:3||SURFACES:3||STRAIN:3||EPITAXIAL LAYERS:3||DRUGDELIVERY:3||REFRACTION:3||growth mechanism:3||METALS:3||MICROPIPES:3||SYSTEM:3||NUCLEATION:3||synchrotron Xray scattering:3||SURFACE:3||SCREW DISLOCATIONS:3||SIMULATION:3||HARD XRAYS:3||ELECTRICALPROPERTIES:3||EPITAXY:3||GAN:3||PM2.5:3||EVAPORATION:3||LIQUIDS:3||INPLANE:3||RAT:3||ANGIOGENESIS:3||CT:3||GaN:3||ZnO:3||NANORODS:3||strain:3||PB(ZR0.53TI0.47)O3:3||CRYSTALLIZATION:3||synchrotron Xrays:2||buffer layer:2||TRANSMISSION ELECTRONMICROSCOPY:2||EPITAXIAL COSI2 FILMS:2||MECHANISMS:2||INSITU GROWTH:2||DEVICE:2||LOCALIZED ELECTROCHEMICAL DEPOSITION:2||X ray diffraction:2||SCHOTTKY CONTACT:2||IRRADIATION:2||aqua regia treatment:2||INVIVO:2||CELLADHESION:2||MORPHOGENETIC PROTEIN2:2||RECEPTOR:2||TEM:2||broadband synchrotron light:2||nanoparticle:2||BUFFER LAYERS:2||TC:2||ENHANCED SYNCHROTRON RADIOLOGY:2||synthesis:2||POLYDIMETHYLSILOXANE:2||MICROCHANNELS:2||PRETREATMENT PROCESS:2||XRAY:2||CHEMOTAXIS:2||MECHANOSENSORY TRANSDUCTION:2||rectangular microtube:2||CONJUGATED POLYMER:2||atomic force microscopy:2||METALLIC OXIDE SRRUO3:2||LASERABLATION:2||STRESS:2||ZONE PLATES:2||FRICTION:2||THERMALSTABILITY:2||Xrays:2||RAY:2||NM:2||ENERGY:2||TOPOGRAPHY:2||synchrotron Xray:2||ACID HYDROGELS:2||CAENORHABDITISELEGANS:2||PROTEIN:2||defects:2||EVOLUTION:2||FABRICATION:2||sharp bending waveguide:2||lasing action:2||BULK CRYSTALS:2||SUPERLATTICES:2||COATED CONDUCTORS:2||SI(111):2||phase contrast:2||CORONARY ANGIOGRAPHY:2||SPECTROMICROSCOPY:2||MEPHISTO:2||OXYGEN:2||OPTICALPROPERTIES:2||RADIOGRAPHY:2||CONTACT DEFORMATIONS:2||MOLECULAR FORCES:2||SOLIDS:2||NTYPE GAN:2||deposition:2||CHEMISTRY:2||DEFORMATION:2||SUBSTRATE:2||HETEROEPITAXY:2||NANOTOPOGRAPHY:2||EPITAXIALGROWTH:2||Xray:2||CHEMICAL VAPORDEPOSITION:2||SILICON STRUCTURES:2||STEMCELLS:2||CHANNEL:2||crystal structure:2||CORONARYANGIOGRAPHY:2||SiC:2||BUFFER LAYER:2||MOLECULARBEAM EPITAXY:2||INTERFACE:2||SIZE:2||ELECTRON:2||XRAY MICROSCOPY:2||MORPHOLOGIES:2||NANOCOLLOIDS:2||FORCE MICROSCOPY:2||ablation:2||polymers:2||(NH4)(2)Sx treatment:2||CLUSTERS:2||BIOMATERIALS:2||CIRCUITS:2||rectangular ring mode:2||GUIDES:2||MICROCAVITY:2||PHOTOLUMINESCENCE:2||epitaxial growth:2||EMBRITTLEMENT:2||Xray imaging:2||BIOCOMPATIBILITY:2||BEHAVIOR:2||MICROWAVEPLASMA:2||LOWPRESSURE:2||DEGRADATION:2||TISSUE:2||LIQUID:2||SOFT LITHOGRAPHY:2||amplified spontaneous emission (ASE):2||SMALL ORGANICMOLECULES:2||PHOTONIC CRYSTAL:2||micropipes:2||radiology:2||ALLOY:2||Xray scattering:2||CRITICALCURRENT DENSITY:2||ELECTRONMICROSCOPY:2||BI(PB)SRCACUO:2||ELECTRONICSTRUCTURE:2||RECONSTRUCTION:2||MG:2||ohmic contact:2||Pd ohmic contact:2||xray scattering:2||INP:2||annealing:2||REGENERATION:2||TITANIUM:2||COLLOIDAL GOLD:2||crystallization:2||BUCKLING MECHANICS:2||LASERS:2||MODES:2||synchrotron imaging:2||lattice distortion:2||AQUEOUSELECTROLYTE:2||MOLECULARDYNAMICS:2||OXIDE:2||MICROANGIOGRAPHY:2||OXIDATION:2||MICRORADIOLOGY:2||TECHNOLOGY:2||GE:2||surface chemistry:2||RECOVERY:2||OHMIC CONTACTS:2||LASERDIODES:2||PTYPE GAN:2||MOTION:2||PHANTOM:2||PHASE:2||CALCIUMPHOSPHATE CERAMICS:2||REPAIR:2||porphyrin:2||AMPLIFIED SPONTANEOUS EMISSION:2||METALELECTRODES:2||PD:2||SUPERCONDUCTING TAPES:2||nucleation:2||COATINGS:2||Xray topography:2||MONOLAYERS:2||SURFACE MODIFICATION:2||LITHOGRAPHY:2||MECHANICAL VENTILATION:1||MICRORIBBONS:1||STIFFNESS:1||DUALPHASE STEEL:1||growth mode:1||strain evolution:1||SI(100):1||ANISOTROPY:1||WET GRANULAR PILE:1||COALESCENCE:1||INSITU POLYMERIZATION:1||GRAPHENE:1||CANCER:1||NODULES:1||RABBITS:1||phasecontrast:1||YTTRIUMOXIDE FILMS:1||BaTiO3/SrTiO3:1||dental implant:1||coincidence site density:1||ERNI2B2C:1||crystallites:1||CoCrPt films:1||tensile strain:1||gallide:1||MGO:1||Baferrite film:1||synchrotron xray scattering:1||ZNO THINFILMS:1||MORPHOLOGY:1||PHASES:1||MICE:1||EBEAM LITHOGRAPHY:1||electrorheological fluids:1||NANOFIBROUS MEMBRANES:1||NANOLITHOGRAPHY:1||refractive index radiology:1||BLOOD:1||colloidal:1||SIZE CONTROL:1||nanoradiology:1||ZnSO4:1||lung injury:1||METAL:1||PM10:1||textured grain:1||MICROSTRUCTURE:1||DIMENSIONS:1||highresolution Xray diffraction:1||low temperature buffer:1||Zinc compounds:1||SI:1||HUMAN LONGEVITY:1||Maximum human lifespan:1||LIMITS:1||MOSFETS:1||in situ XANES:1||nanowires:1||PHOTOIRRADIATION:1||FIBERS:1||WORK:1||EMISSION:1||RADIATION MICROTOMOGRAPHY:1||RAMANSCATTERING:1||gold nanoparticles:1||synchrotron Xray diffraction:1||OPTICAL WAVEGUIDES:1||CONDUCTINGPOLYMER NANOWIRE:1||Lung cancer:1||INTRAVENOUS CORONARYARTERIOGRAPHY:1||SUBLIMATION GROWTH:1||radiography:1||porous SiC:1||GIANT MAGNETORESISTANCE:1||SEMICONDUCTORS:1||Ga diffusion:1||electroless deposition:1||HEMATITE:1||FREEELECTRON LASER:1||MOCVD:1||interfaces:1||white beam:1||imaging technique:1||nucleation layer:1||interface structure:1||epitaxial Baferrite film:1||rf magnetron sputtering:1||MAGNETIC CHARACTERISTICS:1||MIXTURE:1||ACCESS MEMORY APPLICATION:1||COHERENCY STRAIN:1||DENSITY:1||nanofabrication:1||POLY(METHYL METHACRYLATE) MICROSPHERE:1||RESIST:1||unmonochromatic beam:1||MICRORADIOGRAPHY:1||INTERFEROMETER:1||EXPOSURE:1||volume variation electronic:1||PULSEDLASER ABLATION:1||Semiconducting IIVI materials:1||Light emitting diodes:1||phase contrast microscopies:1||lung:1||AUGERELECTRON SPECTROSCOPY:1||passivation:1||additive manufacturing:1||Silicon carbide:1||Synchrotron radiation:1||Synchrotron radiation imaging:1||Dislocations (crystals):1||LUNG INJURY:1||POLYMER SURFACES:1||SINGLE CELLS:1||PREFERRED ORIENTATION:1||sapphire orientation:1||TANTALUM:1||BIASENHANCED NUCLEATION:1||hexaferrite:1||stretched exponential:1||SOLIDSURFACE:1||SHEAR:1||VIDEO MICROSCOPY:1||CARBON NANOTUBES:1||realtime observation:1||Xray synchrotron:1||CARBONMONOXIDE:1||ELECTROCHEMICAL FABRICATION:1||crystal growth:1||computer simulation:1||FERROELECTRICFILMS:1||TITANIUM IMPLANTS:1||BONE INTERFACE:1||EXAFS perpendicular magnetic recording:1||Pd/Ni:1||ELECTRODES:1||internal organ:1||LIGHTEMITTINGDIODES:1||interfacial structure:1||CONSTANT:1||DIELECTRICPROPERTIES:1||AR:1||DEVICES:1||BiSrCaCuO:1||LASER ABLATION:1||MECHANISM:1||SELECTIVE DEPOSITION:1||TARGETED DRUGDELIVERY:1||PEG:1||carbon nanotubes:1||nanocharacterization:1||WALLED CARBON NANOTUBE:1||basal cell carcinoma:1||PARTICULATE AIRPOLLUTION:1||FINE:1||CITIES:1||DOPED ZNO FILMS:1||atherosclerosis:1||drug delivery:1||hard Xray:1||COMBUSTION:1||ARTIFICIAL BATIO3/SRTIO3 SUPERLATTICES:1||surface morphology:1||Direct wafer bonding:1||COLLOIDAL GOLD PARTICLES:1||DELINEATION:1||EXPECTANCY:1||DEMOGRAPHY:1||MRI:1||SIGE:1||Phase contrast microradiography:1||INJURY:1||PASSIVITY:1||VOLUME:1||CONTACTANGLE:1||ARRAYS:1||DUCTILITY:1||sputtering:1||computed microtomography (mu CT):1||unmonochromatized Xray:1||BIPOLARTRANSISTORS:1||longevity:1||Confocal microscopy:1||Colloidal wettability:1||ATOMICFORCE MICROSCOPY:1||storage ring:1||digital subtraction:1||SCATTERING:1||size effect:1||SYNTHETIC QUARTZ:1||liquid metal embrittlement:1||iron ore:1||cube textured Ni substrates:1||SrRuO3 films:1||laser ablations:1||Ti underlayer:1||RANDOMACCESS MEMORIES:1||DOMAIN CONFIGURATIONS:1||MGO(100):1||SPECTROSCOPY:1||XE:1||IONBEAM:1||GRAINBOUNDARY MIGRATION:1||SRTIO3:1||COMPOSITES:1||FOAMS:1||BREASTCANCER SPECIMENS:1||unmonochromatized:1||Xray induced nucleation:1||gold:1||ABSORPTION:1||SEPARATION:1||CZOCHRALSKI GROWTH:1||RETRIEVAL:1||GAMMARADIATION:1||AQUEOUSSOLUTION:1||NANOCOMPOSITES:1||INCREASE:1||without staining procedure:1||XPS:1||Imaging techniques:1||Interfaces (materials):1||Dislocation distributions:1||AZOBENZENE:1||STRUCTURAL EVOLUTION:1||RELAXATION:1||DROP IMPACT:1||NONLINEAR DYNAMICS:1||DISLOCATIONS:1||Colloids:1||TRANSFORMATION:1||METAL INTERCONNECTS:1||ELASTIC CONDUCTORS:1||LOGIC:1||DEFICIENT MICE:1||tomography:1||FACILITY:1||osseointegration:1||ROCKS:1||dental radiography:1||Zn coating:1||RE2O3/Ni:1||YBCO COATED CONDUCTORS:1||threedimensional islands:1||(Ba,Sr)TiO3:1||ultrahigh resolution:1||photoelectron emission:1||Pd:1||LANIO3:1||BASE ELECTRODES:1||iron oxide phase:1||ironoxide interlayer:1||COATED GLASS SUBSTRATE:1||MICROWAVE PLASMA NUCLEATION:1||ENHANCED NUCLEATION:1||phase transformation:1||ADSORPTION:1||phasecontrast xray imaging:1||lung inflammation:1||SI1XGEX SINGLECRYSTALS:1||COCONTINUITY:1||SCALE:1||OBJECT:1||synchrotron microradiography:1||FeSO4:1||INDUCTION:1||BaTiO3 and SrTiO3 thin films:1||HARDXRAYS:1||light emitting diodes:1||ACID:1||MICROSTRUCTURES:1||PHOTOLUMINESCENCE PROPERTIES:1||LASER IRRADIATION:1||Human aging:1||polychromatic synchrotron Xray:1||refraction enhanced imaging:1||CHROMOPHORES:1||ACUTE LUNG INJURY:1||spatial resolution:1||BETAFESI2:1||VLSI:1||SI1XGEX:1||COLLOIDAL SUSPENSIONS:1||ELECTRONICS:1||ENHANCEMENT:1||artificial lattice:1||sinters:1||SILVER:1||STRAIN RELAXATION:1||biaxial texture:1||synchrotron scattering:1||transmission electron microscopy:1||IRONOXIDE FILMS:1||PZT thin film:1||ferroelectric thin film:1||MISFIT RELAXATION MECHANISMS:1||PBTIO3:1||O2:1||CONDUCTING POLYMERS:1||poly(methylmethancrylate):1||microspheres:1||phase contrast Xray microscope:1||AMBIENT AIR:1||ATMOSPHERE:1||XRAY INTERFEROMETER:1||NiAu composite nanoparticles.:1||synchrotron radiation Xrays:1||microtomography:1||OIL FLYASH:1||zinc oxide:1||mammography:1||SrRuO3 film:1||Laser epitaxy:1||HOLE MOBILITY:1||Models of crystal defects:1||RABBIT LUNGS:1||NI/AU CONTACT:1||3D printing:1||Stress relaxation:1||SURFACEAREA:1||IMAGE:1||modulation transfer function (MTF):1||Pb ions:1||Insitu visualization:1||Interfacial tension:1||DISPERSION FORCES:1||SINGLECRYSTALS:1||XRAY SOURCE:1||Synchrotron Xray imaging:1||Realtime imaging:1||MEDICAL APPLICATIONS:1||wiggler bending magnet:1||undulator:1||diffractionenhanced imaging:1||ZnO film:1||CAPACITORS:1||HE3:1||NiP alloy:1||PHOTOCHEMICAL FORMATION:1||extended domain matching:1||cubetextured Ni substrates:1||RAY COMPUTEDTOMOGRAPHY:1||electrode layer:1||DOMAINSTRUCTURE:1||XRAY CT:1||SPECIMEN:1||mammographic phantom:1||Xray absorption spectroscopy:1||BLUE:1||CONTACT:1||(BA:1||synchrotron spectromicroscopy:1||thin film:1||MICROWAVE PLASMA:1||GOLD NANOPARTICLES:1||POLYMERIZATION:1||DISEASE:1||Shanghai:1||MORTALITY:1||HETEROSTRUCTURES:1||METHACRYLATE:1||prostate cancer:1||renal cell carcinoma:1||RATS:1||PULSEDLASER DEPOSITION:1||semiconducting IIVI materials:1||PATTERNS:1||sapphire:1||evaporation:1||ZINCOXIDE:1||LIGHTEMITTING DIODE:1||Synchrotron imaging:1||Dislocations:1||Cracks:1||LIVE:1||spinal cord:1||stainless steel:1||nanophotonics:1||subwavelength waveguides:1||Synchrotrons:1||High dislocation density:1||Misfit stress relaxations:1||Randomly distributed:1||Tripleaxis xray diffractions:1||FLOW:1||CRYSTALLINE ORGANIC NANORODS:1||SHAPE CHANGES:1||ZnO thin film:1||(111)SI:1||XRAY MIRRORS:1||low temperature:1||oxide cathodes:1||heterogeneity:1||Xray microscopy:1||INTERFACIAL TENSIONS:1||single crystal growth:1||CARCINOMA:1||mouse:1||ANIMALS:1||Mndoped ZnO:1||luminescence:1||solution precipitation:1||CLUSTER:1||relaxation:1||ALPHAFE2O3:1||XANES:1||epitaxy:1||LaNiO3 thin film:1||LANIO3 THINFILMS:1||ELECTRODE:1||Fe3O4 sublayer:1||EXAFS microscopy:1||FERRITE FILMS:1||SURFACE PRETREATMENTS:1||superconductors:1||CONTRAST AGENT:1||BIODISTRIBUTION:1||DEATH:1||SYNCHROTRON:1||IR:1||apo Eknockout mouse:1||plaque:1||microradiology:1||ALPHASYNUCLEIN:1||PULMONARY TOXICITY:1||XRAY TOPOGRAPHY:1||dislocation:1||metalorganic chemical vapor deposition:1||CRYSTALGROWTH:1||SELFASSEMBLED MONOLAYERS:1||MEMBRANES:1||MAGNETICANISOTROPY:1||SI1XGEX CRYSTALS:1||STRAINEDSI:1||Extended Weibull model:1||MOLYBDENUM:1||ALLOYS:1||IRON:1||Theoretical modeling:1||Threading dislocation:1||GROWTH:27||THINFILMS:16||SYNCHROTRONRADIATION:15||CONTRAST:11||RADIOLOGY:11||PARTICLES:11||FILMS:11||SILICON:10||RADIATION:10||DEPOSITION:10||RESOLUTION:9||CRYSTALS:8||SILICONCARBIDE:7||XRAYS:7||MAMMOGRAPHY:7||Xray diffraction:7||synchrotron radiation:6||XRAYSCATTERING:6||MODEL:6||microstructure:6||DYNAMICS:5||ELECTRODEPOSITION:5||LAYERS:5||CHEMICALVAPORDEPOSITION:5||TEMPERATURE:5||TOMOGRAPHY:5||COMPUTEDTOMOGRAPHY:5||SAPPHIRE:5||MEDIA:5||NANOWIRES:5||DIFFRACTION:4||TISSUES:4||pulsed laser deposition:4||phase contrast imaging:4||LAYER:4||IMAGES:4||DIODES:4||FIELDEFFECT TRANSISTORS:4||ptype GaN:4||MICROSCOPY:4||REDUCTION:4||POLYMER:4||DEFECTS:3||COHERENCE:3||MICROTOMOGRAPHY:3||NANOPARTICLES:3||synchrotron:3||LIGHT:3||TRANSISTORS:3||SURFACES:3||STRAIN:3||EPITAXIAL LAYERS:3||DRUGDELIVERY:3||REFRACTION:3||growth mechanism:3||METALS:3||MICROPIPES:3||SYSTEM:3||NUCLEATION:3||synchrotron Xray scattering:3||SURFACE:3||SCREW DISLOCATIONS:3||SIMULATION:3||HARD XRAYS:3||ELECTRICALPROPERTIES:3||EPITAXY:3||GAN:3||PM2.5:3||EVAPORATION:3||LIQUIDS:3||INPLANE:3||RAT:3||ANGIOGENESIS:3||CT:3||GaN:3||ZnO:3||NANORODS:3||strain:3||PB(ZR0.53TI0.47)O3:3||CRYSTALLIZATION:3||synchrotron Xrays:2||buffer layer:2||TRANSMISSION ELECTRONMICROSCOPY:2||EPITAXIAL COSI2 FILMS:2||MECHANISMS:2||INSITU GROWTH:2||DEVICE:2||LOCALIZED ELECTROCHEMICAL DEPOSITION:2||X ray diffraction:2||SCHOTTKY CONTACT:2||IRRADIATION:2||aqua regia treatment:2||INVIVO:2||CELLADHESION:2||MORPHOGENETIC PROTEIN2:2||RECEPTOR:2||TEM:2||broadband synchrotron light:2||nanoparticle:2||BUFFER LAYERS:2||TC:2||ENHANCED SYNCHROTRON RADIOLOGY:2||synthesis:2||POLYDIMETHYLSILOXANE:2||MICROCHANNELS:2||PRETREATMENT PROCESS:2||XRAY:2||CHEMOTAXIS:2||MECHANOSENSORY TRANSDUCTION:2||rectangular microtube:2||CONJUGATED POLYMER:2||atomic force microscopy:2||METALLIC OXIDE SRRUO3:2||LASERABLATION:2||STRESS:2||ZONE PLATES:2||FRICTION:2||THERMALSTABILITY:2||Xrays:2||RAY:2||NM:2||ENERGY:2||TOPOGRAPHY:2||synchrotron Xray:2||ACID HYDROGELS:2||CAENORHABDITISELEGANS:2||PROTEIN:2||defects:2||EVOLUTION:2||FABRICATION:2||sharp bending waveguide:2||lasing action:2||BULK CRYSTALS:2||SUPERLATTICES:2||COATED CONDUCTORS:2||SI(111):2||phase contrast:2||CORONARY ANGIOGRAPHY:2||SPECTROMICROSCOPY:2||MEPHISTO:2||OXYGEN:2||OPTICALPROPERTIES:2||RADIOGRAPHY:2||CONTACT DEFORMATIONS:2||MOLECULAR FORCES:2||SOLIDS:2||NTYPE GAN:2||deposition:2||CHEMISTRY:2||DEFORMATION:2||SUBSTRATE:2||HETEROEPITAXY:2||NANOTOPOGRAPHY:2||EPITAXIALGROWTH:2||Xray:2||CHEMICAL VAPORDEPOSITION:2||SILICON STRUCTURES:2||STEMCELLS:2||CHANNEL:2||crystal structure:2||CORONARYANGIOGRAPHY:2||SiC:2||BUFFER LAYER:2||MOLECULARBEAM EPITAXY:2||INTERFACE:2||SIZE:2||ELECTRON:2||XRAY MICROSCOPY:2||MORPHOLOGIES:2||NANOCOLLOIDS:2||FORCE MICROSCOPY:2||ablation:2||polymers:2||(NH4)(2)Sx treatment:2||CLUSTERS:2||BIOMATERIALS:2||CIRCUITS:2||rectangular ring mode:2||GUIDES:2||MICROCAVITY:2||PHOTOLUMINESCENCE:2||epitaxial growth:2||EMBRITTLEMENT:2||Xray imaging:2||BIOCOMPATIBILITY:2||BEHAVIOR:2||MICROWAVEPLASMA:2||LOWPRESSURE:2||DEGRADATION:2||TISSUE:2||LIQUID:2||SOFT LITHOGRAPHY:2||amplified spontaneous emission (ASE):2||SMALL ORGANICMOLECULES:2||PHOTONIC CRYSTAL:2||micropipes:2||radiology:2||ALLOY:2||Xray scattering:2||CRITICALCURRENT DENSITY:2||ELECTRONMICROSCOPY:2||BI(PB)SRCACUO:2||ELECTRONICSTRUCTURE:2||RECONSTRUCTION:2||MG:2||ohmic contact:2||Pd ohmic contact:2||xray scattering:2||INP:2||annealing:2||REGENERATION:2||TITANIUM:2||COLLOIDAL GOLD:2||crystallization:2||BUCKLING MECHANICS:2||LASERS:2||MODES:2||synchrotron imaging:2||lattice distortion:2||AQUEOUSELECTROLYTE:2||MOLECULARDYNAMICS:2||OXIDE:2||MICROANGIOGRAPHY:2||OXIDATION:2||MICRORADIOLOGY:2||TECHNOLOGY:2||GE:2||surface chemistry:2||RECOVERY:2||OHMIC CONTACTS:2||LASERDIODES:2||PTYPE GAN:2||MOTION:2||PHANTOM:2||PHASE:2||CALCIUMPHOSPHATE CERAMICS:2||REPAIR:2||porphyrin:2||AMPLIFIED SPONTANEOUS EMISSION:2||METALELECTRODES:2||PD:2||SUPERCONDUCTING TAPES:2||nucleation:2||COATINGS:2||Xray topography:2||MONOLAYERS:2||SURFACE MODIFICATION:2||LITHOGRAPHY:2||MECHANICAL VENTILATION:1||MICRORIBBONS:1||STIFFNESS:1||DUALPHASE STEEL:1||growth mode:1||strain evolution:1||SI(100):1||ANISOTROPY:1||WET GRANULAR PILE:1||COALESCENCE:1||INSITU POLYMERIZATION:1||GRAPHENE:1||CANCER:1||NODULES:1||RABBITS:1||phasecontrast:1||YTTRIUMOXIDE FILMS:1||BaTiO3/SrTiO3:1||dental implant:1||coincidence site density:1||ERNI2B2C:1||crystallites:1||CoCrPt films:1||tensile strain:1||gallide:1||MGO:1||Baferrite film:1||synchrotron xray scattering:1||ZNO THINFILMS:1||MORPHOLOGY:1||PHASES:1||MICE:1||EBEAM LITHOGRAPHY:1||electrorheological fluids:1||NANOFIBROUS MEMBRANES:1||NANOLITHOGRAPHY:1||refractive index radiology:1||BLOOD:1||colloidal:1||SIZE CONTROL:1||nanoradiology:1||ZnSO4:1||lung injury:1||METAL:1||PM10:1||textured grain:1||MICROSTRUCTURE:1||DIMENSIONS:1||highresolution Xray diffraction:1||low temperature buffer:1||Zinc compounds:1||SI:1||HUMAN LONGEVITY:1||Maximum human lifespan:1||LIMITS:1||MOSFETS:1||in situ XANES:1||nanowires:1||PHOTOIRRADIATION:1||FIBERS:1||WORK:1||EMISSION:1||RADIATION MICROTOMOGRAPHY:1||RAMANSCATTERING:1||gold nanoparticles:1||synchrotron Xray diffraction:1||OPTICAL WAVEGUIDES:1||CONDUCTINGPOLYMER NANOWIRE:1||Lung cancer:1||INTRAVENOUS CORONARYARTERIOGRAPHY:1||SUBLIMATION GROWTH:1||radiography:1||porous SiC:1||GIANT MAGNETORESISTANCE:1||SEMICONDUCTORS:1||Ga diffusion:1||electroless deposition:1||HEMATITE:1||FREEELECTRON LASER:1||MOCVD:1||interfaces:1||white beam:1||imaging technique:1||nucleation layer:1||interface structure:1||epitaxial Baferrite film:1||rf magnetron sputtering:1||MAGNETIC CHARACTERISTICS:1||MIXTURE:1||ACCESS MEMORY APPLICATION:1||COHERENCY STRAIN:1||DENSITY:1||nanofabrication:1||POLY(METHYL METHACRYLATE) MICROSPHERE:1||RESIST:1||unmonochromatic beam:1||MICRORADIOGRAPHY:1||INTERFEROMETER:1||EXPOSURE:1||volume variation electronic:1||PULSEDLASER ABLATION:1||Semiconducting IIVI materials:1||Light emitting diodes:1||phase contrast microscopies:1||lung:1||AUGERELECTRON SPECTROSCOPY:1||passivation:1||additive manufacturing:1||Silicon carbide:1||Synchrotron radiation:1||Synchrotron radiation imaging:1||Dislocations (crystals):1||LUNG INJURY:1||POLYMER SURFACES:1||SINGLE CELLS:1||PREFERRED ORIENTATION:1||sapphire orientation:1||TANTALUM:1||BIASENHANCED NUCLEATION:1||hexaferrite:1||stretched exponential:1||SOLIDSURFACE:1||SHEAR:1||VIDEO MICROSCOPY:1||CARBON NANOTUBES:1||realtime observation:1||Xray synchrotron:1||CARBONMONOXIDE:1||ELECTROCHEMICAL FABRICATION:1||crystal growth:1||computer simulation:1||FERROELECTRICFILMS:1||TITANIUM IMPLANTS:1||BONE INTERFACE:1||EXAFS perpendicular magnetic recording:1||Pd/Ni:1||ELECTRODES:1||internal organ:1||LIGHTEMITTINGDIODES:1||interfacial structure:1||CONSTANT:1||DIELECTRICPROPERTIES:1||AR:1||DEVICES:1||BiSrCaCuO:1||LASER ABLATION:1||MECHANISM:1||SELECTIVE DEPOSITION:1||TARGETED DRUGDELIVERY:1||PEG:1||carbon nanotubes:1||nanocharacterization:1||WALLED CARBON NANOTUBE:1||basal cell carcinoma:1||PARTICULATE AIRPOLLUTION:1||FINE:1||CITIES:1||DOPED ZNO FILMS:1||atherosclerosis:1||drug delivery:1||hard 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microradiography:1||FeSO4:1||INDUCTION:1||BaTiO3 and SrTiO3 thin films:1||HARDXRAYS:1||light emitting diodes:1||ACID:1||MICROSTRUCTURES:1||PHOTOLUMINESCENCE PROPERTIES:1||LASER IRRADIATION:1||Human aging:1||polychromatic synchrotron Xray:1||refraction enhanced imaging:1||CHROMOPHORES:1||ACUTE LUNG INJURY:1||spatial resolution:1||BETAFESI2:1||VLSI:1||SI1XGEX:1||COLLOIDAL SUSPENSIONS:1||ELECTRONICS:1||ENHANCEMENT:1||artificial lattice:1||sinters:1||SILVER:1||STRAIN RELAXATION:1||biaxial texture:1||synchrotron scattering:1||transmission electron microscopy:1||IRONOXIDE FILMS:1||PZT thin film:1||ferroelectric thin film:1||MISFIT RELAXATION MECHANISMS:1||PBTIO3:1||O2:1||CONDUCTING POLYMERS:1||poly(methylmethancrylate):1||microspheres:1||phase contrast Xray microscope:1||AMBIENT AIR:1||ATMOSPHERE:1||XRAY INTERFEROMETER:1||NiAu composite nanoparticles.:1||synchrotron radiation Xrays:1||microtomography:1||OIL FLYASH:1||zinc oxide:1||mammography:1||SrRuO3 film:1||Laser epitaxy:1||HOLE MOBILITY:1||Models of crystal defects:1||RABBIT LUNGS:1||NI/AU CONTACT:1||3D printing:1||Stress relaxation:1||SURFACEAREA:1||IMAGE:1||modulation transfer function (MTF):1||Pb ions:1||Insitu visualization:1||Interfacial tension:1||DISPERSION FORCES:1||SINGLECRYSTALS:1||XRAY SOURCE:1||Synchrotron Xray imaging:1||Realtime imaging:1||MEDICAL APPLICATIONS:1||wiggler bending magnet:1||undulator:1||diffractionenhanced imaging:1||ZnO film:1||CAPACITORS:1||HE3:1||NiP alloy:1||PHOTOCHEMICAL FORMATION:1||extended domain matching:1||cubetextured Ni substrates:1||RAY COMPUTEDTOMOGRAPHY:1||electrode layer:1||DOMAINSTRUCTURE:1||XRAY CT:1||SPECIMEN:1||mammographic phantom:1||Xray absorption spectroscopy:1||BLUE:1||CONTACT:1||(BA:1||synchrotron spectromicroscopy:1||thin film:1||MICROWAVE PLASMA:1||GOLD NANOPARTICLES:1||POLYMERIZATION:1||DISEASE:1||Shanghai:1||MORTALITY:1||HETEROSTRUCTURES:1||METHACRYLATE:1||prostate cancer:1||renal cell carcinoma:1||RATS:1||PULSEDLASER DEPOSITION:1||semiconducting IIVI materials:1||PATTERNS:1||sapphire:1||evaporation:1||ZINCOXIDE:1||LIGHTEMITTING DIODE:1||Synchrotron imaging:1||Dislocations:1||Cracks:1||LIVE:1||spinal cord:1||stainless steel:1||nanophotonics:1||subwavelength waveguides:1||Synchrotrons:1||High dislocation density:1||Misfit stress relaxations:1||Randomly distributed:1||Tripleaxis xray diffractions:1||FLOW:1||CRYSTALLINE ORGANIC NANORODS:1||SHAPE CHANGES:1||ZnO thin film:1||(111)SI:1||XRAY MIRRORS:1||low temperature:1||oxide cathodes:1||heterogeneity:1||Xray microscopy:1||INTERFACIAL TENSIONS:1||single crystal growth:1||CARCINOMA:1||mouse:1||ANIMALS:1||Mndoped ZnO:1||luminescence:1||solution precipitation:1||CLUSTER:1||relaxation:1||ALPHAFE2O3:1||XANES:1||epitaxy:1||LaNiO3 thin film:1||LANIO3 THINFILMS:1||ELECTRODE:1||Fe3O4 sublayer:1||EXAFS microscopy:1||FERRITE FILMS:1||SURFACE PRETREATMENTS:1||superconductors:1||CONTRAST AGENT:1||BIODISTRIBUTION:1||DEATH:1||SYNCHROTRON:1||IR:1||apo Eknockout 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GaN:4||MICROSCOPY:4||REDUCTION:4||POLYMER:4||DEFECTS:3||COHERENCE:3||MICROTOMOGRAPHY:3||NANOPARTICLES:3||synchrotron:3||LIGHT:3||TRANSISTORS:3||SURFACES:3||STRAIN:3||EPITAXIAL LAYERS:3||DRUGDELIVERY:3||REFRACTION:3||growth mechanism:3||METALS:3||MICROPIPES:3||SYSTEM:3||NUCLEATION:3||synchrotron Xray scattering:3||SURFACE:3||SCREW DISLOCATIONS:3||SIMULATION:3||HARD XRAYS:3||ELECTRICALPROPERTIES:3||EPITAXY:3||GAN:3||PM2.5:3||EVAPORATION:3||LIQUIDS:3||INPLANE:3||RAT:3||ANGIOGENESIS:3||CT:3||GaN:3||ZnO:3||NANORODS:3||strain:3||PB(ZR0.53TI0.47)O3:3||CRYSTALLIZATION:3||synchrotron Xrays:2||buffer layer:2||TRANSMISSION ELECTRONMICROSCOPY:2||EPITAXIAL COSI2 FILMS:2||MECHANISMS:2||INSITU GROWTH:2||DEVICE:2||LOCALIZED ELECTROCHEMICAL DEPOSITION:2||X ray diffraction:2||SCHOTTKY CONTACT:2||IRRADIATION:2||aqua regia treatment:2||INVIVO:2||CELLADHESION:2||MORPHOGENETIC PROTEIN2:2||RECEPTOR:2||TEM:2||broadband synchrotron light:2||nanoparticle:2||BUFFER LAYERS:2||TC:2||ENHANCED SYNCHROTRON RADIOLOGY:2||synthesis:2||POLYDIMETHYLSILOXANE:2||MICROCHANNELS:2||PRETREATMENT PROCESS:2||XRAY:2||CHEMOTAXIS:2||MECHANOSENSORY TRANSDUCTION:2||rectangular microtube:2||CONJUGATED POLYMER:2||atomic force microscopy:2||METALLIC OXIDE SRRUO3:2||LASERABLATION:2||STRESS:2||ZONE PLATES:2||FRICTION:2||THERMALSTABILITY:2||Xrays:2||RAY:2||NM:2||ENERGY:2||TOPOGRAPHY:2||synchrotron Xray:2||ACID HYDROGELS:2||CAENORHABDITISELEGANS:2||PROTEIN:2||defects:2||EVOLUTION:2||FABRICATION:2||sharp bending waveguide:2||lasing action:2||BULK CRYSTALS:2||SUPERLATTICES:2||COATED CONDUCTORS:2||SI(111):2||phase contrast:2||CORONARY ANGIOGRAPHY:2||SPECTROMICROSCOPY:2||MEPHISTO:2||OXYGEN:2||OPTICALPROPERTIES:2||RADIOGRAPHY:2||CONTACT DEFORMATIONS:2||MOLECULAR FORCES:2||SOLIDS:2||NTYPE GAN:2||deposition:2||CHEMISTRY:2||DEFORMATION:2||SUBSTRATE:2||HETEROEPITAXY:2||NANOTOPOGRAPHY:2||EPITAXIALGROWTH:2||Xray:2||CHEMICAL VAPORDEPOSITION:2||SILICON STRUCTURES:2||STEMCELLS:2||CHANNEL:2||crystal structure:2||CORONARYANGIOGRAPHY:2||SiC:2||BUFFER LAYER:2||MOLECULARBEAM EPITAXY:2||INTERFACE:2||SIZE:2||ELECTRON:2||XRAY MICROSCOPY:2||MORPHOLOGIES:2||NANOCOLLOIDS:2||FORCE MICROSCOPY:2||ablation:2||polymers:2||(NH4)(2)Sx treatment:2||CLUSTERS:2||BIOMATERIALS:2||CIRCUITS:2||rectangular ring mode:2||GUIDES:2||MICROCAVITY:2||PHOTOLUMINESCENCE:2||epitaxial growth:2||EMBRITTLEMENT:2||Xray imaging:2||BIOCOMPATIBILITY:2||BEHAVIOR:2||MICROWAVEPLASMA:2||LOWPRESSURE:2||DEGRADATION:2||TISSUE:2||LIQUID:2||SOFT LITHOGRAPHY:2||amplified spontaneous emission (ASE):2||SMALL ORGANICMOLECULES:2||PHOTONIC CRYSTAL:2||micropipes:2||radiology:2||ALLOY:2||Xray scattering:2||CRITICALCURRENT DENSITY:2||ELECTRONMICROSCOPY:2||BI(PB)SRCACUO:2||ELECTRONICSTRUCTURE:2||RECONSTRUCTION:2||MG:2||ohmic contact:2||Pd ohmic contact:2||xray scattering:2||INP:2||annealing:2||REGENERATION:2||TITANIUM:2||COLLOIDAL GOLD:2||crystallization:2||BUCKLING MECHANICS:2||LASERS:2||MODES:2||synchrotron imaging:2||lattice distortion:2||AQUEOUSELECTROLYTE:2||MOLECULARDYNAMICS:2||OXIDE:2||MICROANGIOGRAPHY:2||OXIDATION:2||MICRORADIOLOGY:2||TECHNOLOGY:2||GE:2||surface chemistry:2||RECOVERY:2||OHMIC CONTACTS:2||LASERDIODES:2||PTYPE GAN:2||MOTION:2||PHANTOM:2||PHASE:2||CALCIUMPHOSPHATE CERAMICS:2||REPAIR:2||porphyrin:2||AMPLIFIED SPONTANEOUS EMISSION:2||METALELECTRODES:2||PD:2||SUPERCONDUCTING TAPES:2||nucleation:2||COATINGS:2||Xray topography:2||MONOLAYERS:2||SURFACE MODIFICATION:2||LITHOGRAPHY:2||MECHANICAL VENTILATION:1||MICRORIBBONS:1||STIFFNESS:1||DUALPHASE STEEL:1||growth mode:1||strain evolution:1||SI(100):1||ANISOTROPY:1||WET GRANULAR PILE:1||COALESCENCE:1||INSITU POLYMERIZATION:1||GRAPHENE:1||CANCER:1||NODULES:1||RABBITS:1||phasecontrast:1||YTTRIUMOXIDE FILMS:1||BaTiO3/SrTiO3:1||dental implant:1||coincidence site density:1||ERNI2B2C:1||crystallites:1||CoCrPt films:1||tensile strain:1||gallide:1||MGO:1||Baferrite film:1||synchrotron xray scattering:1||ZNO THINFILMS:1||MORPHOLOGY:1||PHASES:1||MICE:1||EBEAM LITHOGRAPHY:1||electrorheological fluids:1||NANOFIBROUS MEMBRANES:1||NANOLITHOGRAPHY:1||refractive index radiology:1||BLOOD:1||colloidal:1||SIZE CONTROL:1||nanoradiology:1||ZnSO4:1||lung injury:1||METAL:1||PM10:1||textured grain:1||MICROSTRUCTURE:1||DIMENSIONS:1||highresolution Xray diffraction:1||low temperature buffer:1||Zinc compounds:1||SI:1||HUMAN LONGEVITY:1||Maximum human lifespan:1||LIMITS:1||MOSFETS:1||in situ XANES:1||nanowires:1||PHOTOIRRADIATION:1||FIBERS:1||WORK:1||EMISSION:1||RADIATION MICROTOMOGRAPHY:1||RAMANSCATTERING:1||gold nanoparticles:1||synchrotron Xray diffraction:1||OPTICAL WAVEGUIDES:1||CONDUCTINGPOLYMER NANOWIRE:1||Lung cancer:1||INTRAVENOUS CORONARYARTERIOGRAPHY:1||SUBLIMATION GROWTH:1||radiography:1||porous SiC:1||GIANT MAGNETORESISTANCE:1||SEMICONDUCTORS:1||Ga diffusion:1||electroless deposition:1||HEMATITE:1||FREEELECTRON LASER:1||MOCVD:1||interfaces:1||white beam:1||imaging technique:1||nucleation layer:1||interface structure:1||epitaxial Baferrite film:1||rf magnetron sputtering:1||MAGNETIC CHARACTERISTICS:1||MIXTURE:1||ACCESS MEMORY APPLICATION:1||COHERENCY STRAIN:1||DENSITY:1||nanofabrication:1||POLY(METHYL METHACRYLATE) MICROSPHERE:1||RESIST:1||unmonochromatic beam:1||MICRORADIOGRAPHY:1||INTERFEROMETER:1||EXPOSURE:1||volume variation electronic:1||PULSEDLASER ABLATION:1||Semiconducting IIVI materials:1||Light emitting diodes:1||phase contrast microscopies:1||lung:1||AUGERELECTRON SPECTROSCOPY:1||passivation:1||additive manufacturing:1||Silicon carbide:1||Synchrotron radiation:1||Synchrotron radiation imaging:1||Dislocations (crystals):1||LUNG INJURY:1||POLYMER SURFACES:1||SINGLE CELLS:1||PREFERRED ORIENTATION:1||sapphire orientation:1||TANTALUM:1||BIASENHANCED NUCLEATION:1||hexaferrite:1||stretched exponential:1||SOLIDSURFACE:1||SHEAR:1||VIDEO MICROSCOPY:1||CARBON NANOTUBES:1||realtime observation:1||Xray synchrotron:1||CARBONMONOXIDE:1||ELECTROCHEMICAL 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Xray:1||BIPOLARTRANSISTORS:1||longevity:1||Confocal microscopy:1||Colloidal wettability:1||ATOMICFORCE MICROSCOPY:1||storage ring:1||digital subtraction:1||SCATTERING:1||size effect:1||SYNTHETIC QUARTZ:1||liquid metal embrittlement:1||iron ore:1||cube textured Ni substrates:1||SrRuO3 films:1||laser ablations:1||Ti underlayer:1||RANDOMACCESS MEMORIES:1||DOMAIN CONFIGURATIONS:1||MGO(100):1||SPECTROSCOPY:1||XE:1||IONBEAM:1||GRAINBOUNDARY MIGRATION:1||SRTIO3:1||COMPOSITES:1||FOAMS:1||BREASTCANCER SPECIMENS:1||unmonochromatized:1||Xray induced nucleation:1||gold:1||ABSORPTION:1||SEPARATION:1||CZOCHRALSKI GROWTH:1||RETRIEVAL:1||GAMMARADIATION:1||AQUEOUSSOLUTION:1||NANOCOMPOSITES:1||INCREASE:1||without staining procedure:1||XPS:1||Imaging techniques:1||Interfaces (materials):1||Dislocation distributions:1||AZOBENZENE:1||STRUCTURAL EVOLUTION:1||RELAXATION:1||DROP IMPACT:1||NONLINEAR DYNAMICS:1||DISLOCATIONS:1||Colloids:1||TRANSFORMATION:1||METAL INTERCONNECTS:1||ELASTIC CONDUCTORS:1||LOGIC:1||DEFICIENT MICE:1||tomography:1||FACILITY:1||osseointegration:1||ROCKS:1||dental radiography:1||Zn coating:1||RE2O3/Ni:1||YBCO COATED CONDUCTORS:1||threedimensional islands:1||(Ba,Sr)TiO3:1||ultrahigh resolution:1||photoelectron emission:1||Pd:1||LANIO3:1||BASE ELECTRODES:1||iron oxide phase:1||ironoxide interlayer:1||COATED GLASS SUBSTRATE:1||MICROWAVE PLASMA NUCLEATION:1||ENHANCED NUCLEATION:1||phase transformation:1||ADSORPTION:1||phasecontrast xray imaging:1||lung inflammation:1||SI1XGEX SINGLECRYSTALS:1||COCONTINUITY:1||SCALE:1||OBJECT:1||synchrotron microradiography:1||FeSO4:1||INDUCTION:1||BaTiO3 and SrTiO3 thin films:1||HARDXRAYS:1||light emitting diodes:1||ACID:1||MICROSTRUCTURES:1||PHOTOLUMINESCENCE PROPERTIES:1||LASER IRRADIATION:1||Human aging:1||polychromatic synchrotron Xray:1||refraction enhanced imaging:1||CHROMOPHORES:1||ACUTE LUNG INJURY:1||spatial resolution:1||BETAFESI2:1||VLSI:1||SI1XGEX:1||COLLOIDAL SUSPENSIONS:1||ELECTRONICS:1||ENHANCEMENT:1||artificial lattice:1||sinters:1||SILVER:1||STRAIN RELAXATION:1||biaxial texture:1||synchrotron scattering:1||transmission electron microscopy:1||IRONOXIDE FILMS:1||PZT thin film:1||ferroelectric thin film:1||MISFIT RELAXATION MECHANISMS:1||PBTIO3:1||O2:1||CONDUCTING POLYMERS:1||poly(methylmethancrylate):1||microspheres:1||phase contrast Xray microscope:1||AMBIENT AIR:1||ATMOSPHERE:1||XRAY INTERFEROMETER:1||NiAu composite nanoparticles.:1||synchrotron radiation Xrays:1||microtomography:1||OIL FLYASH:1||zinc oxide:1||mammography:1||SrRuO3 film:1||Laser epitaxy:1||HOLE MOBILITY:1||Models of crystal defects:1||RABBIT LUNGS:1||NI/AU CONTACT:1||3D printing:1||Stress relaxation:1||SURFACEAREA:1||IMAGE:1||modulation transfer function (MTF):1||Pb ions:1||Insitu visualization:1||Interfacial tension:1||DISPERSION FORCES:1||SINGLECRYSTALS:1||XRAY SOURCE:1||Synchrotron Xray imaging:1||Realtime imaging:1||MEDICAL APPLICATIONS:1||wiggler bending magnet:1||undulator:1||diffractionenhanced imaging:1||ZnO film:1||CAPACITORS:1||HE3:1||NiP alloy:1||PHOTOCHEMICAL FORMATION:1||extended domain matching:1||cubetextured Ni substrates:1||RAY COMPUTEDTOMOGRAPHY:1||electrode layer:1||DOMAINSTRUCTURE:1||XRAY CT:1||SPECIMEN:1||mammographic phantom:1||Xray absorption spectroscopy:1||BLUE:1||CONTACT:1||(BA:1||synchrotron spectromicroscopy:1||thin film:1||MICROWAVE PLASMA:1||GOLD NANOPARTICLES:1||POLYMERIZATION:1||DISEASE:1||Shanghai:1||MORTALITY:1||HETEROSTRUCTURES:1||METHACRYLATE:1||prostate cancer:1||renal cell carcinoma:1||RATS:1||PULSEDLASER DEPOSITION:1||semiconducting IIVI materials:1||PATTERNS:1||sapphire:1||evaporation:1||ZINCOXIDE:1||LIGHTEMITTING DIODE:1||Synchrotron imaging:1||Dislocations:1||Cracks:1||LIVE:1||spinal cord:1||stainless steel:1||nanophotonics:1||subwavelength waveguides:1||Synchrotrons:1||High dislocation density:1||Misfit stress relaxations:1||Randomly distributed:1||Tripleaxis xray diffractions:1||FLOW:1||CRYSTALLINE ORGANIC NANORODS:1||SHAPE CHANGES:1||ZnO thin film:1||(111)SI:1||XRAY MIRRORS:1||low temperature:1||oxide cathodes:1||heterogeneity:1||Xray microscopy:1||INTERFACIAL TENSIONS:1||single crystal growth:1||CARCINOMA:1||mouse:1||ANIMALS:1||Mndoped ZnO:1||luminescence:1||solution precipitation:1||CLUSTER:1||relaxation:1||ALPHAFE2O3:1||XANES:1||epitaxy:1||LaNiO3 thin film:1||LANIO3 THINFILMS:1||ELECTRODE:1||Fe3O4 sublayer:1||EXAFS microscopy:1||FERRITE FILMS:1||SURFACE PRETREATMENTS:1||superconductors:1||CONTRAST AGENT:1||BIODISTRIBUTION:1||DEATH:1||SYNCHROTRON:1||IR:1||apo Eknockout mouse:1||plaque:1||microradiology:1||ALPHASYNUCLEIN:1||PULMONARY TOXICITY:1||XRAY TOPOGRAPHY:1||dislocation:1||metalorganic chemical vapor deposition:1||CRYSTALGROWTH:1||SELFASSEMBLED MONOLAYERS:1||MEMBRANES:1||MAGNETICANISOTROPY:1||SI1XGEX CRYSTALS:1||STRAINEDSI:1||Extended Weibull model:1||MOLYBDENUM:1||ALLOYS:1||IRON:1||Theoretical modeling:1||Threading dislocation:1||GROWTH:27||THINFILMS:16||SYNCHROTRONRADIATION:15||CONTRAST:11||RADIOLOGY:11||PARTICLES:11||FILMS:11||SILICON:10||RADIATION:10||DEPOSITION:10||RESOLUTION:9||CRYSTALS:8||SILICONCARBIDE:7||XRAYS:7||MAMMOGRAPHY:7||Xray diffraction:7||synchrotron radiation:6||XRAYSCATTERING:6||MODEL:6||microstructure:6||DYNAMICS:5||ELECTRODEPOSITION:5||LAYERS:5||CHEMICALVAPORDEPOSITION:5||TEMPERATURE:5||TOMOGRAPHY:5||COMPUTEDTOMOGRAPHY:5||SAPPHIRE:5||MEDIA:5||NANOWIRES:5||DIFFRACTION:4||TISSUES:4||pulsed laser deposition:4||phase contrast imaging:4||LAYER:4||IMAGES:4||DIODES:4||FIELDEFFECT TRANSISTORS:4||ptype GaN:4||MICROSCOPY:4||REDUCTION:4||POLYMER:4||DEFECTS:3||COHERENCE:3||MICROTOMOGRAPHY:3||NANOPARTICLES:3||synchrotron:3||LIGHT:3||TRANSISTORS:3||SURFACES:3||STRAIN:3||EPITAXIAL LAYERS:3||DRUGDELIVERY:3||REFRACTION:3||growth mechanism:3||METALS:3||MICROPIPES:3||SYSTEM:3||NUCLEATION:3||synchrotron Xray scattering:3||SURFACE:3||SCREW DISLOCATIONS:3||SIMULATION:3||HARD XRAYS:3||ELECTRICALPROPERTIES:3||EPITAXY:3||GAN:3||PM2.5:3||EVAPORATION:3||LIQUIDS:3||INPLANE:3||RAT:3||ANGIOGENESIS:3||CT:3||GaN:3||ZnO:3||NANORODS:3||strain:3||PB(ZR0.53TI0.47)O3:3||CRYSTALLIZATION:3||synchrotron Xrays:2||buffer layer:2||TRANSMISSION ELECTRONMICROSCOPY:2||EPITAXIAL COSI2 FILMS:2||MECHANISMS:2||INSITU GROWTH:2||DEVICE:2||LOCALIZED ELECTROCHEMICAL DEPOSITION:2||X ray diffraction:2||SCHOTTKY CONTACT:2||IRRADIATION:2||aqua regia treatment:2||INVIVO:2||CELLADHESION:2||MORPHOGENETIC PROTEIN2:2||RECEPTOR:2||TEM:2||broadband synchrotron light:2||nanoparticle:2||BUFFER LAYERS:2||TC:2||ENHANCED SYNCHROTRON RADIOLOGY:2||synthesis:2||POLYDIMETHYLSILOXANE:2||MICROCHANNELS:2||PRETREATMENT PROCESS:2||XRAY:2||CHEMOTAXIS:2||MECHANOSENSORY TRANSDUCTION:2||rectangular microtube:2||CONJUGATED POLYMER:2||atomic force microscopy:2||METALLIC OXIDE SRRUO3:2||LASERABLATION:2||STRESS:2||ZONE PLATES:2||FRICTION:2||THERMALSTABILITY:2||Xrays:2||RAY:2||NM:2||ENERGY:2||TOPOGRAPHY:2||synchrotron 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imaging:2||BIOCOMPATIBILITY:2||BEHAVIOR:2||MICROWAVEPLASMA:2||LOWPRESSURE:2||DEGRADATION:2||TISSUE:2||LIQUID:2||SOFT LITHOGRAPHY:2||amplified spontaneous emission (ASE):2||SMALL ORGANICMOLECULES:2||PHOTONIC CRYSTAL:2||micropipes:2||radiology:2||ALLOY:2||Xray scattering:2||CRITICALCURRENT DENSITY:2||ELECTRONMICROSCOPY:2||BI(PB)SRCACUO:2||ELECTRONICSTRUCTURE:2||RECONSTRUCTION:2||MG:2||ohmic contact:2||Pd ohmic contact:2||xray scattering:2||INP:2||annealing:2||REGENERATION:2||TITANIUM:2||COLLOIDAL GOLD:2||crystallization:2||BUCKLING MECHANICS:2||LASERS:2||MODES:2||synchrotron imaging:2||lattice distortion:2||AQUEOUSELECTROLYTE:2||MOLECULARDYNAMICS:2||OXIDE:2||MICROANGIOGRAPHY:2||OXIDATION:2||MICRORADIOLOGY:2||TECHNOLOGY:2||GE:2||surface chemistry:2||RECOVERY:2||OHMIC CONTACTS:2||LASERDIODES:2||PTYPE GAN:2||MOTION:2||PHANTOM:2||PHASE:2||CALCIUMPHOSPHATE CERAMICS:2||REPAIR:2||porphyrin:2||AMPLIFIED SPONTANEOUS EMISSION:2||METALELECTRODES:2||PD:2||SUPERCONDUCTING TAPES:2||nucleation:2||COATINGS:2||Xray topography:2||MONOLAYERS:2||SURFACE MODIFICATION:2||LITHOGRAPHY:2||MECHANICAL VENTILATION:1||MICRORIBBONS:1||STIFFNESS:1||DUALPHASE STEEL:1||growth mode:1||strain evolution:1||SI(100):1||ANISOTROPY:1||WET GRANULAR PILE:1||COALESCENCE:1||INSITU POLYMERIZATION:1||GRAPHENE:1||CANCER:1||NODULES:1||RABBITS:1||phasecontrast:1||YTTRIUMOXIDE FILMS:1||BaTiO3/SrTiO3:1||dental implant:1||coincidence site density:1||ERNI2B2C:1||crystallites:1||CoCrPt films:1||tensile strain:1||gallide:1||MGO:1||Baferrite film:1||synchrotron xray scattering:1||ZNO THINFILMS:1||MORPHOLOGY:1||PHASES:1||MICE:1||EBEAM LITHOGRAPHY:1||electrorheological fluids:1||NANOFIBROUS MEMBRANES:1||NANOLITHOGRAPHY:1||refractive index radiology:1||BLOOD:1||colloidal:1||SIZE CONTROL:1||nanoradiology:1||ZnSO4:1||lung injury:1||METAL:1||PM10:1||textured grain:1||MICROSTRUCTURE:1||DIMENSIONS:1||highresolution Xray diffraction:1||low temperature buffer:1||Zinc compounds:1||SI:1||HUMAN LONGEVITY:1||Maximum human lifespan:1||LIMITS:1||MOSFETS:1||in situ XANES:1||nanowires:1||PHOTOIRRADIATION:1||FIBERS:1||WORK:1||EMISSION:1||RADIATION MICROTOMOGRAPHY:1||RAMANSCATTERING:1||gold nanoparticles:1||synchrotron Xray diffraction:1||OPTICAL WAVEGUIDES:1||CONDUCTINGPOLYMER NANOWIRE:1||Lung cancer:1||INTRAVENOUS CORONARYARTERIOGRAPHY:1||SUBLIMATION GROWTH:1||radiography:1||porous SiC:1||GIANT MAGNETORESISTANCE:1||SEMICONDUCTORS:1||Ga diffusion:1||electroless deposition:1||HEMATITE:1||FREEELECTRON LASER:1||MOCVD:1||interfaces:1||white beam:1||imaging technique:1||nucleation layer:1||interface structure:1||epitaxial Baferrite film:1||rf magnetron sputtering:1||MAGNETIC CHARACTERISTICS:1||MIXTURE:1||ACCESS MEMORY APPLICATION:1||COHERENCY STRAIN:1||DENSITY:1||nanofabrication:1||POLY(METHYL METHACRYLATE) MICROSPHERE:1||RESIST:1||unmonochromatic beam:1||MICRORADIOGRAPHY:1||INTERFEROMETER:1||EXPOSURE:1||volume variation electronic:1||PULSEDLASER ABLATION:1||Semiconducting IIVI materials:1||Light emitting diodes:1||phase contrast microscopies:1||lung:1||AUGERELECTRON SPECTROSCOPY:1||passivation:1||additive manufacturing:1||Silicon carbide:1||Synchrotron radiation:1||Synchrotron radiation imaging:1||Dislocations (crystals):1||LUNG INJURY:1||POLYMER SURFACES:1||SINGLE CELLS:1||PREFERRED ORIENTATION:1||sapphire orientation:1||TANTALUM:1||BIASENHANCED NUCLEATION:1||hexaferrite:1||stretched exponential:1||SOLIDSURFACE:1||SHEAR:1||VIDEO MICROSCOPY:1||CARBON NANOTUBES:1||realtime observation:1||Xray synchrotron:1||CARBONMONOXIDE:1||ELECTROCHEMICAL FABRICATION:1||crystal growth:1||computer simulation:1||FERROELECTRICFILMS:1||TITANIUM IMPLANTS:1||BONE INTERFACE:1||EXAFS perpendicular magnetic recording:1||Pd/Ni:1||ELECTRODES:1||internal organ:1||LIGHTEMITTINGDIODES:1||interfacial structure:1||CONSTANT:1||DIELECTRICPROPERTIES:1||AR:1||DEVICES:1||BiSrCaCuO:1||LASER ABLATION:1||MECHANISM:1||SELECTIVE DEPOSITION:1||TARGETED DRUGDELIVERY:1||PEG:1||carbon 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CONFIGURATIONS:1||MGO(100):1||SPECTROSCOPY:1||XE:1||IONBEAM:1||GRAINBOUNDARY MIGRATION:1||SRTIO3:1||COMPOSITES:1||FOAMS:1||BREASTCANCER SPECIMENS:1||unmonochromatized:1||Xray induced nucleation:1||gold:1||ABSORPTION:1||SEPARATION:1||CZOCHRALSKI GROWTH:1||RETRIEVAL:1||GAMMARADIATION:1||AQUEOUSSOLUTION:1||NANOCOMPOSITES:1||INCREASE:1||without staining procedure:1||XPS:1||Imaging techniques:1||Interfaces (materials):1||Dislocation distributions:1||AZOBENZENE:1||STRUCTURAL EVOLUTION:1||RELAXATION:1||DROP IMPACT:1||NONLINEAR DYNAMICS:1||DISLOCATIONS:1||Colloids:1||TRANSFORMATION:1||METAL INTERCONNECTS:1||ELASTIC CONDUCTORS:1||LOGIC:1||DEFICIENT MICE:1||tomography:1||FACILITY:1||osseointegration:1||ROCKS:1||dental radiography:1||Zn coating:1||RE2O3/Ni:1||YBCO COATED CONDUCTORS:1||threedimensional islands:1||(Ba,Sr)TiO3:1||ultrahigh resolution:1||photoelectron emission:1||Pd:1||LANIO3:1||BASE ELECTRODES:1||iron oxide phase:1||ironoxide interlayer:1||COATED GLASS SUBSTRATE:1||MICROWAVE PLASMA 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AIR:1||ATMOSPHERE:1||XRAY INTERFEROMETER:1||NiAu composite nanoparticles.:1||synchrotron radiation Xrays:1||microtomography:1||OIL FLYASH:1||zinc oxide:1||mammography:1||SrRuO3 film:1||Laser epitaxy:1||HOLE MOBILITY:1||Models of crystal defects:1||RABBIT LUNGS:1||NI/AU CONTACT:1||3D printing:1||Stress relaxation:1||SURFACEAREA:1||IMAGE:1||modulation transfer function (MTF):1||Pb ions:1||Insitu visualization:1||Interfacial tension:1||DISPERSION FORCES:1||SINGLECRYSTALS:1||XRAY SOURCE:1||Synchrotron Xray imaging:1||Realtime imaging:1||MEDICAL APPLICATIONS:1||wiggler bending magnet:1||undulator:1||diffractionenhanced imaging:1||ZnO film:1||CAPACITORS:1||HE3:1||NiP alloy:1||PHOTOCHEMICAL FORMATION:1||extended domain matching:1||cubetextured Ni substrates:1||RAY COMPUTEDTOMOGRAPHY:1||electrode layer:1||DOMAINSTRUCTURE:1||XRAY CT:1||SPECIMEN:1||mammographic phantom:1||Xray absorption spectroscopy:1||BLUE:1||CONTACT:1||(BA:1||synchrotron spectromicroscopy:1||thin film:1||MICROWAVE PLASMA:1||GOLD NANOPARTICLES:1||POLYMERIZATION:1||DISEASE:1||Shanghai:1||MORTALITY:1||HETEROSTRUCTURES:1||METHACRYLATE:1||prostate cancer:1||renal cell carcinoma:1||RATS:1||PULSEDLASER DEPOSITION:1||semiconducting IIVI materials:1||PATTERNS:1||sapphire:1||evaporation:1||ZINCOXIDE:1||LIGHTEMITTING DIODE:1||Synchrotron imaging:1||Dislocations:1||Cracks:1||LIVE:1||spinal cord:1||stainless steel:1||nanophotonics:1||subwavelength waveguides:1||Synchrotrons:1||High dislocation density:1||Misfit stress relaxations:1||Randomly distributed:1||Tripleaxis xray diffractions:1||FLOW:1||CRYSTALLINE ORGANIC NANORODS:1||SHAPE CHANGES:1||ZnO thin film:1||(111)SI:1||XRAY MIRRORS:1||low temperature:1||oxide cathodes:1||heterogeneity:1||Xray microscopy:1||INTERFACIAL TENSIONS:1||single crystal growth:1||CARCINOMA:1||mouse:1||ANIMALS:1||Mndoped ZnO:1||luminescence:1||solution precipitation:1||CLUSTER:1||relaxation:1||ALPHAFE2O3:1||XANES:1||epitaxy:1||LaNiO3 thin film:1||LANIO3 THINFILMS:1||ELECTRODE:1||Fe3O4 sublayer:1||EXAFS microscopy:1||FERRITE FILMS:1||SURFACE PRETREATMENTS:1||superconductors:1||CONTRAST AGENT:1||BIODISTRIBUTION:1||DEATH:1||SYNCHROTRON:1||IR:1||apo Eknockout mouse:1||plaque:1||microradiology:1||ALPHASYNUCLEIN:1||PULMONARY TOXICITY:1||XRAY TOPOGRAPHY:1||dislocation:1||metalorganic chemical vapor deposition:1||CRYSTALGROWTH:1||SELFASSEMBLED MONOLAYERS:1||MEMBRANES:1||MAGNETICANISOTROPY:1||SI1XGEX CRYSTALS:1||STRAINEDSI:1||Extended Weibull model:1||MOLYBDENUM:1||ALLOYS:1||IRON:1||Theoretical modeling:1||Threading dislocation:1||GROWTH:27||THINFILMS:16||SYNCHROTRONRADIATION:15||CONTRAST:11||RADIOLOGY:11||PARTICLES:11||FILMS:11||SILICON:10||RADIATION:10||DEPOSITION:10||RESOLUTION:9||CRYSTALS:8||SILICONCARBIDE:7||XRAYS:7||MAMMOGRAPHY:7||Xray diffraction:7||synchrotron 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ELECTRONMICROSCOPY:2||EPITAXIAL COSI2 FILMS:2||MECHANISMS:2||INSITU GROWTH:2||DEVICE:2||LOCALIZED ELECTROCHEMICAL DEPOSITION:2||X ray diffraction:2||SCHOTTKY CONTACT:2||IRRADIATION:2||aqua regia treatment:2||INVIVO:2||CELLADHESION:2||MORPHOGENETIC PROTEIN2:2||RECEPTOR:2||TEM:2||broadband synchrotron light:2||nanoparticle:2||BUFFER LAYERS:2||TC:2||ENHANCED SYNCHROTRON RADIOLOGY:2||synthesis:2||POLYDIMETHYLSILOXANE:2||MICROCHANNELS:2||PRETREATMENT PROCESS:2||XRAY:2||CHEMOTAXIS:2||MECHANOSENSORY TRANSDUCTION:2||rectangular microtube:2||CONJUGATED POLYMER:2||atomic force microscopy:2||METALLIC OXIDE SRRUO3:2||LASERABLATION:2||STRESS:2||ZONE PLATES:2||FRICTION:2||THERMALSTABILITY:2||Xrays:2||RAY:2||NM:2||ENERGY:2||TOPOGRAPHY:2||synchrotron Xray:2||ACID HYDROGELS:2||CAENORHABDITISELEGANS:2||PROTEIN:2||defects:2||EVOLUTION:2||FABRICATION:2||sharp bending waveguide:2||lasing action:2||BULK CRYSTALS:2||SUPERLATTICES:2||COATED CONDUCTORS:2||SI(111):2||phase contrast:2||CORONARY ANGIOGRAPHY:2||SPECTROMICROSCOPY:2||MEPHISTO:2||OXYGEN:2||OPTICALPROPERTIES:2||RADIOGRAPHY:2||CONTACT DEFORMATIONS:2||MOLECULAR FORCES:2||SOLIDS:2||NTYPE GAN:2||deposition:2||CHEMISTRY:2||DEFORMATION:2||SUBSTRATE:2||HETEROEPITAXY:2||NANOTOPOGRAPHY:2||EPITAXIALGROWTH:2||Xray:2||CHEMICAL VAPORDEPOSITION:2||SILICON STRUCTURES:2||STEMCELLS:2||CHANNEL:2||crystal structure:2||CORONARYANGIOGRAPHY:2||SiC:2||BUFFER LAYER:2||MOLECULARBEAM EPITAXY:2||INTERFACE:2||SIZE:2||ELECTRON:2||XRAY MICROSCOPY:2||MORPHOLOGIES:2||NANOCOLLOIDS:2||FORCE MICROSCOPY:2||ablation:2||polymers:2||(NH4)(2)Sx treatment:2||CLUSTERS:2||BIOMATERIALS:2||CIRCUITS:2||rectangular ring mode:2||GUIDES:2||MICROCAVITY:2||PHOTOLUMINESCENCE:2||epitaxial growth:2||EMBRITTLEMENT:2||Xray imaging:2||BIOCOMPATIBILITY:2||BEHAVIOR:2||MICROWAVEPLASMA:2||LOWPRESSURE:2||DEGRADATION:2||TISSUE:2||LIQUID:2||SOFT LITHOGRAPHY:2||amplified spontaneous emission (ASE):2||SMALL ORGANICMOLECULES:2||PHOTONIC CRYSTAL:2||micropipes:2||radiology:2||ALLOY:2||Xray scattering:2||CRITICALCURRENT DENSITY:2||ELECTRONMICROSCOPY:2||BI(PB)SRCACUO:2||ELECTRONICSTRUCTURE:2||RECONSTRUCTION:2||MG:2||ohmic contact:2||Pd ohmic contact:2||xray scattering:2||INP:2||annealing:2||REGENERATION:2||TITANIUM:2||COLLOIDAL GOLD:2||crystallization:2||BUCKLING MECHANICS:2||LASERS:2||MODES:2||synchrotron imaging:2||lattice distortion:2||AQUEOUSELECTROLYTE:2||MOLECULARDYNAMICS:2||OXIDE:2||MICROANGIOGRAPHY:2||OXIDATION:2||MICRORADIOLOGY:2||TECHNOLOGY:2||GE:2||surface chemistry:2||RECOVERY:2||OHMIC CONTACTS:2||LASERDIODES:2||PTYPE GAN:2||MOTION:2||PHANTOM:2||PHASE:2||CALCIUMPHOSPHATE CERAMICS:2||REPAIR:2||porphyrin:2||AMPLIFIED SPONTANEOUS EMISSION:2||METALELECTRODES:2||PD:2||SUPERCONDUCTING TAPES:2||nucleation:2||COATINGS:2||Xray topography:2||MONOLAYERS:2||SURFACE MODIFICATION:2||LITHOGRAPHY:2||MECHANICAL VENTILATION:1||MICRORIBBONS:1||STIFFNESS:1||DUALPHASE STEEL:1||growth mode:1||strain evolution:1||SI(100):1||ANISOTROPY:1||WET GRANULAR PILE:1||COALESCENCE:1||INSITU POLYMERIZATION:1||GRAPHENE:1||CANCER:1||NODULES:1||RABBITS:1||phasecontrast:1||YTTRIUMOXIDE FILMS:1||BaTiO3/SrTiO3:1||dental implant:1||coincidence site density:1||ERNI2B2C:1||crystallites:1||CoCrPt films:1||tensile strain:1||gallide:1||MGO:1||Baferrite film:1||synchrotron xray scattering:1||ZNO THINFILMS:1||MORPHOLOGY:1||PHASES:1||MICE:1||EBEAM LITHOGRAPHY:1||electrorheological fluids:1||NANOFIBROUS MEMBRANES:1||NANOLITHOGRAPHY:1||refractive index radiology:1||BLOOD:1||colloidal:1||SIZE CONTROL:1||nanoradiology:1||ZnSO4:1||lung injury:1||METAL:1||PM10:1||textured grain:1||MICROSTRUCTURE:1||DIMENSIONS:1||highresolution Xray diffraction:1||low temperature buffer:1||Zinc compounds:1||SI:1||HUMAN LONGEVITY:1||Maximum human lifespan:1||LIMITS:1||MOSFETS:1||in situ XANES:1||nanowires:1||PHOTOIRRADIATION:1||FIBERS:1||WORK:1||EMISSION:1||RADIATION MICROTOMOGRAPHY:1||RAMANSCATTERING:1||gold nanoparticles:1||synchrotron Xray diffraction:1||OPTICAL WAVEGUIDES:1||CONDUCTINGPOLYMER NANOWIRE:1||Lung cancer:1||INTRAVENOUS CORONARYARTERIOGRAPHY:1||SUBLIMATION GROWTH:1||radiography:1||porous SiC:1||GIANT MAGNETORESISTANCE:1||SEMICONDUCTORS:1||Ga diffusion:1||electroless deposition:1||HEMATITE:1||FREEELECTRON LASER:1||MOCVD:1||interfaces:1||white beam:1||imaging technique:1||nucleation layer:1||interface structure:1||epitaxial Baferrite film:1||rf magnetron sputtering:1||MAGNETIC CHARACTERISTICS:1||MIXTURE:1||ACCESS MEMORY APPLICATION:1||COHERENCY STRAIN:1||DENSITY:1||nanofabrication:1||POLY(METHYL METHACRYLATE) MICROSPHERE:1||RESIST:1||unmonochromatic beam:1||MICRORADIOGRAPHY:1||INTERFEROMETER:1||EXPOSURE:1||volume variation electronic:1||PULSEDLASER ABLATION:1||Semiconducting IIVI materials:1||Light emitting diodes:1||phase contrast microscopies:1||lung:1||AUGERELECTRON SPECTROSCOPY:1||passivation:1||additive manufacturing:1||Silicon carbide:1||Synchrotron radiation:1||Synchrotron radiation imaging:1||Dislocations (crystals):1||LUNG INJURY:1||POLYMER SURFACES:1||SINGLE CELLS:1||PREFERRED ORIENTATION:1||sapphire orientation:1||TANTALUM:1||BIASENHANCED NUCLEATION:1||hexaferrite:1||stretched exponential:1||SOLIDSURFACE:1||SHEAR:1||VIDEO MICROSCOPY:1||CARBON NANOTUBES:1||realtime observation:1||Xray synchrotron:1||CARBONMONOXIDE:1||ELECTROCHEMICAL FABRICATION:1||crystal growth:1||computer simulation:1||FERROELECTRICFILMS:1||TITANIUM IMPLANTS:1||BONE INTERFACE:1||EXAFS perpendicular magnetic recording:1||Pd/Ni:1||ELECTRODES:1||internal organ:1||LIGHTEMITTINGDIODES:1||interfacial structure:1||CONSTANT:1||DIELECTRICPROPERTIES:1||AR:1||DEVICES:1||BiSrCaCuO:1||LASER ABLATION:1||MECHANISM:1||SELECTIVE DEPOSITION:1||TARGETED DRUGDELIVERY:1||PEG:1||carbon nanotubes:1||nanocharacterization:1||WALLED CARBON NANOTUBE:1||basal cell carcinoma:1||PARTICULATE AIRPOLLUTION:1||FINE:1||CITIES:1||DOPED ZNO FILMS:1||atherosclerosis:1||drug delivery:1||hard Xray:1||COMBUSTION:1||ARTIFICIAL BATIO3/SRTIO3 SUPERLATTICES:1||surface morphology:1||Direct wafer bonding:1||COLLOIDAL GOLD PARTICLES:1||DELINEATION:1||EXPECTANCY:1||DEMOGRAPHY:1||MRI:1||SIGE:1||Phase contrast microradiography:1||INJURY:1||PASSIVITY:1||VOLUME:1||CONTACTANGLE:1||ARRAYS:1||DUCTILITY:1||sputtering:1||computed microtomography (mu CT):1||unmonochromatized Xray:1||BIPOLARTRANSISTORS:1||longevity:1||Confocal microscopy:1||Colloidal wettability:1||ATOMICFORCE MICROSCOPY:1||storage ring:1||digital subtraction:1||SCATTERING:1||size effect:1||SYNTHETIC QUARTZ:1||liquid metal embrittlement:1||iron ore:1||cube textured Ni substrates:1||SrRuO3 films:1||laser ablations:1||Ti underlayer:1||RANDOMACCESS MEMORIES:1||DOMAIN CONFIGURATIONS:1||MGO(100):1||SPECTROSCOPY:1||XE:1||IONBEAM:1||GRAINBOUNDARY MIGRATION:1||SRTIO3:1||COMPOSITES:1||FOAMS:1||BREASTCANCER SPECIMENS:1||unmonochromatized:1||Xray induced nucleation:1||gold:1||ABSORPTION:1||SEPARATION:1||CZOCHRALSKI GROWTH:1||RETRIEVAL:1||GAMMARADIATION:1||AQUEOUSSOLUTION:1||NANOCOMPOSITES:1||INCREASE:1||without staining procedure:1||XPS:1||Imaging techniques:1||Interfaces (materials):1||Dislocation distributions:1||AZOBENZENE:1||STRUCTURAL EVOLUTION:1||RELAXATION:1||DROP IMPACT:1||NONLINEAR DYNAMICS:1||DISLOCATIONS:1||Colloids:1||TRANSFORMATION:1||METAL INTERCONNECTS:1||ELASTIC CONDUCTORS:1||LOGIC:1||DEFICIENT MICE:1||tomography:1||FACILITY:1||osseointegration:1||ROCKS:1||dental radiography:1||Zn coating:1||RE2O3/Ni:1||YBCO COATED CONDUCTORS:1||threedimensional islands:1||(Ba,Sr)TiO3:1||ultrahigh resolution:1||photoelectron emission:1||Pd:1||LANIO3:1||BASE ELECTRODES:1||iron oxide phase:1||ironoxide interlayer:1||COATED GLASS SUBSTRATE:1||MICROWAVE PLASMA NUCLEATION:1||ENHANCED NUCLEATION:1||phase transformation:1||ADSORPTION:1||phasecontrast xray imaging:1||lung inflammation:1||SI1XGEX SINGLECRYSTALS:1||COCONTINUITY:1||SCALE:1||OBJECT:1||synchrotron microradiography:1||FeSO4:1||INDUCTION:1||BaTiO3 and SrTiO3 thin films:1||HARDXRAYS:1||light emitting diodes:1||ACID:1||MICROSTRUCTURES:1||PHOTOLUMINESCENCE PROPERTIES:1||LASER IRRADIATION:1||Human aging:1||polychromatic synchrotron Xray:1||refraction enhanced imaging:1||CHROMOPHORES:1||ACUTE LUNG INJURY:1||spatial resolution:1||BETAFESI2:1||VLSI:1||SI1XGEX:1||COLLOIDAL SUSPENSIONS:1||ELECTRONICS:1||ENHANCEMENT:1||artificial lattice:1||sinters:1||SILVER:1||STRAIN RELAXATION:1||biaxial texture:1||synchrotron scattering:1||transmission electron microscopy:1||IRONOXIDE FILMS:1||PZT thin film:1||ferroelectric thin film:1||MISFIT RELAXATION MECHANISMS:1||PBTIO3:1||O2:1||CONDUCTING POLYMERS:1||poly(methylmethancrylate):1||microspheres:1||phase contrast Xray microscope:1||AMBIENT AIR:1||ATMOSPHERE:1||XRAY INTERFEROMETER:1||NiAu composite nanoparticles.:1||synchrotron radiation Xrays:1||microtomography:1||OIL FLYASH:1||zinc oxide:1||mammography:1||SrRuO3 film:1||Laser epitaxy:1||HOLE MOBILITY:1||Models of crystal defects:1||RABBIT LUNGS:1||NI/AU CONTACT:1||3D printing:1||Stress relaxation:1||SURFACEAREA:1||IMAGE:1||modulation transfer function (MTF):1||Pb ions:1||Insitu visualization:1||Interfacial tension:1||DISPERSION FORCES:1||SINGLECRYSTALS:1||XRAY SOURCE:1||Synchrotron Xray imaging:1||Realtime imaging:1||MEDICAL APPLICATIONS:1||wiggler bending magnet:1||undulator:1||diffractionenhanced imaging:1||ZnO film:1||CAPACITORS:1||HE3:1||NiP alloy:1||PHOTOCHEMICAL FORMATION:1||extended domain matching:1||cubetextured Ni substrates:1||RAY COMPUTEDTOMOGRAPHY:1||electrode layer:1||DOMAINSTRUCTURE:1||XRAY CT:1||SPECIMEN:1||mammographic phantom:1||Xray absorption spectroscopy:1||BLUE:1||CONTACT:1||(BA:1||synchrotron spectromicroscopy:1||thin film:1||MICROWAVE PLASMA:1||GOLD NANOPARTICLES:1||POLYMERIZATION:1||DISEASE:1||Shanghai:1||MORTALITY:1||HETEROSTRUCTURES:1||METHACRYLATE:1||prostate cancer:1||renal cell carcinoma:1||RATS:1||PULSEDLASER DEPOSITION:1||semiconducting IIVI materials:1||PATTERNS:1||sapphire:1||evaporation:1||ZINCOXIDE:1||LIGHTEMITTING DIODE:1||Synchrotron imaging:1||Dislocations:1||Cracks:1||LIVE:1||spinal cord:1||stainless steel:1||nanophotonics:1||subwavelength waveguides:1||Synchrotrons:1||High dislocation density:1||Misfit stress relaxations:1||Randomly distributed:1||Tripleaxis xray diffractions:1||FLOW:1||CRYSTALLINE ORGANIC NANORODS:1||SHAPE CHANGES:1||ZnO thin film:1||(111)SI:1||XRAY MIRRORS:1||low temperature:1||oxide cathodes:1||heterogeneity:1||Xray microscopy:1||INTERFACIAL TENSIONS:1||single crystal growth:1||CARCINOMA:1||mouse:1||ANIMALS:1||Mndoped ZnO:1||luminescence:1||solution precipitation:1||CLUSTER:1||relaxation:1||ALPHAFE2O3:1||XANES:1||epitaxy:1||LaNiO3 thin film:1||LANIO3 THINFILMS:1||ELECTRODE:1||Fe3O4 sublayer:1||EXAFS microscopy:1||FERRITE FILMS:1||SURFACE PRETREATMENTS:1||superconductors:1||CONTRAST AGENT:1||BIODISTRIBUTION:1||DEATH:1||SYNCHROTRON:1||IR:1||apo Eknockout 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GaN:4||MICROSCOPY:4||REDUCTION:4||POLYMER:4||DEFECTS:3||COHERENCE:3||MICROTOMOGRAPHY:3||NANOPARTICLES:3||synchrotron:3||LIGHT:3||TRANSISTORS:3||SURFACES:3||STRAIN:3||EPITAXIAL LAYERS:3||DRUGDELIVERY:3||REFRACTION:3||growth mechanism:3||METALS:3||MICROPIPES:3||SYSTEM:3||NUCLEATION:3||synchrotron Xray scattering:3||SURFACE:3||SCREW DISLOCATIONS:3||SIMULATION:3||HARD XRAYS:3||ELECTRICALPROPERTIES:3||EPITAXY:3||GAN:3||PM2.5:3||EVAPORATION:3||LIQUIDS:3||INPLANE:3||RAT:3||ANGIOGENESIS:3||CT:3||GaN:3||ZnO:3||NANORODS:3||strain:3||PB(ZR0.53TI0.47)O3:3||CRYSTALLIZATION:3||synchrotron Xrays:2||buffer layer:2||TRANSMISSION ELECTRONMICROSCOPY:2||EPITAXIAL COSI2 FILMS:2||MECHANISMS:2||INSITU GROWTH:2||DEVICE:2||LOCALIZED ELECTROCHEMICAL DEPOSITION:2||X ray diffraction:2||SCHOTTKY CONTACT:2||IRRADIATION:2||aqua regia treatment:2||INVIVO:2||CELLADHESION:2||MORPHOGENETIC PROTEIN2:2||RECEPTOR:2||TEM:2||broadband synchrotron light:2||nanoparticle:2||BUFFER LAYERS:2||TC:2||ENHANCED SYNCHROTRON RADIOLOGY:2||synthesis:2||POLYDIMETHYLSILOXANE:2||MICROCHANNELS:2||PRETREATMENT PROCESS:2||XRAY:2||CHEMOTAXIS:2||MECHANOSENSORY TRANSDUCTION:2||rectangular microtube:2||CONJUGATED POLYMER:2||atomic force microscopy:2||METALLIC OXIDE SRRUO3:2||LASERABLATION:2||STRESS:2||ZONE PLATES:2||FRICTION:2||THERMALSTABILITY:2||Xrays:2||RAY:2||NM:2||ENERGY:2||TOPOGRAPHY:2||synchrotron Xray:2||ACID HYDROGELS:2||CAENORHABDITISELEGANS:2||PROTEIN:2||defects:2||EVOLUTION:2||FABRICATION:2||sharp bending waveguide:2||lasing action:2||BULK CRYSTALS:2||SUPERLATTICES:2||COATED CONDUCTORS:2||SI(111):2||phase contrast:2||CORONARY ANGIOGRAPHY:2||SPECTROMICROSCOPY:2||MEPHISTO:2||OXYGEN:2||OPTICALPROPERTIES:2||RADIOGRAPHY:2||CONTACT DEFORMATIONS:2||MOLECULAR FORCES:2||SOLIDS:2||NTYPE GAN:2||deposition:2||CHEMISTRY:2||DEFORMATION:2||SUBSTRATE:2||HETEROEPITAXY:2||NANOTOPOGRAPHY:2||EPITAXIALGROWTH:2||Xray:2||CHEMICAL VAPORDEPOSITION:2||SILICON STRUCTURES:2||STEMCELLS:2||CHANNEL:2||crystal structure:2||CORONARYANGIOGRAPHY:2||SiC:2||BUFFER LAYER:2||MOLECULARBEAM EPITAXY:2||INTERFACE:2||SIZE:2||ELECTRON:2||XRAY MICROSCOPY:2||MORPHOLOGIES:2||NANOCOLLOIDS:2||FORCE MICROSCOPY:2||ablation:2||polymers:2||(NH4)(2)Sx treatment:2||CLUSTERS:2||BIOMATERIALS:2||CIRCUITS:2||rectangular ring mode:2||GUIDES:2||MICROCAVITY:2||PHOTOLUMINESCENCE:2||epitaxial growth:2||EMBRITTLEMENT:2||Xray imaging:2||BIOCOMPATIBILITY:2||BEHAVIOR:2||MICROWAVEPLASMA:2||LOWPRESSURE:2||DEGRADATION:2||TISSUE:2||LIQUID:2||SOFT LITHOGRAPHY:2||amplified spontaneous emission (ASE):2||SMALL ORGANICMOLECULES:2||PHOTONIC CRYSTAL:2||micropipes:2||radiology:2||ALLOY:2||Xray scattering:2||CRITICALCURRENT DENSITY:2||ELECTRONMICROSCOPY:2||BI(PB)SRCACUO:2||ELECTRONICSTRUCTURE:2||RECONSTRUCTION:2||MG:2||ohmic contact:2||Pd ohmic contact:2||xray scattering:2||INP:2||annealing:2||REGENERATION:2||TITANIUM:2||COLLOIDAL GOLD:2||crystallization:2||BUCKLING MECHANICS:2||LASERS:2||MODES:2||synchrotron imaging:2||lattice 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Xray:1||BIPOLARTRANSISTORS:1||longevity:1||Confocal microscopy:1||Colloidal wettability:1||ATOMICFORCE MICROSCOPY:1||storage ring:1||digital subtraction:1||SCATTERING:1||size effect:1||SYNTHETIC QUARTZ:1||liquid metal embrittlement:1||iron ore:1||cube textured Ni substrates:1||SrRuO3 films:1||laser ablations:1||Ti underlayer:1||RANDOMACCESS MEMORIES:1||DOMAIN CONFIGURATIONS:1||MGO(100):1||SPECTROSCOPY:1||XE:1||IONBEAM:1||GRAINBOUNDARY MIGRATION:1||SRTIO3:1||COMPOSITES:1||FOAMS:1||BREASTCANCER SPECIMENS:1||unmonochromatized:1||Xray induced nucleation:1||gold:1||ABSORPTION:1||SEPARATION:1||CZOCHRALSKI GROWTH:1||RETRIEVAL:1||GAMMARADIATION:1||AQUEOUSSOLUTION:1||NANOCOMPOSITES:1||INCREASE:1||without staining procedure:1||XPS:1||Imaging techniques:1||Interfaces (materials):1||Dislocation distributions:1||AZOBENZENE:1||STRUCTURAL EVOLUTION:1||RELAXATION:1||DROP IMPACT:1||NONLINEAR DYNAMICS:1||DISLOCATIONS:1||Colloids:1||TRANSFORMATION:1||METAL INTERCONNECTS:1||ELASTIC CONDUCTORS:1||LOGIC:1||DEFICIENT MICE:1||tomography:1||FACILITY:1||osseointegration:1||ROCKS:1||dental radiography:1||Zn coating:1||RE2O3/Ni:1||YBCO COATED CONDUCTORS:1||threedimensional islands:1||(Ba,Sr)TiO3:1||ultrahigh resolution:1||photoelectron emission:1||Pd:1||LANIO3:1||BASE ELECTRODES:1||iron oxide phase:1||ironoxide interlayer:1||COATED GLASS SUBSTRATE:1||MICROWAVE PLASMA NUCLEATION:1||ENHANCED NUCLEATION:1||phase transformation:1||ADSORPTION:1||phasecontrast xray imaging:1||lung inflammation:1||SI1XGEX SINGLECRYSTALS:1||COCONTINUITY:1||SCALE:1||OBJECT:1||synchrotron microradiography:1||FeSO4:1||INDUCTION:1||BaTiO3 and SrTiO3 thin films:1||HARDXRAYS:1||light emitting diodes:1||ACID:1||MICROSTRUCTURES:1||PHOTOLUMINESCENCE PROPERTIES:1||LASER IRRADIATION:1||Human aging:1||polychromatic synchrotron Xray:1||refraction enhanced imaging:1||CHROMOPHORES:1||ACUTE LUNG INJURY:1||spatial resolution:1||BETAFESI2:1||VLSI:1||SI1XGEX:1||COLLOIDAL SUSPENSIONS:1||ELECTRONICS:1||ENHANCEMENT:1||artificial lattice:1||sinters:1||SILVER:1||STRAIN RELAXATION:1||biaxial texture:1||synchrotron scattering:1||transmission electron microscopy:1||IRONOXIDE FILMS:1||PZT thin film:1||ferroelectric thin film:1||MISFIT RELAXATION MECHANISMS:1||PBTIO3:1||O2:1||CONDUCTING POLYMERS:1||poly(methylmethancrylate):1||microspheres:1||phase contrast Xray microscope:1||AMBIENT AIR:1||ATMOSPHERE:1||XRAY INTERFEROMETER:1||NiAu composite nanoparticles.:1||synchrotron radiation Xrays:1||microtomography:1||OIL FLYASH:1||zinc oxide:1||mammography:1||SrRuO3 film:1||Laser epitaxy:1||HOLE MOBILITY:1||Models of crystal defects:1||RABBIT LUNGS:1||NI/AU CONTACT:1||3D printing:1||Stress relaxation:1||SURFACEAREA:1||IMAGE:1||modulation transfer function (MTF):1||Pb ions:1||Insitu visualization:1||Interfacial tension:1||DISPERSION FORCES:1||SINGLECRYSTALS:1||XRAY SOURCE:1||Synchrotron Xray imaging:1||Realtime imaging:1||MEDICAL APPLICATIONS:1||wiggler bending magnet:1||undulator:1||diffractionenhanced imaging:1||ZnO film:1||CAPACITORS:1||HE3:1||NiP alloy:1||PHOTOCHEMICAL FORMATION:1||extended domain matching:1||cubetextured Ni substrates:1||RAY COMPUTEDTOMOGRAPHY:1||electrode layer:1||DOMAINSTRUCTURE:1||XRAY CT:1||SPECIMEN:1||mammographic phantom:1||Xray absorption spectroscopy:1||BLUE:1||CONTACT:1||(BA:1||synchrotron spectromicroscopy:1||thin film:1||MICROWAVE PLASMA:1||GOLD NANOPARTICLES:1||POLYMERIZATION:1||DISEASE:1||Shanghai:1||MORTALITY:1||HETEROSTRUCTURES:1||METHACRYLATE:1||prostate cancer:1||renal cell carcinoma:1||RATS:1||PULSEDLASER DEPOSITION:1||semiconducting IIVI materials:1||PATTERNS:1||sapphire:1||evaporation:1||ZINCOXIDE:1||LIGHTEMITTING DIODE:1||Synchrotron imaging:1||Dislocations:1||Cracks:1||LIVE:1||spinal cord:1||stainless steel:1||nanophotonics:1||subwavelength waveguides:1||Synchrotrons:1||High dislocation density:1||Misfit stress relaxations:1||Randomly distributed:1||Tripleaxis xray diffractions:1||FLOW:1||CRYSTALLINE ORGANIC NANORODS:1||SHAPE CHANGES:1||ZnO thin film:1||(111)SI:1||XRAY MIRRORS:1||low temperature:1||oxide cathodes:1||heterogeneity:1||Xray microscopy:1||INTERFACIAL TENSIONS:1||single crystal growth:1||CARCINOMA:1||mouse:1||ANIMALS:1||Mndoped ZnO:1||luminescence:1||solution precipitation:1||CLUSTER:1||relaxation:1||ALPHAFE2O3:1||XANES:1||epitaxy:1||LaNiO3 thin film:1||LANIO3 THINFILMS:1||ELECTRODE:1||Fe3O4 sublayer:1||EXAFS microscopy:1||FERRITE FILMS:1||SURFACE PRETREATMENTS:1||superconductors:1||CONTRAST AGENT:1||BIODISTRIBUTION:1||DEATH:1||SYNCHROTRON:1||IR:1||apo Eknockout mouse:1||plaque:1||microradiology:1||ALPHASYNUCLEIN:1||PULMONARY TOXICITY:1||XRAY TOPOGRAPHY:1||dislocation:1||metalorganic chemical vapor deposition:1||CRYSTALGROWTH:1||SELFASSEMBLED MONOLAYERS:1||MEMBRANES:1||MAGNETICANISOTROPY:1||SI1XGEX CRYSTALS:1||STRAINEDSI:1||Extended Weibull model:1||MOLYBDENUM:1||ALLOYS:1||IRON:1||Theoretical modeling:1||Threading dislocation:1||GROWTH:27||THINFILMS:16||SYNCHROTRONRADIATION:15||CONTRAST:11||RADIOLOGY:11||PARTICLES:11||FILMS:11||SILICON:10||RADIATION:10||DEPOSITION:10||RESOLUTION:9||CRYSTALS:8||SILICONCARBIDE:7||XRAYS:7||MAMMOGRAPHY:7||Xray diffraction:7||synchrotron radiation:6||XRAYSCATTERING:6||MODEL:6||microstructure:6||DYNAMICS:5||ELECTRODEPOSITION:5||LAYERS:5||CHEMICALVAPORDEPOSITION:5||TEMPERATURE:5||TOMOGRAPHY:5||COMPUTEDTOMOGRAPHY:5||SAPPHIRE:5||MEDIA:5||NANOWIRES:5||DIFFRACTION:4||TISSUES:4||pulsed laser deposition:4||phase contrast imaging:4||LAYER:4||IMAGES:4||DIODES:4||FIELDEFFECT TRANSISTORS:4||ptype GaN:4||MICROSCOPY:4||REDUCTION:4||POLYMER:4||DEFECTS:3||COHERENCE:3||MICROTOMOGRAPHY:3||NANOPARTICLES:3||synchrotron:3||LIGHT:3||TRANSISTORS:3||SURFACES:3||STRAIN:3||EPITAXIAL LAYERS:3||DRUGDELIVERY:3||REFRACTION:3||growth mechanism:3||METALS:3||MICROPIPES:3||SYSTEM:3||NUCLEATION:3||synchrotron Xray scattering:3||SURFACE:3||SCREW DISLOCATIONS:3||SIMULATION:3||HARD XRAYS:3||ELECTRICALPROPERTIES:3||EPITAXY:3||GAN:3||PM2.5:3||EVAPORATION:3||LIQUIDS:3||INPLANE:3||RAT:3||ANGIOGENESIS:3||CT:3||GaN:3||ZnO:3||NANORODS:3||strain:3||PB(ZR0.53TI0.47)O3:3||CRYSTALLIZATION:3||synchrotron Xrays:2||buffer layer:2||TRANSMISSION ELECTRONMICROSCOPY:2||EPITAXIAL COSI2 FILMS:2||MECHANISMS:2||INSITU GROWTH:2||DEVICE:2||LOCALIZED ELECTROCHEMICAL DEPOSITION:2||X ray diffraction:2||SCHOTTKY CONTACT:2||IRRADIATION:2||aqua regia treatment:2||INVIVO:2||CELLADHESION:2||MORPHOGENETIC PROTEIN2:2||RECEPTOR:2||TEM:2||broadband synchrotron light:2||nanoparticle:2||BUFFER LAYERS:2||TC:2||ENHANCED SYNCHROTRON RADIOLOGY:2||synthesis:2||POLYDIMETHYLSILOXANE:2||MICROCHANNELS:2||PRETREATMENT PROCESS:2||XRAY:2||CHEMOTAXIS:2||MECHANOSENSORY TRANSDUCTION:2||rectangular microtube:2||CONJUGATED POLYMER:2||atomic force microscopy:2||METALLIC OXIDE SRRUO3:2||LASERABLATION:2||STRESS:2||ZONE PLATES:2||FRICTION:2||THERMALSTABILITY:2||Xrays:2||RAY:2||NM:2||ENERGY:2||TOPOGRAPHY:2||synchrotron Xray:2||ACID HYDROGELS:2||CAENORHABDITISELEGANS:2||PROTEIN:2||defects:2||EVOLUTION:2||FABRICATION:2||sharp bending waveguide:2||lasing action:2||BULK CRYSTALS:2||SUPERLATTICES:2||COATED CONDUCTORS:2||SI(111):2||phase contrast:2||CORONARY ANGIOGRAPHY:2||SPECTROMICROSCOPY:2||MEPHISTO:2||OXYGEN:2||OPTICALPROPERTIES:2||RADIOGRAPHY:2||CONTACT DEFORMATIONS:2||MOLECULAR FORCES:2||SOLIDS:2||NTYPE GAN:2||deposition:2||CHEMISTRY:2||DEFORMATION:2||SUBSTRATE:2||HETEROEPITAXY:2||NANOTOPOGRAPHY:2||EPITAXIALGROWTH:2||Xray:2||CHEMICAL VAPORDEPOSITION:2||SILICON STRUCTURES:2||STEMCELLS:2||CHANNEL:2||crystal structure:2||CORONARYANGIOGRAPHY:2||SiC:2||BUFFER LAYER:2||MOLECULARBEAM EPITAXY:2||INTERFACE:2||SIZE:2||ELECTRON:2||XRAY MICROSCOPY:2||MORPHOLOGIES:2||NANOCOLLOIDS:2||FORCE MICROSCOPY:2||ablation:2||polymers:2||(NH4)(2)Sx treatment:2||CLUSTERS:2||BIOMATERIALS:2||CIRCUITS:2||rectangular ring mode:2||GUIDES:2||MICROCAVITY:2||PHOTOLUMINESCENCE:2||epitaxial growth:2||EMBRITTLEMENT:2||Xray imaging:2||BIOCOMPATIBILITY:2||BEHAVIOR:2||MICROWAVEPLASMA:2||LOWPRESSURE:2||DEGRADATION:2||TISSUE:2||LIQUID:2||SOFT LITHOGRAPHY:2||amplified spontaneous emission (ASE):2||SMALL ORGANICMOLECULES:2||PHOTONIC CRYSTAL:2||micropipes:2||radiology:2||ALLOY:2||Xray scattering:2||CRITICALCURRENT DENSITY:2||ELECTRONMICROSCOPY:2||BI(PB)SRCACUO:2||ELECTRONICSTRUCTURE:2||RECONSTRUCTION:2||MG:2||ohmic contact:2||Pd ohmic contact:2||xray scattering:2||INP:2||annealing:2||REGENERATION:2||TITANIUM:2||COLLOIDAL GOLD:2||crystallization:2||BUCKLING MECHANICS:2||LASERS:2||MODES:2||synchrotron imaging:2||lattice distortion:2||AQUEOUSELECTROLYTE:2||MOLECULARDYNAMICS:2||OXIDE:2||MICROANGIOGRAPHY:2||OXIDATION:2||MICRORADIOLOGY:2||TECHNOLOGY:2||GE:2||surface chemistry:2||RECOVERY:2||OHMIC CONTACTS:2||LASERDIODES:2||PTYPE GAN:2||MOTION:2||PHANTOM:2||PHASE:2||CALCIUMPHOSPHATE CERAMICS:2||REPAIR:2||porphyrin:2||AMPLIFIED SPONTANEOUS EMISSION:2||METALELECTRODES:2||PD:2||SUPERCONDUCTING TAPES:2||nucleation:2||COATINGS:2||Xray topography:2||MONOLAYERS:2||SURFACE MODIFICATION:2||LITHOGRAPHY:2||MECHANICAL VENTILATION:1||MICRORIBBONS:1||STIFFNESS:1||DUALPHASE STEEL:1||growth mode:1||strain evolution:1||SI(100):1||ANISOTROPY:1||WET GRANULAR PILE:1||COALESCENCE:1||INSITU POLYMERIZATION:1||GRAPHENE:1||CANCER:1||NODULES:1||RABBITS:1||phasecontrast:1||YTTRIUMOXIDE FILMS:1||BaTiO3/SrTiO3:1||dental implant:1||coincidence site density:1||ERNI2B2C:1||crystallites:1||CoCrPt films:1||tensile strain:1||gallide:1||MGO:1||Baferrite film:1||synchrotron xray scattering:1||ZNO THINFILMS:1||MORPHOLOGY:1||PHASES:1||MICE:1||EBEAM LITHOGRAPHY:1||electrorheological fluids:1||NANOFIBROUS MEMBRANES:1||NANOLITHOGRAPHY:1||refractive index radiology:1||BLOOD:1||colloidal:1||SIZE CONTROL:1||nanoradiology:1||ZnSO4:1||lung injury:1||METAL:1||PM10:1||textured grain:1||MICROSTRUCTURE:1||DIMENSIONS:1||highresolution Xray diffraction:1||low temperature buffer:1||Zinc compounds:1||SI:1||HUMAN LONGEVITY:1||Maximum human lifespan:1||LIMITS:1||MOSFETS:1||in situ XANES:1||nanowires:1||PHOTOIRRADIATION:1||FIBERS:1||WORK:1||EMISSION:1||RADIATION MICROTOMOGRAPHY:1||RAMANSCATTERING:1||gold nanoparticles:1||synchrotron Xray diffraction:1||OPTICAL WAVEGUIDES:1||CONDUCTINGPOLYMER NANOWIRE:1||Lung cancer:1||INTRAVENOUS CORONARYARTERIOGRAPHY:1||SUBLIMATION GROWTH:1||radiography:1||porous SiC:1||GIANT MAGNETORESISTANCE:1||SEMICONDUCTORS:1||Ga diffusion:1||electroless deposition:1||HEMATITE:1||FREEELECTRON LASER:1||MOCVD:1||interfaces:1||white beam:1||imaging technique:1||nucleation layer:1||interface structure:1||epitaxial Baferrite film:1||rf magnetron sputtering:1||MAGNETIC CHARACTERISTICS:1||MIXTURE:1||ACCESS MEMORY APPLICATION:1||COHERENCY STRAIN:1||DENSITY:1||nanofabrication:1||POLY(METHYL METHACRYLATE) MICROSPHERE:1||RESIST:1||unmonochromatic beam:1||MICRORADIOGRAPHY:1||INTERFEROMETER:1||EXPOSURE:1||volume variation electronic:1||PULSEDLASER ABLATION:1||Semiconducting IIVI materials:1||Light emitting diodes:1||phase contrast microscopies:1||lung:1||AUGERELECTRON SPECTROSCOPY:1||passivation:1||additive manufacturing:1||Silicon carbide:1||Synchrotron radiation:1||Synchrotron radiation imaging:1||Dislocations (crystals):1||LUNG INJURY:1||POLYMER SURFACES:1||SINGLE CELLS:1||PREFERRED ORIENTATION:1||sapphire orientation:1||TANTALUM:1||BIASENHANCED NUCLEATION:1||hexaferrite:1||stretched exponential:1||SOLIDSURFACE:1||SHEAR:1||VIDEO MICROSCOPY:1||CARBON NANOTUBES:1||realtime observation:1||Xray synchrotron:1||CARBONMONOXIDE:1||ELECTROCHEMICAL FABRICATION:1||crystal growth:1||computer simulation:1||FERROELECTRICFILMS:1||TITANIUM IMPLANTS:1||BONE INTERFACE:1||EXAFS perpendicular magnetic recording:1||Pd/Ni:1||ELECTRODES:1||internal organ:1||LIGHTEMITTINGDIODES:1||interfacial structure:1||CONSTANT:1||DIELECTRICPROPERTIES:1||AR:1||DEVICES:1||BiSrCaCuO:1||LASER ABLATION:1||MECHANISM:1||SELECTIVE DEPOSITION:1||TARGETED DRUGDELIVERY:1||PEG:1||carbon 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CONFIGURATIONS:1||MGO(100):1||SPECTROSCOPY:1||XE:1||IONBEAM:1||GRAINBOUNDARY MIGRATION:1||SRTIO3:1||COMPOSITES:1||FOAMS:1||BREASTCANCER SPECIMENS:1||unmonochromatized:1||Xray induced nucleation:1||gold:1||ABSORPTION:1||SEPARATION:1||CZOCHRALSKI GROWTH:1||RETRIEVAL:1||GAMMARADIATION:1||AQUEOUSSOLUTION:1||NANOCOMPOSITES:1||INCREASE:1||without staining procedure:1||XPS:1||Imaging techniques:1||Interfaces (materials):1||Dislocation distributions:1||AZOBENZENE:1||STRUCTURAL EVOLUTION:1||RELAXATION:1||DROP IMPACT:1||NONLINEAR DYNAMICS:1||DISLOCATIONS:1||Colloids:1||TRANSFORMATION:1||METAL INTERCONNECTS:1||ELASTIC CONDUCTORS:1||LOGIC:1||DEFICIENT MICE:1||tomography:1||FACILITY:1||osseointegration:1||ROCKS:1||dental radiography:1||Zn coating:1||RE2O3/Ni:1||YBCO COATED CONDUCTORS:1||threedimensional islands:1||(Ba,Sr)TiO3:1||ultrahigh resolution:1||photoelectron emission:1||Pd:1||LANIO3:1||BASE ELECTRODES:1||iron oxide phase:1||ironoxide interlayer:1||COATED GLASS SUBSTRATE:1||MICROWAVE PLASMA NUCLEATION:1||ENHANCED NUCLEATION:1||phase transformation:1||ADSORPTION:1||phasecontrast xray imaging:1||lung inflammation:1||SI1XGEX SINGLECRYSTALS:1||COCONTINUITY:1||SCALE:1||OBJECT:1||synchrotron microradiography:1||FeSO4:1||INDUCTION:1||BaTiO3 and SrTiO3 thin films:1||HARDXRAYS:1||light emitting diodes:1||ACID:1||MICROSTRUCTURES:1||PHOTOLUMINESCENCE PROPERTIES:1||LASER IRRADIATION:1||Human aging:1||polychromatic synchrotron Xray:1||refraction enhanced imaging:1||CHROMOPHORES:1||ACUTE LUNG INJURY:1||spatial resolution:1||BETAFESI2:1||VLSI:1||SI1XGEX:1||COLLOIDAL SUSPENSIONS:1||ELECTRONICS:1||ENHANCEMENT:1||artificial lattice:1||sinters:1||SILVER:1||STRAIN RELAXATION:1||biaxial texture:1||synchrotron scattering:1||transmission electron microscopy:1||IRONOXIDE FILMS:1||PZT thin film:1||ferroelectric thin film:1||MISFIT RELAXATION MECHANISMS:1||PBTIO3:1||O2:1||CONDUCTING POLYMERS:1||poly(methylmethancrylate):1||microspheres:1||phase contrast Xray microscope:1||AMBIENT AIR:1||ATMOSPHERE:1||XRAY INTERFEROMETER:1||NiAu composite nanoparticles.:1||synchrotron radiation Xrays:1||microtomography:1||OIL FLYASH:1||zinc oxide:1||mammography:1||SrRuO3 film:1||Laser epitaxy:1||HOLE MOBILITY:1||Models of crystal defects:1||RABBIT LUNGS:1||NI/AU CONTACT:1||3D printing:1||Stress relaxation:1||SURFACEAREA:1||IMAGE:1||modulation transfer function (MTF):1||Pb ions:1||Insitu visualization:1||Interfacial tension:1||DISPERSION FORCES:1||SINGLECRYSTALS:1||XRAY SOURCE:1||Synchrotron Xray imaging:1||Realtime imaging:1||MEDICAL APPLICATIONS:1||wiggler bending magnet:1||undulator:1||diffractionenhanced imaging:1||ZnO film:1||CAPACITORS:1||HE3:1||NiP alloy:1||PHOTOCHEMICAL FORMATION:1||extended domain matching:1||cubetextured Ni substrates:1||RAY COMPUTEDTOMOGRAPHY:1||electrode layer:1||DOMAINSTRUCTURE:1||XRAY CT:1||SPECIMEN:1||mammographic phantom:1||Xray absorption spectroscopy:1||BLUE:1||CONTACT:1||(BA:1||synchrotron spectromicroscopy:1||thin film:1||MICROWAVE PLASMA:1||GOLD NANOPARTICLES:1||POLYMERIZATION:1||DISEASE:1||Shanghai:1||MORTALITY:1||HETEROSTRUCTURES:1||METHACRYLATE:1||prostate cancer:1||renal cell carcinoma:1||RATS:1||PULSEDLASER DEPOSITION:1||semiconducting IIVI materials:1||PATTERNS:1||sapphire:1||evaporation:1||ZINCOXIDE:1||LIGHTEMITTING DIODE:1||Synchrotron imaging:1||Dislocations:1||Cracks:1||LIVE:1||spinal cord:1||stainless steel:1||nanophotonics:1||subwavelength waveguides:1||Synchrotrons:1||High dislocation density:1||Misfit stress relaxations:1||Randomly distributed:1||Tripleaxis xray diffractions:1||FLOW:1||CRYSTALLINE ORGANIC NANORODS:1||SHAPE CHANGES:1||ZnO thin film:1||(111)SI:1||XRAY MIRRORS:1||low temperature:1||oxide cathodes:1||heterogeneity:1||Xray microscopy:1||INTERFACIAL TENSIONS:1||single crystal growth:1||CARCINOMA:1||mouse:1||ANIMALS:1||Mndoped ZnO:1||luminescence:1||solution precipitation:1||CLUSTER:1||relaxation:1||ALPHAFE2O3:1||XANES:1||epitaxy:1||LaNiO3 thin film:1||LANIO3 THINFILMS:1||ELECTRODE:1||Fe3O4 sublayer:1||EXAFS microscopy:1||FERRITE FILMS:1||SURFACE PRETREATMENTS:1||superconductors:1||CONTRAST AGENT:1||BIODISTRIBUTION:1||DEATH:1||SYNCHROTRON:1||IR:1||apo Eknockout mouse:1||plaque:1||microradiology:1||ALPHASYNUCLEIN:1||PULMONARY TOXICITY:1||XRAY TOPOGRAPHY:1||dislocation:1||metalorganic chemical vapor deposition:1||CRYSTALGROWTH:1||SELFASSEMBLED MONOLAYERS:1||MEMBRANES:1||MAGNETICANISOTROPY:1||SI1XGEX CRYSTALS:1||STRAINEDSI:1||Extended Weibull model:1||MOLYBDENUM:1||ALLOYS:1||IRON:1||Theoretical modeling:1||Threading dislocation:1||GROWTH:27||THINFILMS:16||SYNCHROTRONRADIATION:15||CONTRAST:11||RADIOLOGY:11||PARTICLES:11||FILMS:11||SILICON:10||RADIATION:10||DEPOSITION:10||RESOLUTION:9||CRYSTALS:8||SILICONCARBIDE:7||XRAYS:7||MAMMOGRAPHY:7||Xray diffraction:7||synchrotron radiation:6||XRAYSCATTERING:6||MODEL:6||microstructure:6||DYNAMICS:5||ELECTRODEPOSITION:5||LAYERS:5||CHEMICALVAPORDEPOSITION:5||TEMPERATURE:5||TOMOGRAPHY:5||COMPUTEDTOMOGRAPHY:5||SAPPHIRE:5||MEDIA:5||NANOWIRES:5||DIFFRACTION:4||TISSUES:4||pulsed laser deposition:4||phase contrast imaging:4||LAYER:4||IMAGES:4||DIODES:4||FIELDEFFECT TRANSISTORS:4||ptype GaN:4||MICROSCOPY:4||REDUCTION:4||POLYMER:4||DEFECTS:3||COHERENCE:3||MICROTOMOGRAPHY:3||NANOPARTICLES:3||synchrotron:3||LIGHT:3||TRANSISTORS:3||SURFACES:3||STRAIN:3||EPITAXIAL LAYERS:3||DRUGDELIVERY:3||REFRACTION:3||growth mechanism:3||METALS:3||MICROPIPES:3||SYSTEM:3||NUCLEATION:3||synchrotron Xray scattering:3||SURFACE:3||SCREW DISLOCATIONS:3||SIMULATION:3||HARD XRAYS:3||ELECTRICALPROPERTIES:3||EPITAXY:3||GAN:3||PM2.5:3||EVAPORATION:3||LIQUIDS:3||INPLANE:3||RAT:3||ANGIOGENESIS:3||CT:3||GaN:3||ZnO:3||NANORODS:3||strain:3||PB(ZR0.53TI0.47)O3:3||CRYSTALLIZATION:3||synchrotron Xrays:2||buffer layer:2||TRANSMISSION ELECTRONMICROSCOPY:2||EPITAXIAL COSI2 FILMS:2||MECHANISMS:2||INSITU GROWTH:2||DEVICE:2||LOCALIZED ELECTROCHEMICAL DEPOSITION:2||X ray diffraction:2||SCHOTTKY CONTACT:2||IRRADIATION:2||aqua regia treatment:2||INVIVO:2||CELLADHESION:2||MORPHOGENETIC PROTEIN2:2||RECEPTOR:2||TEM:2||broadband synchrotron light:2||nanoparticle:2||BUFFER LAYERS:2||TC:2||ENHANCED SYNCHROTRON RADIOLOGY:2||synthesis:2||POLYDIMETHYLSILOXANE:2||MICROCHANNELS:2||PRETREATMENT PROCESS:2||XRAY:2||CHEMOTAXIS:2||MECHANOSENSORY TRANSDUCTION:2||rectangular microtube:2||CONJUGATED POLYMER:2||atomic force microscopy:2||METALLIC OXIDE SRRUO3:2||LASERABLATION:2||STRESS:2||ZONE PLATES:2||FRICTION:2||THERMALSTABILITY:2||Xrays:2||RAY:2||NM:2||ENERGY:2||TOPOGRAPHY:2||synchrotron Xray:2||ACID HYDROGELS:2||CAENORHABDITISELEGANS:2||PROTEIN:2||defects:2||EVOLUTION:2||FABRICATION:2||sharp bending waveguide:2||lasing action:2||BULK CRYSTALS:2||SUPERLATTICES:2||COATED CONDUCTORS:2||SI(111):2||phase contrast:2||CORONARY ANGIOGRAPHY:2||SPECTROMICROSCOPY:2||MEPHISTO:2||OXYGEN:2||OPTICALPROPERTIES:2||RADIOGRAPHY:2||CONTACT DEFORMATIONS:2||MOLECULAR FORCES:2||SOLIDS:2||NTYPE GAN:2||deposition:2||CHEMISTRY:2||DEFORMATION:2||SUBSTRATE:2||HETEROEPITAXY:2||NANOTOPOGRAPHY:2||EPITAXIALGROWTH:2||Xray:2||CHEMICAL VAPORDEPOSITION:2||SILICON STRUCTURES:2||STEMCELLS:2||CHANNEL:2||crystal structure:2||CORONARYANGIOGRAPHY:2||SiC:2||BUFFER LAYER:2||MOLECULARBEAM EPITAXY:2||INTERFACE:2||SIZE:2||ELECTRON:2||XRAY MICROSCOPY:2||MORPHOLOGIES:2||NANOCOLLOIDS:2||FORCE MICROSCOPY:2||ablation:2||polymers:2||(NH4)(2)Sx treatment:2||CLUSTERS:2||BIOMATERIALS:2||CIRCUITS:2||rectangular ring mode:2||GUIDES:2||MICROCAVITY:2||PHOTOLUMINESCENCE:2||epitaxial growth:2||EMBRITTLEMENT:2||Xray imaging:2||BIOCOMPATIBILITY:2||BEHAVIOR:2||MICROWAVEPLASMA:2||LOWPRESSURE:2||DEGRADATION:2||TISSUE:2||LIQUID:2||SOFT LITHOGRAPHY:2||amplified spontaneous emission (ASE):2||SMALL ORGANICMOLECULES:2||PHOTONIC CRYSTAL:2||micropipes:2||radiology:2||ALLOY:2||Xray scattering:2||CRITICALCURRENT DENSITY:2||ELECTRONMICROSCOPY:2||BI(PB)SRCACUO:2||ELECTRONICSTRUCTURE:2||RECONSTRUCTION:2||MG:2||ohmic contact:2||Pd ohmic contact:2||xray scattering:2||INP:2||annealing:2||REGENERATION:2||TITANIUM:2||COLLOIDAL GOLD:2||crystallization:2||BUCKLING MECHANICS:2||LASERS:2||MODES:2||synchrotron imaging:2||lattice distortion:2||AQUEOUSELECTROLYTE:2||MOLECULARDYNAMICS:2||OXIDE:2||MICROANGIOGRAPHY:2||OXIDATION:2||MICRORADIOLOGY:2||TECHNOLOGY:2||GE:2||surface chemistry:2||RECOVERY:2||OHMIC CONTACTS:2||LASERDIODES:2||PTYPE GAN:2||MOTION:2||PHANTOM:2||PHASE:2||CALCIUMPHOSPHATE CERAMICS:2||REPAIR:2||porphyrin:2||AMPLIFIED SPONTANEOUS EMISSION:2||METALELECTRODES:2||PD:2||SUPERCONDUCTING TAPES:2||nucleation:2||COATINGS:2||Xray topography:2||MONOLAYERS:2||SURFACE MODIFICATION:2||LITHOGRAPHY:2||MECHANICAL VENTILATION:1||MICRORIBBONS:1||STIFFNESS:1||DUALPHASE STEEL:1||growth mode:1||strain evolution:1||SI(100):1||ANISOTROPY:1||WET GRANULAR PILE:1||COALESCENCE:1||INSITU POLYMERIZATION:1||GRAPHENE:1||CANCER:1||NODULES:1||RABBITS:1||phasecontrast:1||YTTRIUMOXIDE FILMS:1||BaTiO3/SrTiO3:1||dental implant:1||coincidence site density:1||ERNI2B2C:1||crystallites:1||CoCrPt films:1||tensile strain:1||gallide:1||MGO:1||Baferrite film:1||synchrotron xray scattering:1||ZNO THINFILMS:1||MORPHOLOGY:1||PHASES:1||MICE:1||EBEAM LITHOGRAPHY:1||electrorheological fluids:1||NANOFIBROUS MEMBRANES:1||NANOLITHOGRAPHY:1||refractive index radiology:1||BLOOD:1||colloidal:1||SIZE CONTROL:1||nanoradiology:1||ZnSO4:1||lung injury:1||METAL:1||PM10:1||textured grain:1||MICROSTRUCTURE:1||DIMENSIONS:1||highresolution Xray diffraction:1||low temperature buffer:1||Zinc compounds:1||SI:1||HUMAN LONGEVITY:1||Maximum human lifespan:1||LIMITS:1||MOSFETS:1||in situ XANES:1||nanowires:1||PHOTOIRRADIATION:1||FIBERS:1||WORK:1||EMISSION:1||RADIATION MICROTOMOGRAPHY:1||RAMANSCATTERING:1||gold nanoparticles:1||synchrotron Xray diffraction:1||OPTICAL WAVEGUIDES:1||CONDUCTINGPOLYMER NANOWIRE:1||Lung cancer:1||INTRAVENOUS CORONARYARTERIOGRAPHY:1||SUBLIMATION GROWTH:1||radiography:1||porous SiC:1||GIANT MAGNETORESISTANCE:1||SEMICONDUCTORS:1||Ga diffusion:1||electroless deposition:1||HEMATITE:1||FREEELECTRON LASER:1||MOCVD:1||interfaces:1||white beam:1||imaging technique:1||nucleation layer:1||interface structure:1||epitaxial Baferrite film:1||rf magnetron sputtering:1||MAGNETIC CHARACTERISTICS:1||MIXTURE:1||ACCESS MEMORY APPLICATION:1||COHERENCY STRAIN:1||DENSITY:1||nanofabrication:1||POLY(METHYL METHACRYLATE) MICROSPHERE:1||RESIST:1||unmonochromatic beam:1||MICRORADIOGRAPHY:1||INTERFEROMETER:1||EXPOSURE:1||volume variation electronic:1||PULSEDLASER ABLATION:1||Semiconducting IIVI materials:1||Light emitting diodes:1||phase contrast microscopies:1||lung:1||AUGERELECTRON SPECTROSCOPY:1||passivation:1||additive manufacturing:1||Silicon carbide:1||Synchrotron radiation:1||Synchrotron radiation imaging:1||Dislocations (crystals):1||LUNG INJURY:1||POLYMER SURFACES:1||SINGLE CELLS:1||PREFERRED ORIENTATION:1||sapphire orientation:1||TANTALUM:1||BIASENHANCED NUCLEATION:1||hexaferrite:1||stretched exponential:1||SOLIDSURFACE:1||SHEAR:1||VIDEO MICROSCOPY:1||CARBON NANOTUBES:1||realtime observation:1||Xray synchrotron:1||CARBONMONOXIDE:1||ELECTROCHEMICAL FABRICATION:1||crystal growth:1||computer simulation:1||FERROELECTRICFILMS:1||TITANIUM IMPLANTS:1||BONE INTERFACE:1||EXAFS perpendicular magnetic recording:1||Pd/Ni:1||ELECTRODES:1||internal organ:1||LIGHTEMITTINGDIODES:1||interfacial structure:1||CONSTANT:1||DIELECTRICPROPERTIES:1||AR:1||DEVICES:1||BiSrCaCuO:1||LASER ABLATION:1||MECHANISM:1||SELECTIVE DEPOSITION:1||TARGETED DRUGDELIVERY:1||PEG:1||carbon nanotubes:1||nanocharacterization:1||WALLED CARBON NANOTUBE:1||basal cell carcinoma:1||PARTICULATE AIRPOLLUTION:1||FINE:1||CITIES:1||DOPED ZNO FILMS:1||atherosclerosis:1||drug delivery:1||hard Xray:1||COMBUSTION:1||ARTIFICIAL BATIO3/SRTIO3 SUPERLATTICES:1||surface morphology:1||Direct wafer bonding:1||COLLOIDAL GOLD PARTICLES:1||DELINEATION:1||EXPECTANCY:1||DEMOGRAPHY:1||MRI:1||SIGE:1||Phase contrast microradiography:1||INJURY:1||PASSIVITY:1||VOLUME:1||CONTACTANGLE:1||ARRAYS:1||DUCTILITY:1||sputtering:1||computed microtomography (mu CT):1||unmonochromatized Xray:1||BIPOLARTRANSISTORS:1||longevity:1||Confocal microscopy:1||Colloidal wettability:1||ATOMICFORCE MICROSCOPY:1||storage ring:1||digital subtraction:1||SCATTERING:1||size effect:1||SYNTHETIC QUARTZ:1||liquid metal embrittlement:1||iron ore:1||cube textured Ni substrates:1||SrRuO3 films:1||laser ablations:1||Ti underlayer:1||RANDOMACCESS MEMORIES:1||DOMAIN CONFIGURATIONS:1||MGO(100):1||SPECTROSCOPY:1||XE:1||IONBEAM:1||GRAINBOUNDARY MIGRATION:1||SRTIO3:1||COMPOSITES:1||FOAMS:1||BREASTCANCER SPECIMENS:1||unmonochromatized:1||Xray induced nucleation:1||gold:1||ABSORPTION:1||SEPARATION:1||CZOCHRALSKI GROWTH:1||RETRIEVAL:1||GAMMARADIATION:1||AQUEOUSSOLUTION:1||NANOCOMPOSITES:1||INCREASE:1||without staining procedure:1||XPS:1||Imaging techniques:1||Interfaces (materials):1||Dislocation distributions:1||AZOBENZENE:1||STRUCTURAL EVOLUTION:1||RELAXATION:1||DROP IMPACT:1||NONLINEAR DYNAMICS:1||DISLOCATIONS:1||Colloids:1||TRANSFORMATION:1||METAL INTERCONNECTS:1||ELASTIC CONDUCTORS:1||LOGIC:1||DEFICIENT MICE:1||tomography:1||FACILITY:1||osseointegration:1||ROCKS:1||dental radiography:1||Zn coating:1||RE2O3/Ni:1||YBCO COATED CONDUCTORS:1||threedimensional islands:1||(Ba,Sr)TiO3:1||ultrahigh resolution:1||photoelectron emission:1||Pd:1||LANIO3:1||BASE ELECTRODES:1||iron oxide phase:1||ironoxide interlayer:1||COATED GLASS SUBSTRATE:1||MICROWAVE PLASMA NUCLEATION:1||ENHANCED NUCLEATION:1||phase transformation:1||ADSORPTION:1||phasecontrast xray imaging:1||lung inflammation:1||SI1XGEX SINGLECRYSTALS:1||COCONTINUITY:1||SCALE:1||OBJECT:1||synchrotron microradiography:1||FeSO4:1||INDUCTION:1||BaTiO3 and SrTiO3 thin films:1||HARDXRAYS:1||light emitting diodes:1||ACID:1||MICROSTRUCTURES:1||PHOTOLUMINESCENCE PROPERTIES:1||LASER IRRADIATION:1||Human aging:1||polychromatic synchrotron Xray:1||refraction enhanced imaging:1||CHROMOPHORES:1||ACUTE LUNG INJURY:1||spatial resolution:1||BETAFESI2:1||VLSI:1||SI1XGEX:1||COLLOIDAL SUSPENSIONS:1||ELECTRONICS:1||ENHANCEMENT:1||artificial lattice:1||sinters:1||SILVER:1||STRAIN RELAXATION:1||biaxial texture:1||synchrotron scattering:1||transmission electron microscopy:1||IRONOXIDE FILMS:1||PZT thin film:1||ferroelectric thin film:1||MISFIT RELAXATION MECHANISMS:1||PBTIO3:1||O2:1||CONDUCTING POLYMERS:1||poly(methylmethancrylate):1||microspheres:1||phase contrast Xray microscope:1||AMBIENT AIR:1||ATMOSPHERE:1||XRAY INTERFEROMETER:1||NiAu composite nanoparticles.:1||synchrotron radiation Xrays:1||microtomography:1||OIL FLYASH:1||zinc oxide:1||mammography:1||SrRuO3 film:1||Laser epitaxy:1||HOLE MOBILITY:1||Models of crystal defects:1||RABBIT LUNGS:1||NI/AU CONTACT:1||3D printing:1||Stress relaxation:1||SURFACEAREA:1||IMAGE:1||modulation transfer function (MTF):1||Pb ions:1||Insitu visualization:1||Interfacial tension:1||DISPERSION FORCES:1||SINGLECRYSTALS:1||XRAY SOURCE:1||Synchrotron Xray imaging:1||Realtime imaging:1||MEDICAL APPLICATIONS:1||wiggler bending magnet:1||undulator:1||diffractionenhanced imaging:1||ZnO film:1||CAPACITORS:1||HE3:1||NiP alloy:1||PHOTOCHEMICAL FORMATION:1||extended domain matching:1||cubetextured Ni substrates:1||RAY COMPUTEDTOMOGRAPHY:1||electrode layer:1||DOMAINSTRUCTURE:1||XRAY CT:1||SPECIMEN:1||mammographic phantom:1||Xray absorption spectroscopy:1||BLUE:1||CONTACT:1||(BA:1||synchrotron spectromicroscopy:1||thin film:1||MICROWAVE PLASMA:1||GOLD NANOPARTICLES:1||POLYMERIZATION:1||DISEASE:1||Shanghai:1||MORTALITY:1||HETEROSTRUCTURES:1||METHACRYLATE:1||prostate cancer:1||renal cell carcinoma:1||RATS:1||PULSEDLASER DEPOSITION:1||semiconducting IIVI materials:1||PATTERNS:1||sapphire:1||evaporation:1||ZINCOXIDE:1||LIGHTEMITTING DIODE:1||Synchrotron imaging:1||Dislocations:1||Cracks:1||LIVE:1||spinal cord:1||stainless steel:1||nanophotonics:1||subwavelength waveguides:1||Synchrotrons:1||High dislocation density:1||Misfit stress relaxations:1||Randomly distributed:1||Tripleaxis xray diffractions:1||FLOW:1||CRYSTALLINE ORGANIC NANORODS:1||SHAPE CHANGES:1||ZnO thin film:1||(111)SI:1||XRAY MIRRORS:1||low temperature:1||oxide cathodes:1||heterogeneity:1||Xray microscopy:1||INTERFACIAL TENSIONS:1||single crystal growth:1||CARCINOMA:1||mouse:1||ANIMALS:1||Mndoped ZnO:1||luminescence:1||solution precipitation:1||CLUSTER:1||relaxation:1||ALPHAFE2O3:1||XANES:1||epitaxy:1||LaNiO3 thin film:1||LANIO3 THINFILMS:1||ELECTRODE:1||Fe3O4 sublayer:1||EXAFS microscopy:1||FERRITE FILMS:1||SURFACE PRETREATMENTS:1||superconductors:1||CONTRAST AGENT:1||BIODISTRIBUTION:1||DEATH:1||SYNCHROTRON:1||IR:1||apo Eknockout 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GaN:4||MICROSCOPY:4||REDUCTION:4||POLYMER:4||DEFECTS:3||COHERENCE:3||MICROTOMOGRAPHY:3||NANOPARTICLES:3||synchrotron:3||LIGHT:3||TRANSISTORS:3||SURFACES:3||STRAIN:3||EPITAXIAL LAYERS:3||DRUGDELIVERY:3||REFRACTION:3||growth mechanism:3||METALS:3||MICROPIPES:3||SYSTEM:3||NUCLEATION:3||synchrotron Xray scattering:3||SURFACE:3||SCREW DISLOCATIONS:3||SIMULATION:3||HARD XRAYS:3||ELECTRICALPROPERTIES:3||EPITAXY:3||GAN:3||PM2.5:3||EVAPORATION:3||LIQUIDS:3||INPLANE:3||RAT:3||ANGIOGENESIS:3||CT:3||GaN:3||ZnO:3||NANORODS:3||strain:3||PB(ZR0.53TI0.47)O3:3||CRYSTALLIZATION:3||synchrotron Xrays:2||buffer layer:2||TRANSMISSION ELECTRONMICROSCOPY:2||EPITAXIAL COSI2 FILMS:2||MECHANISMS:2||INSITU GROWTH:2||DEVICE:2||LOCALIZED ELECTROCHEMICAL DEPOSITION:2||X ray diffraction:2||SCHOTTKY CONTACT:2||IRRADIATION:2||aqua regia treatment:2||INVIVO:2||CELLADHESION:2||MORPHOGENETIC PROTEIN2:2||RECEPTOR:2||TEM:2||broadband synchrotron light:2||nanoparticle:2||BUFFER LAYERS:2||TC:2||ENHANCED SYNCHROTRON RADIOLOGY:2||synthesis:2||POLYDIMETHYLSILOXANE:2||MICROCHANNELS:2||PRETREATMENT PROCESS:2||XRAY:2||CHEMOTAXIS:2||MECHANOSENSORY TRANSDUCTION:2||rectangular microtube:2||CONJUGATED POLYMER:2||atomic force microscopy:2||METALLIC OXIDE SRRUO3:2||LASERABLATION:2||STRESS:2||ZONE PLATES:2||FRICTION:2||THERMALSTABILITY:2||Xrays:2||RAY:2||NM:2||ENERGY:2||TOPOGRAPHY:2||synchrotron Xray:2||ACID HYDROGELS:2||CAENORHABDITISELEGANS:2||PROTEIN:2||defects:2||EVOLUTION:2||FABRICATION:2||sharp bending waveguide:2||lasing action:2||BULK CRYSTALS:2||SUPERLATTICES:2||COATED CONDUCTORS:2||SI(111):2||phase contrast:2||CORONARY ANGIOGRAPHY:2||SPECTROMICROSCOPY:2||MEPHISTO:2||OXYGEN:2||OPTICALPROPERTIES:2||RADIOGRAPHY:2||CONTACT DEFORMATIONS:2||MOLECULAR FORCES:2||SOLIDS:2||NTYPE GAN:2||deposition:2||CHEMISTRY:2||DEFORMATION:2||SUBSTRATE:2||HETEROEPITAXY:2||NANOTOPOGRAPHY:2||EPITAXIALGROWTH:2||Xray:2||CHEMICAL VAPORDEPOSITION:2||SILICON STRUCTURES:2||STEMCELLS:2||CHANNEL:2||crystal structure:2||CORONARYANGIOGRAPHY:2||SiC:2||BUFFER LAYER:2||MOLECULARBEAM EPITAXY:2||INTERFACE:2||SIZE:2||ELECTRON:2||XRAY MICROSCOPY:2||MORPHOLOGIES:2||NANOCOLLOIDS:2||FORCE MICROSCOPY:2||ablation:2||polymers:2||(NH4)(2)Sx treatment:2||CLUSTERS:2||BIOMATERIALS:2||CIRCUITS:2||rectangular ring mode:2||GUIDES:2||MICROCAVITY:2||PHOTOLUMINESCENCE:2||epitaxial growth:2||EMBRITTLEMENT:2||Xray imaging:2||BIOCOMPATIBILITY:2||BEHAVIOR:2||MICROWAVEPLASMA:2||LOWPRESSURE:2||DEGRADATION:2||TISSUE:2||LIQUID:2||SOFT LITHOGRAPHY:2||amplified spontaneous emission (ASE):2||SMALL ORGANICMOLECULES:2||PHOTONIC CRYSTAL:2||micropipes:2||radiology:2||ALLOY:2||Xray scattering:2||CRITICALCURRENT DENSITY:2||ELECTRONMICROSCOPY:2||BI(PB)SRCACUO:2||ELECTRONICSTRUCTURE:2||RECONSTRUCTION:2||MG:2||ohmic contact:2||Pd ohmic contact:2||xray scattering:2||INP:2||annealing:2||REGENERATION:2||TITANIUM:2||COLLOIDAL GOLD:2||crystallization:2||BUCKLING MECHANICS:2||LASERS:2||MODES:2||synchrotron imaging:2||lattice distortion:2||AQUEOUSELECTROLYTE:2||MOLECULARDYNAMICS:2||OXIDE:2||MICROANGIOGRAPHY:2||OXIDATION:2||MICRORADIOLOGY:2||TECHNOLOGY:2||GE:2||surface chemistry:2||RECOVERY:2||OHMIC CONTACTS:2||LASERDIODES:2||PTYPE GAN:2||MOTION:2||PHANTOM:2||PHASE:2||CALCIUMPHOSPHATE CERAMICS:2||REPAIR:2||porphyrin:2||AMPLIFIED SPONTANEOUS EMISSION:2||METALELECTRODES:2||PD:2||SUPERCONDUCTING TAPES:2||nucleation:2||COATINGS:2||Xray topography:2||MONOLAYERS:2||SURFACE MODIFICATION:2||LITHOGRAPHY:2||MECHANICAL VENTILATION:1||MICRORIBBONS:1||STIFFNESS:1||DUALPHASE STEEL:1||growth mode:1||strain evolution:1||SI(100):1||ANISOTROPY:1||WET GRANULAR PILE:1||COALESCENCE:1||INSITU POLYMERIZATION:1||GRAPHENE:1||CANCER:1||NODULES:1||RABBITS:1||phasecontrast:1||YTTRIUMOXIDE FILMS:1||BaTiO3/SrTiO3:1||dental implant:1||coincidence site density:1||ERNI2B2C:1||crystallites:1||CoCrPt films:1||tensile strain:1||gallide:1||MGO:1||Baferrite film:1||synchrotron xray scattering:1||ZNO THINFILMS:1||MORPHOLOGY:1||PHASES:1||MICE:1||EBEAM LITHOGRAPHY:1||electrorheological fluids:1||NANOFIBROUS MEMBRANES:1||NANOLITHOGRAPHY:1||refractive index radiology:1||BLOOD:1||colloidal:1||SIZE CONTROL:1||nanoradiology:1||ZnSO4:1||lung injury:1||METAL:1||PM10:1||textured grain:1||MICROSTRUCTURE:1||DIMENSIONS:1||highresolution Xray diffraction:1||low temperature buffer:1||Zinc compounds:1||SI:1||HUMAN LONGEVITY:1||Maximum human lifespan:1||LIMITS:1||MOSFETS:1||in situ XANES:1||nanowires:1||PHOTOIRRADIATION:1||FIBERS:1||WORK:1||EMISSION:1||RADIATION MICROTOMOGRAPHY:1||RAMANSCATTERING:1||gold nanoparticles:1||synchrotron Xray diffraction:1||OPTICAL WAVEGUIDES:1||CONDUCTINGPOLYMER NANOWIRE:1||Lung cancer:1||INTRAVENOUS CORONARYARTERIOGRAPHY:1||SUBLIMATION GROWTH:1||radiography:1||porous SiC:1||GIANT MAGNETORESISTANCE:1||SEMICONDUCTORS:1||Ga diffusion:1||electroless deposition:1||HEMATITE:1||FREEELECTRON LASER:1||MOCVD:1||interfaces:1||white beam:1||imaging technique:1||nucleation layer:1||interface structure:1||epitaxial Baferrite film:1||rf magnetron sputtering:1||MAGNETIC CHARACTERISTICS:1||MIXTURE:1||ACCESS MEMORY APPLICATION:1||COHERENCY STRAIN:1||DENSITY:1||nanofabrication:1||POLY(METHYL METHACRYLATE) MICROSPHERE:1||RESIST:1||unmonochromatic beam:1||MICRORADIOGRAPHY:1||INTERFEROMETER:1||EXPOSURE:1||volume variation electronic:1||PULSEDLASER ABLATION:1||Semiconducting IIVI materials:1||Light emitting diodes:1||phase contrast microscopies:1||lung:1||AUGERELECTRON SPECTROSCOPY:1||passivation:1||additive manufacturing:1||Silicon carbide:1||Synchrotron radiation:1||Synchrotron radiation imaging:1||Dislocations (crystals):1||LUNG INJURY:1||POLYMER SURFACES:1||SINGLE CELLS:1||PREFERRED ORIENTATION:1||sapphire orientation:1||TANTALUM:1||BIASENHANCED NUCLEATION:1||hexaferrite:1||stretched exponential:1||SOLIDSURFACE:1||SHEAR:1||VIDEO MICROSCOPY:1||CARBON NANOTUBES:1||realtime observation:1||Xray synchrotron:1||CARBONMONOXIDE:1||ELECTROCHEMICAL FABRICATION:1||crystal growth:1||computer simulation:1||FERROELECTRICFILMS:1||TITANIUM IMPLANTS:1||BONE INTERFACE:1||EXAFS perpendicular magnetic recording:1||Pd/Ni:1||ELECTRODES:1||internal organ:1||LIGHTEMITTINGDIODES:1||interfacial structure:1||CONSTANT:1||DIELECTRICPROPERTIES:1||AR:1||DEVICES:1||BiSrCaCuO:1||LASER ABLATION:1||MECHANISM:1||SELECTIVE DEPOSITION:1||TARGETED DRUGDELIVERY:1||PEG:1||carbon nanotubes:1||nanocharacterization:1||WALLED CARBON NANOTUBE:1||basal cell carcinoma:1||PARTICULATE AIRPOLLUTION:1||FINE:1||CITIES:1||DOPED ZNO FILMS:1||atherosclerosis:1||drug delivery:1||hard Xray:1||COMBUSTION:1||ARTIFICIAL BATIO3/SRTIO3 SUPERLATTICES:1||surface morphology:1||Direct wafer bonding:1||COLLOIDAL GOLD PARTICLES:1||DELINEATION:1||EXPECTANCY:1||DEMOGRAPHY:1||MRI:1||SIGE:1||Phase contrast microradiography:1||INJURY:1||PASSIVITY:1||VOLUME:1||CONTACTANGLE:1||ARRAYS:1||DUCTILITY:1||sputtering:1||computed microtomography (mu CT):1||unmonochromatized Xray:1||BIPOLARTRANSISTORS:1||longevity:1||Confocal microscopy:1||Colloidal wettability:1||ATOMICFORCE MICROSCOPY:1||storage ring:1||digital subtraction:1||SCATTERING:1||size effect:1||SYNTHETIC QUARTZ:1||liquid metal embrittlement:1||iron ore:1||cube textured Ni substrates:1||SrRuO3 films:1||laser ablations:1||Ti underlayer:1||RANDOMACCESS MEMORIES:1||DOMAIN CONFIGURATIONS:1||MGO(100):1||SPECTROSCOPY:1||XE:1||IONBEAM:1||GRAINBOUNDARY MIGRATION:1||SRTIO3:1||COMPOSITES:1||FOAMS:1||BREASTCANCER SPECIMENS:1||unmonochromatized:1||Xray induced nucleation:1||gold:1||ABSORPTION:1||SEPARATION:1||CZOCHRALSKI GROWTH:1||RETRIEVAL:1||GAMMARADIATION:1||AQUEOUSSOLUTION:1||NANOCOMPOSITES:1||INCREASE:1||without staining procedure:1||XPS:1||Imaging techniques:1||Interfaces (materials):1||Dislocation distributions:1||AZOBENZENE:1||STRUCTURAL EVOLUTION:1||RELAXATION:1||DROP IMPACT:1||NONLINEAR DYNAMICS:1||DISLOCATIONS:1||Colloids:1||TRANSFORMATION:1||METAL INTERCONNECTS:1||ELASTIC CONDUCTORS:1||LOGIC:1||DEFICIENT MICE:1||tomography:1||FACILITY:1||osseointegration:1||ROCKS:1||dental radiography:1||Zn coating:1||RE2O3/Ni:1||YBCO COATED CONDUCTORS:1||threedimensional islands:1||(Ba,Sr)TiO3:1||ultrahigh resolution:1||photoelectron emission:1||Pd:1||LANIO3:1||BASE ELECTRODES:1||iron oxide phase:1||ironoxide interlayer:1||COATED GLASS SUBSTRATE:1||MICROWAVE PLASMA NUCLEATION:1||ENHANCED NUCLEATION:1||phase transformation:1||ADSORPTION:1||phasecontrast xray imaging:1||lung inflammation:1||SI1XGEX SINGLECRYSTALS:1||COCONTINUITY:1||SCALE:1||OBJECT:1||synchrotron microradiography:1||FeSO4:1||INDUCTION:1||BaTiO3 and SrTiO3 thin films:1||HARDXRAYS:1||light emitting diodes:1||ACID:1||MICROSTRUCTURES:1||PHOTOLUMINESCENCE PROPERTIES:1||LASER IRRADIATION:1||Human aging:1||polychromatic synchrotron Xray:1||refraction enhanced imaging:1||CHROMOPHORES:1||ACUTE LUNG INJURY:1||spatial resolution:1||BETAFESI2:1||VLSI:1||SI1XGEX:1||COLLOIDAL SUSPENSIONS:1||ELECTRONICS:1||ENHANCEMENT:1||artificial lattice:1||sinters:1||SILVER:1||STRAIN RELAXATION:1||biaxial texture:1||synchrotron scattering:1||transmission electron microscopy:1||IRONOXIDE FILMS:1||PZT thin film:1||ferroelectric thin film:1||MISFIT RELAXATION MECHANISMS:1||PBTIO3:1||O2:1||CONDUCTING POLYMERS:1||poly(methylmethancrylate):1||microspheres:1||phase contrast Xray microscope:1||AMBIENT AIR:1||ATMOSPHERE:1||XRAY INTERFEROMETER:1||NiAu composite nanoparticles.:1||synchrotron radiation Xrays:1||microtomography:1||OIL FLYASH:1||zinc oxide:1||mammography:1||SrRuO3 film:1||Laser epitaxy:1||HOLE MOBILITY:1||Models of crystal defects:1||RABBIT LUNGS:1||NI/AU CONTACT:1||3D printing:1||Stress relaxation:1||SURFACEAREA:1||IMAGE:1||modulation transfer function (MTF):1||Pb ions:1||Insitu visualization:1||Interfacial tension:1||DISPERSION FORCES:1||SINGLECRYSTALS:1||XRAY SOURCE:1||Synchrotron Xray imaging:1||Realtime imaging:1||MEDICAL APPLICATIONS:1||wiggler bending magnet:1||undulator:1||diffractionenhanced imaging:1||ZnO film:1||CAPACITORS:1||HE3:1||NiP alloy:1||PHOTOCHEMICAL FORMATION:1||extended domain matching:1||cubetextured Ni substrates:1||RAY COMPUTEDTOMOGRAPHY:1||electrode layer:1||DOMAINSTRUCTURE:1||XRAY CT:1||SPECIMEN:1||mammographic phantom:1||Xray absorption spectroscopy:1||BLUE:1||CONTACT:1||(BA:1||synchrotron spectromicroscopy:1||thin film:1||MICROWAVE PLASMA:1||GOLD NANOPARTICLES:1||POLYMERIZATION:1||DISEASE:1||Shanghai:1||MORTALITY:1||HETEROSTRUCTURES:1||METHACRYLATE:1||prostate cancer:1||renal cell carcinoma:1||RATS:1||PULSEDLASER DEPOSITION:1||semiconducting IIVI materials:1||PATTERNS:1||sapphire:1||evaporation:1||ZINCOXIDE:1||LIGHTEMITTING DIODE:1||Synchrotron imaging:1||Dislocations:1||Cracks:1||LIVE:1||spinal cord:1||stainless steel:1||nanophotonics:1||subwavelength waveguides:1||Synchrotrons:1||High dislocation density:1||Misfit stress relaxations:1||Randomly distributed:1||Tripleaxis xray diffractions:1||FLOW:1||CRYSTALLINE ORGANIC NANORODS:1||SHAPE CHANGES:1||ZnO thin film:1||(111)SI:1||XRAY MIRRORS:1||low temperature:1||oxide cathodes:1||heterogeneity:1||Xray microscopy:1||INTERFACIAL TENSIONS:1||single crystal growth:1||CARCINOMA:1||mouse:1||ANIMALS:1||Mndoped ZnO:1||luminescence:1||solution precipitation:1||CLUSTER:1||relaxation:1||ALPHAFE2O3:1||XANES:1||epitaxy:1||LaNiO3 thin film:1||LANIO3 THINFILMS:1||ELECTRODE:1||Fe3O4 sublayer:1||EXAFS microscopy:1||FERRITE FILMS:1||SURFACE PRETREATMENTS:1||superconductors:1||CONTRAST AGENT:1||BIODISTRIBUTION:1||DEATH:1||SYNCHROTRON:1||IR:1||apo Eknockout mouse:1||plaque:1||microradiology:1||ALPHASYNUCLEIN:1||PULMONARY TOXICITY:1||XRAY TOPOGRAPHY:1||dislocation:1||metalorganic chemical vapor deposition:1||CRYSTALGROWTH:1||SELFASSEMBLED MONOLAYERS:1||MEMBRANES:1||MAGNETICANISOTROPY:1||SI1XGEX CRYSTALS:1||STRAINEDSI:1||Extended Weibull model:1||MOLYBDENUM:1||ALLOYS:1||IRON:1||Theoretical modeling:1||Threading dislocation:1||GROWTH:27||THINFILMS:16||SYNCHROTRONRADIATION:15||CONTRAST:11||RADIOLOGY:11||PARTICLES:11||FILMS:11||SILICON:10||RADIATION:10||DEPOSITION:10||RESOLUTION:9||CRYSTALS:8||SILICONCARBIDE:7||XRAYS:7||MAMMOGRAPHY:7||Xray diffraction:7||synchrotron radiation:6||XRAYSCATTERING:6||MODEL:6||microstructure:6||DYNAMICS:5||ELECTRODEPOSITION:5||LAYERS:5||CHEMICALVAPORDEPOSITION:5||TEMPERATURE:5||TOMOGRAPHY:5||COMPUTEDTOMOGRAPHY:5||SAPPHIRE:5||MEDIA:5||NANOWIRES:5||DIFFRACTION:4||TISSUES:4||pulsed laser deposition:4||phase contrast imaging:4||LAYER:4||IMAGES:4||DIODES:4||FIELDEFFECT TRANSISTORS:4||ptype GaN:4||MICROSCOPY:4||REDUCTION:4||POLYMER:4||DEFECTS:3||COHERENCE:3||MICROTOMOGRAPHY:3||NANOPARTICLES:3||synchrotron:3||LIGHT:3||TRANSISTORS:3||SURFACES:3||STRAIN:3||EPITAXIAL LAYERS:3||DRUGDELIVERY:3||REFRACTION:3||growth mechanism:3||METALS:3||MICROPIPES:3||SYSTEM:3||NUCLEATION:3||synchrotron Xray scattering:3||SURFACE:3||SCREW DISLOCATIONS:3||SIMULATION:3||HARD XRAYS:3||ELECTRICALPROPERTIES:3||EPITAXY:3||GAN:3||PM2.5:3||EVAPORATION:3||LIQUIDS:3||INPLANE:3||RAT:3||ANGIOGENESIS:3||CT:3||GaN:3||ZnO:3||NANORODS:3||strain:3||PB(ZR0.53TI0.47)O3:3||CRYSTALLIZATION:3||synchrotron Xrays:2||buffer layer:2||TRANSMISSION ELECTRONMICROSCOPY:2||EPITAXIAL COSI2 FILMS:2||MECHANISMS:2||INSITU GROWTH:2||DEVICE:2||LOCALIZED ELECTROCHEMICAL DEPOSITION:2||X ray diffraction:2||SCHOTTKY CONTACT:2||IRRADIATION:2||aqua regia treatment:2||INVIVO:2||CELLADHESION:2||MORPHOGENETIC PROTEIN2:2||RECEPTOR:2||TEM:2||broadband synchrotron light:2||nanoparticle:2||BUFFER LAYERS:2||TC:2||ENHANCED SYNCHROTRON RADIOLOGY:2||synthesis:2||POLYDIMETHYLSILOXANE:2||MICROCHANNELS:2||PRETREATMENT PROCESS:2||XRAY:2||CHEMOTAXIS:2||MECHANOSENSORY TRANSDUCTION:2||rectangular microtube:2||CONJUGATED POLYMER:2||atomic force microscopy:2||METALLIC OXIDE SRRUO3:2||LASERABLATION:2||STRESS:2||ZONE PLATES:2||FRICTION:2||THERMALSTABILITY:2||Xrays:2||RAY:2||NM:2||ENERGY:2||TOPOGRAPHY:2||synchrotron Xray:2||ACID HYDROGELS:2||CAENORHABDITISELEGANS:2||PROTEIN:2||defects:2||EVOLUTION:2||FABRICATION:2||sharp bending waveguide:2||lasing action:2||BULK CRYSTALS:2||SUPERLATTICES:2||COATED CONDUCTORS:2||SI(111):2||phase contrast:2||CORONARY ANGIOGRAPHY:2||SPECTROMICROSCOPY:2||MEPHISTO:2||OXYGEN:2||OPTICALPROPERTIES:2||RADIOGRAPHY:2||CONTACT DEFORMATIONS:2||MOLECULAR FORCES:2||SOLIDS:2||NTYPE GAN:2||deposition:2||CHEMISTRY:2||DEFORMATION:2||SUBSTRATE:2||HETEROEPITAXY:2||NANOTOPOGRAPHY:2||EPITAXIALGROWTH:2||Xray:2||CHEMICAL VAPORDEPOSITION:2||SILICON STRUCTURES:2||STEMCELLS:2||CHANNEL:2||crystal structure:2||CORONARYANGIOGRAPHY:2||SiC:2||BUFFER LAYER:2||MOLECULARBEAM EPITAXY:2||INTERFACE:2||SIZE:2||ELECTRON:2||XRAY MICROSCOPY:2||MORPHOLOGIES:2||NANOCOLLOIDS:2||FORCE MICROSCOPY:2||ablation:2||polymers:2||(NH4)(2)Sx treatment:2||CLUSTERS:2||BIOMATERIALS:2||CIRCUITS:2||rectangular ring mode:2||GUIDES:2||MICROCAVITY:2||PHOTOLUMINESCENCE:2||epitaxial growth:2||EMBRITTLEMENT:2||Xray imaging:2||BIOCOMPATIBILITY:2||BEHAVIOR:2||MICROWAVEPLASMA:2||LOWPRESSURE:2||DEGRADATION:2||TISSUE:2||LIQUID:2||SOFT LITHOGRAPHY:2||amplified spontaneous emission (ASE):2||SMALL ORGANICMOLECULES:2||PHOTONIC CRYSTAL:2||micropipes:2||radiology:2||ALLOY:2||Xray scattering:2||CRITICALCURRENT DENSITY:2||ELECTRONMICROSCOPY:2||BI(PB)SRCACUO:2||ELECTRONICSTRUCTURE:2||RECONSTRUCTION:2||MG:2||ohmic contact:2||Pd ohmic contact:2||xray scattering:2||INP:2||annealing:2||REGENERATION:2||TITANIUM:2||COLLOIDAL GOLD:2||crystallization:2||BUCKLING MECHANICS:2||LASERS:2||MODES:2||synchrotron imaging:2||lattice distortion:2||AQUEOUSELECTROLYTE:2||MOLECULARDYNAMICS:2||OXIDE:2||MICROANGIOGRAPHY:2||OXIDATION:2||MICRORADIOLOGY:2||TECHNOLOGY:2||GE:2||surface chemistry:2||RECOVERY:2||OHMIC CONTACTS:2||LASERDIODES:2||PTYPE GAN:2||MOTION:2||PHANTOM:2||PHASE:2||CALCIUMPHOSPHATE CERAMICS:2||REPAIR:2||porphyrin:2||AMPLIFIED SPONTANEOUS EMISSION:2||METALELECTRODES:2||PD:2||SUPERCONDUCTING TAPES:2||nucleation:2||COATINGS:2||Xray topography:2||MONOLAYERS:2||SURFACE MODIFICATION:2||LITHOGRAPHY:2||MECHANICAL VENTILATION:1||MICRORIBBONS:1||STIFFNESS:1||DUALPHASE STEEL:1||growth mode:1||strain evolution:1||SI(100):1||ANISOTROPY:1||WET GRANULAR PILE:1||COALESCENCE:1||INSITU POLYMERIZATION:1||GRAPHENE:1||CANCER:1||NODULES:1||RABBITS:1||phasecontrast:1||YTTRIUMOXIDE FILMS:1||BaTiO3/SrTiO3:1||dental implant:1||coincidence site density:1||ERNI2B2C:1||crystallites:1||CoCrPt films:1||tensile strain:1||gallide:1||MGO:1||Baferrite film:1||synchrotron xray scattering:1||ZNO THINFILMS:1||MORPHOLOGY:1||PHASES:1||MICE:1||EBEAM LITHOGRAPHY:1||electrorheological fluids:1||NANOFIBROUS MEMBRANES:1||NANOLITHOGRAPHY:1||refractive index radiology:1||BLOOD:1||colloidal:1||SIZE CONTROL:1||nanoradiology:1||ZnSO4:1||lung injury:1||METAL:1||PM10:1||textured grain:1||MICROSTRUCTURE:1||DIMENSIONS:1||highresolution Xray diffraction:1||low temperature buffer:1||Zinc compounds:1||SI:1||HUMAN LONGEVITY:1||Maximum human lifespan:1||LIMITS:1||MOSFETS:1||in situ XANES:1||nanowires:1||PHOTOIRRADIATION:1||FIBERS:1||WORK:1||EMISSION:1||RADIATION MICROTOMOGRAPHY:1||RAMANSCATTERING:1||gold nanoparticles:1||synchrotron Xray diffraction:1||OPTICAL WAVEGUIDES:1||CONDUCTINGPOLYMER NANOWIRE:1||Lung cancer:1||INTRAVENOUS CORONARYARTERIOGRAPHY:1||SUBLIMATION GROWTH:1||radiography:1||porous SiC:1||GIANT MAGNETORESISTANCE:1||SEMICONDUCTORS:1||Ga diffusion:1||electroless deposition:1||HEMATITE:1||FREEELECTRON LASER:1||MOCVD:1||interfaces:1||white beam:1||imaging technique:1||nucleation layer:1||interface structure:1||epitaxial Baferrite film:1||rf magnetron sputtering:1||MAGNETIC CHARACTERISTICS:1||MIXTURE:1||ACCESS MEMORY APPLICATION:1||COHERENCY STRAIN:1||DENSITY:1||nanofabrication:1||POLY(METHYL METHACRYLATE) MICROSPHERE:1||RESIST:1||unmonochromatic beam:1||MICRORADIOGRAPHY:1||INTERFEROMETER:1||EXPOSURE:1||volume variation electronic:1||PULSEDLASER ABLATION:1||Semiconducting IIVI materials:1||Light emitting diodes:1||phase contrast microscopies:1||lung:1||AUGERELECTRON SPECTROSCOPY:1||passivation:1||additive manufacturing:1||Silicon carbide:1||Synchrotron radiation:1||Synchrotron radiation imaging:1||Dislocations (crystals):1||LUNG INJURY:1||POLYMER SURFACES:1||SINGLE CELLS:1||PREFERRED ORIENTATION:1||sapphire orientation:1||TANTALUM:1||BIASENHANCED NUCLEATION:1||hexaferrite:1||stretched exponential:1||SOLIDSURFACE:1||SHEAR:1||VIDEO MICROSCOPY:1||CARBON NANOTUBES:1||realtime observation:1||Xray synchrotron:1||CARBONMONOXIDE:1||ELECTROCHEMICAL FABRICATION:1||crystal growth:1||computer simulation:1||FERROELECTRICFILMS:1||TITANIUM IMPLANTS:1||BONE INTERFACE:1||EXAFS perpendicular magnetic recording:1||Pd/Ni:1||ELECTRODES:1||internal organ:1||LIGHTEMITTINGDIODES:1||interfacial structure:1||CONSTANT:1||DIELECTRICPROPERTIES:1||AR:1||DEVICES:1||BiSrCaCuO:1||LASER ABLATION:1||MECHANISM:1||SELECTIVE DEPOSITION:1||TARGETED DRUGDELIVERY:1||PEG:1||carbon nanotubes:1||nanocharacterization:1||WALLED CARBON NANOTUBE:1||basal cell carcinoma:1||PARTICULATE AIRPOLLUTION:1||FINE:1||CITIES:1||DOPED ZNO FILMS:1||atherosclerosis:1||drug delivery:1||hard Xray:1||COMBUSTION:1||ARTIFICIAL BATIO3/SRTIO3 SUPERLATTICES:1||surface morphology:1||Direct wafer bonding:1||COLLOIDAL GOLD PARTICLES:1||DELINEATION:1||EXPECTANCY:1||DEMOGRAPHY:1||MRI:1||SIGE:1||Phase contrast microradiography:1||INJURY:1||PASSIVITY:1||VOLUME:1||CONTACTANGLE:1||ARRAYS:1||DUCTILITY:1||sputtering:1||computed microtomography (mu CT):1||unmonochromatized Xray:1||BIPOLARTRANSISTORS:1||longevity:1||Confocal microscopy:1||Colloidal wettability:1||ATOMICFORCE MICROSCOPY:1||storage ring:1||digital subtraction:1||SCATTERING:1||size effect:1||SYNTHETIC QUARTZ:1||liquid metal embrittlement:1||iron ore:1||cube textured Ni substrates:1||SrRuO3 films:1||laser ablations:1||Ti underlayer:1||RANDOMACCESS MEMORIES:1||DOMAIN CONFIGURATIONS:1||MGO(100):1||SPECTROSCOPY:1||XE:1||IONBEAM:1||GRAINBOUNDARY MIGRATION:1||SRTIO3:1||COMPOSITES:1||FOAMS:1||BREASTCANCER SPECIMENS:1||unmonochromatized:1||Xray induced nucleation:1||gold:1||ABSORPTION:1||SEPARATION:1||CZOCHRALSKI GROWTH:1||RETRIEVAL:1||GAMMARADIATION:1||AQUEOUSSOLUTION:1||NANOCOMPOSITES:1||INCREASE:1||without staining procedure:1||XPS:1||Imaging techniques:1||Interfaces (materials):1||Dislocation distributions:1||AZOBENZENE:1||STRUCTURAL EVOLUTION:1||RELAXATION:1||DROP IMPACT:1||NONLINEAR DYNAMICS:1||DISLOCATIONS:1||Colloids:1||TRANSFORMATION:1||METAL INTERCONNECTS:1||ELASTIC CONDUCTORS:1||LOGIC:1||DEFICIENT MICE:1||tomography:1||FACILITY:1||osseointegration:1||ROCKS:1||dental radiography:1||Zn coating:1||RE2O3/Ni:1||YBCO COATED CONDUCTORS:1||threedimensional islands:1||(Ba,Sr)TiO3:1||ultrahigh resolution:1||photoelectron emission:1||Pd:1||LANIO3:1||BASE ELECTRODES:1||iron oxide phase:1||ironoxide interlayer:1||COATED GLASS SUBSTRATE:1||MICROWAVE PLASMA NUCLEATION:1||ENHANCED NUCLEATION:1||phase transformation:1||ADSORPTION:1||phasecontrast xray imaging:1||lung inflammation:1||SI1XGEX SINGLECRYSTALS:1||COCONTINUITY:1||SCALE:1||OBJECT:1||synchrotron microradiography:1||FeSO4:1||INDUCTION:1||BaTiO3 and SrTiO3 thin films:1||HARDXRAYS:1||light emitting diodes:1||ACID:1||MICROSTRUCTURES:1||PHOTOLUMINESCENCE PROPERTIES:1||LASER IRRADIATION:1||Human aging:1||polychromatic synchrotron Xray:1||refraction enhanced imaging:1||CHROMOPHORES:1||ACUTE LUNG INJURY:1||spatial resolution:1||BETAFESI2:1||VLSI:1||SI1XGEX:1||COLLOIDAL SUSPENSIONS:1||ELECTRONICS:1||ENHANCEMENT:1||artificial lattice:1||sinters:1||SILVER:1||STRAIN RELAXATION:1||biaxial texture:1||synchrotron scattering:1||transmission electron microscopy:1||IRONOXIDE FILMS:1||PZT thin film:1||ferroelectric thin film:1||MISFIT RELAXATION MECHANISMS:1||PBTIO3:1||O2:1||CONDUCTING POLYMERS:1||poly(methylmethancrylate):1||microspheres:1||phase contrast Xray microscope:1||AMBIENT AIR:1||ATMOSPHERE:1||XRAY INTERFEROMETER:1||NiAu composite nanoparticles.:1||synchrotron radiation Xrays:1||microtomography:1||OIL FLYASH:1||zinc oxide:1||mammography:1||SrRuO3 film:1||Laser epitaxy:1||HOLE MOBILITY:1||Models of crystal defects:1||RABBIT LUNGS:1||NI/AU CONTACT:1||3D printing:1||Stress relaxation:1||SURFACEAREA:1||IMAGE:1||modulation transfer function (MTF):1||Pb ions:1||Insitu visualization:1||Interfacial tension:1||DISPERSION FORCES:1||SINGLECRYSTALS:1||XRAY SOURCE:1||Synchrotron Xray imaging:1||Realtime imaging:1||MEDICAL APPLICATIONS:1||wiggler bending magnet:1||undulator:1||diffractionenhanced imaging:1||ZnO film:1||CAPACITORS:1||HE3:1||NiP alloy:1||PHOTOCHEMICAL FORMATION:1||extended domain matching:1||cubetextured Ni substrates:1||RAY COMPUTEDTOMOGRAPHY:1||electrode layer:1||DOMAINSTRUCTURE:1||XRAY CT:1||SPECIMEN:1||mammographic phantom:1||Xray absorption spectroscopy:1||BLUE:1||CONTACT:1||(BA:1||synchrotron spectromicroscopy:1||thin film:1||MICROWAVE PLASMA:1||GOLD NANOPARTICLES:1||POLYMERIZATION:1||DISEASE:1||Shanghai:1||MORTALITY:1||HETEROSTRUCTURES:1||METHACRYLATE:1||prostate cancer:1||renal cell carcinoma:1||RATS:1||PULSEDLASER DEPOSITION:1||semiconducting IIVI materials:1||PATTERNS:1||sapphire:1||evaporation:1||ZINCOXIDE:1||LIGHTEMITTING DIODE:1||Synchrotron imaging:1||Dislocations:1||Cracks:1||LIVE:1||spinal cord:1||stainless steel:1||nanophotonics:1||subwavelength waveguides:1||Synchrotrons:1||High dislocation density:1||Misfit stress relaxations:1||Randomly distributed:1||Tripleaxis xray diffractions:1||FLOW:1||CRYSTALLINE ORGANIC NANORODS:1||SHAPE CHANGES:1||ZnO thin film:1||(111)SI:1||XRAY MIRRORS:1||low temperature:1||oxide cathodes:1||heterogeneity:1||Xray microscopy:1||INTERFACIAL TENSIONS:1||single crystal growth:1||CARCINOMA:1||mouse:1||ANIMALS:1||Mndoped ZnO:1||luminescence:1||solution precipitation:1||CLUSTER:1||relaxation:1||ALPHAFE2O3:1||XANES:1||epitaxy:1||LaNiO3 thin film:1||LANIO3 THINFILMS:1||ELECTRODE:1||Fe3O4 sublayer:1||EXAFS microscopy:1||FERRITE FILMS:1||SURFACE PRETREATMENTS:1||superconductors:1||CONTRAST AGENT:1||BIODISTRIBUTION:1||DEATH:1||SYNCHROTRON:1||IR:1||apo Eknockout mouse:1||plaque:1||microradiology:1||ALPHASYNUCLEIN:1||PULMONARY TOXICITY:1||XRAY TOPOGRAPHY:1||dislocation:1||metalorganic chemical vapor deposition:1||CRYSTALGROWTH:1||SELFASSEMBLED MONOLAYERS:1||MEMBRANES:1||MAGNETICANISOTROPY:1||SI1XGEX CRYSTALS:1||STRAINEDSI:1||Extended Weibull model:1||MOLYBDENUM:1||ALLOYS:1||IRON:1||Theoretical modeling:1||Threading dislocation:1||GROWTH:27||THINFILMS:16||SYNCHROTRONRADIATION:15||CONTRAST:11||RADIOLOGY:11||PARTICLES:11||FILMS:11||SILICON:10||RADIATION:10||DEPOSITION:10||RESOLUTION:9||CRYSTALS:8||SILICONCARBIDE:7||XRAYS:7||MAMMOGRAPHY:7||Xray diffraction:7||synchrotron radiation:6||XRAYSCATTERING:6||MODEL:6||microstructure:6||DYNAMICS:5||ELECTRODEPOSITION:5||LAYERS:5||CHEMICALVAPORDEPOSITION:5||TEMPERATURE:5||TOMOGRAPHY:5||COMPUTEDTOMOGRAPHY:5||SAPPHIRE:5||MEDIA:5||NANOWIRES:5||DIFFRACTION:4||TISSUES:4||pulsed laser deposition:4||phase contrast imaging:4||LAYER:4||IMAGES:4||DIODES:4||FIELDEFFECT TRANSISTORS:4||ptype GaN:4||MICROSCOPY:4||REDUCTION:4||POLYMER:4||DEFECTS:3||COHERENCE:3||MICROTOMOGRAPHY:3||NANOPARTICLES:3||synchrotron:3||LIGHT:3||TRANSISTORS:3||SURFACES:3||STRAIN:3||EPITAXIAL LAYERS:3||DRUGDELIVERY:3||REFRACTION:3||growth mechanism:3||METALS:3||MICROPIPES:3||SYSTEM:3||NUCLEATION:3||synchrotron Xray scattering:3||SURFACE:3||SCREW DISLOCATIONS:3||SIMULATION:3||HARD XRAYS:3||ELECTRICALPROPERTIES:3||EPITAXY:3||GAN:3||PM2.5:3||EVAPORATION:3||LIQUIDS:3||INPLANE:3||RAT:3||ANGIOGENESIS:3||CT:3||GaN:3||ZnO:3||NANORODS:3||strain:3||PB(ZR0.53TI0.47)O3:3||CRYSTALLIZATION:3||synchrotron Xrays:2||buffer layer:2||TRANSMISSION ELECTRONMICROSCOPY:2||EPITAXIAL COSI2 FILMS:2||MECHANISMS:2||INSITU GROWTH:2||DEVICE:2||LOCALIZED ELECTROCHEMICAL DEPOSITION:2||X ray diffraction:2||SCHOTTKY CONTACT:2||IRRADIATION:2||aqua regia treatment:2||INVIVO:2||CELLADHESION:2||MORPHOGENETIC PROTEIN2:2||RECEPTOR:2||TEM:2||broadband synchrotron light:2||nanoparticle:2||BUFFER LAYERS:2||TC:2||ENHANCED SYNCHROTRON RADIOLOGY:2||synthesis:2||POLYDIMETHYLSILOXANE:2||MICROCHANNELS:2||PRETREATMENT PROCESS:2||XRAY:2||CHEMOTAXIS:2||MECHANOSENSORY TRANSDUCTION:2||rectangular microtube:2||CONJUGATED POLYMER:2||atomic force microscopy:2||METALLIC OXIDE SRRUO3:2||LASERABLATION:2||STRESS:2||ZONE PLATES:2||FRICTION:2||THERMALSTABILITY:2||Xrays:2||RAY:2||NM:2||ENERGY:2||TOPOGRAPHY:2||synchrotron Xray:2||ACID HYDROGELS:2||CAENORHABDITISELEGANS:2||PROTEIN:2||defects:2||EVOLUTION:2||FABRICATION:2||sharp bending waveguide:2||lasing action:2||BULK CRYSTALS:2||SUPERLATTICES:2||COATED CONDUCTORS:2||SI(111):2||phase contrast:2||CORONARY ANGIOGRAPHY:2||SPECTROMICROSCOPY:2||MEPHISTO:2||OXYGEN:2||OPTICALPROPERTIES:2||RADIOGRAPHY:2||CONTACT DEFORMATIONS:2||MOLECULAR FORCES:2||SOLIDS:2||NTYPE GAN:2||deposition:2||CHEMISTRY:2||DEFORMATION:2||SUBSTRATE:2||HETEROEPITAXY:2||NANOTOPOGRAPHY:2||EPITAXIALGROWTH:2||Xray:2||CHEMICAL VAPORDEPOSITION:2||SILICON STRUCTURES:2||STEMCELLS:2||CHANNEL:2||crystal structure:2||CORONARYANGIOGRAPHY:2||SiC:2||BUFFER LAYER:2||MOLECULARBEAM EPITAXY:2||INTERFACE:2||SIZE:2||ELECTRON:2||XRAY MICROSCOPY:2||MORPHOLOGIES:2||NANOCOLLOIDS:2||FORCE MICROSCOPY:2||ablation:2||polymers:2||(NH4)(2)Sx treatment:2||CLUSTERS:2||BIOMATERIALS:2||CIRCUITS:2||rectangular ring mode:2||GUIDES:2||MICROCAVITY:2||PHOTOLUMINESCENCE:2||epitaxial growth:2||EMBRITTLEMENT:2||Xray imaging:2||BIOCOMPATIBILITY:2||BEHAVIOR:2||MICROWAVEPLASMA:2||LOWPRESSURE:2||DEGRADATION:2||TISSUE:2||LIQUID:2||SOFT LITHOGRAPHY:2||amplified spontaneous emission (ASE):2||SMALL ORGANICMOLECULES:2||PHOTONIC CRYSTAL:2||micropipes:2||radiology:2||ALLOY:2||Xray scattering:2||CRITICALCURRENT DENSITY:2||ELECTRONMICROSCOPY:2||BI(PB)SRCACUO:2||ELECTRONICSTRUCTURE:2||RECONSTRUCTION:2||MG:2||ohmic contact:2||Pd ohmic contact:2||xray scattering:2||INP:2||annealing:2||REGENERATION:2||TITANIUM:2||COLLOIDAL GOLD:2||crystallization:2||BUCKLING MECHANICS:2||LASERS:2||MODES:2||synchrotron imaging:2||lattice distortion:2||AQUEOUSELECTROLYTE:2||MOLECULARDYNAMICS:2||OXIDE:2||MICROANGIOGRAPHY:2||OXIDATION:2||MICRORADIOLOGY:2||TECHNOLOGY:2||GE:2||surface chemistry:2||RECOVERY:2||OHMIC CONTACTS:2||LASERDIODES:2||PTYPE GAN:2||MOTION:2||PHANTOM:2||PHASE:2||CALCIUMPHOSPHATE CERAMICS:2||REPAIR:2||porphyrin:2||AMPLIFIED SPONTANEOUS EMISSION:2||METALELECTRODES:2||PD:2||SUPERCONDUCTING TAPES:2||nucleation:2||COATINGS:2||Xray topography:2||MONOLAYERS:2||SURFACE MODIFICATION:2||LITHOGRAPHY:2||MECHANICAL VENTILATION:1||MICRORIBBONS:1||STIFFNESS:1||DUALPHASE STEEL:1||growth mode:1||strain evolution:1||SI(100):1||ANISOTROPY:1||WET GRANULAR PILE:1||COALESCENCE:1||INSITU POLYMERIZATION:1||GRAPHENE:1||CANCER:1||NODULES:1||RABBITS:1||phasecontrast:1||YTTRIUMOXIDE FILMS:1||BaTiO3/SrTiO3:1||dental implant:1||coincidence site density:1||ERNI2B2C:1||crystallites:1||CoCrPt films:1||tensile strain:1||gallide:1||MGO:1||Baferrite film:1||synchrotron xray scattering:1||ZNO THINFILMS:1||MORPHOLOGY:1||PHASES:1||MICE:1||EBEAM LITHOGRAPHY:1||electrorheological fluids:1||NANOFIBROUS MEMBRANES:1||NANOLITHOGRAPHY:1||refractive index radiology:1||BLOOD:1||colloidal:1||SIZE CONTROL:1||nanoradiology:1||ZnSO4:1||lung injury:1||METAL:1||PM10:1||textured grain:1||MICROSTRUCTURE:1||DIMENSIONS:1||highresolution Xray diffraction:1||low temperature buffer:1||Zinc compounds:1||SI:1||HUMAN LONGEVITY:1||Maximum human lifespan:1||LIMITS:1||MOSFETS:1||in situ XANES:1||nanowires:1||PHOTOIRRADIATION:1||FIBERS:1||WORK:1||EMISSION:1||RADIATION MICROTOMOGRAPHY:1||RAMANSCATTERING:1||gold nanoparticles:1||synchrotron Xray diffraction:1||OPTICAL WAVEGUIDES:1||CONDUCTINGPOLYMER NANOWIRE:1||Lung cancer:1||INTRAVENOUS CORONARYARTERIOGRAPHY:1||SUBLIMATION GROWTH:1||radiography:1||porous SiC:1||GIANT MAGNETORESISTANCE:1||SEMICONDUCTORS:1||Ga diffusion:1||electroless deposition:1||HEMATITE:1||FREEELECTRON LASER:1||MOCVD:1||interfaces:1||white beam:1||imaging technique:1||nucleation layer:1||interface structure:1||epitaxial Baferrite film:1||rf magnetron sputtering:1||MAGNETIC CHARACTERISTICS:1||MIXTURE:1||ACCESS MEMORY APPLICATION:1||COHERENCY STRAIN:1||DENSITY:1||nanofabrication:1||POLY(METHYL METHACRYLATE) MICROSPHERE:1||RESIST:1||unmonochromatic beam:1||MICRORADIOGRAPHY:1||INTERFEROMETER:1||EXPOSURE:1||volume variation electronic:1||PULSEDLASER ABLATION:1||Semiconducting IIVI materials:1||Light emitting diodes:1||phase contrast microscopies:1||lung:1||AUGERELECTRON SPECTROSCOPY:1||passivation:1||additive manufacturing:1||Silicon carbide:1||Synchrotron radiation:1||Synchrotron radiation imaging:1||Dislocations (crystals):1||LUNG INJURY:1||POLYMER SURFACES:1||SINGLE CELLS:1||PREFERRED ORIENTATION:1||sapphire orientation:1||TANTALUM:1||BIASENHANCED NUCLEATION:1||hexaferrite:1||stretched exponential:1||SOLIDSURFACE:1||SHEAR:1||VIDEO MICROSCOPY:1||CARBON NANOTUBES:1||realtime observation:1||Xray synchrotron:1||CARBONMONOXIDE:1||ELECTROCHEMICAL FABRICATION:1||crystal growth:1||computer simulation:1||FERROELECTRICFILMS:1||TITANIUM IMPLANTS:1||BONE INTERFACE:1||EXAFS perpendicular magnetic recording:1||Pd/Ni:1||ELECTRODES:1||internal organ:1||LIGHTEMITTINGDIODES:1||interfacial structure:1||CONSTANT:1||DIELECTRICPROPERTIES:1||AR:1||DEVICES:1||BiSrCaCuO:1||LASER ABLATION:1||MECHANISM:1||SELECTIVE DEPOSITION:1||TARGETED DRUGDELIVERY:1||PEG:1||carbon nanotubes:1||nanocharacterization:1||WALLED CARBON NANOTUBE:1||basal cell carcinoma:1||PARTICULATE AIRPOLLUTION:1||FINE:1||CITIES:1||DOPED ZNO FILMS:1||atherosclerosis:1||drug delivery:1||hard Xray:1||COMBUSTION:1||ARTIFICIAL BATIO3/SRTIO3 SUPERLATTICES:1||surface morphology:1||Direct wafer bonding:1||COLLOIDAL GOLD PARTICLES:1||DELINEATION:1||EXPECTANCY:1||DEMOGRAPHY:1||MRI:1||SIGE:1||Phase contrast microradiography:1||INJURY:1||PASSIVITY:1||VOLUME:1||CONTACTANGLE:1||ARRAYS:1||DUCTILITY:1||sputtering:1||computed microtomography (mu CT):1||unmonochromatized Xray:1||BIPOLARTRANSISTORS:1||longevity:1||Confocal microscopy:1||Colloidal wettability:1||ATOMICFORCE MICROSCOPY:1||storage ring:1||digital subtraction:1||SCATTERING:1||size effect:1||SYNTHETIC QUARTZ:1||liquid metal embrittlement:1||iron ore:1||cube textured Ni substrates:1||SrRuO3 films:1||laser ablations:1||Ti underlayer:1||RANDOMACCESS MEMORIES:1||DOMAIN CONFIGURATIONS:1||MGO(100):1||SPECTROSCOPY:1||XE:1||IONBEAM:1||GRAINBOUNDARY MIGRATION:1||SRTIO3:1||COMPOSITES:1||FOAMS:1||BREASTCANCER SPECIMENS:1||unmonochromatized:1||Xray induced nucleation:1||gold:1||ABSORPTION:1||SEPARATION:1||CZOCHRALSKI GROWTH:1||RETRIEVAL:1||GAMMARADIATION:1||AQUEOUSSOLUTION:1||NANOCOMPOSITES:1||INCREASE:1||without staining procedure:1||XPS:1||Imaging techniques:1||Interfaces (materials):1||Dislocation distributions:1||AZOBENZENE:1||STRUCTURAL EVOLUTION:1||RELAXATION:1||DROP IMPACT:1||NONLINEAR DYNAMICS:1||DISLOCATIONS:1||Colloids:1||TRANSFORMATION:1||METAL INTERCONNECTS:1||ELASTIC CONDUCTORS:1||LOGIC:1||DEFICIENT MICE:1||tomography:1||FACILITY:1||osseointegration:1||ROCKS:1||dental radiography:1||Zn coating:1||RE2O3/Ni:1||YBCO COATED CONDUCTORS:1||threedimensional islands:1||(Ba,Sr)TiO3:1||ultrahigh resolution:1||photoelectron emission:1||Pd:1||LANIO3:1||BASE ELECTRODES:1||iron oxide phase:1||ironoxide interlayer:1||COATED GLASS SUBSTRATE:1||MICROWAVE PLASMA NUCLEATION:1||ENHANCED NUCLEATION:1||phase transformation:1||ADSORPTION:1||phasecontrast xray imaging:1||lung inflammation:1||SI1XGEX SINGLECRYSTALS:1||COCONTINUITY:1||SCALE:1||OBJECT:1||synchrotron microradiography:1||FeSO4:1||INDUCTION:1||BaTiO3 and SrTiO3 thin films:1||HARDXRAYS:1||light emitting diodes:1||ACID:1||MICROSTRUCTURES:1||PHOTOLUMINESCENCE PROPERTIES:1||LASER IRRADIATION:1||Human aging:1||polychromatic synchrotron Xray:1||refraction enhanced imaging:1||CHROMOPHORES:1||ACUTE LUNG INJURY:1||spatial resolution:1||BETAFESI2:1||VLSI:1||SI1XGEX:1||COLLOIDAL SUSPENSIONS:1||ELECTRONICS:1||ENHANCEMENT:1||artificial lattice:1||sinters:1||SILVER:1||STRAIN RELAXATION:1||biaxial texture:1||synchrotron scattering:1||transmission electron microscopy:1||IRONOXIDE FILMS:1||PZT thin film:1||ferroelectric thin film:1||MISFIT RELAXATION MECHANISMS:1||PBTIO3:1||O2:1||CONDUCTING POLYMERS:1||poly(methylmethancrylate):1||microspheres:1||phase contrast Xray microscope:1||AMBIENT AIR:1||ATMOSPHERE:1||XRAY INTERFEROMETER:1||NiAu composite nanoparticles.:1||synchrotron radiation Xrays:1||microtomography:1||OIL FLYASH:1||zinc oxide:1||mammography:1||SrRuO3 film:1||Laser epitaxy:1||HOLE MOBILITY:1||Models of crystal defects:1||RABBIT LUNGS:1||NI/AU CONTACT:1||3D printing:1||Stress relaxation:1||SURFACEAREA:1||IMAGE:1||modulation transfer function (MTF):1||Pb ions:1||Insitu visualization:1||Interfacial tension:1||DISPERSION FORCES:1||SINGLECRYSTALS:1||XRAY SOURCE:1||Synchrotron Xray imaging:1||Realtime imaging:1||MEDICAL APPLICATIONS:1||wiggler bending magnet:1||undulator:1||diffractionenhanced imaging:1||ZnO film:1||CAPACITORS:1||HE3:1||NiP alloy:1||PHOTOCHEMICAL FORMATION:1||extended domain matching:1||cubetextured Ni substrates:1||RAY COMPUTEDTOMOGRAPHY:1||electrode layer:1||DOMAINSTRUCTURE:1||XRAY CT:1||SPECIMEN:1||mammographic phantom:1||Xray absorption spectroscopy:1||BLUE:1||CONTACT:1||(BA:1||synchrotron spectromicroscopy:1||thin film:1||MICROWAVE PLASMA:1||GOLD NANOPARTICLES:1||POLYMERIZATION:1||DISEASE:1||Shanghai:1||MORTALITY:1||HETEROSTRUCTURES:1||METHACRYLATE:1||prostate cancer:1||renal cell carcinoma:1||RATS:1||PULSEDLASER DEPOSITION:1||semiconducting IIVI materials:1||PATTERNS:1||sapphire:1||evaporation:1||ZINCOXIDE:1||LIGHTEMITTING DIODE:1||Synchrotron imaging:1||Dislocations:1||Cracks:1||LIVE:1||spinal cord:1||stainless steel:1||nanophotonics:1||subwavelength waveguides:1||Synchrotrons:1||High dislocation density:1||Misfit stress relaxations:1||Randomly distributed:1||Tripleaxis xray diffractions:1||FLOW:1||CRYSTALLINE ORGANIC NANORODS:1||SHAPE CHANGES:1||ZnO thin film:1||(111)SI:1||XRAY MIRRORS:1||low temperature:1||oxide cathodes:1||heterogeneity:1||Xray microscopy:1||INTERFACIAL TENSIONS:1||single crystal growth:1||CARCINOMA:1||mouse:1||ANIMALS:1||Mndoped ZnO:1||luminescence:1||solution precipitation:1||CLUSTER:1||relaxation:1||ALPHAFE2O3:1||XANES:1||epitaxy:1||LaNiO3 thin film:1||LANIO3 THINFILMS:1||ELECTRODE:1||Fe3O4 sublayer:1||EXAFS microscopy:1||FERRITE FILMS:1||SURFACE PRETREATMENTS:1||superconductors:1||CONTRAST AGENT:1||BIODISTRIBUTION:1||DEATH:1||SYNCHROTRON:1||IR:1||apo Eknockout 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GaN:4||MICROSCOPY:4||REDUCTION:4||POLYMER:4||DEFECTS:3||COHERENCE:3||MICROTOMOGRAPHY:3||NANOPARTICLES:3||synchrotron:3||LIGHT:3||TRANSISTORS:3||SURFACES:3||STRAIN:3||EPITAXIAL LAYERS:3||DRUGDELIVERY:3||REFRACTION:3||growth mechanism:3||METALS:3||MICROPIPES:3||SYSTEM:3||NUCLEATION:3||synchrotron Xray scattering:3||SURFACE:3||SCREW DISLOCATIONS:3||SIMULATION:3||HARD XRAYS:3||ELECTRICALPROPERTIES:3||EPITAXY:3||GAN:3||PM2.5:3||EVAPORATION:3||LIQUIDS:3||INPLANE:3||RAT:3||ANGIOGENESIS:3||CT:3||GaN:3||ZnO:3||NANORODS:3||strain:3||PB(ZR0.53TI0.47)O3:3||CRYSTALLIZATION:3||synchrotron Xrays:2||buffer layer:2||TRANSMISSION ELECTRONMICROSCOPY:2||EPITAXIAL COSI2 FILMS:2||MECHANISMS:2||INSITU GROWTH:2||DEVICE:2||LOCALIZED ELECTROCHEMICAL DEPOSITION:2||X ray diffraction:2||SCHOTTKY CONTACT:2||IRRADIATION:2||aqua regia treatment:2||INVIVO:2||CELLADHESION:2||MORPHOGENETIC PROTEIN2:2||RECEPTOR:2||TEM:2||broadband synchrotron light:2||nanoparticle:2||BUFFER LAYERS:2||TC:2||ENHANCED SYNCHROTRON RADIOLOGY:2||synthesis:2||POLYDIMETHYLSILOXANE:2||MICROCHANNELS:2||PRETREATMENT PROCESS:2||XRAY:2||CHEMOTAXIS:2||MECHANOSENSORY TRANSDUCTION:2||rectangular microtube:2||CONJUGATED POLYMER:2||atomic force microscopy:2||METALLIC OXIDE SRRUO3:2||LASERABLATION:2||STRESS:2||ZONE PLATES:2||FRICTION:2||THERMALSTABILITY:2||Xrays:2||RAY:2||NM:2||ENERGY:2||TOPOGRAPHY:2||synchrotron Xray:2||ACID HYDROGELS:2||CAENORHABDITISELEGANS:2||PROTEIN:2||defects:2||EVOLUTION:2||FABRICATION:2||sharp bending waveguide:2||lasing action:2||BULK CRYSTALS:2||SUPERLATTICES:2||COATED CONDUCTORS:2||SI(111):2||phase contrast:2||CORONARY ANGIOGRAPHY:2||SPECTROMICROSCOPY:2||MEPHISTO:2||OXYGEN:2||OPTICALPROPERTIES:2||RADIOGRAPHY:2||CONTACT DEFORMATIONS:2||MOLECULAR FORCES:2||SOLIDS:2||NTYPE GAN:2||deposition:2||CHEMISTRY:2||DEFORMATION:2||SUBSTRATE:2||HETEROEPITAXY:2||NANOTOPOGRAPHY:2||EPITAXIALGROWTH:2||Xray:2||CHEMICAL VAPORDEPOSITION:2||SILICON STRUCTURES:2||STEMCELLS:2||CHANNEL:2||crystal 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Xray:1||BIPOLARTRANSISTORS:1||longevity:1||Confocal microscopy:1||Colloidal wettability:1||ATOMICFORCE MICROSCOPY:1||storage ring:1||digital subtraction:1||SCATTERING:1||size effect:1||SYNTHETIC QUARTZ:1||liquid metal embrittlement:1||iron ore:1||cube textured Ni substrates:1||SrRuO3 films:1||laser ablations:1||Ti underlayer:1||RANDOMACCESS MEMORIES:1||DOMAIN CONFIGURATIONS:1||MGO(100):1||SPECTROSCOPY:1||XE:1||IONBEAM:1||GRAINBOUNDARY MIGRATION:1||SRTIO3:1||COMPOSITES:1||FOAMS:1||BREASTCANCER SPECIMENS:1||unmonochromatized:1||Xray induced nucleation:1||gold:1||ABSORPTION:1||SEPARATION:1||CZOCHRALSKI GROWTH:1||RETRIEVAL:1||GAMMARADIATION:1||AQUEOUSSOLUTION:1||NANOCOMPOSITES:1||INCREASE:1||without staining procedure:1||XPS:1||Imaging techniques:1||Interfaces (materials):1||Dislocation distributions:1||AZOBENZENE:1||STRUCTURAL EVOLUTION:1||RELAXATION:1||DROP IMPACT:1||NONLINEAR DYNAMICS:1||DISLOCATIONS:1||Colloids:1||TRANSFORMATION:1||METAL INTERCONNECTS:1||ELASTIC CONDUCTORS:1||LOGIC:1||DEFICIENT MICE:1||tomography:1||FACILITY:1||osseointegration:1||ROCKS:1||dental radiography:1||Zn coating:1||RE2O3/Ni:1||YBCO COATED CONDUCTORS:1||threedimensional islands:1||(Ba,Sr)TiO3:1||ultrahigh resolution:1||photoelectron emission:1||Pd:1||LANIO3:1||BASE ELECTRODES:1||iron oxide phase:1||ironoxide interlayer:1||COATED GLASS SUBSTRATE:1||MICROWAVE PLASMA NUCLEATION:1||ENHANCED NUCLEATION:1||phase transformation:1||ADSORPTION:1||phasecontrast xray imaging:1||lung inflammation:1||SI1XGEX SINGLECRYSTALS:1||COCONTINUITY:1||SCALE:1||OBJECT:1||synchrotron microradiography:1||FeSO4:1||INDUCTION:1||BaTiO3 and SrTiO3 thin films:1||HARDXRAYS:1||light emitting diodes:1||ACID:1||MICROSTRUCTURES:1||PHOTOLUMINESCENCE PROPERTIES:1||LASER IRRADIATION:1||Human aging:1||polychromatic synchrotron Xray:1||refraction enhanced imaging:1||CHROMOPHORES:1||ACUTE LUNG INJURY:1||spatial resolution:1||BETAFESI2:1||VLSI:1||SI1XGEX:1||COLLOIDAL SUSPENSIONS:1||ELECTRONICS:1||ENHANCEMENT:1||artificial lattice:1||sinters:1||SILVER:1||STRAIN RELAXATION:1||biaxial texture:1||synchrotron scattering:1||transmission electron microscopy:1||IRONOXIDE FILMS:1||PZT thin film:1||ferroelectric thin film:1||MISFIT RELAXATION MECHANISMS:1||PBTIO3:1||O2:1||CONDUCTING POLYMERS:1||poly(methylmethancrylate):1||microspheres:1||phase contrast Xray microscope:1||AMBIENT AIR:1||ATMOSPHERE:1||XRAY INTERFEROMETER:1||NiAu composite nanoparticles.:1||synchrotron radiation Xrays:1||microtomography:1||OIL FLYASH:1||zinc oxide:1||mammography:1||SrRuO3 film:1||Laser epitaxy:1||HOLE MOBILITY:1||Models of crystal defects:1||RABBIT LUNGS:1||NI/AU CONTACT:1||3D printing:1||Stress relaxation:1||SURFACEAREA:1||IMAGE:1||modulation transfer function (MTF):1||Pb ions:1||Insitu visualization:1||Interfacial tension:1||DISPERSION FORCES:1||SINGLECRYSTALS:1||XRAY SOURCE:1||Synchrotron Xray imaging:1||Realtime imaging:1||MEDICAL APPLICATIONS:1||wiggler bending magnet:1||undulator:1||diffractionenhanced imaging:1||ZnO film:1||CAPACITORS:1||HE3:1||NiP alloy:1||PHOTOCHEMICAL FORMATION:1||extended domain matching:1||cubetextured Ni substrates:1||RAY COMPUTEDTOMOGRAPHY:1||electrode layer:1||DOMAINSTRUCTURE:1||XRAY CT:1||SPECIMEN:1||mammographic phantom:1||Xray absorption spectroscopy:1||BLUE:1||CONTACT:1||(BA:1||synchrotron spectromicroscopy:1||thin film:1||MICROWAVE PLASMA:1||GOLD NANOPARTICLES:1||POLYMERIZATION:1||DISEASE:1||Shanghai:1||MORTALITY:1||HETEROSTRUCTURES:1||METHACRYLATE:1||prostate cancer:1||renal cell carcinoma:1||RATS:1||PULSEDLASER DEPOSITION:1||semiconducting IIVI materials:1||PATTERNS:1||sapphire:1||evaporation:1||ZINCOXIDE:1||LIGHTEMITTING DIODE:1||Synchrotron imaging:1||Dislocations:1||Cracks:1||LIVE:1||spinal cord:1||stainless steel:1||nanophotonics:1||subwavelength waveguides:1||Synchrotrons:1||High dislocation density:1||Misfit stress relaxations:1||Randomly distributed:1||Tripleaxis xray diffractions:1||FLOW:1||CRYSTALLINE ORGANIC NANORODS:1||SHAPE CHANGES:1||ZnO thin film:1||(111)SI:1||XRAY MIRRORS:1||low temperature:1||oxide cathodes:1||heterogeneity:1||Xray microscopy:1||INTERFACIAL TENSIONS:1||single crystal growth:1||CARCINOMA:1||mouse:1||ANIMALS:1||Mndoped ZnO:1||luminescence:1||solution precipitation:1||CLUSTER:1||relaxation:1||ALPHAFE2O3:1||XANES:1||epitaxy:1||LaNiO3 thin film:1||LANIO3 THINFILMS:1||ELECTRODE:1||Fe3O4 sublayer:1||EXAFS microscopy:1||FERRITE FILMS:1||SURFACE PRETREATMENTS:1||superconductors:1||CONTRAST AGENT:1||BIODISTRIBUTION:1||DEATH:1||SYNCHROTRON:1||IR:1||apo Eknockout mouse:1||plaque:1||microradiology:1||ALPHASYNUCLEIN:1||PULMONARY TOXICITY:1||XRAY TOPOGRAPHY:1||dislocation:1||metalorganic chemical vapor deposition:1||CRYSTALGROWTH:1||SELFASSEMBLED MONOLAYERS:1||MEMBRANES:1||MAGNETICANISOTROPY:1||SI1XGEX CRYSTALS:1||STRAINEDSI:1||Extended Weibull model:1||MOLYBDENUM:1||ALLOYS:1||IRON:1||Theoretical modeling:1||Threading dislocation:1||GROWTH:27||THINFILMS:16||SYNCHROTRONRADIATION:15||CONTRAST:11||RADIOLOGY:11||PARTICLES:11||FILMS:11||SILICON:10||RADIATION:10||DEPOSITION:10||RESOLUTION:9||CRYSTALS:8||SILICONCARBIDE:7||XRAYS:7||MAMMOGRAPHY:7||Xray diffraction:7||synchrotron radiation:6||XRAYSCATTERING:6||MODEL:6||microstructure:6||DYNAMICS:5||ELECTRODEPOSITION:5||LAYERS:5||CHEMICALVAPORDEPOSITION:5||TEMPERATURE:5||TOMOGRAPHY:5||COMPUTEDTOMOGRAPHY:5||SAPPHIRE:5||MEDIA:5||NANOWIRES:5||DIFFRACTION:4||TISSUES:4||pulsed laser deposition:4||phase contrast imaging:4||LAYER:4||IMAGES:4||DIODES:4||FIELDEFFECT TRANSISTORS:4||ptype GaN:4||MICROSCOPY:4||REDUCTION:4||POLYMER:4||DEFECTS:3||COHERENCE:3||MICROTOMOGRAPHY:3||NANOPARTICLES:3||synchrotron:3||LIGHT:3||TRANSISTORS:3||SURFACES:3||STRAIN:3||EPITAXIAL LAYERS:3||DRUGDELIVERY:3||REFRACTION:3||growth mechanism:3||METALS:3||MICROPIPES:3||SYSTEM:3||NUCLEATION:3||synchrotron Xray scattering:3||SURFACE:3||SCREW DISLOCATIONS:3||SIMULATION:3||HARD XRAYS:3||ELECTRICALPROPERTIES:3||EPITAXY:3||GAN:3||PM2.5:3||EVAPORATION:3||LIQUIDS:3||INPLANE:3||RAT:3||ANGIOGENESIS:3||CT:3||GaN:3||ZnO:3||NANORODS:3||strain:3||PB(ZR0.53TI0.47)O3:3||CRYSTALLIZATION:3||synchrotron Xrays:2||buffer layer:2||TRANSMISSION ELECTRONMICROSCOPY:2||EPITAXIAL COSI2 FILMS:2||MECHANISMS:2||INSITU GROWTH:2||DEVICE:2||LOCALIZED ELECTROCHEMICAL DEPOSITION:2||X ray diffraction:2||SCHOTTKY CONTACT:2||IRRADIATION:2||aqua regia treatment:2||INVIVO:2||CELLADHESION:2||MORPHOGENETIC PROTEIN2:2||RECEPTOR:2||TEM:2||broadband synchrotron light:2||nanoparticle:2||BUFFER LAYERS:2||TC:2||ENHANCED SYNCHROTRON RADIOLOGY:2||synthesis:2||POLYDIMETHYLSILOXANE:2||MICROCHANNELS:2||PRETREATMENT PROCESS:2||XRAY:2||CHEMOTAXIS:2||MECHANOSENSORY TRANSDUCTION:2||rectangular microtube:2||CONJUGATED POLYMER:2||atomic force microscopy:2||METALLIC OXIDE SRRUO3:2||LASERABLATION:2||STRESS:2||ZONE PLATES:2||FRICTION:2||THERMALSTABILITY:2||Xrays:2||RAY:2||NM:2||ENERGY:2||TOPOGRAPHY:2||synchrotron 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TAPES:2||nucleation:2||COATINGS:2||Xray topography:2||MONOLAYERS:2||SURFACE MODIFICATION:2||LITHOGRAPHY:2||MECHANICAL VENTILATION:1||MICRORIBBONS:1||STIFFNESS:1||DUALPHASE STEEL:1||growth mode:1||strain evolution:1||SI(100):1||ANISOTROPY:1||WET GRANULAR PILE:1||COALESCENCE:1||INSITU POLYMERIZATION:1||GRAPHENE:1||CANCER:1||NODULES:1||RABBITS:1||phasecontrast:1||YTTRIUMOXIDE FILMS:1||BaTiO3/SrTiO3:1||dental implant:1||coincidence site density:1||ERNI2B2C:1||crystallites:1||CoCrPt films:1||tensile strain:1||gallide:1||MGO:1||Baferrite film:1||synchrotron xray scattering:1||ZNO THINFILMS:1||MORPHOLOGY:1||PHASES:1||MICE:1||EBEAM LITHOGRAPHY:1||electrorheological fluids:1||NANOFIBROUS MEMBRANES:1||NANOLITHOGRAPHY:1||refractive index radiology:1||BLOOD:1||colloidal:1||SIZE CONTROL:1||nanoradiology:1||ZnSO4:1||lung injury:1||METAL:1||PM10:1||textured grain:1||MICROSTRUCTURE:1||DIMENSIONS:1||highresolution Xray diffraction:1||low temperature buffer:1||Zinc compounds:1||SI:1||HUMAN LONGEVITY:1||Maximum human lifespan:1||LIMITS:1||MOSFETS:1||in situ XANES:1||nanowires:1||PHOTOIRRADIATION:1||FIBERS:1||WORK:1||EMISSION:1||RADIATION MICROTOMOGRAPHY:1||RAMANSCATTERING:1||gold nanoparticles:1||synchrotron Xray diffraction:1||OPTICAL WAVEGUIDES:1||CONDUCTINGPOLYMER NANOWIRE:1||Lung cancer:1||INTRAVENOUS CORONARYARTERIOGRAPHY:1||SUBLIMATION GROWTH:1||radiography:1||porous SiC:1||GIANT MAGNETORESISTANCE:1||SEMICONDUCTORS:1||Ga diffusion:1||electroless deposition:1||HEMATITE:1||FREEELECTRON LASER:1||MOCVD:1||interfaces:1||white beam:1||imaging technique:1||nucleation layer:1||interface structure:1||epitaxial Baferrite film:1||rf magnetron sputtering:1||MAGNETIC CHARACTERISTICS:1||MIXTURE:1||ACCESS MEMORY APPLICATION:1||COHERENCY STRAIN:1||DENSITY:1||nanofabrication:1||POLY(METHYL METHACRYLATE) MICROSPHERE:1||RESIST:1||unmonochromatic beam:1||MICRORADIOGRAPHY:1||INTERFEROMETER:1||EXPOSURE:1||volume variation electronic:1||PULSEDLASER ABLATION:1||Semiconducting IIVI materials:1||Light emitting diodes:1||phase contrast microscopies:1||lung:1||AUGERELECTRON SPECTROSCOPY:1||passivation:1||additive manufacturing:1||Silicon carbide:1||Synchrotron radiation:1||Synchrotron radiation imaging:1||Dislocations (crystals):1||LUNG INJURY:1||POLYMER SURFACES:1||SINGLE CELLS:1||PREFERRED ORIENTATION:1||sapphire orientation:1||TANTALUM:1||BIASENHANCED NUCLEATION:1||hexaferrite:1||stretched exponential:1||SOLIDSURFACE:1||SHEAR:1||VIDEO MICROSCOPY:1||CARBON NANOTUBES:1||realtime observation:1||Xray synchrotron:1||CARBONMONOXIDE:1||ELECTROCHEMICAL FABRICATION:1||crystal growth:1||computer simulation:1||FERROELECTRICFILMS:1||TITANIUM IMPLANTS:1||BONE INTERFACE:1||EXAFS perpendicular magnetic recording:1||Pd/Ni:1||ELECTRODES:1||internal organ:1||LIGHTEMITTINGDIODES:1||interfacial structure:1||CONSTANT:1||DIELECTRICPROPERTIES:1||AR:1||DEVICES:1||BiSrCaCuO:1||LASER ABLATION:1||MECHANISM:1||SELECTIVE DEPOSITION:1||TARGETED DRUGDELIVERY:1||PEG:1||carbon nanotubes:1||nanocharacterization:1||WALLED CARBON NANOTUBE:1||basal cell carcinoma:1||PARTICULATE AIRPOLLUTION:1||FINE:1||CITIES:1||DOPED ZNO FILMS:1||atherosclerosis:1||drug delivery:1||hard Xray:1||COMBUSTION:1||ARTIFICIAL BATIO3/SRTIO3 SUPERLATTICES:1||surface morphology:1||Direct wafer bonding:1||COLLOIDAL GOLD PARTICLES:1||DELINEATION:1||EXPECTANCY:1||DEMOGRAPHY:1||MRI:1||SIGE:1||Phase contrast microradiography:1||INJURY:1||PASSIVITY:1||VOLUME:1||CONTACTANGLE:1||ARRAYS:1||DUCTILITY:1||sputtering:1||computed microtomography (mu CT):1||unmonochromatized Xray:1||BIPOLARTRANSISTORS:1||longevity:1||Confocal microscopy:1||Colloidal wettability:1||ATOMICFORCE MICROSCOPY:1||storage ring:1||digital subtraction:1||SCATTERING:1||size effect:1||SYNTHETIC QUARTZ:1||liquid metal embrittlement:1||iron ore:1||cube textured Ni substrates:1||SrRuO3 films:1||laser ablations:1||Ti underlayer:1||RANDOMACCESS MEMORIES:1||DOMAIN CONFIGURATIONS:1||MGO(100):1||SPECTROSCOPY:1||XE:1||IONBEAM:1||GRAINBOUNDARY MIGRATION:1||SRTIO3:1||COMPOSITES:1||FOAMS:1||BREASTCANCER SPECIMENS:1||unmonochromatized:1||Xray induced nucleation:1||gold:1||ABSORPTION:1||SEPARATION:1||CZOCHRALSKI GROWTH:1||RETRIEVAL:1||GAMMARADIATION:1||AQUEOUSSOLUTION:1||NANOCOMPOSITES:1||INCREASE:1||without staining procedure:1||XPS:1||Imaging techniques:1||Interfaces (materials):1||Dislocation distributions:1||AZOBENZENE:1||STRUCTURAL EVOLUTION:1||RELAXATION:1||DROP IMPACT:1||NONLINEAR DYNAMICS:1||DISLOCATIONS:1||Colloids:1||TRANSFORMATION:1||METAL INTERCONNECTS:1||ELASTIC CONDUCTORS:1||LOGIC:1||DEFICIENT MICE:1||tomography:1||FACILITY:1||osseointegration:1||ROCKS:1||dental radiography:1||Zn coating:1||RE2O3/Ni:1||YBCO COATED CONDUCTORS:1||threedimensional islands:1||(Ba,Sr)TiO3:1||ultrahigh resolution:1||photoelectron emission:1||Pd:1||LANIO3:1||BASE ELECTRODES:1||iron oxide phase:1||ironoxide interlayer:1||COATED GLASS SUBSTRATE:1||MICROWAVE PLASMA NUCLEATION:1||ENHANCED NUCLEATION:1||phase transformation:1||ADSORPTION:1||phasecontrast xray imaging:1||lung inflammation:1||SI1XGEX SINGLECRYSTALS:1||COCONTINUITY:1||SCALE:1||OBJECT:1||synchrotron microradiography:1||FeSO4:1||INDUCTION:1||BaTiO3 and SrTiO3 thin films:1||HARDXRAYS:1||light emitting diodes:1||ACID:1||MICROSTRUCTURES:1||PHOTOLUMINESCENCE PROPERTIES:1||LASER IRRADIATION:1||Human aging:1||polychromatic synchrotron Xray:1||refraction enhanced imaging:1||CHROMOPHORES:1||ACUTE LUNG INJURY:1||spatial resolution:1||BETAFESI2:1||VLSI:1||SI1XGEX:1||COLLOIDAL SUSPENSIONS:1||ELECTRONICS:1||ENHANCEMENT:1||artificial lattice:1||sinters:1||SILVER:1||STRAIN RELAXATION:1||biaxial texture:1||synchrotron scattering:1||transmission electron microscopy:1||IRONOXIDE FILMS:1||PZT thin film:1||ferroelectric thin film:1||MISFIT RELAXATION MECHANISMS:1||PBTIO3:1||O2:1||CONDUCTING POLYMERS:1||poly(methylmethancrylate):1||microspheres:1||phase contrast Xray microscope:1||AMBIENT AIR:1||ATMOSPHERE:1||XRAY INTERFEROMETER:1||NiAu composite nanoparticles.:1||synchrotron radiation Xrays:1||microtomography:1||OIL FLYASH:1||zinc oxide:1||mammography:1||SrRuO3 film:1||Laser epitaxy:1||HOLE MOBILITY:1||Models of crystal defects:1||RABBIT LUNGS:1||NI/AU CONTACT:1||3D printing:1||Stress relaxation:1||SURFACEAREA:1||IMAGE:1||modulation transfer function (MTF):1||Pb ions:1||Insitu visualization:1||Interfacial tension:1||DISPERSION FORCES:1||SINGLECRYSTALS:1||XRAY SOURCE:1||Synchrotron Xray imaging:1||Realtime imaging:1||MEDICAL APPLICATIONS:1||wiggler bending magnet:1||undulator:1||diffractionenhanced imaging:1||ZnO film:1||CAPACITORS:1||HE3:1||NiP alloy:1||PHOTOCHEMICAL FORMATION:1||extended domain matching:1||cubetextured Ni substrates:1||RAY COMPUTEDTOMOGRAPHY:1||electrode layer:1||DOMAINSTRUCTURE:1||XRAY CT:1||SPECIMEN:1||mammographic phantom:1||Xray absorption spectroscopy:1||BLUE:1||CONTACT:1||(BA:1||synchrotron spectromicroscopy:1||thin film:1||MICROWAVE PLASMA:1||GOLD NANOPARTICLES:1||POLYMERIZATION:1||DISEASE:1||Shanghai:1||MORTALITY:1||HETEROSTRUCTURES:1||METHACRYLATE:1||prostate cancer:1||renal cell carcinoma:1||RATS:1||PULSEDLASER DEPOSITION:1||semiconducting IIVI materials:1||PATTERNS:1||sapphire:1||evaporation:1||ZINCOXIDE:1||LIGHTEMITTING DIODE:1||Synchrotron imaging:1||Dislocations:1||Cracks:1||LIVE:1||spinal cord:1||stainless steel:1||nanophotonics:1||subwavelength waveguides:1||Synchrotrons:1||High dislocation density:1||Misfit stress relaxations:1||Randomly distributed:1||Tripleaxis xray diffractions:1||FLOW:1||CRYSTALLINE ORGANIC NANORODS:1||SHAPE CHANGES:1||ZnO thin film:1||(111)SI:1||XRAY MIRRORS:1||low temperature:1||oxide cathodes:1||heterogeneity:1||Xray microscopy:1||INTERFACIAL TENSIONS:1||single crystal growth:1||CARCINOMA:1||mouse:1||ANIMALS:1||Mndoped ZnO:1||luminescence:1||solution precipitation:1||CLUSTER:1||relaxation:1||ALPHAFE2O3:1||XANES:1||epitaxy:1||LaNiO3 thin film:1||LANIO3 THINFILMS:1||ELECTRODE:1||Fe3O4 sublayer:1||EXAFS microscopy:1||FERRITE FILMS:1||SURFACE PRETREATMENTS:1||superconductors:1||CONTRAST AGENT:1||BIODISTRIBUTION:1||DEATH:1||SYNCHROTRON:1||IR:1||apo Eknockout mouse:1||plaque:1||microradiology:1||ALPHASYNUCLEIN:1||PULMONARY TOXICITY:1||XRAY TOPOGRAPHY:1||dislocation:1||metalorganic chemical vapor deposition:1||CRYSTALGROWTH:1||SELFASSEMBLED MONOLAYERS:1||MEMBRANES:1||MAGNETICANISOTROPY:1||SI1XGEX CRYSTALS:1||STRAINEDSI:1||Extended Weibull model:1||MOLYBDENUM:1||ALLOYS:1||IRON:1||Theoretical modeling:1||Threading dislocation:1||GROWTH:27||THINFILMS:16||SYNCHROTRONRADIATION:15||CONTRAST:11||RADIOLOGY:11||PARTICLES:11||FILMS:11||SILICON:10||RADIATION:10||DEPOSITION:10||RESOLUTION:9||CRYSTALS:8||SILICONCARBIDE:7||XRAYS:7||MAMMOGRAPHY:7||Xray diffraction:7||synchrotron radiation:6||XRAYSCATTERING:6||MODEL:6||microstructure:6||DYNAMICS:5||ELECTRODEPOSITION:5||LAYERS:5||CHEMICALVAPORDEPOSITION:5||TEMPERATURE:5||TOMOGRAPHY:5||COMPUTEDTOMOGRAPHY:5||SAPPHIRE:5||MEDIA:5||NANOWIRES:5||DIFFRACTION:4||TISSUES:4||pulsed laser deposition:4||phase contrast imaging:4||LAYER:4||IMAGES:4||DIODES:4||FIELDEFFECT TRANSISTORS:4||ptype GaN:4||MICROSCOPY:4||REDUCTION:4||POLYMER:4||DEFECTS:3||COHERENCE:3||MICROTOMOGRAPHY:3||NANOPARTICLES:3||synchrotron:3||LIGHT:3||TRANSISTORS:3||SURFACES:3||STRAIN:3||EPITAXIAL LAYERS:3||DRUGDELIVERY:3||REFRACTION:3||growth mechanism:3||METALS:3||MICROPIPES:3||SYSTEM:3||NUCLEATION:3||synchrotron Xray scattering:3||SURFACE:3||SCREW DISLOCATIONS:3||SIMULATION:3||HARD XRAYS:3||ELECTRICALPROPERTIES:3||EPITAXY:3||GAN:3||PM2.5:3||EVAPORATION:3||LIQUIDS:3||INPLANE:3||RAT:3||ANGIOGENESIS:3||CT:3||GaN:3||ZnO:3||NANORODS:3||strain:3||PB(ZR0.53TI0.47)O3:3||CRYSTALLIZATION:3||synchrotron Xrays:2||buffer layer:2||TRANSMISSION ELECTRONMICROSCOPY:2||EPITAXIAL COSI2 FILMS:2||MECHANISMS:2||INSITU GROWTH:2||DEVICE:2||LOCALIZED ELECTROCHEMICAL DEPOSITION:2||X ray diffraction:2||SCHOTTKY CONTACT:2||IRRADIATION:2||aqua regia treatment:2||INVIVO:2||CELLADHESION:2||MORPHOGENETIC PROTEIN2:2||RECEPTOR:2||TEM:2||broadband synchrotron light:2||nanoparticle:2||BUFFER LAYERS:2||TC:2||ENHANCED SYNCHROTRON RADIOLOGY:2||synthesis:2||POLYDIMETHYLSILOXANE:2||MICROCHANNELS:2||PRETREATMENT PROCESS:2||XRAY:2||CHEMOTAXIS:2||MECHANOSENSORY TRANSDUCTION:2||rectangular microtube:2||CONJUGATED POLYMER:2||atomic force microscopy:2||METALLIC OXIDE SRRUO3:2||LASERABLATION:2||STRESS:2||ZONE PLATES:2||FRICTION:2||THERMALSTABILITY:2||Xrays:2||RAY:2||NM:2||ENERGY:2||TOPOGRAPHY:2||synchrotron Xray:2||ACID HYDROGELS:2||CAENORHABDITISELEGANS:2||PROTEIN:2||defects:2||EVOLUTION:2||FABRICATION:2||sharp bending waveguide:2||lasing action:2||BULK CRYSTALS:2||SUPERLATTICES:2||COATED CONDUCTORS:2||SI(111):2||phase contrast:2||CORONARY ANGIOGRAPHY:2||SPECTROMICROSCOPY:2||MEPHISTO:2||OXYGEN:2||OPTICALPROPERTIES:2||RADIOGRAPHY:2||CONTACT DEFORMATIONS:2||MOLECULAR FORCES:2||SOLIDS:2||NTYPE GAN:2||deposition:2||CHEMISTRY:2||DEFORMATION:2||SUBSTRATE:2||HETEROEPITAXY:2||NANOTOPOGRAPHY:2||EPITAXIALGROWTH:2||Xray:2||CHEMICAL VAPORDEPOSITION:2||SILICON STRUCTURES:2||STEMCELLS:2||CHANNEL:2||crystal structure:2||CORONARYANGIOGRAPHY:2||SiC:2||BUFFER LAYER:2||MOLECULARBEAM EPITAXY:2||INTERFACE:2||SIZE:2||ELECTRON:2||XRAY MICROSCOPY:2||MORPHOLOGIES:2||NANOCOLLOIDS:2||FORCE MICROSCOPY:2||ablation:2||polymers:2||(NH4)(2)Sx treatment:2||CLUSTERS:2||BIOMATERIALS:2||CIRCUITS:2||rectangular ring mode:2||GUIDES:2||MICROCAVITY:2||PHOTOLUMINESCENCE:2||epitaxial growth:2||EMBRITTLEMENT:2||Xray imaging:2||BIOCOMPATIBILITY:2||BEHAVIOR:2||MICROWAVEPLASMA:2||LOWPRESSURE:2||DEGRADATION:2||TISSUE:2||LIQUID:2||SOFT LITHOGRAPHY:2||amplified spontaneous emission (ASE):2||SMALL ORGANICMOLECULES:2||PHOTONIC CRYSTAL:2||micropipes:2||radiology:2||ALLOY:2||Xray scattering:2||CRITICALCURRENT DENSITY:2||ELECTRONMICROSCOPY:2||BI(PB)SRCACUO:2||ELECTRONICSTRUCTURE:2||RECONSTRUCTION:2||MG:2||ohmic contact:2||Pd ohmic contact:2||xray scattering:2||INP:2||annealing:2||REGENERATION:2||TITANIUM:2||COLLOIDAL GOLD:2||crystallization:2||BUCKLING MECHANICS:2||LASERS:2||MODES:2||synchrotron imaging:2||lattice distortion:2||AQUEOUSELECTROLYTE:2||MOLECULARDYNAMICS:2||OXIDE:2||MICROANGIOGRAPHY:2||OXIDATION:2||MICRORADIOLOGY:2||TECHNOLOGY:2||GE:2||surface chemistry:2||RECOVERY:2||OHMIC CONTACTS:2||LASERDIODES:2||PTYPE GAN:2||MOTION:2||PHANTOM:2||PHASE:2||CALCIUMPHOSPHATE CERAMICS:2||REPAIR:2||porphyrin:2||AMPLIFIED SPONTANEOUS EMISSION:2||METALELECTRODES:2||PD:2||SUPERCONDUCTING TAPES:2||nucleation:2||COATINGS:2||Xray topography:2||MONOLAYERS:2||SURFACE MODIFICATION:2||LITHOGRAPHY:2||MECHANICAL VENTILATION:1||MICRORIBBONS:1||STIFFNESS:1||DUALPHASE STEEL:1||growth mode:1||strain evolution:1||SI(100):1||ANISOTROPY:1||WET GRANULAR PILE:1||COALESCENCE:1||INSITU POLYMERIZATION:1||GRAPHENE:1||CANCER:1||NODULES:1||RABBITS:1||phasecontrast:1||YTTRIUMOXIDE FILMS:1||BaTiO3/SrTiO3:1||dental implant:1||coincidence site density:1||ERNI2B2C:1||crystallites:1||CoCrPt films:1||tensile strain:1||gallide:1||MGO:1||Baferrite film:1||synchrotron xray scattering:1||ZNO THINFILMS:1||MORPHOLOGY:1||PHASES:1||MICE:1||EBEAM LITHOGRAPHY:1||electrorheological fluids:1||NANOFIBROUS MEMBRANES:1||NANOLITHOGRAPHY:1||refractive index radiology:1||BLOOD:1||colloidal:1||SIZE CONTROL:1||nanoradiology:1||ZnSO4:1||lung injury:1||METAL:1||PM10:1||textured grain:1||MICROSTRUCTURE:1||DIMENSIONS:1||highresolution Xray diffraction:1||low temperature buffer:1||Zinc compounds:1||SI:1||HUMAN LONGEVITY:1||Maximum human lifespan:1||LIMITS:1||MOSFETS:1||in situ XANES:1||nanowires:1||PHOTOIRRADIATION:1||FIBERS:1||WORK:1||EMISSION:1||RADIATION MICROTOMOGRAPHY:1||RAMANSCATTERING:1||gold nanoparticles:1||synchrotron Xray diffraction:1||OPTICAL WAVEGUIDES:1||CONDUCTINGPOLYMER NANOWIRE:1||Lung cancer:1||INTRAVENOUS CORONARYARTERIOGRAPHY:1||SUBLIMATION GROWTH:1||radiography:1||porous SiC:1||GIANT MAGNETORESISTANCE:1||SEMICONDUCTORS:1||Ga diffusion:1||electroless deposition:1||HEMATITE:1||FREEELECTRON LASER:1||MOCVD:1||interfaces:1||white beam:1||imaging technique:1||nucleation layer:1||interface structure:1||epitaxial Baferrite film:1||rf magnetron sputtering:1||MAGNETIC CHARACTERISTICS:1||MIXTURE:1||ACCESS MEMORY APPLICATION:1||COHERENCY STRAIN:1||DENSITY:1||nanofabrication:1||POLY(METHYL METHACRYLATE) MICROSPHERE:1||RESIST:1||unmonochromatic beam:1||MICRORADIOGRAPHY:1||INTERFEROMETER:1||EXPOSURE:1||volume variation electronic:1||PULSEDLASER ABLATION:1||Semiconducting IIVI materials:1||Light emitting diodes:1||phase contrast microscopies:1||lung:1||AUGERELECTRON SPECTROSCOPY:1||passivation:1||additive manufacturing:1||Silicon carbide:1||Synchrotron radiation:1||Synchrotron radiation imaging:1||Dislocations (crystals):1||LUNG INJURY:1||POLYMER SURFACES:1||SINGLE CELLS:1||PREFERRED ORIENTATION:1||sapphire orientation:1||TANTALUM:1||BIASENHANCED NUCLEATION:1||hexaferrite:1||stretched exponential:1||SOLIDSURFACE:1||SHEAR:1||VIDEO MICROSCOPY:1||CARBON NANOTUBES:1||realtime observation:1||Xray synchrotron:1||CARBONMONOXIDE:1||ELECTROCHEMICAL FABRICATION:1||crystal growth:1||computer simulation:1||FERROELECTRICFILMS:1||TITANIUM IMPLANTS:1||BONE INTERFACE:1||EXAFS perpendicular magnetic recording:1||Pd/Ni:1||ELECTRODES:1||internal organ:1||LIGHTEMITTINGDIODES:1||interfacial structure:1||CONSTANT:1||DIELECTRICPROPERTIES:1||AR:1||DEVICES:1||BiSrCaCuO:1||LASER ABLATION:1||MECHANISM:1||SELECTIVE DEPOSITION:1||TARGETED DRUGDELIVERY:1||PEG:1||carbon nanotubes:1||nanocharacterization:1||WALLED CARBON NANOTUBE:1||basal cell carcinoma:1||PARTICULATE AIRPOLLUTION:1||FINE:1||CITIES:1||DOPED ZNO FILMS:1||atherosclerosis:1||drug delivery:1||hard Xray:1||COMBUSTION:1||ARTIFICIAL BATIO3/SRTIO3 SUPERLATTICES:1||surface morphology:1||Direct wafer bonding:1||COLLOIDAL GOLD PARTICLES:1||DELINEATION:1||EXPECTANCY:1||DEMOGRAPHY:1||MRI:1||SIGE:1||Phase contrast microradiography:1||INJURY:1||PASSIVITY:1||VOLUME:1||CONTACTANGLE:1||ARRAYS:1||DUCTILITY:1||sputtering:1||computed microtomography (mu CT):1||unmonochromatized Xray:1||BIPOLARTRANSISTORS:1||longevity:1||Confocal microscopy:1||Colloidal wettability:1||ATOMICFORCE MICROSCOPY:1||storage ring:1||digital subtraction:1||SCATTERING:1||size effect:1||SYNTHETIC QUARTZ:1||liquid metal embrittlement:1||iron ore:1||cube textured Ni substrates:1||SrRuO3 films:1||laser ablations:1||Ti underlayer:1||RANDOMACCESS MEMORIES:1||DOMAIN CONFIGURATIONS:1||MGO(100):1||SPECTROSCOPY:1||XE:1||IONBEAM:1||GRAINBOUNDARY MIGRATION:1||SRTIO3:1||COMPOSITES:1||FOAMS:1||BREASTCANCER SPECIMENS:1||unmonochromatized:1||Xray induced nucleation:1||gold:1||ABSORPTION:1||SEPARATION:1||CZOCHRALSKI GROWTH:1||RETRIEVAL:1||GAMMARADIATION:1||AQUEOUSSOLUTION:1||NANOCOMPOSITES:1||INCREASE:1||without staining procedure:1||XPS:1||Imaging techniques:1||Interfaces (materials):1||Dislocation distributions:1||AZOBENZENE:1||STRUCTURAL EVOLUTION:1||RELAXATION:1||DROP IMPACT:1||NONLINEAR DYNAMICS:1||DISLOCATIONS:1||Colloids:1||TRANSFORMATION:1||METAL INTERCONNECTS:1||ELASTIC CONDUCTORS:1||LOGIC:1||DEFICIENT MICE:1||tomography:1||FACILITY:1||osseointegration:1||ROCKS:1||dental radiography:1||Zn coating:1||RE2O3/Ni:1||YBCO COATED CONDUCTORS:1||threedimensional islands:1||(Ba,Sr)TiO3:1||ultrahigh resolution:1||photoelectron emission:1||Pd:1||LANIO3:1||BASE ELECTRODES:1||iron oxide phase:1||ironoxide interlayer:1||COATED GLASS SUBSTRATE:1||MICROWAVE PLASMA NUCLEATION:1||ENHANCED NUCLEATION:1||phase transformation:1||ADSORPTION:1||phasecontrast xray imaging:1||lung inflammation:1||SI1XGEX SINGLECRYSTALS:1||COCONTINUITY:1||SCALE:1||OBJECT:1||synchrotron microradiography:1||FeSO4:1||INDUCTION:1||BaTiO3 and SrTiO3 thin films:1||HARDXRAYS:1||light emitting diodes:1||ACID:1||MICROSTRUCTURES:1||PHOTOLUMINESCENCE PROPERTIES:1||LASER IRRADIATION:1||Human aging:1||polychromatic synchrotron Xray:1||refraction enhanced imaging:1||CHROMOPHORES:1||ACUTE LUNG INJURY:1||spatial resolution:1||BETAFESI2:1||VLSI:1||SI1XGEX:1||COLLOIDAL SUSPENSIONS:1||ELECTRONICS:1||ENHANCEMENT:1||artificial lattice:1||sinters:1||SILVER:1||STRAIN RELAXATION:1||biaxial texture:1||synchrotron scattering:1||transmission electron microscopy:1||IRONOXIDE FILMS:1||PZT thin film:1||ferroelectric thin film:1||MISFIT RELAXATION MECHANISMS:1||PBTIO3:1||O2:1||CONDUCTING POLYMERS:1||poly(methylmethancrylate):1||microspheres:1||phase contrast Xray microscope:1||AMBIENT AIR:1||ATMOSPHERE:1||XRAY INTERFEROMETER:1||NiAu composite nanoparticles.:1||synchrotron radiation Xrays:1||microtomography:1||OIL FLYASH:1||zinc oxide:1||mammography:1||SrRuO3 film:1||Laser epitaxy:1||HOLE MOBILITY:1||Models of crystal defects:1||RABBIT LUNGS:1||NI/AU CONTACT:1||3D printing:1||Stress relaxation:1||SURFACEAREA:1||IMAGE:1||modulation transfer function (MTF):1||Pb ions:1||Insitu visualization:1||Interfacial tension:1||DISPERSION FORCES:1||SINGLECRYSTALS:1||XRAY SOURCE:1||Synchrotron Xray imaging:1||Realtime imaging:1||MEDICAL APPLICATIONS:1||wiggler bending magnet:1||undulator:1||diffractionenhanced imaging:1||ZnO film:1||CAPACITORS:1||HE3:1||NiP alloy:1||PHOTOCHEMICAL FORMATION:1||extended domain matching:1||cubetextured Ni substrates:1||RAY COMPUTEDTOMOGRAPHY:1||electrode layer:1||DOMAINSTRUCTURE:1||XRAY CT:1||SPECIMEN:1||mammographic phantom:1||Xray absorption spectroscopy:1||BLUE:1||CONTACT:1||(BA:1||synchrotron spectromicroscopy:1||thin film:1||MICROWAVE PLASMA:1||GOLD NANOPARTICLES:1||POLYMERIZATION:1||DISEASE:1||Shanghai:1||MORTALITY:1||HETEROSTRUCTURES:1||METHACRYLATE:1||prostate cancer:1||renal cell carcinoma:1||RATS:1||PULSEDLASER DEPOSITION:1||semiconducting IIVI materials:1||PATTERNS:1||sapphire:1||evaporation:1||ZINCOXIDE:1||LIGHTEMITTING DIODE:1||Synchrotron imaging:1||Dislocations:1||Cracks:1||LIVE:1||spinal cord:1||stainless steel:1||nanophotonics:1||subwavelength waveguides:1||Synchrotrons:1||High dislocation density:1||Misfit stress relaxations:1||Randomly distributed:1||Tripleaxis xray diffractions:1||FLOW:1||CRYSTALLINE ORGANIC NANORODS:1||SHAPE CHANGES:1||ZnO thin film:1||(111)SI:1||XRAY MIRRORS:1||low temperature:1||oxide cathodes:1||heterogeneity:1||Xray microscopy:1||INTERFACIAL TENSIONS:1||single crystal growth:1||CARCINOMA:1||mouse:1||ANIMALS:1||Mndoped ZnO:1||luminescence:1||solution precipitation:1||CLUSTER:1||relaxation:1||ALPHAFE2O3:1||XANES:1||epitaxy:1||LaNiO3 thin film:1||LANIO3 THINFILMS:1||ELECTRODE:1||Fe3O4 sublayer:1||EXAFS microscopy:1||FERRITE FILMS:1||SURFACE PRETREATMENTS:1||superconductors:1||CONTRAST AGENT:1||BIODISTRIBUTION:1||DEATH:1||SYNCHROTRON:1||IR:1||apo Eknockout 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RADIOLOGY:2||synthesis:2||POLYDIMETHYLSILOXANE:2||MICROCHANNELS:2||PRETREATMENT PROCESS:2||XRAY:2||CHEMOTAXIS:2||MECHANOSENSORY TRANSDUCTION:2||rectangular microtube:2||CONJUGATED POLYMER:2||atomic force microscopy:2||METALLIC OXIDE SRRUO3:2||LASERABLATION:2||STRESS:2||ZONE PLATES:2||FRICTION:2||THERMALSTABILITY:2||Xrays:2||RAY:2||NM:2||ENERGY:2||TOPOGRAPHY:2||synchrotron Xray:2||ACID HYDROGELS:2||CAENORHABDITISELEGANS:2||PROTEIN:2||defects:2||EVOLUTION:2||FABRICATION:2||sharp bending waveguide:2||lasing action:2||BULK CRYSTALS:2||SUPERLATTICES:2||COATED CONDUCTORS:2||SI(111):2||phase contrast:2||CORONARY ANGIOGRAPHY:2||SPECTROMICROSCOPY:2||MEPHISTO:2||OXYGEN:2||OPTICALPROPERTIES:2||RADIOGRAPHY:2||CONTACT DEFORMATIONS:2||MOLECULAR FORCES:2||SOLIDS:2||NTYPE GAN:2||deposition:2||CHEMISTRY:2||DEFORMATION:2||SUBSTRATE:2||HETEROEPITAXY:2||NANOTOPOGRAPHY:2||EPITAXIALGROWTH:2||Xray:2||CHEMICAL VAPORDEPOSITION:2||SILICON STRUCTURES:2||STEMCELLS:2||CHANNEL:2||crystal 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distortion:2||AQUEOUSELECTROLYTE:2||MOLECULARDYNAMICS:2||OXIDE:2||MICROANGIOGRAPHY:2||OXIDATION:2||MICRORADIOLOGY:2||TECHNOLOGY:2||GE:2||surface chemistry:2||RECOVERY:2||OHMIC CONTACTS:2||LASERDIODES:2||PTYPE GAN:2||MOTION:2||PHANTOM:2||PHASE:2||CALCIUMPHOSPHATE CERAMICS:2||REPAIR:2||porphyrin:2||AMPLIFIED SPONTANEOUS EMISSION:2||METALELECTRODES:2||PD:2||SUPERCONDUCTING TAPES:2||nucleation:2||COATINGS:2||Xray topography:2||MONOLAYERS:2||SURFACE MODIFICATION:2||LITHOGRAPHY:2||MECHANICAL VENTILATION:1||MICRORIBBONS:1||STIFFNESS:1||DUALPHASE STEEL:1||growth mode:1||strain evolution:1||SI(100):1||ANISOTROPY:1||WET GRANULAR PILE:1||COALESCENCE:1||INSITU POLYMERIZATION:1||GRAPHENE:1||CANCER:1||NODULES:1||RABBITS:1||phasecontrast:1||YTTRIUMOXIDE FILMS:1||BaTiO3/SrTiO3:1||dental implant:1||coincidence site density:1||ERNI2B2C:1||crystallites:1||CoCrPt films:1||tensile strain:1||gallide:1||MGO:1||Baferrite film:1||synchrotron xray scattering:1||ZNO THINFILMS:1||MORPHOLOGY:1||PHASES:1||MICE:1||EBEAM LITHOGRAPHY:1||electrorheological fluids:1||NANOFIBROUS MEMBRANES:1||NANOLITHOGRAPHY:1||refractive index radiology:1||BLOOD:1||colloidal:1||SIZE CONTROL:1||nanoradiology:1||ZnSO4:1||lung injury:1||METAL:1||PM10:1||textured grain:1||MICROSTRUCTURE:1||DIMENSIONS:1||highresolution Xray diffraction:1||low temperature buffer:1||Zinc compounds:1||SI:1||HUMAN LONGEVITY:1||Maximum human lifespan:1||LIMITS:1||MOSFETS:1||in situ XANES:1||nanowires:1||PHOTOIRRADIATION:1||FIBERS:1||WORK:1||EMISSION:1||RADIATION MICROTOMOGRAPHY:1||RAMANSCATTERING:1||gold nanoparticles:1||synchrotron Xray diffraction:1||OPTICAL WAVEGUIDES:1||CONDUCTINGPOLYMER NANOWIRE:1||Lung cancer:1||INTRAVENOUS CORONARYARTERIOGRAPHY:1||SUBLIMATION GROWTH:1||radiography:1||porous SiC:1||GIANT MAGNETORESISTANCE:1||SEMICONDUCTORS:1||Ga diffusion:1||electroless deposition:1||HEMATITE:1||FREEELECTRON LASER:1||MOCVD:1||interfaces:1||white beam:1||imaging technique:1||nucleation layer:1||interface structure:1||epitaxial Baferrite film:1||rf magnetron sputtering:1||MAGNETIC CHARACTERISTICS:1||MIXTURE:1||ACCESS MEMORY APPLICATION:1||COHERENCY STRAIN:1||DENSITY:1||nanofabrication:1||POLY(METHYL METHACRYLATE) MICROSPHERE:1||RESIST:1||unmonochromatic beam:1||MICRORADIOGRAPHY:1||INTERFEROMETER:1||EXPOSURE:1||volume variation electronic:1||PULSEDLASER ABLATION:1||Semiconducting IIVI materials:1||Light emitting diodes:1||phase contrast microscopies:1||lung:1||AUGERELECTRON SPECTROSCOPY:1||passivation:1||additive manufacturing:1||Silicon carbide:1||Synchrotron radiation:1||Synchrotron radiation imaging:1||Dislocations (crystals):1||LUNG INJURY:1||POLYMER SURFACES:1||SINGLE CELLS:1||PREFERRED ORIENTATION:1||sapphire orientation:1||TANTALUM:1||BIASENHANCED NUCLEATION:1||hexaferrite:1||stretched exponential:1||SOLIDSURFACE:1||SHEAR:1||VIDEO MICROSCOPY:1||CARBON NANOTUBES:1||realtime observation:1||Xray synchrotron:1||CARBONMONOXIDE:1||ELECTROCHEMICAL 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CONDUCTORS:1||LOGIC:1||DEFICIENT MICE:1||tomography:1||FACILITY:1||osseointegration:1||ROCKS:1||dental radiography:1||Zn coating:1||RE2O3/Ni:1||YBCO COATED CONDUCTORS:1||threedimensional islands:1||(Ba,Sr)TiO3:1||ultrahigh resolution:1||photoelectron emission:1||Pd:1||LANIO3:1||BASE ELECTRODES:1||iron oxide phase:1||ironoxide interlayer:1||COATED GLASS SUBSTRATE:1||MICROWAVE PLASMA NUCLEATION:1||ENHANCED NUCLEATION:1||phase transformation:1||ADSORPTION:1||phasecontrast xray imaging:1||lung inflammation:1||SI1XGEX SINGLECRYSTALS:1||COCONTINUITY:1||SCALE:1||OBJECT:1||synchrotron microradiography:1||FeSO4:1||INDUCTION:1||BaTiO3 and SrTiO3 thin films:1||HARDXRAYS:1||light emitting diodes:1||ACID:1||MICROSTRUCTURES:1||PHOTOLUMINESCENCE PROPERTIES:1||LASER IRRADIATION:1||Human aging:1||polychromatic synchrotron Xray:1||refraction enhanced imaging:1||CHROMOPHORES:1||ACUTE LUNG INJURY:1||spatial resolution:1||BETAFESI2:1||VLSI:1||SI1XGEX:1||COLLOIDAL SUSPENSIONS:1||ELECTRONICS:1||ENHANCEMENT:1||artificial lattice:1||sinters:1||SILVER:1||STRAIN RELAXATION:1||biaxial texture:1||synchrotron scattering:1||transmission electron microscopy:1||IRONOXIDE FILMS:1||PZT thin film:1||ferroelectric thin film:1||MISFIT RELAXATION MECHANISMS:1||PBTIO3:1||O2:1||CONDUCTING POLYMERS:1||poly(methylmethancrylate):1||microspheres:1||phase contrast Xray microscope:1||AMBIENT AIR:1||ATMOSPHERE:1||XRAY INTERFEROMETER:1||NiAu composite nanoparticles.:1||synchrotron radiation Xrays:1||microtomography:1||OIL FLYASH:1||zinc oxide:1||mammography:1||SrRuO3 film:1||Laser epitaxy:1||HOLE MOBILITY:1||Models of crystal defects:1||RABBIT LUNGS:1||NI/AU CONTACT:1||3D printing:1||Stress relaxation:1||SURFACEAREA:1||IMAGE:1||modulation transfer function (MTF):1||Pb ions:1||Insitu visualization:1||Interfacial tension:1||DISPERSION FORCES:1||SINGLECRYSTALS:1||XRAY SOURCE:1||Synchrotron Xray imaging:1||Realtime imaging:1||MEDICAL APPLICATIONS:1||wiggler bending magnet:1||undulator:1||diffractionenhanced imaging:1||ZnO film:1||CAPACITORS:1||HE3:1||NiP alloy:1||PHOTOCHEMICAL FORMATION:1||extended domain matching:1||cubetextured Ni substrates:1||RAY COMPUTEDTOMOGRAPHY:1||electrode layer:1||DOMAINSTRUCTURE:1||XRAY CT:1||SPECIMEN:1||mammographic phantom:1||Xray absorption spectroscopy:1||BLUE:1||CONTACT:1||(BA:1||synchrotron spectromicroscopy:1||thin film:1||MICROWAVE PLASMA:1||GOLD NANOPARTICLES:1||POLYMERIZATION:1||DISEASE:1||Shanghai:1||MORTALITY:1||HETEROSTRUCTURES:1||METHACRYLATE:1||prostate cancer:1||renal cell carcinoma:1||RATS:1||PULSEDLASER DEPOSITION:1||semiconducting IIVI materials:1||PATTERNS:1||sapphire:1||evaporation:1||ZINCOXIDE:1||LIGHTEMITTING DIODE:1||Synchrotron imaging:1||Dislocations:1||Cracks:1||LIVE:1||spinal cord:1||stainless steel:1||nanophotonics:1||subwavelength waveguides:1||Synchrotrons:1||High dislocation density:1||Misfit stress relaxations:1||Randomly distributed:1||Tripleaxis xray diffractions:1||FLOW:1||CRYSTALLINE ORGANIC NANORODS:1||SHAPE CHANGES:1||ZnO thin film:1||(111)SI:1||XRAY MIRRORS:1||low temperature:1||oxide cathodes:1||heterogeneity:1||Xray microscopy:1||INTERFACIAL TENSIONS:1||single crystal growth:1||CARCINOMA:1||mouse:1||ANIMALS:1||Mndoped ZnO:1||luminescence:1||solution precipitation:1||CLUSTER:1||relaxation:1||ALPHAFE2O3:1||XANES:1||epitaxy:1||LaNiO3 thin film:1||LANIO3 THINFILMS:1||ELECTRODE:1||Fe3O4 sublayer:1||EXAFS microscopy:1||FERRITE FILMS:1||SURFACE PRETREATMENTS:1||superconductors:1||CONTRAST AGENT:1||BIODISTRIBUTION:1||DEATH:1||SYNCHROTRON:1||IR:1||apo Eknockout mouse:1||plaque:1||microradiology:1||ALPHASYNUCLEIN:1||PULMONARY TOXICITY:1||XRAY TOPOGRAPHY:1||dislocation:1||metalorganic chemical vapor deposition:1||CRYSTALGROWTH:1||SELFASSEMBLED MONOLAYERS:1||MEMBRANES:1||MAGNETICANISOTROPY:1||SI1XGEX CRYSTALS:1||STRAINEDSI:1||Extended Weibull model:1||MOLYBDENUM:1||ALLOYS:1||IRON:1||Theoretical modeling:1||Threading dislocation:1||GROWTH:27||THINFILMS:16||SYNCHROTRONRADIATION:15||CONTRAST:11||RADIOLOGY:11||PARTICLES:11||FILMS:11||SILICON:10||RADIATION:10||DEPOSITION:10||RESOLUTION:9||CRYSTALS:8||SILICONCARBIDE:7||XRAYS:7||MAMMOGRAPHY:7||Xray diffraction:7||synchrotron radiation:6||XRAYSCATTERING:6||MODEL:6||microstructure:6||DYNAMICS:5||ELECTRODEPOSITION:5||LAYERS:5||CHEMICALVAPORDEPOSITION:5||TEMPERATURE:5||TOMOGRAPHY:5||COMPUTEDTOMOGRAPHY:5||SAPPHIRE:5||MEDIA:5||NANOWIRES:5||DIFFRACTION:4||TISSUES:4||pulsed laser deposition:4||phase contrast imaging:4||LAYER:4||IMAGES:4||DIODES:4||FIELDEFFECT TRANSISTORS:4||ptype GaN:4||MICROSCOPY:4||REDUCTION:4||POLYMER:4||DEFECTS:3||COHERENCE:3||MICROTOMOGRAPHY:3||NANOPARTICLES:3||synchrotron:3||LIGHT:3||TRANSISTORS:3||SURFACES:3||STRAIN:3||EPITAXIAL LAYERS:3||DRUGDELIVERY:3||REFRACTION:3||growth mechanism:3||METALS:3||MICROPIPES:3||SYSTEM:3||NUCLEATION:3||synchrotron Xray scattering:3||SURFACE:3||SCREW DISLOCATIONS:3||SIMULATION:3||HARD XRAYS:3||ELECTRICALPROPERTIES:3||EPITAXY:3||GAN:3||PM2.5:3||EVAPORATION:3||LIQUIDS:3||INPLANE:3||RAT:3||ANGIOGENESIS:3||CT:3||GaN:3||ZnO:3||NANORODS:3||strain:3||PB(ZR0.53TI0.47)O3:3||CRYSTALLIZATION:3||synchrotron Xrays:2||buffer layer:2||TRANSMISSION ELECTRONMICROSCOPY:2||EPITAXIAL COSI2 FILMS:2||MECHANISMS:2||INSITU GROWTH:2||DEVICE:2||LOCALIZED ELECTROCHEMICAL DEPOSITION:2||X ray diffraction:2||SCHOTTKY CONTACT:2||IRRADIATION:2||aqua regia treatment:2||INVIVO:2||CELLADHESION:2||MORPHOGENETIC PROTEIN2:2||RECEPTOR:2||TEM:2||broadband synchrotron light:2||nanoparticle:2||BUFFER LAYERS:2||TC:2||ENHANCED SYNCHROTRON RADIOLOGY:2||synthesis:2||POLYDIMETHYLSILOXANE:2||MICROCHANNELS:2||PRETREATMENT PROCESS:2||XRAY:2||CHEMOTAXIS:2||MECHANOSENSORY TRANSDUCTION:2||rectangular microtube:2||CONJUGATED POLYMER:2||atomic force microscopy:2||METALLIC OXIDE SRRUO3:2||LASERABLATION:2||STRESS:2||ZONE PLATES:2||FRICTION:2||THERMALSTABILITY:2||Xrays:2||RAY:2||NM:2||ENERGY:2||TOPOGRAPHY:2||synchrotron Xray:2||ACID HYDROGELS:2||CAENORHABDITISELEGANS:2||PROTEIN:2||defects:2||EVOLUTION:2||FABRICATION:2||sharp bending waveguide:2||lasing action:2||BULK CRYSTALS:2||SUPERLATTICES:2||COATED CONDUCTORS:2||SI(111):2||phase contrast:2||CORONARY ANGIOGRAPHY:2||SPECTROMICROSCOPY:2||MEPHISTO:2||OXYGEN:2||OPTICALPROPERTIES:2||RADIOGRAPHY:2||CONTACT DEFORMATIONS:2||MOLECULAR FORCES:2||SOLIDS:2||NTYPE GAN:2||deposition:2||CHEMISTRY:2||DEFORMATION:2||SUBSTRATE:2||HETEROEPITAXY:2||NANOTOPOGRAPHY:2||EPITAXIALGROWTH:2||Xray:2||CHEMICAL VAPORDEPOSITION:2||SILICON STRUCTURES:2||STEMCELLS:2||CHANNEL:2||crystal structure:2||CORONARYANGIOGRAPHY:2||SiC:2||BUFFER LAYER:2||MOLECULARBEAM EPITAXY:2||INTERFACE:2||SIZE:2||ELECTRON:2||XRAY MICROSCOPY:2||MORPHOLOGIES:2||NANOCOLLOIDS:2||FORCE MICROSCOPY:2||ablation:2||polymers:2||(NH4)(2)Sx treatment:2||CLUSTERS:2||BIOMATERIALS:2||CIRCUITS:2||rectangular ring mode:2||GUIDES:2||MICROCAVITY:2||PHOTOLUMINESCENCE:2||epitaxial growth:2||EMBRITTLEMENT:2||Xray imaging:2||BIOCOMPATIBILITY:2||BEHAVIOR:2||MICROWAVEPLASMA:2||LOWPRESSURE:2||DEGRADATION:2||TISSUE:2||LIQUID:2||SOFT LITHOGRAPHY:2||amplified spontaneous emission (ASE):2||SMALL ORGANICMOLECULES:2||PHOTONIC CRYSTAL:2||micropipes:2||radiology:2||ALLOY:2||Xray scattering:2||CRITICALCURRENT DENSITY:2||ELECTRONMICROSCOPY:2||BI(PB)SRCACUO:2||ELECTRONICSTRUCTURE:2||RECONSTRUCTION:2||MG:2||ohmic contact:2||Pd ohmic contact:2||xray scattering:2||INP:2||annealing:2||REGENERATION:2||TITANIUM:2||COLLOIDAL GOLD:2||crystallization:2||BUCKLING MECHANICS:2||LASERS:2||MODES:2||synchrotron imaging:2||lattice distortion:2||AQUEOUSELECTROLYTE:2||MOLECULARDYNAMICS:2||OXIDE:2||MICROANGIOGRAPHY:2||OXIDATION:2||MICRORADIOLOGY:2||TECHNOLOGY:2||GE:2||surface chemistry:2||RECOVERY:2||OHMIC CONTACTS:2||LASERDIODES:2||PTYPE GAN:2||MOTION:2||PHANTOM:2||PHASE:2||CALCIUMPHOSPHATE CERAMICS:2||REPAIR:2||porphyrin:2||AMPLIFIED SPONTANEOUS EMISSION:2||METALELECTRODES:2||PD:2||SUPERCONDUCTING TAPES:2||nucleation:2||COATINGS:2||Xray topography:2||MONOLAYERS:2||SURFACE MODIFICATION:2||LITHOGRAPHY:2||MECHANICAL VENTILATION:1||MICRORIBBONS:1||STIFFNESS:1||DUALPHASE STEEL:1||growth mode:1||strain evolution:1||SI(100):1||ANISOTROPY:1||WET GRANULAR PILE:1||COALESCENCE:1||INSITU POLYMERIZATION:1||GRAPHENE:1||CANCER:1||NODULES:1||RABBITS:1||phasecontrast:1||YTTRIUMOXIDE FILMS:1||BaTiO3/SrTiO3:1||dental implant:1||coincidence site density:1||ERNI2B2C:1||crystallites:1||CoCrPt films:1||tensile strain:1||gallide:1||MGO:1||Baferrite film:1||synchrotron xray scattering:1||ZNO THINFILMS:1||MORPHOLOGY:1||PHASES:1||MICE:1||EBEAM LITHOGRAPHY:1||electrorheological fluids:1||NANOFIBROUS MEMBRANES:1||NANOLITHOGRAPHY:1||refractive index radiology:1||BLOOD:1||colloidal:1||SIZE CONTROL:1||nanoradiology:1||ZnSO4:1||lung injury:1||METAL:1||PM10:1||textured grain:1||MICROSTRUCTURE:1||DIMENSIONS:1||highresolution Xray diffraction:1||low temperature buffer:1||Zinc compounds:1||SI:1||HUMAN LONGEVITY:1||Maximum human lifespan:1||LIMITS:1||MOSFETS:1||in situ XANES:1||nanowires:1||PHOTOIRRADIATION:1||FIBERS:1||WORK:1||EMISSION:1||RADIATION MICROTOMOGRAPHY:1||RAMANSCATTERING:1||gold nanoparticles:1||synchrotron Xray diffraction:1||OPTICAL WAVEGUIDES:1||CONDUCTINGPOLYMER NANOWIRE:1||Lung cancer:1||INTRAVENOUS CORONARYARTERIOGRAPHY:1||SUBLIMATION GROWTH:1||radiography:1||porous SiC:1||GIANT MAGNETORESISTANCE:1||SEMICONDUCTORS:1||Ga diffusion:1||electroless deposition:1||HEMATITE:1||FREEELECTRON LASER:1||MOCVD:1||interfaces:1||white beam:1||imaging technique:1||nucleation layer:1||interface structure:1||epitaxial Baferrite film:1||rf magnetron sputtering:1||MAGNETIC CHARACTERISTICS:1||MIXTURE:1||ACCESS MEMORY APPLICATION:1||COHERENCY STRAIN:1||DENSITY:1||nanofabrication:1||POLY(METHYL METHACRYLATE) MICROSPHERE:1||RESIST:1||unmonochromatic beam:1||MICRORADIOGRAPHY:1||INTERFEROMETER:1||EXPOSURE:1||volume variation electronic:1||PULSEDLASER ABLATION:1||Semiconducting IIVI materials:1||Light emitting diodes:1||phase contrast microscopies:1||lung:1||AUGERELECTRON SPECTROSCOPY:1||passivation:1||additive manufacturing:1||Silicon carbide:1||Synchrotron radiation:1||Synchrotron radiation imaging:1||Dislocations (crystals):1||LUNG INJURY:1||POLYMER SURFACES:1||SINGLE CELLS:1||PREFERRED ORIENTATION:1||sapphire orientation:1||TANTALUM:1||BIASENHANCED NUCLEATION:1||hexaferrite:1||stretched exponential:1||SOLIDSURFACE:1||SHEAR:1||VIDEO MICROSCOPY:1||CARBON NANOTUBES:1||realtime observation:1||Xray synchrotron:1||CARBONMONOXIDE:1||ELECTROCHEMICAL FABRICATION:1||crystal growth:1||computer simulation:1||FERROELECTRICFILMS:1||TITANIUM IMPLANTS:1||BONE INTERFACE:1||EXAFS perpendicular magnetic recording:1||Pd/Ni:1||ELECTRODES:1||internal organ:1||LIGHTEMITTINGDIODES:1||interfacial structure:1||CONSTANT:1||DIELECTRICPROPERTIES:1||AR:1||DEVICES:1||BiSrCaCuO:1||LASER ABLATION:1||MECHANISM:1||SELECTIVE DEPOSITION:1||TARGETED DRUGDELIVERY:1||PEG:1||carbon nanotubes:1||nanocharacterization:1||WALLED CARBON NANOTUBE:1||basal cell carcinoma:1||PARTICULATE AIRPOLLUTION:1||FINE:1||CITIES:1||DOPED ZNO FILMS:1||atherosclerosis:1||drug delivery:1||hard Xray:1||COMBUSTION:1||ARTIFICIAL BATIO3/SRTIO3 SUPERLATTICES:1||surface morphology:1||Direct wafer bonding:1||COLLOIDAL GOLD PARTICLES:1||DELINEATION:1||EXPECTANCY:1||DEMOGRAPHY:1||MRI:1||SIGE:1||Phase contrast microradiography:1||INJURY:1||PASSIVITY:1||VOLUME:1||CONTACTANGLE:1||ARRAYS:1||DUCTILITY:1||sputtering:1||computed microtomography (mu CT):1||unmonochromatized Xray:1||BIPOLARTRANSISTORS:1||longevity:1||Confocal microscopy:1||Colloidal wettability:1||ATOMICFORCE MICROSCOPY:1||storage ring:1||digital subtraction:1||SCATTERING:1||size effect:1||SYNTHETIC QUARTZ:1||liquid metal embrittlement:1||iron ore:1||cube textured Ni substrates:1||SrRuO3 films:1||laser ablations:1||Ti underlayer:1||RANDOMACCESS MEMORIES:1||DOMAIN CONFIGURATIONS:1||MGO(100):1||SPECTROSCOPY:1||XE:1||IONBEAM:1||GRAINBOUNDARY MIGRATION:1||SRTIO3:1||COMPOSITES:1||FOAMS:1||BREASTCANCER SPECIMENS:1||unmonochromatized:1||Xray induced nucleation:1||gold:1||ABSORPTION:1||SEPARATION:1||CZOCHRALSKI GROWTH:1||RETRIEVAL:1||GAMMARADIATION:1||AQUEOUSSOLUTION:1||NANOCOMPOSITES:1||INCREASE:1||without staining procedure:1||XPS:1||Imaging techniques:1||Interfaces (materials):1||Dislocation distributions:1||AZOBENZENE:1||STRUCTURAL EVOLUTION:1||RELAXATION:1||DROP IMPACT:1||NONLINEAR DYNAMICS:1||DISLOCATIONS:1||Colloids:1||TRANSFORMATION:1||METAL INTERCONNECTS:1||ELASTIC CONDUCTORS:1||LOGIC:1||DEFICIENT MICE:1||tomography:1||FACILITY:1||osseointegration:1||ROCKS:1||dental radiography:1||Zn coating:1||RE2O3/Ni:1||YBCO COATED CONDUCTORS:1||threedimensional islands:1||(Ba,Sr)TiO3:1||ultrahigh resolution:1||photoelectron emission:1||Pd:1||LANIO3:1||BASE ELECTRODES:1||iron oxide phase:1||ironoxide interlayer:1||COATED GLASS SUBSTRATE:1||MICROWAVE PLASMA NUCLEATION:1||ENHANCED NUCLEATION:1||phase transformation:1||ADSORPTION:1||phasecontrast xray imaging:1||lung inflammation:1||SI1XGEX SINGLECRYSTALS:1||COCONTINUITY:1||SCALE:1||OBJECT:1||synchrotron microradiography:1||FeSO4:1||INDUCTION:1||BaTiO3 and SrTiO3 thin films:1||HARDXRAYS:1||light emitting diodes:1||ACID:1||MICROSTRUCTURES:1||PHOTOLUMINESCENCE PROPERTIES:1||LASER IRRADIATION:1||Human aging:1||polychromatic synchrotron Xray:1||refraction enhanced imaging:1||CHROMOPHORES:1||ACUTE LUNG INJURY:1||spatial resolution:1||BETAFESI2:1||VLSI:1||SI1XGEX:1||COLLOIDAL SUSPENSIONS:1||ELECTRONICS:1||ENHANCEMENT:1||artificial lattice:1||sinters:1||SILVER:1||STRAIN RELAXATION:1||biaxial texture:1||synchrotron scattering:1||transmission electron microscopy:1||IRONOXIDE FILMS:1||PZT thin film:1||ferroelectric thin film:1||MISFIT RELAXATION MECHANISMS:1||PBTIO3:1||O2:1||CONDUCTING POLYMERS:1||poly(methylmethancrylate):1||microspheres:1||phase contrast Xray microscope:1||AMBIENT AIR:1||ATMOSPHERE:1||XRAY INTERFEROMETER:1||NiAu composite nanoparticles.:1||synchrotron radiation Xrays:1||microtomography:1||OIL FLYASH:1||zinc oxide:1||mammography:1||SrRuO3 film:1||Laser epitaxy:1||HOLE MOBILITY:1||Models of crystal defects:1||RABBIT LUNGS:1||NI/AU CONTACT:1||3D printing:1||Stress relaxation:1||SURFACEAREA:1||IMAGE:1||modulation transfer function (MTF):1||Pb ions:1||Insitu visualization:1||Interfacial tension:1||DISPERSION FORCES:1||SINGLECRYSTALS:1||XRAY SOURCE:1||Synchrotron Xray imaging:1||Realtime imaging:1||MEDICAL APPLICATIONS:1||wiggler bending magnet:1||undulator:1||diffractionenhanced imaging:1||ZnO film:1||CAPACITORS:1||HE3:1||NiP alloy:1||PHOTOCHEMICAL FORMATION:1||extended domain matching:1||cubetextured Ni substrates:1||RAY COMPUTEDTOMOGRAPHY:1||electrode layer:1||DOMAINSTRUCTURE:1||XRAY CT:1||SPECIMEN:1||mammographic phantom:1||Xray absorption spectroscopy:1||BLUE:1||CONTACT:1||(BA:1||synchrotron spectromicroscopy:1||thin film:1||MICROWAVE PLASMA:1||GOLD NANOPARTICLES:1||POLYMERIZATION:1||DISEASE:1||Shanghai:1||MORTALITY:1||HETEROSTRUCTURES:1||METHACRYLATE:1||prostate cancer:1||renal cell carcinoma:1||RATS:1||PULSEDLASER DEPOSITION:1||semiconducting IIVI materials:1||PATTERNS:1||sapphire:1||evaporation:1||ZINCOXIDE:1||LIGHTEMITTING DIODE:1||Synchrotron imaging:1||Dislocations:1||Cracks:1||LIVE:1||spinal cord:1||stainless steel:1||nanophotonics:1||subwavelength waveguides:1||Synchrotrons:1||High dislocation density:1||Misfit stress relaxations:1||Randomly distributed:1||Tripleaxis xray diffractions:1||FLOW:1||CRYSTALLINE ORGANIC NANORODS:1||SHAPE CHANGES:1||ZnO thin film:1||(111)SI:1||XRAY MIRRORS:1||low temperature:1||oxide cathodes:1||heterogeneity:1||Xray microscopy:1||INTERFACIAL TENSIONS:1||single crystal growth:1||CARCINOMA:1||mouse:1||ANIMALS:1||Mndoped ZnO:1||luminescence:1||solution precipitation:1||CLUSTER:1||relaxation:1||ALPHAFE2O3:1||XANES:1||epitaxy:1||LaNiO3 thin film:1||LANIO3 THINFILMS:1||ELECTRODE:1||Fe3O4 sublayer:1||EXAFS microscopy:1||FERRITE FILMS:1||SURFACE PRETREATMENTS:1||superconductors:1||CONTRAST AGENT:1||BIODISTRIBUTION:1||DEATH:1||SYNCHROTRON:1||IR:1||apo Eknockout mouse:1||plaque:1||microradiology:1||ALPHASYNUCLEIN:1||PULMONARY TOXICITY:1||XRAY TOPOGRAPHY:1||dislocation:1||metalorganic chemical vapor deposition:1||CRYSTALGROWTH:1||SELFASSEMBLED MONOLAYERS:1||MEMBRANES:1||MAGNETICANISOTROPY:1||SI1XGEX CRYSTALS:1||STRAINEDSI:1||Extended Weibull model:1||MOLYBDENUM:1||ALLOYS:1||IRON:1||Theoretical modeling:1||Threading dislocation:1||GROWTH:27||THINFILMS:16||SYNCHROTRONRADIATION:15||CONTRAST:11||RADIOLOGY:11||PARTICLES:11||FILMS:11||SILICON:10||RADIATION:10||DEPOSITION:10||RESOLUTION:9||CRYSTALS:8||SILICONCARBIDE:7||XRAYS:7||MAMMOGRAPHY:7||Xray diffraction:7||synchrotron radiation:6||XRAYSCATTERING:6||MODEL:6||microstructure:6||DYNAMICS:5||ELECTRODEPOSITION:5||LAYERS:5||CHEMICALVAPORDEPOSITION:5||TEMPERATURE:5||TOMOGRAPHY:5||COMPUTEDTOMOGRAPHY:5||SAPPHIRE:5||MEDIA:5||NANOWIRES:5||DIFFRACTION:4||TISSUES:4||pulsed laser deposition:4||phase contrast imaging:4||LAYER:4||IMAGES:4||DIODES:4||FIELDEFFECT TRANSISTORS:4||ptype GaN:4||MICROSCOPY:4||REDUCTION:4||POLYMER:4||DEFECTS:3||COHERENCE:3||MICROTOMOGRAPHY:3||NANOPARTICLES:3||synchrotron:3||LIGHT:3||TRANSISTORS:3||SURFACES:3||STRAIN:3||EPITAXIAL LAYERS:3||DRUGDELIVERY:3||REFRACTION:3||growth mechanism:3||METALS:3||MICROPIPES:3||SYSTEM:3||NUCLEATION:3||synchrotron Xray scattering:3||SURFACE:3||SCREW DISLOCATIONS:3||SIMULATION:3||HARD XRAYS:3||ELECTRICALPROPERTIES:3||EPITAXY:3||GAN:3||PM2.5:3||EVAPORATION:3||LIQUIDS:3||INPLANE:3||RAT:3||ANGIOGENESIS:3||CT:3||GaN:3||ZnO:3||NANORODS:3||strain:3||PB(ZR0.53TI0.47)O3:3||CRYSTALLIZATION:3||synchrotron Xrays:2||buffer layer:2||TRANSMISSION ELECTRONMICROSCOPY:2||EPITAXIAL COSI2 FILMS:2||MECHANISMS:2||INSITU GROWTH:2||DEVICE:2||LOCALIZED ELECTROCHEMICAL DEPOSITION:2||X ray diffraction:2||SCHOTTKY CONTACT:2||IRRADIATION:2||aqua regia treatment:2||INVIVO:2||CELLADHESION:2||MORPHOGENETIC PROTEIN2:2||RECEPTOR:2||TEM:2||broadband synchrotron light:2||nanoparticle:2||BUFFER LAYERS:2||TC:2||ENHANCED SYNCHROTRON RADIOLOGY:2||synthesis:2||POLYDIMETHYLSILOXANE:2||MICROCHANNELS:2||PRETREATMENT PROCESS:2||XRAY:2||CHEMOTAXIS:2||MECHANOSENSORY TRANSDUCTION:2||rectangular microtube:2||CONJUGATED POLYMER:2||atomic force microscopy:2||METALLIC OXIDE SRRUO3:2||LASERABLATION:2||STRESS:2||ZONE PLATES:2||FRICTION:2||THERMALSTABILITY:2||Xrays:2||RAY:2||NM:2||ENERGY:2||TOPOGRAPHY:2||synchrotron Xray:2||ACID HYDROGELS:2||CAENORHABDITISELEGANS:2||PROTEIN:2||defects:2||EVOLUTION:2||FABRICATION:2||sharp bending waveguide:2||lasing action:2||BULK CRYSTALS:2||SUPERLATTICES:2||COATED CONDUCTORS:2||SI(111):2||phase contrast:2||CORONARY ANGIOGRAPHY:2||SPECTROMICROSCOPY:2||MEPHISTO:2||OXYGEN:2||OPTICALPROPERTIES:2||RADIOGRAPHY:2||CONTACT DEFORMATIONS:2||MOLECULAR FORCES:2||SOLIDS:2||NTYPE GAN:2||deposition:2||CHEMISTRY:2||DEFORMATION:2||SUBSTRATE:2||HETEROEPITAXY:2||NANOTOPOGRAPHY:2||EPITAXIALGROWTH:2||Xray:2||CHEMICAL VAPORDEPOSITION:2||SILICON STRUCTURES:2||STEMCELLS:2||CHANNEL:2||crystal structure:2||CORONARYANGIOGRAPHY:2||SiC:2||BUFFER LAYER:2||MOLECULARBEAM EPITAXY:2||INTERFACE:2||SIZE:2||ELECTRON:2||XRAY MICROSCOPY:2||MORPHOLOGIES:2||NANOCOLLOIDS:2||FORCE MICROSCOPY:2||ablation:2||polymers:2||(NH4)(2)Sx treatment:2||CLUSTERS:2||BIOMATERIALS:2||CIRCUITS:2||rectangular ring mode:2||GUIDES:2||MICROCAVITY:2||PHOTOLUMINESCENCE:2||epitaxial growth:2||EMBRITTLEMENT:2||Xray imaging:2||BIOCOMPATIBILITY:2||BEHAVIOR:2||MICROWAVEPLASMA:2||LOWPRESSURE:2||DEGRADATION:2||TISSUE:2||LIQUID:2||SOFT LITHOGRAPHY:2||amplified spontaneous emission (ASE):2||SMALL ORGANICMOLECULES:2||PHOTONIC CRYSTAL:2||micropipes:2||radiology:2||ALLOY:2||Xray scattering:2||CRITICALCURRENT DENSITY:2||ELECTRONMICROSCOPY:2||BI(PB)SRCACUO:2||ELECTRONICSTRUCTURE:2||RECONSTRUCTION:2||MG:2||ohmic contact:2||Pd ohmic contact:2||xray scattering:2||INP:2||annealing:2||REGENERATION:2||TITANIUM:2||COLLOIDAL GOLD:2||crystallization:2||BUCKLING MECHANICS:2||LASERS:2||MODES:2||synchrotron imaging:2||lattice distortion:2||AQUEOUSELECTROLYTE:2||MOLECULARDYNAMICS:2||OXIDE:2||MICROANGIOGRAPHY:2||OXIDATION:2||MICRORADIOLOGY:2||TECHNOLOGY:2||GE:2||surface chemistry:2||RECOVERY:2||OHMIC CONTACTS:2||LASERDIODES:2||PTYPE GAN:2||MOTION:2||PHANTOM:2||PHASE:2||CALCIUMPHOSPHATE CERAMICS:2||REPAIR:2||porphyrin:2||AMPLIFIED SPONTANEOUS EMISSION:2||METALELECTRODES:2||PD:2||SUPERCONDUCTING TAPES:2||nucleation:2||COATINGS:2||Xray topography:2||MONOLAYERS:2||SURFACE MODIFICATION:2||LITHOGRAPHY:2||MECHANICAL VENTILATION:1||MICRORIBBONS:1||STIFFNESS:1||DUALPHASE STEEL:1||growth mode:1||strain evolution:1||SI(100):1||ANISOTROPY:1||WET GRANULAR PILE:1||COALESCENCE:1||INSITU POLYMERIZATION:1||GRAPHENE:1||CANCER:1||NODULES:1||RABBITS:1||phasecontrast:1||YTTRIUMOXIDE FILMS:1||BaTiO3/SrTiO3:1||dental implant:1||coincidence site density:1||ERNI2B2C:1||crystallites:1||CoCrPt films:1||tensile strain:1||gallide:1||MGO:1||Baferrite film:1||synchrotron xray scattering:1||ZNO THINFILMS:1||MORPHOLOGY:1||PHASES:1||MICE:1||EBEAM LITHOGRAPHY:1||electrorheological fluids:1||NANOFIBROUS MEMBRANES:1||NANOLITHOGRAPHY:1||refractive index radiology:1||BLOOD:1||colloidal:1||SIZE CONTROL:1||nanoradiology:1||ZnSO4:1||lung injury:1||METAL:1||PM10:1||textured grain:1||MICROSTRUCTURE:1||DIMENSIONS:1||highresolution Xray diffraction:1||low temperature buffer:1||Zinc compounds:1||SI:1||HUMAN LONGEVITY:1||Maximum human lifespan:1||LIMITS:1||MOSFETS:1||in situ XANES:1||nanowires:1||PHOTOIRRADIATION:1||FIBERS:1||WORK:1||EMISSION:1||RADIATION MICROTOMOGRAPHY:1||RAMANSCATTERING:1||gold nanoparticles:1||synchrotron Xray diffraction:1||OPTICAL WAVEGUIDES:1||CONDUCTINGPOLYMER NANOWIRE:1||Lung cancer:1||INTRAVENOUS CORONARYARTERIOGRAPHY:1||SUBLIMATION GROWTH:1||radiography:1||porous SiC:1||GIANT MAGNETORESISTANCE:1||SEMICONDUCTORS:1||Ga diffusion:1||electroless deposition:1||HEMATITE:1||FREEELECTRON LASER:1||MOCVD:1||interfaces:1||white beam:1||imaging technique:1||nucleation layer:1||interface structure:1||epitaxial Baferrite film:1||rf magnetron sputtering:1||MAGNETIC CHARACTERISTICS:1||MIXTURE:1||ACCESS MEMORY APPLICATION:1||COHERENCY STRAIN:1||DENSITY:1||nanofabrication:1||POLY(METHYL METHACRYLATE) MICROSPHERE:1||RESIST:1||unmonochromatic beam:1||MICRORADIOGRAPHY:1||INTERFEROMETER:1||EXPOSURE:1||volume variation electronic:1||PULSEDLASER ABLATION:1||Semiconducting IIVI materials:1||Light emitting diodes:1||phase contrast microscopies:1||lung:1||AUGERELECTRON SPECTROSCOPY:1||passivation:1||additive manufacturing:1||Silicon carbide:1||Synchrotron radiation:1||Synchrotron radiation imaging:1||Dislocations (crystals):1||LUNG INJURY:1||POLYMER SURFACES:1||SINGLE CELLS:1||PREFERRED ORIENTATION:1||sapphire orientation:1||TANTALUM:1||BIASENHANCED NUCLEATION:1||hexaferrite:1||stretched exponential:1||SOLIDSURFACE:1||SHEAR:1||VIDEO MICROSCOPY:1||CARBON NANOTUBES:1||realtime observation:1||Xray synchrotron:1||CARBONMONOXIDE:1||ELECTROCHEMICAL FABRICATION:1||crystal growth:1||computer simulation:1||FERROELECTRICFILMS:1||TITANIUM IMPLANTS:1||BONE INTERFACE:1||EXAFS perpendicular magnetic recording:1||Pd/Ni:1||ELECTRODES:1||internal organ:1||LIGHTEMITTINGDIODES:1||interfacial structure:1||CONSTANT:1||DIELECTRICPROPERTIES:1||AR:1||DEVICES:1||BiSrCaCuO:1||LASER ABLATION:1||MECHANISM:1||SELECTIVE DEPOSITION:1||TARGETED DRUGDELIVERY:1||PEG:1||carbon nanotubes:1||nanocharacterization:1||WALLED CARBON NANOTUBE:1||basal cell carcinoma:1||PARTICULATE AIRPOLLUTION:1||FINE:1||CITIES:1||DOPED ZNO FILMS:1||atherosclerosis:1||drug delivery:1||hard Xray:1||COMBUSTION:1||ARTIFICIAL BATIO3/SRTIO3 SUPERLATTICES:1||surface morphology:1||Direct wafer bonding:1||COLLOIDAL GOLD PARTICLES:1||DELINEATION:1||EXPECTANCY:1||DEMOGRAPHY:1||MRI:1||SIGE:1||Phase contrast microradiography:1||INJURY:1||PASSIVITY:1||VOLUME:1||CONTACTANGLE:1||ARRAYS:1||DUCTILITY:1||sputtering:1||computed microtomography (mu CT):1||unmonochromatized Xray:1||BIPOLARTRANSISTORS:1||longevity:1||Confocal microscopy:1||Colloidal wettability:1||ATOMICFORCE MICROSCOPY:1||storage ring:1||digital subtraction:1||SCATTERING:1||size effect:1||SYNTHETIC QUARTZ:1||liquid metal embrittlement:1||iron ore:1||cube textured Ni substrates:1||SrRuO3 films:1||laser ablations:1||Ti underlayer:1||RANDOMACCESS MEMORIES:1||DOMAIN CONFIGURATIONS:1||MGO(100):1||SPECTROSCOPY:1||XE:1||IONBEAM:1||GRAINBOUNDARY MIGRATION:1||SRTIO3:1||COMPOSITES:1||FOAMS:1||BREASTCANCER SPECIMENS:1||unmonochromatized:1||Xray induced nucleation:1||gold:1||ABSORPTION:1||SEPARATION:1||CZOCHRALSKI 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microradiography:1||FeSO4:1||INDUCTION:1||BaTiO3 and SrTiO3 thin films:1||HARDXRAYS:1||light emitting diodes:1||ACID:1||MICROSTRUCTURES:1||PHOTOLUMINESCENCE PROPERTIES:1||LASER IRRADIATION:1||Human aging:1||polychromatic synchrotron Xray:1||refraction enhanced imaging:1||CHROMOPHORES:1||ACUTE LUNG INJURY:1||spatial resolution:1||BETAFESI2:1||VLSI:1||SI1XGEX:1||COLLOIDAL SUSPENSIONS:1||ELECTRONICS:1||ENHANCEMENT:1||artificial lattice:1||sinters:1||SILVER:1||STRAIN RELAXATION:1||biaxial texture:1||synchrotron scattering:1||transmission electron microscopy:1||IRONOXIDE FILMS:1||PZT thin film:1||ferroelectric thin film:1||MISFIT RELAXATION MECHANISMS:1||PBTIO3:1||O2:1||CONDUCTING POLYMERS:1||poly(methylmethancrylate):1||microspheres:1||phase contrast Xray microscope:1||AMBIENT AIR:1||ATMOSPHERE:1||XRAY INTERFEROMETER:1||NiAu composite nanoparticles.:1||synchrotron radiation Xrays:1||microtomography:1||OIL FLYASH:1||zinc oxide:1||mammography:1||SrRuO3 film:1||Laser epitaxy:1||HOLE MOBILITY:1||Models of crystal defects:1||RABBIT LUNGS:1||NI/AU CONTACT:1||3D printing:1||Stress relaxation:1||SURFACEAREA:1||IMAGE:1||modulation transfer function (MTF):1||Pb ions:1||Insitu visualization:1||Interfacial tension:1||DISPERSION FORCES:1||SINGLECRYSTALS:1||XRAY SOURCE:1||Synchrotron Xray imaging:1||Realtime imaging:1||MEDICAL APPLICATIONS:1||wiggler bending magnet:1||undulator:1||diffractionenhanced imaging:1||ZnO film:1||CAPACITORS:1||HE3:1||NiP alloy:1||PHOTOCHEMICAL FORMATION:1||extended domain matching:1||cubetextured Ni substrates:1||RAY COMPUTEDTOMOGRAPHY:1||electrode layer:1||DOMAINSTRUCTURE:1||XRAY CT:1||SPECIMEN:1||mammographic phantom:1||Xray absorption spectroscopy:1||BLUE:1||CONTACT:1||(BA:1||synchrotron spectromicroscopy:1||thin film:1||MICROWAVE PLASMA:1||GOLD NANOPARTICLES:1||POLYMERIZATION:1||DISEASE:1||Shanghai:1||MORTALITY:1||HETEROSTRUCTURES:1||METHACRYLATE:1||prostate cancer:1||renal cell carcinoma:1||RATS:1||PULSEDLASER DEPOSITION:1||semiconducting IIVI materials:1||PATTERNS:1||sapphire:1||evaporation:1||ZINCOXIDE:1||LIGHTEMITTING DIODE:1||Synchrotron imaging:1||Dislocations:1||Cracks:1||LIVE:1||spinal cord:1||stainless steel:1||nanophotonics:1||subwavelength waveguides:1||Synchrotrons:1||High dislocation density:1||Misfit stress relaxations:1||Randomly distributed:1||Tripleaxis xray diffractions:1||FLOW:1||CRYSTALLINE ORGANIC NANORODS:1||SHAPE CHANGES:1||ZnO thin film:1||(111)SI:1||XRAY MIRRORS:1||low temperature:1||oxide cathodes:1||heterogeneity:1||Xray microscopy:1||INTERFACIAL TENSIONS:1||single crystal growth:1||CARCINOMA:1||mouse:1||ANIMALS:1||Mndoped ZnO:1||luminescence:1||solution precipitation:1||CLUSTER:1||relaxation:1||ALPHAFE2O3:1||XANES:1||epitaxy:1||LaNiO3 thin film:1||LANIO3 THINFILMS:1||ELECTRODE:1||Fe3O4 sublayer:1||EXAFS microscopy:1||FERRITE FILMS:1||SURFACE PRETREATMENTS:1||superconductors:1||CONTRAST AGENT:1||BIODISTRIBUTION:1||DEATH:1||SYNCHROTRON:1||IR:1||apo Eknockout 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GaN:4||MICROSCOPY:4||REDUCTION:4||POLYMER:4||DEFECTS:3||COHERENCE:3||MICROTOMOGRAPHY:3||NANOPARTICLES:3||synchrotron:3||LIGHT:3||TRANSISTORS:3||SURFACES:3||STRAIN:3||EPITAXIAL LAYERS:3||DRUGDELIVERY:3||REFRACTION:3||growth mechanism:3||METALS:3||MICROPIPES:3||SYSTEM:3||NUCLEATION:3||synchrotron Xray scattering:3||SURFACE:3||SCREW DISLOCATIONS:3||SIMULATION:3||HARD XRAYS:3||ELECTRICALPROPERTIES:3||EPITAXY:3||GAN:3||PM2.5:3||EVAPORATION:3||LIQUIDS:3||INPLANE:3||RAT:3||ANGIOGENESIS:3||CT:3||GaN:3||ZnO:3||NANORODS:3||strain:3||PB(ZR0.53TI0.47)O3:3||CRYSTALLIZATION:3||synchrotron Xrays:2||buffer layer:2||TRANSMISSION ELECTRONMICROSCOPY:2||EPITAXIAL COSI2 FILMS:2||MECHANISMS:2||INSITU GROWTH:2||DEVICE:2||LOCALIZED ELECTROCHEMICAL DEPOSITION:2||X ray diffraction:2||SCHOTTKY CONTACT:2||IRRADIATION:2||aqua regia treatment:2||INVIVO:2||CELLADHESION:2||MORPHOGENETIC PROTEIN2:2||RECEPTOR:2||TEM:2||broadband synchrotron light:2||nanoparticle:2||BUFFER LAYERS:2||TC:2||ENHANCED SYNCHROTRON RADIOLOGY:2||synthesis:2||POLYDIMETHYLSILOXANE:2||MICROCHANNELS:2||PRETREATMENT PROCESS:2||XRAY:2||CHEMOTAXIS:2||MECHANOSENSORY TRANSDUCTION:2||rectangular microtube:2||CONJUGATED POLYMER:2||atomic force microscopy:2||METALLIC OXIDE SRRUO3:2||LASERABLATION:2||STRESS:2||ZONE PLATES:2||FRICTION:2||THERMALSTABILITY:2||Xrays:2||RAY:2||NM:2||ENERGY:2||TOPOGRAPHY:2||synchrotron Xray:2||ACID HYDROGELS:2||CAENORHABDITISELEGANS:2||PROTEIN:2||defects:2||EVOLUTION:2||FABRICATION:2||sharp bending waveguide:2||lasing action:2||BULK CRYSTALS:2||SUPERLATTICES:2||COATED CONDUCTORS:2||SI(111):2||phase contrast:2||CORONARY ANGIOGRAPHY:2||SPECTROMICROSCOPY:2||MEPHISTO:2||OXYGEN:2||OPTICALPROPERTIES:2||RADIOGRAPHY:2||CONTACT DEFORMATIONS:2||MOLECULAR FORCES:2||SOLIDS:2||NTYPE GAN:2||deposition:2||CHEMISTRY:2||DEFORMATION:2||SUBSTRATE:2||HETEROEPITAXY:2||NANOTOPOGRAPHY:2||EPITAXIALGROWTH:2||Xray:2||CHEMICAL VAPORDEPOSITION:2||SILICON STRUCTURES:2||STEMCELLS:2||CHANNEL:2||crystal structure:2||CORONARYANGIOGRAPHY:2||SiC:2||BUFFER LAYER:2||MOLECULARBEAM EPITAXY:2||INTERFACE:2||SIZE:2||ELECTRON:2||XRAY MICROSCOPY:2||MORPHOLOGIES:2||NANOCOLLOIDS:2||FORCE MICROSCOPY:2||ablation:2||polymers:2||(NH4)(2)Sx treatment:2||CLUSTERS:2||BIOMATERIALS:2||CIRCUITS:2||rectangular ring mode:2||GUIDES:2||MICROCAVITY:2||PHOTOLUMINESCENCE:2||epitaxial growth:2||EMBRITTLEMENT:2||Xray imaging:2||BIOCOMPATIBILITY:2||BEHAVIOR:2||MICROWAVEPLASMA:2||LOWPRESSURE:2||DEGRADATION:2||TISSUE:2||LIQUID:2||SOFT LITHOGRAPHY:2||amplified spontaneous emission (ASE):2||SMALL ORGANICMOLECULES:2||PHOTONIC CRYSTAL:2||micropipes:2||radiology:2||ALLOY:2||Xray scattering:2||CRITICALCURRENT DENSITY:2||ELECTRONMICROSCOPY:2||BI(PB)SRCACUO:2||ELECTRONICSTRUCTURE:2||RECONSTRUCTION:2||MG:2||ohmic contact:2||Pd ohmic contact:2||xray scattering:2||INP:2||annealing:2||REGENERATION:2||TITANIUM:2||COLLOIDAL GOLD:2||crystallization:2||BUCKLING MECHANICS:2||LASERS:2||MODES:2||synchrotron imaging:2||lattice distortion:2||AQUEOUSELECTROLYTE:2||MOLECULARDYNAMICS:2||OXIDE:2||MICROANGIOGRAPHY:2||OXIDATION:2||MICRORADIOLOGY:2||TECHNOLOGY:2||GE:2||surface chemistry:2||RECOVERY:2||OHMIC CONTACTS:2||LASERDIODES:2||PTYPE GAN:2||MOTION:2||PHANTOM:2||PHASE:2||CALCIUMPHOSPHATE CERAMICS:2||REPAIR:2||porphyrin:2||AMPLIFIED SPONTANEOUS EMISSION:2||METALELECTRODES:2||PD:2||SUPERCONDUCTING TAPES:2||nucleation:2||COATINGS:2||Xray topography:2||MONOLAYERS:2||SURFACE MODIFICATION:2||LITHOGRAPHY:2||MECHANICAL VENTILATION:1||MICRORIBBONS:1||STIFFNESS:1||DUALPHASE STEEL:1||growth mode:1||strain evolution:1||SI(100):1||ANISOTROPY:1||WET GRANULAR PILE:1||COALESCENCE:1||INSITU POLYMERIZATION:1||GRAPHENE:1||CANCER:1||NODULES:1||RABBITS:1||phasecontrast:1||YTTRIUMOXIDE FILMS:1||BaTiO3/SrTiO3:1||dental implant:1||coincidence site density:1||ERNI2B2C:1||crystallites:1||CoCrPt films:1||tensile strain:1||gallide:1||MGO:1||Baferrite film:1||synchrotron xray scattering:1||ZNO THINFILMS:1||MORPHOLOGY:1||PHASES:1||MICE:1||EBEAM LITHOGRAPHY:1||electrorheological fluids:1||NANOFIBROUS MEMBRANES:1||NANOLITHOGRAPHY:1||refractive index radiology:1||BLOOD:1||colloidal:1||SIZE CONTROL:1||nanoradiology:1||ZnSO4:1||lung injury:1||METAL:1||PM10:1||textured grain:1||MICROSTRUCTURE:1||DIMENSIONS:1||highresolution Xray diffraction:1||low temperature buffer:1||Zinc compounds:1||SI:1||HUMAN LONGEVITY:1||Maximum human lifespan:1||LIMITS:1||MOSFETS:1||in situ XANES:1||nanowires:1||PHOTOIRRADIATION:1||FIBERS:1||WORK:1||EMISSION:1||RADIATION MICROTOMOGRAPHY:1||RAMANSCATTERING:1||gold nanoparticles:1||synchrotron Xray diffraction:1||OPTICAL WAVEGUIDES:1||CONDUCTINGPOLYMER NANOWIRE:1||Lung cancer:1||INTRAVENOUS CORONARYARTERIOGRAPHY:1||SUBLIMATION GROWTH:1||radiography:1||porous SiC:1||GIANT MAGNETORESISTANCE:1||SEMICONDUCTORS:1||Ga diffusion:1||electroless deposition:1||HEMATITE:1||FREEELECTRON LASER:1||MOCVD:1||interfaces:1||white beam:1||imaging technique:1||nucleation 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FABRICATION:1||crystal growth:1||computer simulation:1||FERROELECTRICFILMS:1||TITANIUM IMPLANTS:1||BONE INTERFACE:1||EXAFS perpendicular magnetic recording:1||Pd/Ni:1||ELECTRODES:1||internal organ:1||LIGHTEMITTINGDIODES:1||interfacial structure:1||CONSTANT:1||DIELECTRICPROPERTIES:1||AR:1||DEVICES:1||BiSrCaCuO:1||LASER ABLATION:1||MECHANISM:1||SELECTIVE DEPOSITION:1||TARGETED DRUGDELIVERY:1||PEG:1||carbon nanotubes:1||nanocharacterization:1||WALLED CARBON NANOTUBE:1||basal cell carcinoma:1||PARTICULATE AIRPOLLUTION:1||FINE:1||CITIES:1||DOPED ZNO FILMS:1||atherosclerosis:1||drug delivery:1||hard Xray:1||COMBUSTION:1||ARTIFICIAL BATIO3/SRTIO3 SUPERLATTICES:1||surface morphology:1||Direct wafer bonding:1||COLLOIDAL GOLD PARTICLES:1||DELINEATION:1||EXPECTANCY:1||DEMOGRAPHY:1||MRI:1||SIGE:1||Phase contrast microradiography:1||INJURY:1||PASSIVITY:1||VOLUME:1||CONTACTANGLE:1||ARRAYS:1||DUCTILITY:1||sputtering:1||computed microtomography (mu CT):1||unmonochromatized Xray:1||BIPOLARTRANSISTORS:1||longevity:1||Confocal microscopy:1||Colloidal wettability:1||ATOMICFORCE MICROSCOPY:1||storage ring:1||digital subtraction:1||SCATTERING:1||size effect:1||SYNTHETIC QUARTZ:1||liquid metal embrittlement:1||iron ore:1||cube textured Ni substrates:1||SrRuO3 films:1||laser ablations:1||Ti underlayer:1||RANDOMACCESS MEMORIES:1||DOMAIN CONFIGURATIONS:1||MGO(100):1||SPECTROSCOPY:1||XE:1||IONBEAM:1||GRAINBOUNDARY MIGRATION:1||SRTIO3:1||COMPOSITES:1||FOAMS:1||BREASTCANCER SPECIMENS:1||unmonochromatized:1||Xray induced nucleation:1||gold:1||ABSORPTION:1||SEPARATION:1||CZOCHRALSKI GROWTH:1||RETRIEVAL:1||GAMMARADIATION:1||AQUEOUSSOLUTION:1||NANOCOMPOSITES:1||INCREASE:1||without staining procedure:1||XPS:1||Imaging techniques:1||Interfaces (materials):1||Dislocation distributions:1||AZOBENZENE:1||STRUCTURAL EVOLUTION:1||RELAXATION:1||DROP IMPACT:1||NONLINEAR DYNAMICS:1||DISLOCATIONS:1||Colloids:1||TRANSFORMATION:1||METAL INTERCONNECTS:1||ELASTIC CONDUCTORS:1||LOGIC:1||DEFICIENT MICE:1||tomography:1||FACILITY:1||osseointegration:1||ROCKS:1||dental radiography:1||Zn coating:1||RE2O3/Ni:1||YBCO COATED CONDUCTORS:1||threedimensional islands:1||(Ba,Sr)TiO3:1||ultrahigh resolution:1||photoelectron emission:1||Pd:1||LANIO3:1||BASE ELECTRODES:1||iron oxide phase:1||ironoxide interlayer:1||COATED GLASS SUBSTRATE:1||MICROWAVE PLASMA NUCLEATION:1||ENHANCED NUCLEATION:1||phase transformation:1||ADSORPTION:1||phasecontrast xray imaging:1||lung inflammation:1||SI1XGEX SINGLECRYSTALS:1||COCONTINUITY:1||SCALE:1||OBJECT:1||synchrotron microradiography:1||FeSO4:1||INDUCTION:1||BaTiO3 and SrTiO3 thin films:1||HARDXRAYS:1||light emitting diodes:1||ACID:1||MICROSTRUCTURES:1||PHOTOLUMINESCENCE PROPERTIES:1||LASER IRRADIATION:1||Human aging:1||polychromatic synchrotron Xray:1||refraction enhanced imaging:1||CHROMOPHORES:1||ACUTE LUNG INJURY:1||spatial resolution:1||BETAFESI2:1||VLSI:1||SI1XGEX:1||COLLOIDAL SUSPENSIONS:1||ELECTRONICS:1||ENHANCEMENT:1||artificial lattice:1||sinters:1||SILVER:1||STRAIN RELAXATION:1||biaxial texture:1||synchrotron scattering:1||transmission electron microscopy:1||IRONOXIDE FILMS:1||PZT thin film:1||ferroelectric thin film:1||MISFIT RELAXATION MECHANISMS:1||PBTIO3:1||O2:1||CONDUCTING POLYMERS:1||poly(methylmethancrylate):1||microspheres:1||phase contrast Xray microscope:1||AMBIENT AIR:1||ATMOSPHERE:1||XRAY INTERFEROMETER:1||NiAu composite nanoparticles.:1||synchrotron radiation Xrays:1||microtomography:1||OIL FLYASH:1||zinc oxide:1||mammography:1||SrRuO3 film:1||Laser epitaxy:1||HOLE MOBILITY:1||Models of crystal defects:1||RABBIT LUNGS:1||NI/AU CONTACT:1||3D printing:1||Stress relaxation:1||SURFACEAREA:1||IMAGE:1||modulation transfer function (MTF):1||Pb ions:1||Insitu visualization:1||Interfacial tension:1||DISPERSION FORCES:1||SINGLECRYSTALS:1||XRAY SOURCE:1||Synchrotron Xray imaging:1||Realtime imaging:1||MEDICAL APPLICATIONS:1||wiggler bending magnet:1||undulator:1||diffractionenhanced imaging:1||ZnO film:1||CAPACITORS:1||HE3:1||NiP alloy:1||PHOTOCHEMICAL FORMATION:1||extended domain matching:1||cubetextured Ni substrates:1||RAY COMPUTEDTOMOGRAPHY:1||electrode layer:1||DOMAINSTRUCTURE:1||XRAY CT:1||SPECIMEN:1||mammographic phantom:1||Xray absorption spectroscopy:1||BLUE:1||CONTACT:1||(BA:1||synchrotron spectromicroscopy:1||thin film:1||MICROWAVE PLASMA:1||GOLD NANOPARTICLES:1||POLYMERIZATION:1||DISEASE:1||Shanghai:1||MORTALITY:1||HETEROSTRUCTURES:1||METHACRYLATE:1||prostate cancer:1||renal cell carcinoma:1||RATS:1||PULSEDLASER DEPOSITION:1||semiconducting IIVI materials:1||PATTERNS:1||sapphire:1||evaporation:1||ZINCOXIDE:1||LIGHTEMITTING DIODE:1||Synchrotron imaging:1||Dislocations:1||Cracks:1||LIVE:1||spinal cord:1||stainless steel:1||nanophotonics:1||subwavelength waveguides:1||Synchrotrons:1||High dislocation density:1||Misfit stress relaxations:1||Randomly distributed:1||Tripleaxis xray diffractions:1||FLOW:1||CRYSTALLINE ORGANIC NANORODS:1||SHAPE CHANGES:1||ZnO thin film:1||(111)SI:1||XRAY MIRRORS:1||low temperature:1||oxide cathodes:1||heterogeneity:1||Xray microscopy:1||INTERFACIAL TENSIONS:1||single crystal growth:1||CARCINOMA:1||mouse:1||ANIMALS:1||Mndoped ZnO:1||luminescence:1||solution precipitation:1||CLUSTER:1||relaxation:1||ALPHAFE2O3:1||XANES:1||epitaxy:1||LaNiO3 thin film:1||LANIO3 THINFILMS:1||ELECTRODE:1||Fe3O4 sublayer:1||EXAFS microscopy:1||FERRITE FILMS:1||SURFACE PRETREATMENTS:1||superconductors:1||CONTRAST AGENT:1||BIODISTRIBUTION:1||DEATH:1||SYNCHROTRON:1||IR:1||apo Eknockout mouse:1||plaque:1||microradiology:1||ALPHASYNUCLEIN:1||PULMONARY TOXICITY:1||XRAY TOPOGRAPHY:1||dislocation:1||metalorganic chemical vapor deposition:1||CRYSTALGROWTH:1||SELFASSEMBLED MONOLAYERS:1||MEMBRANES:1||MAGNETICANISOTROPY:1||SI1XGEX CRYSTALS:1||STRAINEDSI:1||Extended Weibull model:1||MOLYBDENUM:1||ALLOYS:1||IRON:1||Theoretical modeling:1||Threading dislocation:1||GROWTH:27||THINFILMS:16||SYNCHROTRONRADIATION:15||CONTRAST:11||RADIOLOGY:11||PARTICLES:11||FILMS:11||SILICON:10||RADIATION:10||DEPOSITION:10||RESOLUTION:9||CRYSTALS:8||SILICONCARBIDE:7||XRAYS:7||MAMMOGRAPHY:7||Xray diffraction:7||synchrotron radiation:6||XRAYSCATTERING:6||MODEL:6||microstructure:6||DYNAMICS:5||ELECTRODEPOSITION:5||LAYERS:5||CHEMICALVAPORDEPOSITION:5||TEMPERATURE:5||TOMOGRAPHY:5||COMPUTEDTOMOGRAPHY:5||SAPPHIRE:5||MEDIA:5||NANOWIRES:5||DIFFRACTION:4||TISSUES:4||pulsed laser deposition:4||phase contrast imaging:4||LAYER:4||IMAGES:4||DIODES:4||FIELDEFFECT TRANSISTORS:4||ptype GaN:4||MICROSCOPY:4||REDUCTION:4||POLYMER:4||DEFECTS:3||COHERENCE:3||MICROTOMOGRAPHY:3||NANOPARTICLES:3||synchrotron:3||LIGHT:3||TRANSISTORS:3||SURFACES:3||STRAIN:3||EPITAXIAL LAYERS:3||DRUGDELIVERY:3||REFRACTION:3||growth mechanism:3||METALS:3||MICROPIPES:3||SYSTEM:3||NUCLEATION:3||synchrotron Xray scattering:3||SURFACE:3||SCREW DISLOCATIONS:3||SIMULATION:3||HARD 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imaging:2||BIOCOMPATIBILITY:2||BEHAVIOR:2||MICROWAVEPLASMA:2||LOWPRESSURE:2||DEGRADATION:2||TISSUE:2||LIQUID:2||SOFT LITHOGRAPHY:2||amplified spontaneous emission (ASE):2||SMALL ORGANICMOLECULES:2||PHOTONIC CRYSTAL:2||micropipes:2||radiology:2||ALLOY:2||Xray scattering:2||CRITICALCURRENT DENSITY:2||ELECTRONMICROSCOPY:2||BI(PB)SRCACUO:2||ELECTRONICSTRUCTURE:2||RECONSTRUCTION:2||MG:2||ohmic contact:2||Pd ohmic contact:2||xray scattering:2||INP:2||annealing:2||REGENERATION:2||TITANIUM:2||COLLOIDAL GOLD:2||crystallization:2||BUCKLING MECHANICS:2||LASERS:2||MODES:2||synchrotron imaging:2||lattice distortion:2||AQUEOUSELECTROLYTE:2||MOLECULARDYNAMICS:2||OXIDE:2||MICROANGIOGRAPHY:2||OXIDATION:2||MICRORADIOLOGY:2||TECHNOLOGY:2||GE:2||surface chemistry:2||RECOVERY:2||OHMIC CONTACTS:2||LASERDIODES:2||PTYPE GAN:2||MOTION:2||PHANTOM:2||PHASE:2||CALCIUMPHOSPHATE CERAMICS:2||REPAIR:2||porphyrin:2||AMPLIFIED SPONTANEOUS EMISSION:2||METALELECTRODES:2||PD:2||SUPERCONDUCTING TAPES:2||nucleation:2||COATINGS:2||Xray topography:2||MONOLAYERS:2||SURFACE MODIFICATION:2||LITHOGRAPHY:2||MECHANICAL VENTILATION:1||MICRORIBBONS:1||STIFFNESS:1||DUALPHASE STEEL:1||growth mode:1||strain evolution:1||SI(100):1||ANISOTROPY:1||WET GRANULAR PILE:1||COALESCENCE:1||INSITU POLYMERIZATION:1||GRAPHENE:1||CANCER:1||NODULES:1||RABBITS:1||phasecontrast:1||YTTRIUMOXIDE FILMS:1||BaTiO3/SrTiO3:1||dental implant:1||coincidence site density:1||ERNI2B2C:1||crystallites:1||CoCrPt films:1||tensile strain:1||gallide:1||MGO:1||Baferrite film:1||synchrotron xray scattering:1||ZNO THINFILMS:1||MORPHOLOGY:1||PHASES:1||MICE:1||EBEAM LITHOGRAPHY:1||electrorheological fluids:1||NANOFIBROUS MEMBRANES:1||NANOLITHOGRAPHY:1||refractive index radiology:1||BLOOD:1||colloidal:1||SIZE CONTROL:1||nanoradiology:1||ZnSO4:1||lung injury:1||METAL:1||PM10:1||textured grain:1||MICROSTRUCTURE:1||DIMENSIONS:1||highresolution Xray diffraction:1||low temperature buffer:1||Zinc compounds:1||SI:1||HUMAN LONGEVITY:1||Maximum human lifespan:1||LIMITS:1||MOSFETS:1||in situ XANES:1||nanowires:1||PHOTOIRRADIATION:1||FIBERS:1||WORK:1||EMISSION:1||RADIATION MICROTOMOGRAPHY:1||RAMANSCATTERING:1||gold nanoparticles:1||synchrotron Xray diffraction:1||OPTICAL WAVEGUIDES:1||CONDUCTINGPOLYMER NANOWIRE:1||Lung cancer:1||INTRAVENOUS CORONARYARTERIOGRAPHY:1||SUBLIMATION GROWTH:1||radiography:1||porous SiC:1||GIANT MAGNETORESISTANCE:1||SEMICONDUCTORS:1||Ga diffusion:1||electroless deposition:1||HEMATITE:1||FREEELECTRON LASER:1||MOCVD:1||interfaces:1||white beam:1||imaging technique:1||nucleation layer:1||interface structure:1||epitaxial Baferrite film:1||rf magnetron sputtering:1||MAGNETIC CHARACTERISTICS:1||MIXTURE:1||ACCESS MEMORY APPLICATION:1||COHERENCY STRAIN:1||DENSITY:1||nanofabrication:1||POLY(METHYL METHACRYLATE) MICROSPHERE:1||RESIST:1||unmonochromatic beam:1||MICRORADIOGRAPHY:1||INTERFEROMETER:1||EXPOSURE:1||volume variation electronic:1||PULSEDLASER ABLATION:1||Semiconducting IIVI materials:1||Light emitting diodes:1||phase contrast microscopies:1||lung:1||AUGERELECTRON SPECTROSCOPY:1||passivation:1||additive manufacturing:1||Silicon carbide:1||Synchrotron radiation:1||Synchrotron radiation imaging:1||Dislocations (crystals):1||LUNG INJURY:1||POLYMER SURFACES:1||SINGLE CELLS:1||PREFERRED ORIENTATION:1||sapphire orientation:1||TANTALUM:1||BIASENHANCED NUCLEATION:1||hexaferrite:1||stretched exponential:1||SOLIDSURFACE:1||SHEAR:1||VIDEO MICROSCOPY:1||CARBON NANOTUBES:1||realtime observation:1||Xray synchrotron:1||CARBONMONOXIDE:1||ELECTROCHEMICAL FABRICATION:1||crystal growth:1||computer simulation:1||FERROELECTRICFILMS:1||TITANIUM IMPLANTS:1||BONE INTERFACE:1||EXAFS perpendicular magnetic recording:1||Pd/Ni:1||ELECTRODES:1||internal organ:1||LIGHTEMITTINGDIODES:1||interfacial structure:1||CONSTANT:1||DIELECTRICPROPERTIES:1||AR:1||DEVICES:1||BiSrCaCuO:1||LASER ABLATION:1||MECHANISM:1||SELECTIVE DEPOSITION:1||TARGETED DRUGDELIVERY:1||PEG:1||carbon 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CONFIGURATIONS:1||MGO(100):1||SPECTROSCOPY:1||XE:1||IONBEAM:1||GRAINBOUNDARY MIGRATION:1||SRTIO3:1||COMPOSITES:1||FOAMS:1||BREASTCANCER SPECIMENS:1||unmonochromatized:1||Xray induced nucleation:1||gold:1||ABSORPTION:1||SEPARATION:1||CZOCHRALSKI GROWTH:1||RETRIEVAL:1||GAMMARADIATION:1||AQUEOUSSOLUTION:1||NANOCOMPOSITES:1||INCREASE:1||without staining procedure:1||XPS:1||Imaging techniques:1||Interfaces (materials):1||Dislocation distributions:1||AZOBENZENE:1||STRUCTURAL EVOLUTION:1||RELAXATION:1||DROP IMPACT:1||NONLINEAR DYNAMICS:1||DISLOCATIONS:1||Colloids:1||TRANSFORMATION:1||METAL INTERCONNECTS:1||ELASTIC CONDUCTORS:1||LOGIC:1||DEFICIENT MICE:1||tomography:1||FACILITY:1||osseointegration:1||ROCKS:1||dental radiography:1||Zn coating:1||RE2O3/Ni:1||YBCO COATED CONDUCTORS:1||threedimensional islands:1||(Ba,Sr)TiO3:1||ultrahigh resolution:1||photoelectron emission:1||Pd:1||LANIO3:1||BASE ELECTRODES:1||iron oxide phase:1||ironoxide interlayer:1||COATED GLASS SUBSTRATE:1||MICROWAVE PLASMA 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AIR:1||ATMOSPHERE:1||XRAY INTERFEROMETER:1||NiAu composite nanoparticles.:1||synchrotron radiation Xrays:1||microtomography:1||OIL FLYASH:1||zinc oxide:1||mammography:1||SrRuO3 film:1||Laser epitaxy:1||HOLE MOBILITY:1||Models of crystal defects:1||RABBIT LUNGS:1||NI/AU CONTACT:1||3D printing:1||Stress relaxation:1||SURFACEAREA:1||IMAGE:1||modulation transfer function (MTF):1||Pb ions:1||Insitu visualization:1||Interfacial tension:1||DISPERSION FORCES:1||SINGLECRYSTALS:1||XRAY SOURCE:1||Synchrotron Xray imaging:1||Realtime imaging:1||MEDICAL APPLICATIONS:1||wiggler bending magnet:1||undulator:1||diffractionenhanced imaging:1||ZnO film:1||CAPACITORS:1||HE3:1||NiP alloy:1||PHOTOCHEMICAL FORMATION:1||extended domain matching:1||cubetextured Ni substrates:1||RAY COMPUTEDTOMOGRAPHY:1||electrode layer:1||DOMAINSTRUCTURE:1||XRAY CT:1||SPECIMEN:1||mammographic phantom:1||Xray absorption spectroscopy:1||BLUE:1||CONTACT:1||(BA:1||synchrotron spectromicroscopy:1||thin film:1||MICROWAVE PLASMA:1||GOLD NANOPARTICLES:1||POLYMERIZATION:1||DISEASE:1||Shanghai:1||MORTALITY:1||HETEROSTRUCTURES:1||METHACRYLATE:1||prostate cancer:1||renal cell carcinoma:1||RATS:1||PULSEDLASER DEPOSITION:1||semiconducting IIVI materials:1||PATTERNS:1||sapphire:1||evaporation:1||ZINCOXIDE:1||LIGHTEMITTING DIODE:1||Synchrotron imaging:1||Dislocations:1||Cracks:1||LIVE:1||spinal cord:1||stainless steel:1||nanophotonics:1||subwavelength waveguides:1||Synchrotrons:1||High dislocation density:1||Misfit stress relaxations:1||Randomly distributed:1||Tripleaxis xray diffractions:1||FLOW:1||CRYSTALLINE ORGANIC NANORODS:1||SHAPE CHANGES:1||ZnO thin film:1||(111)SI:1||XRAY MIRRORS:1||low temperature:1||oxide cathodes:1||heterogeneity:1||Xray microscopy:1||INTERFACIAL TENSIONS:1||single crystal growth:1||CARCINOMA:1||mouse:1||ANIMALS:1||Mndoped ZnO:1||luminescence:1||solution precipitation:1||CLUSTER:1||relaxation:1||ALPHAFE2O3:1||XANES:1||epitaxy:1||LaNiO3 thin film:1||LANIO3 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ELECTRONMICROSCOPY:2||EPITAXIAL COSI2 FILMS:2||MECHANISMS:2||INSITU GROWTH:2||DEVICE:2||LOCALIZED ELECTROCHEMICAL DEPOSITION:2||X ray diffraction:2||SCHOTTKY CONTACT:2||IRRADIATION:2||aqua regia treatment:2||INVIVO:2||CELLADHESION:2||MORPHOGENETIC PROTEIN2:2||RECEPTOR:2||TEM:2||broadband synchrotron light:2||nanoparticle:2||BUFFER LAYERS:2||TC:2||ENHANCED SYNCHROTRON RADIOLOGY:2||synthesis:2||POLYDIMETHYLSILOXANE:2||MICROCHANNELS:2||PRETREATMENT PROCESS:2||XRAY:2||CHEMOTAXIS:2||MECHANOSENSORY TRANSDUCTION:2||rectangular microtube:2||CONJUGATED POLYMER:2||atomic force microscopy:2||METALLIC OXIDE SRRUO3:2||LASERABLATION:2||STRESS:2||ZONE PLATES:2||FRICTION:2||THERMALSTABILITY:2||Xrays:2||RAY:2||NM:2||ENERGY:2||TOPOGRAPHY:2||synchrotron Xray:2||ACID HYDROGELS:2||CAENORHABDITISELEGANS:2||PROTEIN:2||defects:2||EVOLUTION:2||FABRICATION:2||sharp bending waveguide:2||lasing action:2||BULK CRYSTALS:2||SUPERLATTICES:2||COATED CONDUCTORS:2||SI(111):2||phase contrast:2||CORONARY 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nanoparticles:1||synchrotron Xray diffraction:1||OPTICAL WAVEGUIDES:1||CONDUCTINGPOLYMER NANOWIRE:1||Lung cancer:1||INTRAVENOUS CORONARYARTERIOGRAPHY:1||SUBLIMATION GROWTH:1||radiography:1||porous SiC:1||GIANT MAGNETORESISTANCE:1||SEMICONDUCTORS:1||Ga diffusion:1||electroless deposition:1||HEMATITE:1||FREEELECTRON LASER:1||MOCVD:1||interfaces:1||white beam:1||imaging technique:1||nucleation layer:1||interface structure:1||epitaxial Baferrite film:1||rf magnetron sputtering:1||MAGNETIC CHARACTERISTICS:1||MIXTURE:1||ACCESS MEMORY APPLICATION:1||COHERENCY STRAIN:1||DENSITY:1||nanofabrication:1||POLY(METHYL METHACRYLATE) MICROSPHERE:1||RESIST:1||unmonochromatic beam:1||MICRORADIOGRAPHY:1||INTERFEROMETER:1||EXPOSURE:1||volume variation electronic:1||PULSEDLASER ABLATION:1||Semiconducting IIVI materials:1||Light emitting diodes:1||phase contrast microscopies:1||lung:1||AUGERELECTRON SPECTROSCOPY:1||passivation:1||additive manufacturing:1||Silicon carbide:1||Synchrotron radiation:1||Synchrotron radiation imaging:1||Dislocations (crystals):1||LUNG INJURY:1||POLYMER SURFACES:1||SINGLE CELLS:1||PREFERRED ORIENTATION:1||sapphire orientation:1||TANTALUM:1||BIASENHANCED NUCLEATION:1||hexaferrite:1||stretched exponential:1||SOLIDSURFACE:1||SHEAR:1||VIDEO MICROSCOPY:1||CARBON NANOTUBES:1||realtime observation:1||Xray synchrotron:1||CARBONMONOXIDE:1||ELECTROCHEMICAL FABRICATION:1||crystal growth:1||computer simulation:1||FERROELECTRICFILMS:1||TITANIUM IMPLANTS:1||BONE INTERFACE:1||EXAFS perpendicular magnetic recording:1||Pd/Ni:1||ELECTRODES:1||internal organ:1||LIGHTEMITTINGDIODES:1||interfacial structure:1||CONSTANT:1||DIELECTRICPROPERTIES:1||AR:1||DEVICES:1||BiSrCaCuO:1||LASER ABLATION:1||MECHANISM:1||SELECTIVE DEPOSITION:1||TARGETED DRUGDELIVERY:1||PEG:1||carbon nanotubes:1||nanocharacterization:1||WALLED CARBON NANOTUBE:1||basal cell carcinoma:1||PARTICULATE AIRPOLLUTION:1||FINE:1||CITIES:1||DOPED ZNO FILMS:1||atherosclerosis:1||drug delivery:1||hard 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microradiography:1||FeSO4:1||INDUCTION:1||BaTiO3 and SrTiO3 thin films:1||HARDXRAYS:1||light emitting diodes:1||ACID:1||MICROSTRUCTURES:1||PHOTOLUMINESCENCE PROPERTIES:1||LASER IRRADIATION:1||Human aging:1||polychromatic synchrotron Xray:1||refraction enhanced imaging:1||CHROMOPHORES:1||ACUTE LUNG INJURY:1||spatial resolution:1||BETAFESI2:1||VLSI:1||SI1XGEX:1||COLLOIDAL SUSPENSIONS:1||ELECTRONICS:1||ENHANCEMENT:1||artificial lattice:1||sinters:1||SILVER:1||STRAIN RELAXATION:1||biaxial texture:1||synchrotron scattering:1||transmission electron microscopy:1||IRONOXIDE FILMS:1||PZT thin film:1||ferroelectric thin film:1||MISFIT RELAXATION MECHANISMS:1||PBTIO3:1||O2:1||CONDUCTING POLYMERS:1||poly(methylmethancrylate):1||microspheres:1||phase contrast Xray microscope:1||AMBIENT AIR:1||ATMOSPHERE:1||XRAY INTERFEROMETER:1||NiAu composite nanoparticles.:1||synchrotron radiation Xrays:1||microtomography:1||OIL FLYASH:1||zinc oxide:1||mammography:1||SrRuO3 film:1||Laser epitaxy:1||HOLE MOBILITY:1||Models of crystal defects:1||RABBIT LUNGS:1||NI/AU CONTACT:1||3D printing:1||Stress relaxation:1||SURFACEAREA:1||IMAGE:1||modulation transfer function (MTF):1||Pb ions:1||Insitu visualization:1||Interfacial tension:1||DISPERSION FORCES:1||SINGLECRYSTALS:1||XRAY SOURCE:1||Synchrotron Xray imaging:1||Realtime imaging:1||MEDICAL APPLICATIONS:1||wiggler bending magnet:1||undulator:1||diffractionenhanced imaging:1||ZnO film:1||CAPACITORS:1||HE3:1||NiP alloy:1||PHOTOCHEMICAL FORMATION:1||extended domain matching:1||cubetextured Ni substrates:1||RAY COMPUTEDTOMOGRAPHY:1||electrode layer:1||DOMAINSTRUCTURE:1||XRAY CT:1||SPECIMEN:1||mammographic phantom:1||Xray absorption spectroscopy:1||BLUE:1||CONTACT:1||(BA:1||synchrotron spectromicroscopy:1||thin film:1||MICROWAVE PLASMA:1||GOLD NANOPARTICLES:1||POLYMERIZATION:1||DISEASE:1||Shanghai:1||MORTALITY:1||HETEROSTRUCTURES:1||METHACRYLATE:1||prostate cancer:1||renal cell carcinoma:1||RATS:1||PULSEDLASER DEPOSITION:1||semiconducting IIVI materials:1||PATTERNS:1||sapphire:1||evaporation:1||ZINCOXIDE:1||LIGHTEMITTING DIODE:1||Synchrotron imaging:1||Dislocations:1||Cracks:1||LIVE:1||spinal cord:1||stainless steel:1||nanophotonics:1||subwavelength waveguides:1||Synchrotrons:1||High dislocation density:1||Misfit stress relaxations:1||Randomly distributed:1||Tripleaxis xray diffractions:1||FLOW:1||CRYSTALLINE ORGANIC NANORODS:1||SHAPE CHANGES:1||ZnO thin film:1||(111)SI:1||XRAY MIRRORS:1||low temperature:1||oxide cathodes:1||heterogeneity:1||Xray microscopy:1||INTERFACIAL TENSIONS:1||single crystal growth:1||CARCINOMA:1||mouse:1||ANIMALS:1||Mndoped ZnO:1||luminescence:1||solution precipitation:1||CLUSTER:1||relaxation:1||ALPHAFE2O3:1||XANES:1||epitaxy:1||LaNiO3 thin film:1||LANIO3 THINFILMS:1||ELECTRODE:1||Fe3O4 sublayer:1||EXAFS microscopy:1||FERRITE FILMS:1||SURFACE PRETREATMENTS:1||superconductors:1||CONTRAST AGENT:1||BIODISTRIBUTION:1||DEATH:1||SYNCHROTRON:1||IR:1||apo Eknockout 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GaN:4||MICROSCOPY:4||REDUCTION:4||POLYMER:4||DEFECTS:3||COHERENCE:3||MICROTOMOGRAPHY:3||NANOPARTICLES:3||synchrotron:3||LIGHT:3||TRANSISTORS:3||SURFACES:3||STRAIN:3||EPITAXIAL LAYERS:3||DRUGDELIVERY:3||REFRACTION:3||growth mechanism:3||METALS:3||MICROPIPES:3||SYSTEM:3||NUCLEATION:3||synchrotron Xray scattering:3||SURFACE:3||SCREW DISLOCATIONS:3||SIMULATION:3||HARD XRAYS:3||ELECTRICALPROPERTIES:3||EPITAXY:3||GAN:3||PM2.5:3||EVAPORATION:3||LIQUIDS:3||INPLANE:3||RAT:3||ANGIOGENESIS:3||CT:3||GaN:3||ZnO:3||NANORODS:3||strain:3||PB(ZR0.53TI0.47)O3:3||CRYSTALLIZATION:3||synchrotron Xrays:2||buffer layer:2||TRANSMISSION ELECTRONMICROSCOPY:2||EPITAXIAL COSI2 FILMS:2||MECHANISMS:2||INSITU GROWTH:2||DEVICE:2||LOCALIZED ELECTROCHEMICAL DEPOSITION:2||X ray diffraction:2||SCHOTTKY CONTACT:2||IRRADIATION:2||aqua regia treatment:2||INVIVO:2||CELLADHESION:2||MORPHOGENETIC PROTEIN2:2||RECEPTOR:2||TEM:2||broadband synchrotron light:2||nanoparticle:2||BUFFER LAYERS:2||TC:2||ENHANCED SYNCHROTRON RADIOLOGY:2||synthesis:2||POLYDIMETHYLSILOXANE:2||MICROCHANNELS:2||PRETREATMENT PROCESS:2||XRAY:2||CHEMOTAXIS:2||MECHANOSENSORY TRANSDUCTION:2||rectangular microtube:2||CONJUGATED POLYMER:2||atomic force microscopy:2||METALLIC OXIDE SRRUO3:2||LASERABLATION:2||STRESS:2||ZONE PLATES:2||FRICTION:2||THERMALSTABILITY:2||Xrays:2||RAY:2||NM:2||ENERGY:2||TOPOGRAPHY:2||synchrotron Xray:2||ACID HYDROGELS:2||CAENORHABDITISELEGANS:2||PROTEIN:2||defects:2||EVOLUTION:2||FABRICATION:2||sharp bending waveguide:2||lasing action:2||BULK CRYSTALS:2||SUPERLATTICES:2||COATED CONDUCTORS:2||SI(111):2||phase contrast:2||CORONARY ANGIOGRAPHY:2||SPECTROMICROSCOPY:2||MEPHISTO:2||OXYGEN:2||OPTICALPROPERTIES:2||RADIOGRAPHY:2||CONTACT DEFORMATIONS:2||MOLECULAR FORCES:2||SOLIDS:2||NTYPE GAN:2||deposition:2||CHEMISTRY:2||DEFORMATION:2||SUBSTRATE:2||HETEROEPITAXY:2||NANOTOPOGRAPHY:2||EPITAXIALGROWTH:2||Xray:2||CHEMICAL VAPORDEPOSITION:2||SILICON STRUCTURES:2||STEMCELLS:2||CHANNEL:2||crystal 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Xray:1||BIPOLARTRANSISTORS:1||longevity:1||Confocal microscopy:1||Colloidal wettability:1||ATOMICFORCE MICROSCOPY:1||storage ring:1||digital subtraction:1||SCATTERING:1||size effect:1||SYNTHETIC QUARTZ:1||liquid metal embrittlement:1||iron ore:1||cube textured Ni substrates:1||SrRuO3 films:1||laser ablations:1||Ti underlayer:1||RANDOMACCESS MEMORIES:1||DOMAIN CONFIGURATIONS:1||MGO(100):1||SPECTROSCOPY:1||XE:1||IONBEAM:1||GRAINBOUNDARY MIGRATION:1||SRTIO3:1||COMPOSITES:1||FOAMS:1||BREASTCANCER SPECIMENS:1||unmonochromatized:1||Xray induced nucleation:1||gold:1||ABSORPTION:1||SEPARATION:1||CZOCHRALSKI GROWTH:1||RETRIEVAL:1||GAMMARADIATION:1||AQUEOUSSOLUTION:1||NANOCOMPOSITES:1||INCREASE:1||without staining procedure:1||XPS:1||Imaging techniques:1||Interfaces (materials):1||Dislocation distributions:1||AZOBENZENE:1||STRUCTURAL EVOLUTION:1||RELAXATION:1||DROP IMPACT:1||NONLINEAR DYNAMICS:1||DISLOCATIONS:1||Colloids:1||TRANSFORMATION:1||METAL INTERCONNECTS:1||ELASTIC CONDUCTORS:1||LOGIC:1||DEFICIENT MICE:1||tomography:1||FACILITY:1||osseointegration:1||ROCKS:1||dental radiography:1||Zn coating:1||RE2O3/Ni:1||YBCO COATED CONDUCTORS:1||threedimensional islands:1||(Ba,Sr)TiO3:1||ultrahigh resolution:1||photoelectron emission:1||Pd:1||LANIO3:1||BASE ELECTRODES:1||iron oxide phase:1||ironoxide interlayer:1||COATED GLASS SUBSTRATE:1||MICROWAVE PLASMA NUCLEATION:1||ENHANCED NUCLEATION:1||phase transformation:1||ADSORPTION:1||phasecontrast xray imaging:1||lung inflammation:1||SI1XGEX SINGLECRYSTALS:1||COCONTINUITY:1||SCALE:1||OBJECT:1||synchrotron microradiography:1||FeSO4:1||INDUCTION:1||BaTiO3 and SrTiO3 thin films:1||HARDXRAYS:1||light emitting diodes:1||ACID:1||MICROSTRUCTURES:1||PHOTOLUMINESCENCE PROPERTIES:1||LASER IRRADIATION:1||Human aging:1||polychromatic synchrotron Xray:1||refraction enhanced imaging:1||CHROMOPHORES:1||ACUTE LUNG INJURY:1||spatial resolution:1||BETAFESI2:1||VLSI:1||SI1XGEX:1||COLLOIDAL SUSPENSIONS:1||ELECTRONICS:1||ENHANCEMENT:1||artificial lattice:1||sinters:1||SILVER:1||STRAIN RELAXATION:1||biaxial texture:1||synchrotron scattering:1||transmission electron microscopy:1||IRONOXIDE FILMS:1||PZT thin film:1||ferroelectric thin film:1||MISFIT RELAXATION MECHANISMS:1||PBTIO3:1||O2:1||CONDUCTING POLYMERS:1||poly(methylmethancrylate):1||microspheres:1||phase contrast Xray microscope:1||AMBIENT AIR:1||ATMOSPHERE:1||XRAY INTERFEROMETER:1||NiAu composite nanoparticles.:1||synchrotron radiation Xrays:1||microtomography:1||OIL FLYASH:1||zinc oxide:1||mammography:1||SrRuO3 film:1||Laser epitaxy:1||HOLE MOBILITY:1||Models of crystal defects:1||RABBIT LUNGS:1||NI/AU CONTACT:1||3D printing:1||Stress relaxation:1||SURFACEAREA:1||IMAGE:1||modulation transfer function (MTF):1||Pb ions:1||Insitu visualization:1||Interfacial tension:1||DISPERSION FORCES:1||SINGLECRYSTALS:1||XRAY SOURCE:1||Synchrotron Xray imaging:1||Realtime imaging:1||MEDICAL APPLICATIONS:1||wiggler bending magnet:1||undulator:1||diffractionenhanced imaging:1||ZnO film:1||CAPACITORS:1||HE3:1||NiP alloy:1||PHOTOCHEMICAL FORMATION:1||extended domain matching:1||cubetextured Ni substrates:1||RAY COMPUTEDTOMOGRAPHY:1||electrode layer:1||DOMAINSTRUCTURE:1||XRAY CT:1||SPECIMEN:1||mammographic phantom:1||Xray absorption spectroscopy:1||BLUE:1||CONTACT:1||(BA:1||synchrotron spectromicroscopy:1||thin film:1||MICROWAVE PLASMA:1||GOLD NANOPARTICLES:1||POLYMERIZATION:1||DISEASE:1||Shanghai:1||MORTALITY:1||HETEROSTRUCTURES:1||METHACRYLATE:1||prostate cancer:1||renal cell carcinoma:1||RATS:1||PULSEDLASER DEPOSITION:1||semiconducting IIVI materials:1||PATTERNS:1||sapphire:1||evaporation:1||ZINCOXIDE:1||LIGHTEMITTING DIODE:1||Synchrotron imaging:1||Dislocations:1||Cracks:1||LIVE:1||spinal cord:1||stainless steel:1||nanophotonics:1||subwavelength waveguides:1||Synchrotrons:1||High dislocation density:1||Misfit stress relaxations:1||Randomly distributed:1||Tripleaxis xray diffractions:1||FLOW:1||CRYSTALLINE ORGANIC NANORODS:1||SHAPE CHANGES:1||ZnO thin film:1||(111)SI:1||XRAY MIRRORS:1||low temperature:1||oxide cathodes:1||heterogeneity:1||Xray microscopy:1||INTERFACIAL TENSIONS:1||single crystal growth:1||CARCINOMA:1||mouse:1||ANIMALS:1||Mndoped ZnO:1||luminescence:1||solution precipitation:1||CLUSTER:1||relaxation:1||ALPHAFE2O3:1||XANES:1||epitaxy:1||LaNiO3 thin film:1||LANIO3 THINFILMS:1||ELECTRODE:1||Fe3O4 sublayer:1||EXAFS microscopy:1||FERRITE FILMS:1||SURFACE PRETREATMENTS:1||superconductors:1||CONTRAST AGENT:1||BIODISTRIBUTION:1||DEATH:1||SYNCHROTRON:1||IR:1||apo Eknockout mouse:1||plaque:1||microradiology:1||ALPHASYNUCLEIN:1||PULMONARY TOXICITY:1||XRAY TOPOGRAPHY:1||dislocation:1||metalorganic chemical vapor deposition:1||CRYSTALGROWTH:1||SELFASSEMBLED MONOLAYERS:1||MEMBRANES:1||MAGNETICANISOTROPY:1||SI1XGEX CRYSTALS:1||STRAINEDSI:1||Extended Weibull model:1||MOLYBDENUM:1||ALLOYS:1||IRON:1||Theoretical modeling:1||Threading dislocation:1||GROWTH:27||THINFILMS:16||SYNCHROTRONRADIATION:15||CONTRAST:11||RADIOLOGY:11||PARTICLES:11||FILMS:11||SILICON:10||RADIATION:10||DEPOSITION:10||RESOLUTION:9||CRYSTALS:8||SILICONCARBIDE:7||XRAYS:7||MAMMOGRAPHY:7||Xray diffraction:7||synchrotron radiation:6||XRAYSCATTERING:6||MODEL:6||microstructure:6||DYNAMICS:5||ELECTRODEPOSITION:5||LAYERS:5||CHEMICALVAPORDEPOSITION:5||TEMPERATURE:5||TOMOGRAPHY:5||COMPUTEDTOMOGRAPHY:5||SAPPHIRE:5||MEDIA:5||NANOWIRES:5||DIFFRACTION:4||TISSUES:4||pulsed laser deposition:4||phase contrast imaging:4||LAYER:4||IMAGES:4||DIODES:4||FIELDEFFECT TRANSISTORS:4||ptype GaN:4||MICROSCOPY:4||REDUCTION:4||POLYMER:4||DEFECTS:3||COHERENCE:3||MICROTOMOGRAPHY:3||NANOPARTICLES:3||synchrotron:3||LIGHT:3||TRANSISTORS:3||SURFACES:3||STRAIN:3||EPITAXIAL LAYERS:3||DRUGDELIVERY:3||REFRACTION:3||growth mechanism:3||METALS:3||MICROPIPES:3||SYSTEM:3||NUCLEATION:3||synchrotron Xray scattering:3||SURFACE:3||SCREW DISLOCATIONS:3||SIMULATION:3||HARD XRAYS:3||ELECTRICALPROPERTIES:3||EPITAXY:3||GAN:3||PM2.5:3||EVAPORATION:3||LIQUIDS:3||INPLANE:3||RAT:3||ANGIOGENESIS:3||CT:3||GaN:3||ZnO:3||NANORODS:3||strain:3||PB(ZR0.53TI0.47)O3:3||CRYSTALLIZATION:3||synchrotron Xrays:2||buffer layer:2||TRANSMISSION ELECTRONMICROSCOPY:2||EPITAXIAL COSI2 FILMS:2||MECHANISMS:2||INSITU GROWTH:2||DEVICE:2||LOCALIZED ELECTROCHEMICAL DEPOSITION:2||X ray diffraction:2||SCHOTTKY CONTACT:2||IRRADIATION:2||aqua regia treatment:2||INVIVO:2||CELLADHESION:2||MORPHOGENETIC PROTEIN2:2||RECEPTOR:2||TEM:2||broadband synchrotron light:2||nanoparticle:2||BUFFER LAYERS:2||TC:2||ENHANCED SYNCHROTRON RADIOLOGY:2||synthesis:2||POLYDIMETHYLSILOXANE:2||MICROCHANNELS:2||PRETREATMENT PROCESS:2||XRAY:2||CHEMOTAXIS:2||MECHANOSENSORY TRANSDUCTION:2||rectangular microtube:2||CONJUGATED POLYMER:2||atomic force microscopy:2||METALLIC OXIDE SRRUO3:2||LASERABLATION:2||STRESS:2||ZONE PLATES:2||FRICTION:2||THERMALSTABILITY:2||Xrays:2||RAY:2||NM:2||ENERGY:2||TOPOGRAPHY:2||synchrotron Xray:2||ACID HYDROGELS:2||CAENORHABDITISELEGANS:2||PROTEIN:2||defects:2||EVOLUTION:2||FABRICATION:2||sharp bending waveguide:2||lasing action:2||BULK CRYSTALS:2||SUPERLATTICES:2||COATED CONDUCTORS:2||SI(111):2||phase contrast:2||CORONARY ANGIOGRAPHY:2||SPECTROMICROSCOPY:2||MEPHISTO:2||OXYGEN:2||OPTICALPROPERTIES:2||RADIOGRAPHY:2||CONTACT DEFORMATIONS:2||MOLECULAR FORCES:2||SOLIDS:2||NTYPE GAN:2||deposition:2||CHEMISTRY:2||DEFORMATION:2||SUBSTRATE:2||HETEROEPITAXY:2||NANOTOPOGRAPHY:2||EPITAXIALGROWTH:2||Xray:2||CHEMICAL VAPORDEPOSITION:2||SILICON STRUCTURES:2||STEMCELLS:2||CHANNEL:2||crystal structure:2||CORONARYANGIOGRAPHY:2||SiC:2||BUFFER LAYER:2||MOLECULARBEAM EPITAXY:2||INTERFACE:2||SIZE:2||ELECTRON:2||XRAY MICROSCOPY:2||MORPHOLOGIES:2||NANOCOLLOIDS:2||FORCE MICROSCOPY:2||ablation:2||polymers:2||(NH4)(2)Sx treatment:2||CLUSTERS:2||BIOMATERIALS:2||CIRCUITS:2||rectangular ring mode:2||GUIDES:2||MICROCAVITY:2||PHOTOLUMINESCENCE:2||epitaxial growth:2||EMBRITTLEMENT:2||Xray imaging:2||BIOCOMPATIBILITY:2||BEHAVIOR:2||MICROWAVEPLASMA:2||LOWPRESSURE:2||DEGRADATION:2||TISSUE:2||LIQUID:2||SOFT LITHOGRAPHY:2||amplified spontaneous emission (ASE):2||SMALL ORGANICMOLECULES:2||PHOTONIC CRYSTAL:2||micropipes:2||radiology:2||ALLOY:2||Xray scattering:2||CRITICALCURRENT DENSITY:2||ELECTRONMICROSCOPY:2||BI(PB)SRCACUO:2||ELECTRONICSTRUCTURE:2||RECONSTRUCTION:2||MG:2||ohmic contact:2||Pd ohmic contact:2||xray scattering:2||INP:2||annealing:2||REGENERATION:2||TITANIUM:2||COLLOIDAL GOLD:2||crystallization:2||BUCKLING MECHANICS:2||LASERS:2||MODES:2||synchrotron imaging:2||lattice distortion:2||AQUEOUSELECTROLYTE:2||MOLECULARDYNAMICS:2||OXIDE:2||MICROANGIOGRAPHY:2||OXIDATION:2||MICRORADIOLOGY:2||TECHNOLOGY:2||GE:2||surface chemistry:2||RECOVERY:2||OHMIC CONTACTS:2||LASERDIODES:2||PTYPE GAN:2||MOTION:2||PHANTOM:2||PHASE:2||CALCIUMPHOSPHATE CERAMICS:2||REPAIR:2||porphyrin:2||AMPLIFIED SPONTANEOUS EMISSION:2||METALELECTRODES:2||PD:2||SUPERCONDUCTING TAPES:2||nucleation:2||COATINGS:2||Xray topography:2||MONOLAYERS:2||SURFACE MODIFICATION:2||LITHOGRAPHY:2||MECHANICAL VENTILATION:1||MICRORIBBONS:1||STIFFNESS:1||DUALPHASE STEEL:1||growth mode:1||strain evolution:1||SI(100):1||ANISOTROPY:1||WET GRANULAR PILE:1||COALESCENCE:1||INSITU POLYMERIZATION:1||GRAPHENE:1||CANCER:1||NODULES:1||RABBITS:1||phasecontrast:1||YTTRIUMOXIDE FILMS:1||BaTiO3/SrTiO3:1||dental implant:1||coincidence site density:1||ERNI2B2C:1||crystallites:1||CoCrPt films:1||tensile strain:1||gallide:1||MGO:1||Baferrite film:1||synchrotron xray scattering:1||ZNO THINFILMS:1||MORPHOLOGY:1||PHASES:1||MICE:1||EBEAM LITHOGRAPHY:1||electrorheological fluids:1||NANOFIBROUS MEMBRANES:1||NANOLITHOGRAPHY:1||refractive index radiology:1||BLOOD:1||colloidal:1||SIZE CONTROL:1||nanoradiology:1||ZnSO4:1||lung injury:1||METAL:1||PM10:1||textured grain:1||MICROSTRUCTURE:1||DIMENSIONS:1||highresolution Xray diffraction:1||low temperature buffer:1||Zinc compounds:1||SI:1||HUMAN LONGEVITY:1||Maximum human lifespan:1||LIMITS:1||MOSFETS:1||in situ XANES:1||nanowires:1||PHOTOIRRADIATION:1||FIBERS:1||WORK:1||EMISSION:1||RADIATION MICROTOMOGRAPHY:1||RAMANSCATTERING:1||gold nanoparticles:1||synchrotron Xray diffraction:1||OPTICAL WAVEGUIDES:1||CONDUCTINGPOLYMER NANOWIRE:1||Lung cancer:1||INTRAVENOUS CORONARYARTERIOGRAPHY:1||SUBLIMATION GROWTH:1||radiography:1||porous SiC:1||GIANT MAGNETORESISTANCE:1||SEMICONDUCTORS:1||Ga diffusion:1||electroless deposition:1||HEMATITE:1||FREEELECTRON LASER:1||MOCVD:1||interfaces:1||white beam:1||imaging technique:1||nucleation layer:1||interface structure:1||epitaxial Baferrite film:1||rf magnetron sputtering:1||MAGNETIC CHARACTERISTICS:1||MIXTURE:1||ACCESS MEMORY APPLICATION:1||COHERENCY STRAIN:1||DENSITY:1||nanofabrication:1||POLY(METHYL METHACRYLATE) MICROSPHERE:1||RESIST:1||unmonochromatic beam:1||MICRORADIOGRAPHY:1||INTERFEROMETER:1||EXPOSURE:1||volume variation electronic:1||PULSEDLASER ABLATION:1||Semiconducting IIVI materials:1||Light emitting diodes:1||phase contrast microscopies:1||lung:1||AUGERELECTRON SPECTROSCOPY:1||passivation:1||additive manufacturing:1||Silicon carbide:1||Synchrotron radiation:1||Synchrotron radiation imaging:1||Dislocations (crystals):1||LUNG INJURY:1||POLYMER SURFACES:1||SINGLE CELLS:1||PREFERRED ORIENTATION:1||sapphire orientation:1||TANTALUM:1||BIASENHANCED NUCLEATION:1||hexaferrite:1||stretched exponential:1||SOLIDSURFACE:1||SHEAR:1||VIDEO MICROSCOPY:1||CARBON NANOTUBES:1||realtime observation:1||Xray synchrotron:1||CARBONMONOXIDE:1||ELECTROCHEMICAL FABRICATION:1||crystal growth:1||computer simulation:1||FERROELECTRICFILMS:1||TITANIUM IMPLANTS:1||BONE INTERFACE:1||EXAFS perpendicular magnetic recording:1||Pd/Ni:1||ELECTRODES:1||internal organ:1||LIGHTEMITTINGDIODES:1||interfacial structure:1||CONSTANT:1||DIELECTRICPROPERTIES:1||AR:1||DEVICES:1||BiSrCaCuO:1||LASER ABLATION:1||MECHANISM:1||SELECTIVE DEPOSITION:1||TARGETED DRUGDELIVERY:1||PEG:1||carbon nanotubes:1||nanocharacterization:1||WALLED CARBON NANOTUBE:1||basal cell carcinoma:1||PARTICULATE AIRPOLLUTION:1||FINE:1||CITIES:1||DOPED ZNO FILMS:1||atherosclerosis:1||drug delivery:1||hard Xray:1||COMBUSTION:1||ARTIFICIAL BATIO3/SRTIO3 SUPERLATTICES:1||surface morphology:1||Direct wafer bonding:1||COLLOIDAL GOLD PARTICLES:1||DELINEATION:1||EXPECTANCY:1||DEMOGRAPHY:1||MRI:1||SIGE:1||Phase contrast microradiography:1||INJURY:1||PASSIVITY:1||VOLUME:1||CONTACTANGLE:1||ARRAYS:1||DUCTILITY:1||sputtering:1||computed microtomography (mu CT):1||unmonochromatized Xray:1||BIPOLARTRANSISTORS:1||longevity:1||Confocal microscopy:1||Colloidal wettability:1||ATOMICFORCE MICROSCOPY:1||storage ring:1||digital subtraction:1||SCATTERING:1||size effect:1||SYNTHETIC QUARTZ:1||liquid metal embrittlement:1||iron ore:1||cube textured Ni substrates:1||SrRuO3 films:1||laser ablations:1||Ti underlayer:1||RANDOMACCESS MEMORIES:1||DOMAIN CONFIGURATIONS:1||MGO(100):1||SPECTROSCOPY:1||XE:1||IONBEAM:1||GRAINBOUNDARY MIGRATION:1||SRTIO3:1||COMPOSITES:1||FOAMS:1||BREASTCANCER SPECIMENS:1||unmonochromatized:1||Xray induced nucleation:1||gold:1||ABSORPTION:1||SEPARATION:1||CZOCHRALSKI GROWTH:1||RETRIEVAL:1||GAMMARADIATION:1||AQUEOUSSOLUTION:1||NANOCOMPOSITES:1||INCREASE:1||without staining procedure:1||XPS:1||Imaging techniques:1||Interfaces (materials):1||Dislocation distributions:1||AZOBENZENE:1||STRUCTURAL EVOLUTION:1||RELAXATION:1||DROP IMPACT:1||NONLINEAR DYNAMICS:1||DISLOCATIONS:1||Colloids:1||TRANSFORMATION:1||METAL INTERCONNECTS:1||ELASTIC CONDUCTORS:1||LOGIC:1||DEFICIENT MICE:1||tomography:1||FACILITY:1||osseointegration:1||ROCKS:1||dental radiography:1||Zn coating:1||RE2O3/Ni:1||YBCO COATED CONDUCTORS:1||threedimensional islands:1||(Ba,Sr)TiO3:1||ultrahigh resolution:1||photoelectron emission:1||Pd:1||LANIO3:1||BASE ELECTRODES:1||iron oxide phase:1||ironoxide interlayer:1||COATED GLASS SUBSTRATE:1||MICROWAVE PLASMA NUCLEATION:1||ENHANCED NUCLEATION:1||phase transformation:1||ADSORPTION:1||phasecontrast xray imaging:1||lung inflammation:1||SI1XGEX SINGLECRYSTALS:1||COCONTINUITY:1||SCALE:1||OBJECT:1||synchrotron microradiography:1||FeSO4:1||INDUCTION:1||BaTiO3 and SrTiO3 thin films:1||HARDXRAYS:1||light emitting diodes:1||ACID:1||MICROSTRUCTURES:1||PHOTOLUMINESCENCE PROPERTIES:1||LASER IRRADIATION:1||Human aging:1||polychromatic synchrotron Xray:1||refraction enhanced imaging:1||CHROMOPHORES:1||ACUTE LUNG INJURY:1||spatial resolution:1||BETAFESI2:1||VLSI:1||SI1XGEX:1||COLLOIDAL SUSPENSIONS:1||ELECTRONICS:1||ENHANCEMENT:1||artificial lattice:1||sinters:1||SILVER:1||STRAIN RELAXATION:1||biaxial texture:1||synchrotron scattering:1||transmission electron microscopy:1||IRONOXIDE FILMS:1||PZT thin film:1||ferroelectric thin film:1||MISFIT RELAXATION MECHANISMS:1||PBTIO3:1||O2:1||CONDUCTING POLYMERS:1||poly(methylmethancrylate):1||microspheres:1||phase contrast Xray microscope:1||AMBIENT AIR:1||ATMOSPHERE:1||XRAY INTERFEROMETER:1||NiAu composite nanoparticles.:1||synchrotron radiation Xrays:1||microtomography:1||OIL FLYASH:1||zinc oxide:1||mammography:1||SrRuO3 film:1||Laser epitaxy:1||HOLE MOBILITY:1||Models of crystal defects:1||RABBIT LUNGS:1||NI/AU CONTACT:1||3D printing:1||Stress relaxation:1||SURFACEAREA:1||IMAGE:1||modulation transfer function (MTF):1||Pb ions:1||Insitu visualization:1||Interfacial tension:1||DISPERSION FORCES:1||SINGLECRYSTALS:1||XRAY SOURCE:1||Synchrotron Xray imaging:1||Realtime imaging:1||MEDICAL APPLICATIONS:1||wiggler bending magnet:1||undulator:1||diffractionenhanced imaging:1||ZnO film:1||CAPACITORS:1||HE3:1||NiP alloy:1||PHOTOCHEMICAL FORMATION:1||extended domain matching:1||cubetextured Ni substrates:1||RAY COMPUTEDTOMOGRAPHY:1||electrode layer:1||DOMAINSTRUCTURE:1||XRAY CT:1||SPECIMEN:1||mammographic phantom:1||Xray absorption spectroscopy:1||BLUE:1||CONTACT:1||(BA:1||synchrotron spectromicroscopy:1||thin film:1||MICROWAVE PLASMA:1||GOLD NANOPARTICLES:1||POLYMERIZATION:1||DISEASE:1||Shanghai:1||MORTALITY:1||HETEROSTRUCTURES:1||METHACRYLATE:1||prostate cancer:1||renal cell carcinoma:1||RATS:1||PULSEDLASER DEPOSITION:1||semiconducting IIVI materials:1||PATTERNS:1||sapphire:1||evaporation:1||ZINCOXIDE:1||LIGHTEMITTING DIODE:1||Synchrotron imaging:1||Dislocations:1||Cracks:1||LIVE:1||spinal cord:1||stainless steel:1||nanophotonics:1||subwavelength waveguides:1||Synchrotrons:1||High dislocation density:1||Misfit stress relaxations:1||Randomly distributed:1||Tripleaxis xray diffractions:1||FLOW:1||CRYSTALLINE ORGANIC NANORODS:1||SHAPE CHANGES:1||ZnO thin film:1||(111)SI:1||XRAY MIRRORS:1||low temperature:1||oxide cathodes:1||heterogeneity:1||Xray microscopy:1||INTERFACIAL TENSIONS:1||single crystal growth:1||CARCINOMA:1||mouse:1||ANIMALS:1||Mndoped ZnO:1||luminescence:1||solution precipitation:1||CLUSTER:1||relaxation:1||ALPHAFE2O3:1||XANES:1||epitaxy:1||LaNiO3 thin film:1||LANIO3 THINFILMS:1||ELECTRODE:1||Fe3O4 sublayer:1||EXAFS microscopy:1||FERRITE FILMS:1||SURFACE PRETREATMENTS:1||superconductors:1||CONTRAST AGENT:1||BIODISTRIBUTION:1||DEATH:1||SYNCHROTRON:1||IR:1||apo Eknockout mouse:1||plaque:1||microradiology:1||ALPHASYNUCLEIN:1||PULMONARY TOXICITY:1||XRAY TOPOGRAPHY:1||dislocation:1||metalorganic chemical vapor deposition:1||CRYSTALGROWTH:1||SELFASSEMBLED MONOLAYERS:1||MEMBRANES:1||MAGNETICANISOTROPY:1||SI1XGEX CRYSTALS:1||STRAINEDSI:1||Extended Weibull model:1||MOLYBDENUM:1||ALLOYS:1||IRON:1||Theoretical modeling:1||Threading dislocation:1||GROWTH:27||THINFILMS:16||SYNCHROTRONRADIATION:15||CONTRAST:11||RADIOLOGY:11||PARTICLES:11||FILMS:11||SILICON:10||RADIATION:10||DEPOSITION:10||RESOLUTION:9||CRYSTALS:8||SILICONCARBIDE:7||XRAYS:7||MAMMOGRAPHY:7||Xray diffraction:7||synchrotron radiation:6||XRAYSCATTERING:6||MODEL:6||microstructure:6||DYNAMICS:5||ELECTRODEPOSITION:5||LAYERS:5||CHEMICALVAPORDEPOSITION:5||TEMPERATURE:5||TOMOGRAPHY:5||COMPUTEDTOMOGRAPHY:5||SAPPHIRE:5||MEDIA:5||NANOWIRES:5||DIFFRACTION:4||TISSUES:4||pulsed laser deposition:4||phase contrast imaging:4||LAYER:4||IMAGES:4||DIODES:4||FIELDEFFECT TRANSISTORS:4||ptype GaN:4||MICROSCOPY:4||REDUCTION:4||POLYMER:4||DEFECTS:3||COHERENCE:3||MICROTOMOGRAPHY:3||NANOPARTICLES:3||synchrotron:3||LIGHT:3||TRANSISTORS:3||SURFACES:3||STRAIN:3||EPITAXIAL LAYERS:3||DRUGDELIVERY:3||REFRACTION:3||growth mechanism:3||METALS:3||MICROPIPES:3||SYSTEM:3||NUCLEATION:3||synchrotron Xray scattering:3||SURFACE:3||SCREW DISLOCATIONS:3||SIMULATION:3||HARD XRAYS:3||ELECTRICALPROPERTIES:3||EPITAXY:3||GAN:3||PM2.5:3||EVAPORATION:3||LIQUIDS:3||INPLANE:3||RAT:3||ANGIOGENESIS:3||CT:3||GaN:3||ZnO:3||NANORODS:3||strain:3||PB(ZR0.53TI0.47)O3:3||CRYSTALLIZATION:3||synchrotron Xrays:2||buffer layer:2||TRANSMISSION ELECTRONMICROSCOPY:2||EPITAXIAL COSI2 FILMS:2||MECHANISMS:2||INSITU GROWTH:2||DEVICE:2||LOCALIZED ELECTROCHEMICAL DEPOSITION:2||X ray diffraction:2||SCHOTTKY CONTACT:2||IRRADIATION:2||aqua regia treatment:2||INVIVO:2||CELLADHESION:2||MORPHOGENETIC PROTEIN2:2||RECEPTOR:2||TEM:2||broadband synchrotron light:2||nanoparticle:2||BUFFER LAYERS:2||TC:2||ENHANCED SYNCHROTRON RADIOLOGY:2||synthesis:2||POLYDIMETHYLSILOXANE:2||MICROCHANNELS:2||PRETREATMENT PROCESS:2||XRAY:2||CHEMOTAXIS:2||MECHANOSENSORY TRANSDUCTION:2||rectangular microtube:2||CONJUGATED POLYMER:2||atomic force microscopy:2||METALLIC OXIDE SRRUO3:2||LASERABLATION:2||STRESS:2||ZONE PLATES:2||FRICTION:2||THERMALSTABILITY:2||Xrays:2||RAY:2||NM:2||ENERGY:2||TOPOGRAPHY:2||synchrotron Xray:2||ACID HYDROGELS:2||CAENORHABDITISELEGANS:2||PROTEIN:2||defects:2||EVOLUTION:2||FABRICATION:2||sharp bending waveguide:2||lasing action:2||BULK CRYSTALS:2||SUPERLATTICES:2||COATED CONDUCTORS:2||SI(111):2||phase contrast:2||CORONARY ANGIOGRAPHY:2||SPECTROMICROSCOPY:2||MEPHISTO:2||OXYGEN:2||OPTICALPROPERTIES:2||RADIOGRAPHY:2||CONTACT DEFORMATIONS:2||MOLECULAR FORCES:2||SOLIDS:2||NTYPE GAN:2||deposition:2||CHEMISTRY:2||DEFORMATION:2||SUBSTRATE:2||HETEROEPITAXY:2||NANOTOPOGRAPHY:2||EPITAXIALGROWTH:2||Xray:2||CHEMICAL VAPORDEPOSITION:2||SILICON STRUCTURES:2||STEMCELLS:2||CHANNEL:2||crystal structure:2||CORONARYANGIOGRAPHY:2||SiC:2||BUFFER LAYER:2||MOLECULARBEAM EPITAXY:2||INTERFACE:2||SIZE:2||ELECTRON:2||XRAY MICROSCOPY:2||MORPHOLOGIES:2||NANOCOLLOIDS:2||FORCE MICROSCOPY:2||ablation:2||polymers:2||(NH4)(2)Sx treatment:2||CLUSTERS:2||BIOMATERIALS:2||CIRCUITS:2||rectangular ring mode:2||GUIDES:2||MICROCAVITY:2||PHOTOLUMINESCENCE:2||epitaxial growth:2||EMBRITTLEMENT:2||Xray imaging:2||BIOCOMPATIBILITY:2||BEHAVIOR:2||MICROWAVEPLASMA:2||LOWPRESSURE:2||DEGRADATION:2||TISSUE:2||LIQUID:2||SOFT LITHOGRAPHY:2||amplified spontaneous emission (ASE):2||SMALL ORGANICMOLECULES:2||PHOTONIC CRYSTAL:2||micropipes:2||radiology:2||ALLOY:2||Xray scattering:2||CRITICALCURRENT DENSITY:2||ELECTRONMICROSCOPY:2||BI(PB)SRCACUO:2||ELECTRONICSTRUCTURE:2||RECONSTRUCTION:2||MG:2||ohmic contact:2||Pd ohmic contact:2||xray scattering:2||INP:2||annealing:2||REGENERATION:2||TITANIUM:2||COLLOIDAL GOLD:2||crystallization:2||BUCKLING MECHANICS:2||LASERS:2||MODES:2||synchrotron imaging:2||lattice distortion:2||AQUEOUSELECTROLYTE:2||MOLECULARDYNAMICS:2||OXIDE:2||MICROANGIOGRAPHY:2||OXIDATION:2||MICRORADIOLOGY:2||TECHNOLOGY:2||GE:2||surface chemistry:2||RECOVERY:2||OHMIC CONTACTS:2||LASERDIODES:2||PTYPE GAN:2||MOTION:2||PHANTOM:2||PHASE:2||CALCIUMPHOSPHATE CERAMICS:2||REPAIR:2||porphyrin:2||AMPLIFIED SPONTANEOUS EMISSION:2||METALELECTRODES:2||PD:2||SUPERCONDUCTING TAPES:2||nucleation:2||COATINGS:2||Xray topography:2||MONOLAYERS:2||SURFACE MODIFICATION:2||LITHOGRAPHY:2||MECHANICAL VENTILATION:1||MICRORIBBONS:1||STIFFNESS:1||DUALPHASE STEEL:1||growth mode:1||strain evolution:1||SI(100):1||ANISOTROPY:1||WET GRANULAR PILE:1||COALESCENCE:1||INSITU POLYMERIZATION:1||GRAPHENE:1||CANCER:1||NODULES:1||RABBITS:1||phasecontrast:1||YTTRIUMOXIDE FILMS:1||BaTiO3/SrTiO3:1||dental implant:1||coincidence site density:1||ERNI2B2C:1||crystallites:1||CoCrPt films:1||tensile strain:1||gallide:1||MGO:1||Baferrite film:1||synchrotron xray scattering:1||ZNO THINFILMS:1||MORPHOLOGY:1||PHASES:1||MICE:1||EBEAM LITHOGRAPHY:1||electrorheological fluids:1||NANOFIBROUS MEMBRANES:1||NANOLITHOGRAPHY:1||refractive index radiology:1||BLOOD:1||colloidal:1||SIZE CONTROL:1||nanoradiology:1||ZnSO4:1||lung injury:1||METAL:1||PM10:1||textured grain:1||MICROSTRUCTURE:1||DIMENSIONS:1||highresolution Xray diffraction:1||low temperature buffer:1||Zinc compounds:1||SI:1||HUMAN LONGEVITY:1||Maximum human lifespan:1||LIMITS:1||MOSFETS:1||in situ XANES:1||nanowires:1||PHOTOIRRADIATION:1||FIBERS:1||WORK:1||EMISSION:1||RADIATION MICROTOMOGRAPHY:1||RAMANSCATTERING:1||gold nanoparticles:1||synchrotron Xray diffraction:1||OPTICAL WAVEGUIDES:1||CONDUCTINGPOLYMER NANOWIRE:1||Lung cancer:1||INTRAVENOUS CORONARYARTERIOGRAPHY:1||SUBLIMATION GROWTH:1||radiography:1||porous SiC:1||GIANT MAGNETORESISTANCE:1||SEMICONDUCTORS:1||Ga diffusion:1||electroless deposition:1||HEMATITE:1||FREEELECTRON LASER:1||MOCVD:1||interfaces:1||white beam:1||imaging technique:1||nucleation layer:1||interface structure:1||epitaxial Baferrite film:1||rf magnetron sputtering:1||MAGNETIC CHARACTERISTICS:1||MIXTURE:1||ACCESS MEMORY APPLICATION:1||COHERENCY STRAIN:1||DENSITY:1||nanofabrication:1||POLY(METHYL METHACRYLATE) MICROSPHERE:1||RESIST:1||unmonochromatic beam:1||MICRORADIOGRAPHY:1||INTERFEROMETER:1||EXPOSURE:1||volume variation electronic:1||PULSEDLASER ABLATION:1||Semiconducting IIVI materials:1||Light emitting diodes:1||phase contrast microscopies:1||lung:1||AUGERELECTRON SPECTROSCOPY:1||passivation:1||additive manufacturing:1||Silicon carbide:1||Synchrotron radiation:1||Synchrotron radiation imaging:1||Dislocations (crystals):1||LUNG INJURY:1||POLYMER SURFACES:1||SINGLE CELLS:1||PREFERRED ORIENTATION:1||sapphire orientation:1||TANTALUM:1||BIASENHANCED NUCLEATION:1||hexaferrite:1||stretched exponential:1||SOLIDSURFACE:1||SHEAR:1||VIDEO MICROSCOPY:1||CARBON NANOTUBES:1||realtime observation:1||Xray synchrotron:1||CARBONMONOXIDE:1||ELECTROCHEMICAL FABRICATION:1||crystal growth:1||computer simulation:1||FERROELECTRICFILMS:1||TITANIUM IMPLANTS:1||BONE INTERFACE:1||EXAFS perpendicular magnetic recording:1||Pd/Ni:1||ELECTRODES:1||internal organ:1||LIGHTEMITTINGDIODES:1||interfacial structure:1||CONSTANT:1||DIELECTRICPROPERTIES:1||AR:1||DEVICES:1||BiSrCaCuO:1||LASER ABLATION:1||MECHANISM:1||SELECTIVE DEPOSITION:1||TARGETED DRUGDELIVERY:1||PEG:1||carbon nanotubes:1||nanocharacterization:1||WALLED CARBON NANOTUBE:1||basal cell carcinoma:1||PARTICULATE AIRPOLLUTION:1||FINE:1||CITIES:1||DOPED ZNO FILMS:1||atherosclerosis:1||drug delivery:1||hard Xray:1||COMBUSTION:1||ARTIFICIAL BATIO3/SRTIO3 SUPERLATTICES:1||surface morphology:1||Direct wafer bonding:1||COLLOIDAL GOLD PARTICLES:1||DELINEATION:1||EXPECTANCY:1||DEMOGRAPHY:1||MRI:1||SIGE:1||Phase contrast microradiography:1||INJURY:1||PASSIVITY:1||VOLUME:1||CONTACTANGLE:1||ARRAYS:1||DUCTILITY:1||sputtering:1||computed microtomography (mu CT):1||unmonochromatized Xray:1||BIPOLARTRANSISTORS:1||longevity:1||Confocal microscopy:1||Colloidal wettability:1||ATOMICFORCE MICROSCOPY:1||storage ring:1||digital subtraction:1||SCATTERING:1||size effect:1||SYNTHETIC QUARTZ:1||liquid metal embrittlement:1||iron ore:1||cube textured Ni substrates:1||SrRuO3 films:1||laser ablations:1||Ti underlayer:1||RANDOMACCESS MEMORIES:1||DOMAIN CONFIGURATIONS:1||MGO(100):1||SPECTROSCOPY:1||XE:1||IONBEAM:1||GRAINBOUNDARY MIGRATION:1||SRTIO3:1||COMPOSITES:1||FOAMS:1||BREASTCANCER SPECIMENS:1||unmonochromatized:1||Xray induced nucleation:1||gold:1||ABSORPTION:1||SEPARATION:1||CZOCHRALSKI GROWTH:1||RETRIEVAL:1||GAMMARADIATION:1||AQUEOUSSOLUTION:1||NANOCOMPOSITES:1||INCREASE:1||without staining procedure:1||XPS:1||Imaging techniques:1||Interfaces (materials):1||Dislocation distributions:1||AZOBENZENE:1||STRUCTURAL EVOLUTION:1||RELAXATION:1||DROP IMPACT:1||NONLINEAR DYNAMICS:1||DISLOCATIONS:1||Colloids:1||TRANSFORMATION:1||METAL INTERCONNECTS:1||ELASTIC CONDUCTORS:1||LOGIC:1||DEFICIENT MICE:1||tomography:1||FACILITY:1||osseointegration:1||ROCKS:1||dental radiography:1||Zn coating:1||RE2O3/Ni:1||YBCO COATED CONDUCTORS:1||threedimensional islands:1||(Ba,Sr)TiO3:1||ultrahigh resolution:1||photoelectron emission:1||Pd:1||LANIO3:1||BASE ELECTRODES:1||iron oxide phase:1||ironoxide interlayer:1||COATED GLASS SUBSTRATE:1||MICROWAVE PLASMA NUCLEATION:1||ENHANCED NUCLEATION:1||phase transformation:1||ADSORPTION:1||phasecontrast xray imaging:1||lung inflammation:1||SI1XGEX SINGLECRYSTALS:1||COCONTINUITY:1||SCALE:1||OBJECT:1||synchrotron microradiography:1||FeSO4:1||INDUCTION:1||BaTiO3 and SrTiO3 thin films:1||HARDXRAYS:1||light emitting diodes:1||ACID:1||MICROSTRUCTURES:1||PHOTOLUMINESCENCE PROPERTIES:1||LASER IRRADIATION:1||Human aging:1||polychromatic synchrotron Xray:1||refraction enhanced imaging:1||CHROMOPHORES:1||ACUTE LUNG INJURY:1||spatial resolution:1||BETAFESI2:1||VLSI:1||SI1XGEX:1||COLLOIDAL SUSPENSIONS:1||ELECTRONICS:1||ENHANCEMENT:1||artificial lattice:1||sinters:1||SILVER:1||STRAIN RELAXATION:1||biaxial texture:1||synchrotron scattering:1||transmission electron microscopy:1||IRONOXIDE FILMS:1||PZT thin film:1||ferroelectric thin film:1||MISFIT RELAXATION MECHANISMS:1||PBTIO3:1||O2:1||CONDUCTING POLYMERS:1||poly(methylmethancrylate):1||microspheres:1||phase contrast Xray microscope:1||AMBIENT AIR:1||ATMOSPHERE:1||XRAY INTERFEROMETER:1||NiAu composite nanoparticles.:1||synchrotron radiation Xrays:1||microtomography:1||OIL FLYASH:1||zinc oxide:1||mammography:1||SrRuO3 film:1||Laser epitaxy:1||HOLE MOBILITY:1||Models of crystal defects:1||RABBIT LUNGS:1||NI/AU CONTACT:1||3D printing:1||Stress relaxation:1||SURFACEAREA:1||IMAGE:1||modulation transfer function (MTF):1||Pb ions:1||Insitu visualization:1||Interfacial tension:1||DISPERSION FORCES:1||SINGLECRYSTALS:1||XRAY SOURCE:1||Synchrotron Xray imaging:1||Realtime imaging:1||MEDICAL APPLICATIONS:1||wiggler bending magnet:1||undulator:1||diffractionenhanced imaging:1||ZnO film:1||CAPACITORS:1||HE3:1||NiP alloy:1||PHOTOCHEMICAL FORMATION:1||extended domain matching:1||cubetextured Ni substrates:1||RAY COMPUTEDTOMOGRAPHY:1||electrode layer:1||DOMAINSTRUCTURE:1||XRAY CT:1||SPECIMEN:1||mammographic phantom:1||Xray absorption spectroscopy:1||BLUE:1||CONTACT:1||(BA:1||synchrotron spectromicroscopy:1||thin film:1||MICROWAVE PLASMA:1||GOLD NANOPARTICLES:1||POLYMERIZATION:1||DISEASE:1||Shanghai:1||MORTALITY:1||HETEROSTRUCTURES:1||METHACRYLATE:1||prostate cancer:1||renal cell carcinoma:1||RATS:1||PULSEDLASER DEPOSITION:1||semiconducting IIVI materials:1||PATTERNS:1||sapphire:1||evaporation:1||ZINCOXIDE:1||LIGHTEMITTING DIODE:1||Synchrotron imaging:1||Dislocations:1||Cracks:1||LIVE:1||spinal cord:1||stainless steel:1||nanophotonics:1||subwavelength waveguides:1||Synchrotrons:1||High dislocation density:1||Misfit stress relaxations:1||Randomly distributed:1||Tripleaxis xray diffractions:1||FLOW:1||CRYSTALLINE ORGANIC NANORODS:1||SHAPE CHANGES:1||ZnO thin film:1||(111)SI:1||XRAY MIRRORS:1||low temperature:1||oxide cathodes:1||heterogeneity:1||Xray microscopy:1||INTERFACIAL TENSIONS:1||single crystal growth:1||CARCINOMA:1||mouse:1||ANIMALS:1||Mndoped ZnO:1||luminescence:1||solution precipitation:1||CLUSTER:1||relaxation:1||ALPHAFE2O3:1||XANES:1||epitaxy:1||LaNiO3 thin film:1||LANIO3 THINFILMS:1||ELECTRODE:1||Fe3O4 sublayer:1||EXAFS microscopy:1||FERRITE FILMS:1||SURFACE PRETREATMENTS:1||superconductors:1||CONTRAST AGENT:1||BIODISTRIBUTION:1||DEATH:1||SYNCHROTRON:1||IR:1||apo Eknockout 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GaN:4||MICROSCOPY:4||REDUCTION:4||POLYMER:4||DEFECTS:3||COHERENCE:3||MICROTOMOGRAPHY:3||NANOPARTICLES:3||synchrotron:3||LIGHT:3||TRANSISTORS:3||SURFACES:3||STRAIN:3||EPITAXIAL LAYERS:3||DRUGDELIVERY:3||REFRACTION:3||growth mechanism:3||METALS:3||MICROPIPES:3||SYSTEM:3||NUCLEATION:3||synchrotron Xray scattering:3||SURFACE:3||SCREW DISLOCATIONS:3||SIMULATION:3||HARD XRAYS:3||ELECTRICALPROPERTIES:3||EPITAXY:3||GAN:3||PM2.5:3||EVAPORATION:3||LIQUIDS:3||INPLANE:3||RAT:3||ANGIOGENESIS:3||CT:3||GaN:3||ZnO:3||NANORODS:3||strain:3||PB(ZR0.53TI0.47)O3:3||CRYSTALLIZATION:3||synchrotron Xrays:2||buffer layer:2||TRANSMISSION ELECTRONMICROSCOPY:2||EPITAXIAL COSI2 FILMS:2||MECHANISMS:2||INSITU GROWTH:2||DEVICE:2||LOCALIZED ELECTROCHEMICAL DEPOSITION:2||X ray diffraction:2||SCHOTTKY CONTACT:2||IRRADIATION:2||aqua regia treatment:2||INVIVO:2||CELLADHESION:2||MORPHOGENETIC PROTEIN2:2||RECEPTOR:2||TEM:2||broadband synchrotron light:2||nanoparticle:2||BUFFER LAYERS:2||TC:2||ENHANCED SYNCHROTRON RADIOLOGY:2||synthesis:2||POLYDIMETHYLSILOXANE:2||MICROCHANNELS:2||PRETREATMENT PROCESS:2||XRAY:2||CHEMOTAXIS:2||MECHANOSENSORY TRANSDUCTION:2||rectangular microtube:2||CONJUGATED POLYMER:2||atomic force microscopy:2||METALLIC OXIDE SRRUO3:2||LASERABLATION:2||STRESS:2||ZONE PLATES:2||FRICTION:2||THERMALSTABILITY:2||Xrays:2||RAY:2||NM:2||ENERGY:2||TOPOGRAPHY:2||synchrotron Xray:2||ACID HYDROGELS:2||CAENORHABDITISELEGANS:2||PROTEIN:2||defects:2||EVOLUTION:2||FABRICATION:2||sharp bending waveguide:2||lasing action:2||BULK CRYSTALS:2||SUPERLATTICES:2||COATED CONDUCTORS:2||SI(111):2||phase contrast:2||CORONARY ANGIOGRAPHY:2||SPECTROMICROSCOPY:2||MEPHISTO:2||OXYGEN:2||OPTICALPROPERTIES:2||RADIOGRAPHY:2||CONTACT DEFORMATIONS:2||MOLECULAR FORCES:2||SOLIDS:2||NTYPE GAN:2||deposition:2||CHEMISTRY:2||DEFORMATION:2||SUBSTRATE:2||HETEROEPITAXY:2||NANOTOPOGRAPHY:2||EPITAXIALGROWTH:2||Xray:2||CHEMICAL VAPORDEPOSITION:2||SILICON STRUCTURES:2||STEMCELLS:2||CHANNEL:2||crystal structure:2||CORONARYANGIOGRAPHY:2||SiC:2||BUFFER LAYER:2||MOLECULARBEAM EPITAXY:2||INTERFACE:2||SIZE:2||ELECTRON:2||XRAY MICROSCOPY:2||MORPHOLOGIES:2||NANOCOLLOIDS:2||FORCE MICROSCOPY:2||ablation:2||polymers:2||(NH4)(2)Sx treatment:2||CLUSTERS:2||BIOMATERIALS:2||CIRCUITS:2||rectangular ring mode:2||GUIDES:2||MICROCAVITY:2||PHOTOLUMINESCENCE:2||epitaxial growth:2||EMBRITTLEMENT:2||Xray imaging:2||BIOCOMPATIBILITY:2||BEHAVIOR:2||MICROWAVEPLASMA:2||LOWPRESSURE:2||DEGRADATION:2||TISSUE:2||LIQUID:2||SOFT LITHOGRAPHY:2||amplified spontaneous emission (ASE):2||SMALL ORGANICMOLECULES:2||PHOTONIC CRYSTAL:2||micropipes:2||radiology:2||ALLOY:2||Xray scattering:2||CRITICALCURRENT DENSITY:2||ELECTRONMICROSCOPY:2||BI(PB)SRCACUO:2||ELECTRONICSTRUCTURE:2||RECONSTRUCTION:2||MG:2||ohmic contact:2||Pd ohmic contact:2||xray scattering:2||INP:2||annealing:2||REGENERATION:2||TITANIUM:2||COLLOIDAL GOLD:2||crystallization:2||BUCKLING MECHANICS:2||LASERS:2||MODES:2||synchrotron imaging:2||lattice distortion:2||AQUEOUSELECTROLYTE:2||MOLECULARDYNAMICS:2||OXIDE:2||MICROANGIOGRAPHY:2||OXIDATION:2||MICRORADIOLOGY:2||TECHNOLOGY:2||GE:2||surface chemistry:2||RECOVERY:2||OHMIC CONTACTS:2||LASERDIODES:2||PTYPE GAN:2||MOTION:2||PHANTOM:2||PHASE:2||CALCIUMPHOSPHATE CERAMICS:2||REPAIR:2||porphyrin:2||AMPLIFIED SPONTANEOUS EMISSION:2||METALELECTRODES:2||PD:2||SUPERCONDUCTING TAPES:2||nucleation:2||COATINGS:2||Xray topography:2||MONOLAYERS:2||SURFACE MODIFICATION:2||LITHOGRAPHY:2||MECHANICAL VENTILATION:1||MICRORIBBONS:1||STIFFNESS:1||DUALPHASE STEEL:1||growth mode:1||strain evolution:1||SI(100):1||ANISOTROPY:1||WET GRANULAR PILE:1||COALESCENCE:1||INSITU POLYMERIZATION:1||GRAPHENE:1||CANCER:1||NODULES:1||RABBITS:1||phasecontrast:1||YTTRIUMOXIDE FILMS:1||BaTiO3/SrTiO3:1||dental implant:1||coincidence site density:1||ERNI2B2C:1||crystallites:1||CoCrPt films:1||tensile strain:1||gallide:1||MGO:1||Baferrite film:1||synchrotron xray scattering:1||ZNO THINFILMS:1||MORPHOLOGY:1||PHASES:1||MICE:1||EBEAM LITHOGRAPHY:1||electrorheological fluids:1||NANOFIBROUS MEMBRANES:1||NANOLITHOGRAPHY:1||refractive index radiology:1||BLOOD:1||colloidal:1||SIZE CONTROL:1||nanoradiology:1||ZnSO4:1||lung injury:1||METAL:1||PM10:1||textured grain:1||MICROSTRUCTURE:1||DIMENSIONS:1||highresolution Xray diffraction:1||low temperature buffer:1||Zinc compounds:1||SI:1||HUMAN LONGEVITY:1||Maximum human lifespan:1||LIMITS:1||MOSFETS:1||in situ XANES:1||nanowires:1||PHOTOIRRADIATION:1||FIBERS:1||WORK:1||EMISSION:1||RADIATION MICROTOMOGRAPHY:1||RAMANSCATTERING:1||gold nanoparticles:1||synchrotron Xray diffraction:1||OPTICAL WAVEGUIDES:1||CONDUCTINGPOLYMER NANOWIRE:1||Lung cancer:1||INTRAVENOUS CORONARYARTERIOGRAPHY:1||SUBLIMATION GROWTH:1||radiography:1||porous SiC:1||GIANT MAGNETORESISTANCE:1||SEMICONDUCTORS:1||Ga diffusion:1||electroless deposition:1||HEMATITE:1||FREEELECTRON LASER:1||MOCVD:1||interfaces:1||white beam:1||imaging technique:1||nucleation 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Xray:1||BIPOLARTRANSISTORS:1||longevity:1||Confocal microscopy:1||Colloidal wettability:1||ATOMICFORCE MICROSCOPY:1||storage ring:1||digital subtraction:1||SCATTERING:1||size effect:1||SYNTHETIC QUARTZ:1||liquid metal embrittlement:1||iron ore:1||cube textured Ni substrates:1||SrRuO3 films:1||laser ablations:1||Ti underlayer:1||RANDOMACCESS MEMORIES:1||DOMAIN CONFIGURATIONS:1||MGO(100):1||SPECTROSCOPY:1||XE:1||IONBEAM:1||GRAINBOUNDARY MIGRATION:1||SRTIO3:1||COMPOSITES:1||FOAMS:1||BREASTCANCER SPECIMENS:1||unmonochromatized:1||Xray induced nucleation:1||gold:1||ABSORPTION:1||SEPARATION:1||CZOCHRALSKI GROWTH:1||RETRIEVAL:1||GAMMARADIATION:1||AQUEOUSSOLUTION:1||NANOCOMPOSITES:1||INCREASE:1||without staining procedure:1||XPS:1||Imaging techniques:1||Interfaces (materials):1||Dislocation distributions:1||AZOBENZENE:1||STRUCTURAL EVOLUTION:1||RELAXATION:1||DROP IMPACT:1||NONLINEAR DYNAMICS:1||DISLOCATIONS:1||Colloids:1||TRANSFORMATION:1||METAL INTERCONNECTS:1||ELASTIC CONDUCTORS:1||LOGIC:1||DEFICIENT MICE:1||tomography:1||FACILITY:1||osseointegration:1||ROCKS:1||dental radiography:1||Zn coating:1||RE2O3/Ni:1||YBCO COATED CONDUCTORS:1||threedimensional islands:1||(Ba,Sr)TiO3:1||ultrahigh resolution:1||photoelectron emission:1||Pd:1||LANIO3:1||BASE ELECTRODES:1||iron oxide phase:1||ironoxide interlayer:1||COATED GLASS SUBSTRATE:1||MICROWAVE PLASMA NUCLEATION:1||ENHANCED NUCLEATION:1||phase transformation:1||ADSORPTION:1||phasecontrast xray imaging:1||lung inflammation:1||SI1XGEX SINGLECRYSTALS:1||COCONTINUITY:1||SCALE:1||OBJECT:1||synchrotron microradiography:1||FeSO4:1||INDUCTION:1||BaTiO3 and SrTiO3 thin films:1||HARDXRAYS:1||light emitting diodes:1||ACID:1||MICROSTRUCTURES:1||PHOTOLUMINESCENCE PROPERTIES:1||LASER IRRADIATION:1||Human aging:1||polychromatic synchrotron Xray:1||refraction enhanced imaging:1||CHROMOPHORES:1||ACUTE LUNG INJURY:1||spatial resolution:1||BETAFESI2:1||VLSI:1||SI1XGEX:1||COLLOIDAL SUSPENSIONS:1||ELECTRONICS:1||ENHANCEMENT:1||artificial lattice:1||sinters:1||SILVER:1||STRAIN RELAXATION:1||biaxial texture:1||synchrotron scattering:1||transmission electron microscopy:1||IRONOXIDE FILMS:1||PZT thin film:1||ferroelectric thin film:1||MISFIT RELAXATION MECHANISMS:1||PBTIO3:1||O2:1||CONDUCTING POLYMERS:1||poly(methylmethancrylate):1||microspheres:1||phase contrast Xray microscope:1||AMBIENT AIR:1||ATMOSPHERE:1||XRAY INTERFEROMETER:1||NiAu composite nanoparticles.:1||synchrotron radiation Xrays:1||microtomography:1||OIL FLYASH:1||zinc oxide:1||mammography:1||SrRuO3 film:1||Laser epitaxy:1||HOLE MOBILITY:1||Models of crystal defects:1||RABBIT LUNGS:1||NI/AU CONTACT:1||3D printing:1||Stress relaxation:1||SURFACEAREA:1||IMAGE:1||modulation transfer function (MTF):1||Pb ions:1||Insitu visualization:1||Interfacial tension:1||DISPERSION FORCES:1||SINGLECRYSTALS:1||XRAY SOURCE:1||Synchrotron Xray imaging:1||Realtime imaging:1||MEDICAL APPLICATIONS:1||wiggler bending magnet:1||undulator:1||diffractionenhanced imaging:1||ZnO film:1||CAPACITORS:1||HE3:1||NiP alloy:1||PHOTOCHEMICAL FORMATION:1||extended domain matching:1||cubetextured Ni substrates:1||RAY COMPUTEDTOMOGRAPHY:1||electrode layer:1||DOMAINSTRUCTURE:1||XRAY CT:1||SPECIMEN:1||mammographic phantom:1||Xray absorption spectroscopy:1||BLUE:1||CONTACT:1||(BA:1||synchrotron spectromicroscopy:1||thin film:1||MICROWAVE PLASMA:1||GOLD NANOPARTICLES:1||POLYMERIZATION:1||DISEASE:1||Shanghai:1||MORTALITY:1||HETEROSTRUCTURES:1||METHACRYLATE:1||prostate cancer:1||renal cell carcinoma:1||RATS:1||PULSEDLASER DEPOSITION:1||semiconducting IIVI materials:1||PATTERNS:1||sapphire:1||evaporation:1||ZINCOXIDE:1||LIGHTEMITTING DIODE:1||Synchrotron imaging:1||Dislocations:1||Cracks:1||LIVE:1||spinal cord:1||stainless steel:1||nanophotonics:1||subwavelength waveguides:1||Synchrotrons:1||High dislocation density:1||Misfit stress relaxations:1||Randomly distributed:1||Tripleaxis xray diffractions:1||FLOW:1||CRYSTALLINE ORGANIC NANORODS:1||SHAPE CHANGES:1||ZnO thin film:1||(111)SI:1||XRAY MIRRORS:1||low temperature:1||oxide cathodes:1||heterogeneity:1||Xray microscopy:1||INTERFACIAL TENSIONS:1||single crystal growth:1||CARCINOMA:1||mouse:1||ANIMALS:1||Mndoped ZnO:1||luminescence:1||solution precipitation:1||CLUSTER:1||relaxation:1||ALPHAFE2O3:1||XANES:1||epitaxy:1||LaNiO3 thin film:1||LANIO3 THINFILMS:1||ELECTRODE:1||Fe3O4 sublayer:1||EXAFS microscopy:1||FERRITE FILMS:1||SURFACE PRETREATMENTS:1||superconductors:1||CONTRAST AGENT:1||BIODISTRIBUTION:1||DEATH:1||SYNCHROTRON:1||IR:1||apo Eknockout mouse:1||plaque:1||microradiology:1||ALPHASYNUCLEIN:1||PULMONARY TOXICITY:1||XRAY TOPOGRAPHY:1||dislocation:1||metalorganic chemical vapor deposition:1||CRYSTALGROWTH:1||SELFASSEMBLED MONOLAYERS:1||MEMBRANES:1||MAGNETICANISOTROPY:1||SI1XGEX CRYSTALS:1||STRAINEDSI:1||Extended Weibull model:1||MOLYBDENUM:1||ALLOYS:1||IRON:1||Theoretical modeling:1||Threading dislocation:1||GROWTH:27||THINFILMS:16||SYNCHROTRONRADIATION:15||CONTRAST:11||RADIOLOGY:11||PARTICLES:11||FILMS:11||SILICON:10||RADIATION:10||DEPOSITION:10||RESOLUTION:9||CRYSTALS:8||SILICONCARBIDE:7||XRAYS:7||MAMMOGRAPHY:7||Xray diffraction:7||synchrotron radiation:6||XRAYSCATTERING:6||MODEL:6||microstructure:6||DYNAMICS:5||ELECTRODEPOSITION:5||LAYERS:5||CHEMICALVAPORDEPOSITION:5||TEMPERATURE:5||TOMOGRAPHY:5||COMPUTEDTOMOGRAPHY:5||SAPPHIRE:5||MEDIA:5||NANOWIRES:5||DIFFRACTION:4||TISSUES:4||pulsed laser deposition:4||phase contrast imaging:4||LAYER:4||IMAGES:4||DIODES:4||FIELDEFFECT TRANSISTORS:4||ptype GaN:4||MICROSCOPY:4||REDUCTION:4||POLYMER:4||DEFECTS:3||COHERENCE:3||MICROTOMOGRAPHY:3||NANOPARTICLES:3||synchrotron:3||LIGHT:3||TRANSISTORS:3||SURFACES:3||STRAIN:3||EPITAXIAL LAYERS:3||DRUGDELIVERY:3||REFRACTION:3||growth mechanism:3||METALS:3||MICROPIPES:3||SYSTEM:3||NUCLEATION:3||synchrotron Xray scattering:3||SURFACE:3||SCREW DISLOCATIONS:3||SIMULATION:3||HARD XRAYS:3||ELECTRICALPROPERTIES:3||EPITAXY:3||GAN:3||PM2.5:3||EVAPORATION:3||LIQUIDS:3||INPLANE:3||RAT:3||ANGIOGENESIS:3||CT:3||GaN:3||ZnO:3||NANORODS:3||strain:3||PB(ZR0.53TI0.47)O3:3||CRYSTALLIZATION:3||synchrotron Xrays:2||buffer layer:2||TRANSMISSION ELECTRONMICROSCOPY:2||EPITAXIAL COSI2 FILMS:2||MECHANISMS:2||INSITU GROWTH:2||DEVICE:2||LOCALIZED ELECTROCHEMICAL DEPOSITION:2||X ray diffraction:2||SCHOTTKY CONTACT:2||IRRADIATION:2||aqua regia treatment:2||INVIVO:2||CELLADHESION:2||MORPHOGENETIC PROTEIN2:2||RECEPTOR:2||TEM:2||broadband synchrotron light:2||nanoparticle:2||BUFFER LAYERS:2||TC:2||ENHANCED SYNCHROTRON RADIOLOGY:2||synthesis:2||POLYDIMETHYLSILOXANE:2||MICROCHANNELS:2||PRETREATMENT PROCESS:2||XRAY:2||CHEMOTAXIS:2||MECHANOSENSORY TRANSDUCTION:2||rectangular microtube:2||CONJUGATED POLYMER:2||atomic force microscopy:2||METALLIC OXIDE SRRUO3:2||LASERABLATION:2||STRESS:2||ZONE PLATES:2||FRICTION:2||THERMALSTABILITY:2||Xrays:2||RAY:2||NM:2||ENERGY:2||TOPOGRAPHY:2||synchrotron Xray:2||ACID HYDROGELS:2||CAENORHABDITISELEGANS:2||PROTEIN:2||defects:2||EVOLUTION:2||FABRICATION:2||sharp bending waveguide:2||lasing action:2||BULK CRYSTALS:2||SUPERLATTICES:2||COATED CONDUCTORS:2||SI(111):2||phase contrast:2||CORONARY ANGIOGRAPHY:2||SPECTROMICROSCOPY:2||MEPHISTO:2||OXYGEN:2||OPTICALPROPERTIES:2||RADIOGRAPHY:2||CONTACT DEFORMATIONS:2||MOLECULAR FORCES:2||SOLIDS:2||NTYPE GAN:2||deposition:2||CHEMISTRY:2||DEFORMATION:2||SUBSTRATE:2||HETEROEPITAXY:2||NANOTOPOGRAPHY:2||EPITAXIALGROWTH:2||Xray:2||CHEMICAL VAPORDEPOSITION:2||SILICON STRUCTURES:2||STEMCELLS:2||CHANNEL:2||crystal structure:2||CORONARYANGIOGRAPHY:2||SiC:2||BUFFER LAYER:2||MOLECULARBEAM EPITAXY:2||INTERFACE:2||SIZE:2||ELECTRON:2||XRAY MICROSCOPY:2||MORPHOLOGIES:2||NANOCOLLOIDS:2||FORCE MICROSCOPY:2||ablation:2||polymers:2||(NH4)(2)Sx treatment:2||CLUSTERS:2||BIOMATERIALS:2||CIRCUITS:2||rectangular ring mode:2||GUIDES:2||MICROCAVITY:2||PHOTOLUMINESCENCE:2||epitaxial growth:2||EMBRITTLEMENT:2||Xray imaging:2||BIOCOMPATIBILITY:2||BEHAVIOR:2||MICROWAVEPLASMA:2||LOWPRESSURE:2||DEGRADATION:2||TISSUE:2||LIQUID:2||SOFT LITHOGRAPHY:2||amplified spontaneous emission (ASE):2||SMALL ORGANICMOLECULES:2||PHOTONIC CRYSTAL:2||micropipes:2||radiology:2||ALLOY:2||Xray scattering:2||CRITICALCURRENT DENSITY:2||ELECTRONMICROSCOPY:2||BI(PB)SRCACUO:2||ELECTRONICSTRUCTURE:2||RECONSTRUCTION:2||MG:2||ohmic contact:2||Pd ohmic contact:2||xray scattering:2||INP:2||annealing:2||REGENERATION:2||TITANIUM:2||COLLOIDAL GOLD:2||crystallization:2||BUCKLING MECHANICS:2||LASERS:2||MODES:2||synchrotron imaging:2||lattice distortion:2||AQUEOUSELECTROLYTE:2||MOLECULARDYNAMICS:2||OXIDE:2||MICROANGIOGRAPHY:2||OXIDATION:2||MICRORADIOLOGY:2||TECHNOLOGY:2||GE:2||surface chemistry:2||RECOVERY:2||OHMIC CONTACTS:2||LASERDIODES:2||PTYPE GAN:2||MOTION:2||PHANTOM:2||PHASE:2||CALCIUMPHOSPHATE CERAMICS:2||REPAIR:2||porphyrin:2||AMPLIFIED SPONTANEOUS EMISSION:2||METALELECTRODES:2||PD:2||SUPERCONDUCTING TAPES:2||nucleation:2||COATINGS:2||Xray topography:2||MONOLAYERS:2||SURFACE MODIFICATION:2||LITHOGRAPHY:2||MECHANICAL VENTILATION:1||MICRORIBBONS:1||STIFFNESS:1||DUALPHASE STEEL:1||growth mode:1||strain evolution:1||SI(100):1||ANISOTROPY:1||WET GRANULAR PILE:1||COALESCENCE:1||INSITU POLYMERIZATION:1||GRAPHENE:1||CANCER:1||NODULES:1||RABBITS:1||phasecontrast:1||YTTRIUMOXIDE FILMS:1||BaTiO3/SrTiO3:1||dental implant:1||coincidence site density:1||ERNI2B2C:1||crystallites:1||CoCrPt films:1||tensile strain:1||gallide:1||MGO:1||Baferrite film:1||synchrotron xray scattering:1||ZNO THINFILMS:1||MORPHOLOGY:1||PHASES:1||MICE:1||EBEAM LITHOGRAPHY:1||electrorheological fluids:1||NANOFIBROUS MEMBRANES:1||NANOLITHOGRAPHY:1||refractive index radiology:1||BLOOD:1||colloidal:1||SIZE CONTROL:1||nanoradiology:1||ZnSO4:1||lung injury:1||METAL:1||PM10:1||textured grain:1||MICROSTRUCTURE:1||DIMENSIONS:1||highresolution Xray diffraction:1||low temperature buffer:1||Zinc compounds:1||SI:1||HUMAN LONGEVITY:1||Maximum human lifespan:1||LIMITS:1||MOSFETS:1||in situ XANES:1||nanowires:1||PHOTOIRRADIATION:1||FIBERS:1||WORK:1||EMISSION:1||RADIATION MICROTOMOGRAPHY:1||RAMANSCATTERING:1||gold nanoparticles:1||synchrotron Xray diffraction:1||OPTICAL WAVEGUIDES:1||CONDUCTINGPOLYMER NANOWIRE:1||Lung cancer:1||INTRAVENOUS CORONARYARTERIOGRAPHY:1||SUBLIMATION GROWTH:1||radiography:1||porous SiC:1||GIANT MAGNETORESISTANCE:1||SEMICONDUCTORS:1||Ga diffusion:1||electroless deposition:1||HEMATITE:1||FREEELECTRON LASER:1||MOCVD:1||interfaces:1||white beam:1||imaging technique:1||nucleation layer:1||interface structure:1||epitaxial Baferrite film:1||rf magnetron sputtering:1||MAGNETIC CHARACTERISTICS:1||MIXTURE:1||ACCESS MEMORY APPLICATION:1||COHERENCY STRAIN:1||DENSITY:1||nanofabrication:1||POLY(METHYL METHACRYLATE) MICROSPHERE:1||RESIST:1||unmonochromatic beam:1||MICRORADIOGRAPHY:1||INTERFEROMETER:1||EXPOSURE:1||volume variation electronic:1||PULSEDLASER ABLATION:1||Semiconducting IIVI materials:1||Light emitting diodes:1||phase contrast microscopies:1||lung:1||AUGERELECTRON SPECTROSCOPY:1||passivation:1||additive manufacturing:1||Silicon carbide:1||Synchrotron radiation:1||Synchrotron radiation imaging:1||Dislocations (crystals):1||LUNG INJURY:1||POLYMER SURFACES:1||SINGLE CELLS:1||PREFERRED ORIENTATION:1||sapphire orientation:1||TANTALUM:1||BIASENHANCED NUCLEATION:1||hexaferrite:1||stretched exponential:1||SOLIDSURFACE:1||SHEAR:1||VIDEO MICROSCOPY:1||CARBON NANOTUBES:1||realtime observation:1||Xray synchrotron:1||CARBONMONOXIDE:1||ELECTROCHEMICAL FABRICATION:1||crystal growth:1||computer simulation:1||FERROELECTRICFILMS:1||TITANIUM IMPLANTS:1||BONE INTERFACE:1||EXAFS perpendicular magnetic recording:1||Pd/Ni:1||ELECTRODES:1||internal organ:1||LIGHTEMITTINGDIODES:1||interfacial structure:1||CONSTANT:1||DIELECTRICPROPERTIES:1||AR:1||DEVICES:1||BiSrCaCuO:1||LASER ABLATION:1||MECHANISM:1||SELECTIVE DEPOSITION:1||TARGETED DRUGDELIVERY:1||PEG:1||carbon 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CONFIGURATIONS:1||MGO(100):1||SPECTROSCOPY:1||XE:1||IONBEAM:1||GRAINBOUNDARY MIGRATION:1||SRTIO3:1||COMPOSITES:1||FOAMS:1||BREASTCANCER SPECIMENS:1||unmonochromatized:1||Xray induced nucleation:1||gold:1||ABSORPTION:1||SEPARATION:1||CZOCHRALSKI GROWTH:1||RETRIEVAL:1||GAMMARADIATION:1||AQUEOUSSOLUTION:1||NANOCOMPOSITES:1||INCREASE:1||without staining procedure:1||XPS:1||Imaging techniques:1||Interfaces (materials):1||Dislocation distributions:1||AZOBENZENE:1||STRUCTURAL EVOLUTION:1||RELAXATION:1||DROP IMPACT:1||NONLINEAR DYNAMICS:1||DISLOCATIONS:1||Colloids:1||TRANSFORMATION:1||METAL INTERCONNECTS:1||ELASTIC CONDUCTORS:1||LOGIC:1||DEFICIENT MICE:1||tomography:1||FACILITY:1||osseointegration:1||ROCKS:1||dental radiography:1||Zn coating:1||RE2O3/Ni:1||YBCO COATED CONDUCTORS:1||threedimensional islands:1||(Ba,Sr)TiO3:1||ultrahigh resolution:1||photoelectron emission:1||Pd:1||LANIO3:1||BASE ELECTRODES:1||iron oxide phase:1||ironoxide interlayer:1||COATED GLASS SUBSTRATE:1||MICROWAVE PLASMA NUCLEATION:1||ENHANCED NUCLEATION:1||phase transformation:1||ADSORPTION:1||phasecontrast xray imaging:1||lung inflammation:1||SI1XGEX SINGLECRYSTALS:1||COCONTINUITY:1||SCALE:1||OBJECT:1||synchrotron microradiography:1||FeSO4:1||INDUCTION:1||BaTiO3 and SrTiO3 thin films:1||HARDXRAYS:1||light emitting diodes:1||ACID:1||MICROSTRUCTURES:1||PHOTOLUMINESCENCE PROPERTIES:1||LASER IRRADIATION:1||Human aging:1||polychromatic synchrotron Xray:1||refraction enhanced imaging:1||CHROMOPHORES:1||ACUTE LUNG INJURY:1||spatial resolution:1||BETAFESI2:1||VLSI:1||SI1XGEX:1||COLLOIDAL SUSPENSIONS:1||ELECTRONICS:1||ENHANCEMENT:1||artificial lattice:1||sinters:1||SILVER:1||STRAIN RELAXATION:1||biaxial texture:1||synchrotron scattering:1||transmission electron microscopy:1||IRONOXIDE FILMS:1||PZT thin film:1||ferroelectric thin film:1||MISFIT RELAXATION MECHANISMS:1||PBTIO3:1||O2:1||CONDUCTING POLYMERS:1||poly(methylmethancrylate):1||microspheres:1||phase contrast Xray microscope:1||AMBIENT AIR:1||ATMOSPHERE:1||XRAY INTERFEROMETER:1||NiAu composite nanoparticles.:1||synchrotron radiation Xrays:1||microtomography:1||OIL FLYASH:1||zinc oxide:1||mammography:1||SrRuO3 film:1||Laser epitaxy:1||HOLE MOBILITY:1||Models of crystal defects:1||RABBIT LUNGS:1||NI/AU CONTACT:1||3D printing:1||Stress relaxation:1||SURFACEAREA:1||IMAGE:1||modulation transfer function (MTF):1||Pb ions:1||Insitu visualization:1||Interfacial tension:1||DISPERSION FORCES:1||SINGLECRYSTALS:1||XRAY SOURCE:1||Synchrotron Xray imaging:1||Realtime imaging:1||MEDICAL APPLICATIONS:1||wiggler bending magnet:1||undulator:1||diffractionenhanced imaging:1||ZnO film:1||CAPACITORS:1||HE3:1||NiP alloy:1||PHOTOCHEMICAL FORMATION:1||extended domain matching:1||cubetextured Ni substrates:1||RAY COMPUTEDTOMOGRAPHY:1||electrode layer:1||DOMAINSTRUCTURE:1||XRAY CT:1||SPECIMEN:1||mammographic phantom:1||Xray absorption spectroscopy:1||BLUE:1||CONTACT:1||(BA:1||synchrotron spectromicroscopy:1||thin film:1||MICROWAVE PLASMA:1||GOLD NANOPARTICLES:1||POLYMERIZATION:1||DISEASE:1||Shanghai:1||MORTALITY:1||HETEROSTRUCTURES:1||METHACRYLATE:1||prostate cancer:1||renal cell carcinoma:1||RATS:1||PULSEDLASER DEPOSITION:1||semiconducting IIVI materials:1||PATTERNS:1||sapphire:1||evaporation:1||ZINCOXIDE:1||LIGHTEMITTING DIODE:1||Synchrotron imaging:1||Dislocations:1||Cracks:1||LIVE:1||spinal cord:1||stainless steel:1||nanophotonics:1||subwavelength waveguides:1||Synchrotrons:1||High dislocation density:1||Misfit stress relaxations:1||Randomly distributed:1||Tripleaxis xray diffractions:1||FLOW:1||CRYSTALLINE ORGANIC NANORODS:1||SHAPE CHANGES:1||ZnO thin film:1||(111)SI:1||XRAY MIRRORS:1||low temperature:1||oxide cathodes:1||heterogeneity:1||Xray microscopy:1||INTERFACIAL TENSIONS:1||single crystal growth:1||CARCINOMA:1||mouse:1||ANIMALS:1||Mndoped ZnO:1||luminescence:1||solution precipitation:1||CLUSTER:1||relaxation:1||ALPHAFE2O3:1||XANES:1||epitaxy:1||LaNiO3 thin film:1||LANIO3 THINFILMS:1||ELECTRODE:1||Fe3O4 sublayer:1||EXAFS microscopy:1||FERRITE FILMS:1||SURFACE PRETREATMENTS:1||superconductors:1||CONTRAST AGENT:1||BIODISTRIBUTION:1||DEATH:1||SYNCHROTRON:1||IR:1||apo Eknockout mouse:1||plaque:1||microradiology:1||ALPHASYNUCLEIN:1||PULMONARY TOXICITY:1||XRAY TOPOGRAPHY:1||dislocation:1||metalorganic chemical vapor deposition:1||CRYSTALGROWTH:1||SELFASSEMBLED MONOLAYERS:1||MEMBRANES:1||MAGNETICANISOTROPY:1||SI1XGEX CRYSTALS:1||STRAINEDSI:1||Extended Weibull model:1||MOLYBDENUM:1||ALLOYS:1||IRON:1||Theoretical modeling:1||Threading dislocation:1||GROWTH:27||THINFILMS:16||SYNCHROTRONRADIATION:15||CONTRAST:11||RADIOLOGY:11||PARTICLES:11||FILMS:11||SILICON:10||RADIATION:10||DEPOSITION:10||RESOLUTION:9||CRYSTALS:8||SILICONCARBIDE:7||XRAYS:7||MAMMOGRAPHY:7||Xray diffraction:7||synchrotron radiation:6||XRAYSCATTERING:6||MODEL:6||microstructure:6||DYNAMICS:5||ELECTRODEPOSITION:5||LAYERS:5||CHEMICALVAPORDEPOSITION:5||TEMPERATURE:5||TOMOGRAPHY:5||COMPUTEDTOMOGRAPHY:5||SAPPHIRE:5||MEDIA:5||NANOWIRES:5||DIFFRACTION:4||TISSUES:4||pulsed laser deposition:4||phase contrast imaging:4||LAYER:4||IMAGES:4||DIODES:4||FIELDEFFECT TRANSISTORS:4||ptype GaN:4||MICROSCOPY:4||REDUCTION:4||POLYMER:4||DEFECTS:3||COHERENCE:3||MICROTOMOGRAPHY:3||NANOPARTICLES:3||synchrotron:3||LIGHT:3||TRANSISTORS:3||SURFACES:3||STRAIN:3||EPITAXIAL LAYERS:3||DRUGDELIVERY:3||REFRACTION:3||growth mechanism:3||METALS:3||MICROPIPES:3||SYSTEM:3||NUCLEATION:3||synchrotron Xray scattering:3||SURFACE:3||SCREW DISLOCATIONS:3||SIMULATION:3||HARD XRAYS:3||ELECTRICALPROPERTIES:3||EPITAXY:3||GAN:3||PM2.5:3||EVAPORATION:3||LIQUIDS:3||INPLANE:3||RAT:3||ANGIOGENESIS:3||CT:3||GaN:3||ZnO:3||NANORODS:3||strain:3||PB(ZR0.53TI0.47)O3:3||CRYSTALLIZATION:3||synchrotron Xrays:2||buffer layer:2||TRANSMISSION ELECTRONMICROSCOPY:2||EPITAXIAL COSI2 FILMS:2||MECHANISMS:2||INSITU GROWTH:2||DEVICE:2||LOCALIZED ELECTROCHEMICAL DEPOSITION:2||X ray diffraction:2||SCHOTTKY CONTACT:2||IRRADIATION:2||aqua regia treatment:2||INVIVO:2||CELLADHESION:2||MORPHOGENETIC PROTEIN2:2||RECEPTOR:2||TEM:2||broadband synchrotron light:2||nanoparticle:2||BUFFER LAYERS:2||TC:2||ENHANCED SYNCHROTRON RADIOLOGY:2||synthesis:2||POLYDIMETHYLSILOXANE:2||MICROCHANNELS:2||PRETREATMENT PROCESS:2||XRAY:2||CHEMOTAXIS:2||MECHANOSENSORY TRANSDUCTION:2||rectangular microtube:2||CONJUGATED POLYMER:2||atomic force microscopy:2||METALLIC OXIDE SRRUO3:2||LASERABLATION:2||STRESS:2||ZONE PLATES:2||FRICTION:2||THERMALSTABILITY:2||Xrays:2||RAY:2||NM:2||ENERGY:2||TOPOGRAPHY:2||synchrotron Xray:2||ACID HYDROGELS:2||CAENORHABDITISELEGANS:2||PROTEIN:2||defects:2||EVOLUTION:2||FABRICATION:2||sharp bending waveguide:2||lasing action:2||BULK CRYSTALS:2||SUPERLATTICES:2||COATED CONDUCTORS:2||SI(111):2||phase contrast:2||CORONARY ANGIOGRAPHY:2||SPECTROMICROSCOPY:2||MEPHISTO:2||OXYGEN:2||OPTICALPROPERTIES:2||RADIOGRAPHY:2||CONTACT DEFORMATIONS:2||MOLECULAR FORCES:2||SOLIDS:2||NTYPE GAN:2||deposition:2||CHEMISTRY:2||DEFORMATION:2||SUBSTRATE:2||HETEROEPITAXY:2||NANOTOPOGRAPHY:2||EPITAXIALGROWTH:2||Xray:2||CHEMICAL VAPORDEPOSITION:2||SILICON STRUCTURES:2||STEMCELLS:2||CHANNEL:2||crystal structure:2||CORONARYANGIOGRAPHY:2||SiC:2||BUFFER LAYER:2||MOLECULARBEAM EPITAXY:2||INTERFACE:2||SIZE:2||ELECTRON:2||XRAY MICROSCOPY:2||MORPHOLOGIES:2||NANOCOLLOIDS:2||FORCE MICROSCOPY:2||ablation:2||polymers:2||(NH4)(2)Sx treatment:2||CLUSTERS:2||BIOMATERIALS:2||CIRCUITS:2||rectangular ring mode:2||GUIDES:2||MICROCAVITY:2||PHOTOLUMINESCENCE:2||epitaxial growth:2||EMBRITTLEMENT:2||Xray imaging:2||BIOCOMPATIBILITY:2||BEHAVIOR:2||MICROWAVEPLASMA:2||LOWPRESSURE:2||DEGRADATION:2||TISSUE:2||LIQUID:2||SOFT LITHOGRAPHY:2||amplified spontaneous emission (ASE):2||SMALL ORGANICMOLECULES:2||PHOTONIC CRYSTAL:2||micropipes:2||radiology:2||ALLOY:2||Xray scattering:2||CRITICALCURRENT DENSITY:2||ELECTRONMICROSCOPY:2||BI(PB)SRCACUO:2||ELECTRONICSTRUCTURE:2||RECONSTRUCTION:2||MG:2||ohmic contact:2||Pd ohmic contact:2||xray scattering:2||INP:2||annealing:2||REGENERATION:2||TITANIUM:2||COLLOIDAL GOLD:2||crystallization:2||BUCKLING MECHANICS:2||LASERS:2||MODES:2||synchrotron imaging:2||lattice distortion:2||AQUEOUSELECTROLYTE:2||MOLECULARDYNAMICS:2||OXIDE:2||MICROANGIOGRAPHY:2||OXIDATION:2||MICRORADIOLOGY:2||TECHNOLOGY:2||GE:2||surface chemistry:2||RECOVERY:2||OHMIC CONTACTS:2||LASERDIODES:2||PTYPE GAN:2||MOTION:2||PHANTOM:2||PHASE:2||CALCIUMPHOSPHATE CERAMICS:2||REPAIR:2||porphyrin:2||AMPLIFIED SPONTANEOUS EMISSION:2||METALELECTRODES:2||PD:2||SUPERCONDUCTING TAPES:2||nucleation:2||COATINGS:2||Xray topography:2||MONOLAYERS:2||SURFACE MODIFICATION:2||LITHOGRAPHY:2||MECHANICAL VENTILATION:1||MICRORIBBONS:1||STIFFNESS:1||DUALPHASE STEEL:1||growth mode:1||strain evolution:1||SI(100):1||ANISOTROPY:1||WET GRANULAR PILE:1||COALESCENCE:1||INSITU POLYMERIZATION:1||GRAPHENE:1||CANCER:1||NODULES:1||RABBITS:1||phasecontrast:1||YTTRIUMOXIDE FILMS:1||BaTiO3/SrTiO3:1||dental implant:1||coincidence site density:1||ERNI2B2C:1||crystallites:1||CoCrPt films:1||tensile strain:1||gallide:1||MGO:1||Baferrite film:1||synchrotron xray scattering:1||ZNO THINFILMS:1||MORPHOLOGY:1||PHASES:1||MICE:1||EBEAM LITHOGRAPHY:1||electrorheological fluids:1||NANOFIBROUS MEMBRANES:1||NANOLITHOGRAPHY:1||refractive index radiology:1||BLOOD:1||colloidal:1||SIZE CONTROL:1||nanoradiology:1||ZnSO4:1||lung injury:1||METAL:1||PM10:1||textured grain:1||MICROSTRUCTURE:1||DIMENSIONS:1||highresolution Xray diffraction:1||low temperature buffer:1||Zinc compounds:1||SI:1||HUMAN LONGEVITY:1||Maximum human lifespan:1||LIMITS:1||MOSFETS:1||in situ XANES:1||nanowires:1||PHOTOIRRADIATION:1||FIBERS:1||WORK:1||EMISSION:1||RADIATION MICROTOMOGRAPHY:1||RAMANSCATTERING:1||gold nanoparticles:1||synchrotron Xray diffraction:1||OPTICAL WAVEGUIDES:1||CONDUCTINGPOLYMER NANOWIRE:1||Lung cancer:1||INTRAVENOUS CORONARYARTERIOGRAPHY:1||SUBLIMATION GROWTH:1||radiography:1||porous SiC:1||GIANT MAGNETORESISTANCE:1||SEMICONDUCTORS:1||Ga diffusion:1||electroless deposition:1||HEMATITE:1||FREEELECTRON LASER:1||MOCVD:1||interfaces:1||white beam:1||imaging technique:1||nucleation layer:1||interface structure:1||epitaxial Baferrite film:1||rf magnetron sputtering:1||MAGNETIC CHARACTERISTICS:1||MIXTURE:1||ACCESS MEMORY APPLICATION:1||COHERENCY STRAIN:1||DENSITY:1||nanofabrication:1||POLY(METHYL METHACRYLATE) MICROSPHERE:1||RESIST:1||unmonochromatic beam:1||MICRORADIOGRAPHY:1||INTERFEROMETER:1||EXPOSURE:1||volume variation electronic:1||PULSEDLASER ABLATION:1||Semiconducting IIVI materials:1||Light emitting diodes:1||phase contrast microscopies:1||lung:1||AUGERELECTRON SPECTROSCOPY:1||passivation:1||additive manufacturing:1||Silicon carbide:1||Synchrotron radiation:1||Synchrotron radiation imaging:1||Dislocations (crystals):1||LUNG INJURY:1||POLYMER SURFACES:1||SINGLE CELLS:1||PREFERRED ORIENTATION:1||sapphire orientation:1||TANTALUM:1||BIASENHANCED NUCLEATION:1||hexaferrite:1||stretched exponential:1||SOLIDSURFACE:1||SHEAR:1||VIDEO MICROSCOPY:1||CARBON NANOTUBES:1||realtime observation:1||Xray synchrotron:1||CARBONMONOXIDE:1||ELECTROCHEMICAL FABRICATION:1||crystal growth:1||computer simulation:1||FERROELECTRICFILMS:1||TITANIUM IMPLANTS:1||BONE INTERFACE:1||EXAFS perpendicular magnetic recording:1||Pd/Ni:1||ELECTRODES:1||internal organ:1||LIGHTEMITTINGDIODES:1||interfacial structure:1||CONSTANT:1||DIELECTRICPROPERTIES:1||AR:1||DEVICES:1||BiSrCaCuO:1||LASER ABLATION:1||MECHANISM:1||SELECTIVE DEPOSITION:1||TARGETED DRUGDELIVERY:1||PEG:1||carbon nanotubes:1||nanocharacterization:1||WALLED CARBON NANOTUBE:1||basal cell carcinoma:1||PARTICULATE AIRPOLLUTION:1||FINE:1||CITIES:1||DOPED ZNO FILMS:1||atherosclerosis:1||drug delivery:1||hard Xray:1||COMBUSTION:1||ARTIFICIAL BATIO3/SRTIO3 SUPERLATTICES:1||surface morphology:1||Direct wafer bonding:1||COLLOIDAL GOLD PARTICLES:1||DELINEATION:1||EXPECTANCY:1||DEMOGRAPHY:1||MRI:1||SIGE:1||Phase contrast microradiography:1||INJURY:1||PASSIVITY:1||VOLUME:1||CONTACTANGLE:1||ARRAYS:1||DUCTILITY:1||sputtering:1||computed microtomography (mu CT):1||unmonochromatized Xray:1||BIPOLARTRANSISTORS:1||longevity:1||Confocal microscopy:1||Colloidal wettability:1||ATOMICFORCE MICROSCOPY:1||storage ring:1||digital subtraction:1||SCATTERING:1||size effect:1||SYNTHETIC QUARTZ:1||liquid metal embrittlement:1||iron ore:1||cube textured Ni substrates:1||SrRuO3 films:1||laser ablations:1||Ti underlayer:1||RANDOMACCESS MEMORIES:1||DOMAIN CONFIGURATIONS:1||MGO(100):1||SPECTROSCOPY:1||XE:1||IONBEAM:1||GRAINBOUNDARY MIGRATION:1||SRTIO3:1||COMPOSITES:1||FOAMS:1||BREASTCANCER SPECIMENS:1||unmonochromatized:1||Xray induced nucleation:1||gold:1||ABSORPTION:1||SEPARATION:1||CZOCHRALSKI GROWTH:1||RETRIEVAL:1||GAMMARADIATION:1||AQUEOUSSOLUTION:1||NANOCOMPOSITES:1||INCREASE:1||without staining procedure:1||XPS:1||Imaging techniques:1||Interfaces (materials):1||Dislocation distributions:1||AZOBENZENE:1||STRUCTURAL EVOLUTION:1||RELAXATION:1||DROP IMPACT:1||NONLINEAR DYNAMICS:1||DISLOCATIONS:1||Colloids:1||TRANSFORMATION:1||METAL INTERCONNECTS:1||ELASTIC CONDUCTORS:1||LOGIC:1||DEFICIENT MICE:1||tomography:1||FACILITY:1||osseointegration:1||ROCKS:1||dental radiography:1||Zn coating:1||RE2O3/Ni:1||YBCO COATED CONDUCTORS:1||threedimensional islands:1||(Ba,Sr)TiO3:1||ultrahigh resolution:1||photoelectron emission:1||Pd:1||LANIO3:1||BASE ELECTRODES:1||iron oxide phase:1||ironoxide interlayer:1||COATED GLASS SUBSTRATE:1||MICROWAVE PLASMA NUCLEATION:1||ENHANCED NUCLEATION:1||phase transformation:1||ADSORPTION:1||phasecontrast xray imaging:1||lung inflammation:1||SI1XGEX SINGLECRYSTALS:1||COCONTINUITY:1||SCALE:1||OBJECT:1||synchrotron microradiography:1||FeSO4:1||INDUCTION:1||BaTiO3 and SrTiO3 thin films:1||HARDXRAYS:1||light emitting diodes:1||ACID:1||MICROSTRUCTURES:1||PHOTOLUMINESCENCE PROPERTIES:1||LASER IRRADIATION:1||Human aging:1||polychromatic synchrotron Xray:1||refraction enhanced imaging:1||CHROMOPHORES:1||ACUTE LUNG INJURY:1||spatial resolution:1||BETAFESI2:1||VLSI:1||SI1XGEX:1||COLLOIDAL SUSPENSIONS:1||ELECTRONICS:1||ENHANCEMENT:1||artificial lattice:1||sinters:1||SILVER:1||STRAIN RELAXATION:1||biaxial texture:1||synchrotron scattering:1||transmission electron microscopy:1||IRONOXIDE FILMS:1||PZT thin film:1||ferroelectric thin film:1||MISFIT RELAXATION MECHANISMS:1||PBTIO3:1||O2:1||CONDUCTING POLYMERS:1||poly(methylmethancrylate):1||microspheres:1||phase contrast Xray microscope:1||AMBIENT AIR:1||ATMOSPHERE:1||XRAY INTERFEROMETER:1||NiAu composite nanoparticles.:1||synchrotron radiation Xrays:1||microtomography:1||OIL FLYASH:1||zinc oxide:1||mammography:1||SrRuO3 film:1||Laser epitaxy:1||HOLE MOBILITY:1||Models of crystal defects:1||RABBIT LUNGS:1||NI/AU CONTACT:1||3D printing:1||Stress relaxation:1||SURFACEAREA:1||IMAGE:1||modulation transfer function (MTF):1||Pb ions:1||Insitu visualization:1||Interfacial tension:1||DISPERSION FORCES:1||SINGLECRYSTALS:1||XRAY SOURCE:1||Synchrotron Xray imaging:1||Realtime imaging:1||MEDICAL APPLICATIONS:1||wiggler bending magnet:1||undulator:1||diffractionenhanced imaging:1||ZnO film:1||CAPACITORS:1||HE3:1||NiP alloy:1||PHOTOCHEMICAL FORMATION:1||extended domain matching:1||cubetextured Ni substrates:1||RAY COMPUTEDTOMOGRAPHY:1||electrode layer:1||DOMAINSTRUCTURE:1||XRAY CT:1||SPECIMEN:1||mammographic phantom:1||Xray absorption spectroscopy:1||BLUE:1||CONTACT:1||(BA:1||synchrotron spectromicroscopy:1||thin film:1||MICROWAVE PLASMA:1||GOLD NANOPARTICLES:1||POLYMERIZATION:1||DISEASE:1||Shanghai:1||MORTALITY:1||HETEROSTRUCTURES:1||METHACRYLATE:1||prostate cancer:1||renal cell carcinoma:1||RATS:1||PULSEDLASER DEPOSITION:1||semiconducting IIVI materials:1||PATTERNS:1||sapphire:1||evaporation:1||ZINCOXIDE:1||LIGHTEMITTING DIODE:1||Synchrotron imaging:1||Dislocations:1||Cracks:1||LIVE:1||spinal cord:1||stainless steel:1||nanophotonics:1||subwavelength waveguides:1||Synchrotrons:1||High dislocation density:1||Misfit stress relaxations:1||Randomly distributed:1||Tripleaxis xray diffractions:1||FLOW:1||CRYSTALLINE ORGANIC NANORODS:1||SHAPE CHANGES:1||ZnO thin film:1||(111)SI:1||XRAY MIRRORS:1||low temperature:1||oxide cathodes:1||heterogeneity:1||Xray microscopy:1||INTERFACIAL TENSIONS:1||single crystal growth:1||CARCINOMA:1||mouse:1||ANIMALS:1||Mndoped ZnO:1||luminescence:1||solution precipitation:1||CLUSTER:1||relaxation:1||ALPHAFE2O3:1||XANES:1||epitaxy:1||LaNiO3 thin film:1||LANIO3 THINFILMS:1||ELECTRODE:1||Fe3O4 sublayer:1||EXAFS microscopy:1||FERRITE FILMS:1||SURFACE PRETREATMENTS:1||superconductors:1||CONTRAST AGENT:1||BIODISTRIBUTION:1||DEATH:1||SYNCHROTRON:1||IR:1||apo Eknockout mouse:1||plaque:1||microradiology:1||ALPHASYNUCLEIN:1||PULMONARY TOXICITY:1||XRAY TOPOGRAPHY:1||dislocation:1||metalorganic chemical vapor deposition:1||CRYSTALGROWTH:1||SELFASSEMBLED MONOLAYERS:1||MEMBRANES:1||MAGNETICANISOTROPY:1||SI1XGEX CRYSTALS:1||STRAINEDSI:1||Extended Weibull model:1||MOLYBDENUM:1||ALLOYS:1||IRON:1||Theoretical modeling:1||Threading dislocation:1||GROWTH:27||THINFILMS:16||SYNCHROTRONRADIATION:15||CONTRAST:11||RADIOLOGY:11||PARTICLES:11||FILMS:11||SILICON:10||RADIATION:10||DEPOSITION:10||RESOLUTION:9||CRYSTALS:8||SILICONCARBIDE:7||XRAYS:7||MAMMOGRAPHY:7||Xray diffraction:7||synchrotron radiation:6||XRAYSCATTERING:6||MODEL:6||microstructure:6||DYNAMICS:5||ELECTRODEPOSITION:5||LAYERS:5||CHEMICALVAPORDEPOSITION:5||TEMPERATURE:5||TOMOGRAPHY:5||COMPUTEDTOMOGRAPHY:5||SAPPHIRE:5||MEDIA:5||NANOWIRES:5||DIFFRACTION:4||TISSUES:4||pulsed laser deposition:4||phase contrast imaging:4||LAYER:4||IMAGES:4||DIODES:4||FIELDEFFECT TRANSISTORS:4||ptype GaN:4||MICROSCOPY:4||REDUCTION:4||POLYMER:4||DEFECTS:3||COHERENCE:3||MICROTOMOGRAPHY:3||NANOPARTICLES:3||synchrotron:3||LIGHT:3||TRANSISTORS:3||SURFACES:3||STRAIN:3||EPITAXIAL LAYERS:3||DRUGDELIVERY:3||REFRACTION:3||growth mechanism:3||METALS:3||MICROPIPES:3||SYSTEM:3||NUCLEATION:3||synchrotron Xray scattering:3||SURFACE:3||SCREW DISLOCATIONS:3||SIMULATION:3||HARD XRAYS:3||ELECTRICALPROPERTIES:3||EPITAXY:3||GAN:3||PM2.5:3||EVAPORATION:3||LIQUIDS:3||INPLANE:3||RAT:3||ANGIOGENESIS:3||CT:3||GaN:3||ZnO:3||NANORODS:3||strain:3||PB(ZR0.53TI0.47)O3:3||CRYSTALLIZATION:3||synchrotron Xrays:2||buffer layer:2||TRANSMISSION ELECTRONMICROSCOPY:2||EPITAXIAL COSI2 FILMS:2||MECHANISMS:2||INSITU GROWTH:2||DEVICE:2||LOCALIZED ELECTROCHEMICAL DEPOSITION:2||X ray diffraction:2||SCHOTTKY CONTACT:2||IRRADIATION:2||aqua regia treatment:2||INVIVO:2||CELLADHESION:2||MORPHOGENETIC PROTEIN2:2||RECEPTOR:2||TEM:2||broadband synchrotron light:2||nanoparticle:2||BUFFER LAYERS:2||TC:2||ENHANCED SYNCHROTRON RADIOLOGY:2||synthesis:2||POLYDIMETHYLSILOXANE:2||MICROCHANNELS:2||PRETREATMENT PROCESS:2||XRAY:2||CHEMOTAXIS:2||MECHANOSENSORY TRANSDUCTION:2||rectangular microtube:2||CONJUGATED POLYMER:2||atomic force microscopy:2||METALLIC OXIDE SRRUO3:2||LASERABLATION:2||STRESS:2||ZONE PLATES:2||FRICTION:2||THERMALSTABILITY:2||Xrays:2||RAY:2||NM:2||ENERGY:2||TOPOGRAPHY:2||synchrotron Xray:2||ACID HYDROGELS:2||CAENORHABDITISELEGANS:2||PROTEIN:2||defects:2||EVOLUTION:2||FABRICATION:2||sharp bending waveguide:2||lasing action:2||BULK CRYSTALS:2||SUPERLATTICES:2||COATED CONDUCTORS:2||SI(111):2||phase contrast:2||CORONARY ANGIOGRAPHY:2||SPECTROMICROSCOPY:2||MEPHISTO:2||OXYGEN:2||OPTICALPROPERTIES:2||RADIOGRAPHY:2||CONTACT DEFORMATIONS:2||MOLECULAR FORCES:2||SOLIDS:2||NTYPE GAN:2||deposition:2||CHEMISTRY:2||DEFORMATION:2||SUBSTRATE:2||HETEROEPITAXY:2||NANOTOPOGRAPHY:2||EPITAXIALGROWTH:2||Xray:2||CHEMICAL VAPORDEPOSITION:2||SILICON STRUCTURES:2||STEMCELLS:2||CHANNEL:2||crystal structure:2||CORONARYANGIOGRAPHY:2||SiC:2||BUFFER LAYER:2||MOLECULARBEAM EPITAXY:2||INTERFACE:2||SIZE:2||ELECTRON:2||XRAY MICROSCOPY:2||MORPHOLOGIES:2||NANOCOLLOIDS:2||FORCE MICROSCOPY:2||ablation:2||polymers:2||(NH4)(2)Sx treatment:2||CLUSTERS:2||BIOMATERIALS:2||CIRCUITS:2||rectangular ring mode:2||GUIDES:2||MICROCAVITY:2||PHOTOLUMINESCENCE:2||epitaxial growth:2||EMBRITTLEMENT:2||Xray imaging:2||BIOCOMPATIBILITY:2||BEHAVIOR:2||MICROWAVEPLASMA:2||LOWPRESSURE:2||DEGRADATION:2||TISSUE:2||LIQUID:2||SOFT LITHOGRAPHY:2||amplified spontaneous emission (ASE):2||SMALL ORGANICMOLECULES:2||PHOTONIC CRYSTAL:2||micropipes:2||radiology:2||ALLOY:2||Xray scattering:2||CRITICALCURRENT DENSITY:2||ELECTRONMICROSCOPY:2||BI(PB)SRCACUO:2||ELECTRONICSTRUCTURE:2||RECONSTRUCTION:2||MG:2||ohmic contact:2||Pd ohmic contact:2||xray scattering:2||INP:2||annealing:2||REGENERATION:2||TITANIUM:2||COLLOIDAL GOLD:2||crystallization:2||BUCKLING MECHANICS:2||LASERS:2||MODES:2||synchrotron imaging:2||lattice distortion:2||AQUEOUSELECTROLYTE:2||MOLECULARDYNAMICS:2||OXIDE:2||MICROANGIOGRAPHY:2||OXIDATION:2||MICRORADIOLOGY:2||TECHNOLOGY:2||GE:2||surface chemistry:2||RECOVERY:2||OHMIC CONTACTS:2||LASERDIODES:2||PTYPE GAN:2||MOTION:2||PHANTOM:2||PHASE:2||CALCIUMPHOSPHATE CERAMICS:2||REPAIR:2||porphyrin:2||AMPLIFIED SPONTANEOUS EMISSION:2||METALELECTRODES:2||PD:2||SUPERCONDUCTING TAPES:2||nucleation:2||COATINGS:2||Xray topography:2||MONOLAYERS:2||SURFACE MODIFICATION:2||LITHOGRAPHY:2||MECHANICAL VENTILATION:1||MICRORIBBONS:1||STIFFNESS:1||DUALPHASE STEEL:1||growth mode:1||strain evolution:1||SI(100):1||ANISOTROPY:1||WET GRANULAR PILE:1||COALESCENCE:1||INSITU POLYMERIZATION:1||GRAPHENE:1||CANCER:1||NODULES:1||RABBITS:1||phasecontrast:1||YTTRIUMOXIDE FILMS:1||BaTiO3/SrTiO3:1||dental implant:1||coincidence site density:1||ERNI2B2C:1||crystallites:1||CoCrPt films:1||tensile strain:1||gallide:1||MGO:1||Baferrite film:1||synchrotron xray scattering:1||ZNO THINFILMS:1||MORPHOLOGY:1||PHASES:1||MICE:1||EBEAM LITHOGRAPHY:1||electrorheological fluids:1||NANOFIBROUS MEMBRANES:1||NANOLITHOGRAPHY:1||refractive index radiology:1||BLOOD:1||colloidal:1||SIZE CONTROL:1||nanoradiology:1||ZnSO4:1||lung injury:1||METAL:1||PM10:1||textured grain:1||MICROSTRUCTURE:1||DIMENSIONS:1||highresolution Xray diffraction:1||low temperature buffer:1||Zinc compounds:1||SI:1||HUMAN LONGEVITY:1||Maximum human lifespan:1||LIMITS:1||MOSFETS:1||in situ XANES:1||nanowires:1||PHOTOIRRADIATION:1||FIBERS:1||WORK:1||EMISSION:1||RADIATION MICROTOMOGRAPHY:1||RAMANSCATTERING:1||gold nanoparticles:1||synchrotron Xray diffraction:1||OPTICAL WAVEGUIDES:1||CONDUCTINGPOLYMER NANOWIRE:1||Lung cancer:1||INTRAVENOUS CORONARYARTERIOGRAPHY:1||SUBLIMATION GROWTH:1||radiography:1||porous SiC:1||GIANT MAGNETORESISTANCE:1||SEMICONDUCTORS:1||Ga diffusion:1||electroless deposition:1||HEMATITE:1||FREEELECTRON LASER:1||MOCVD:1||interfaces:1||white beam:1||imaging technique:1||nucleation layer:1||interface structure:1||epitaxial Baferrite film:1||rf magnetron sputtering:1||MAGNETIC CHARACTERISTICS:1||MIXTURE:1||ACCESS MEMORY APPLICATION:1||COHERENCY STRAIN:1||DENSITY:1||nanofabrication:1||POLY(METHYL METHACRYLATE) MICROSPHERE:1||RESIST:1||unmonochromatic beam:1||MICRORADIOGRAPHY:1||INTERFEROMETER:1||EXPOSURE:1||volume variation electronic:1||PULSEDLASER ABLATION:1||Semiconducting IIVI materials:1||Light emitting diodes:1||phase contrast microscopies:1||lung:1||AUGERELECTRON SPECTROSCOPY:1||passivation:1||additive manufacturing:1||Silicon carbide:1||Synchrotron radiation:1||Synchrotron radiation imaging:1||Dislocations (crystals):1||LUNG INJURY:1||POLYMER SURFACES:1||SINGLE CELLS:1||PREFERRED ORIENTATION:1||sapphire orientation:1||TANTALUM:1||BIASENHANCED NUCLEATION:1||hexaferrite:1||stretched exponential:1||SOLIDSURFACE:1||SHEAR:1||VIDEO MICROSCOPY:1||CARBON NANOTUBES:1||realtime observation:1||Xray synchrotron:1||CARBONMONOXIDE:1||ELECTROCHEMICAL FABRICATION:1||crystal growth:1||computer simulation:1||FERROELECTRICFILMS:1||TITANIUM IMPLANTS:1||BONE INTERFACE:1||EXAFS perpendicular magnetic recording:1||Pd/Ni:1||ELECTRODES:1||internal organ:1||LIGHTEMITTINGDIODES:1||interfacial structure:1||CONSTANT:1||DIELECTRICPROPERTIES:1||AR:1||DEVICES:1||BiSrCaCuO:1||LASER ABLATION:1||MECHANISM:1||SELECTIVE DEPOSITION:1||TARGETED DRUGDELIVERY:1||PEG:1||carbon nanotubes:1||nanocharacterization:1||WALLED CARBON NANOTUBE:1||basal cell carcinoma:1||PARTICULATE AIRPOLLUTION:1||FINE:1||CITIES:1||DOPED ZNO FILMS:1||atherosclerosis:1||drug delivery:1||hard Xray:1||COMBUSTION:1||ARTIFICIAL BATIO3/SRTIO3 SUPERLATTICES:1||surface morphology:1||Direct wafer bonding:1||COLLOIDAL GOLD PARTICLES:1||DELINEATION:1||EXPECTANCY:1||DEMOGRAPHY:1||MRI:1||SIGE:1||Phase contrast microradiography:1||INJURY:1||PASSIVITY:1||VOLUME:1||CONTACTANGLE:1||ARRAYS:1||DUCTILITY:1||sputtering:1||computed microtomography (mu CT):1||unmonochromatized Xray:1||BIPOLARTRANSISTORS:1||longevity:1||Confocal microscopy:1||Colloidal wettability:1||ATOMICFORCE MICROSCOPY:1||storage ring:1||digital subtraction:1||SCATTERING:1||size effect:1||SYNTHETIC QUARTZ:1||liquid metal embrittlement:1||iron ore:1||cube textured Ni substrates:1||SrRuO3 films:1||laser ablations:1||Ti underlayer:1||RANDOMACCESS MEMORIES:1||DOMAIN CONFIGURATIONS:1||MGO(100):1||SPECTROSCOPY:1||XE:1||IONBEAM:1||GRAINBOUNDARY MIGRATION:1||SRTIO3:1||COMPOSITES:1||FOAMS:1||BREASTCANCER SPECIMENS:1||unmonochromatized:1||Xray induced nucleation:1||gold:1||ABSORPTION:1||SEPARATION:1||CZOCHRALSKI GROWTH:1||RETRIEVAL:1||GAMMARADIATION:1||AQUEOUSSOLUTION:1||NANOCOMPOSITES:1||INCREASE:1||without staining procedure:1||XPS:1||Imaging techniques:1||Interfaces (materials):1||Dislocation distributions:1||AZOBENZENE:1||STRUCTURAL EVOLUTION:1||RELAXATION:1||DROP IMPACT:1||NONLINEAR DYNAMICS:1||DISLOCATIONS:1||Colloids:1||TRANSFORMATION:1||METAL INTERCONNECTS:1||ELASTIC CONDUCTORS:1||LOGIC:1||DEFICIENT MICE:1||tomography:1||FACILITY:1||osseointegration:1||ROCKS:1||dental radiography:1||Zn coating:1||RE2O3/Ni:1||YBCO COATED CONDUCTORS:1||threedimensional islands:1||(Ba,Sr)TiO3:1||ultrahigh resolution:1||photoelectron emission:1||Pd:1||LANIO3:1||BASE ELECTRODES:1||iron oxide phase:1||ironoxide interlayer:1||COATED GLASS SUBSTRATE:1||MICROWAVE PLASMA NUCLEATION:1||ENHANCED NUCLEATION:1||phase transformation:1||ADSORPTION:1||phasecontrast xray imaging:1||lung inflammation:1||SI1XGEX SINGLECRYSTALS:1||COCONTINUITY:1||SCALE:1||OBJECT:1||synchrotron microradiography:1||FeSO4:1||INDUCTION:1||BaTiO3 and SrTiO3 thin films:1||HARDXRAYS:1||light emitting diodes:1||ACID:1||MICROSTRUCTURES:1||PHOTOLUMINESCENCE PROPERTIES:1||LASER IRRADIATION:1||Human aging:1||polychromatic synchrotron Xray:1||refraction enhanced imaging:1||CHROMOPHORES:1||ACUTE LUNG INJURY:1||spatial resolution:1||BETAFESI2:1||VLSI:1||SI1XGEX:1||COLLOIDAL SUSPENSIONS:1||ELECTRONICS:1||ENHANCEMENT:1||artificial lattice:1||sinters:1||SILVER:1||STRAIN RELAXATION:1||biaxial texture:1||synchrotron scattering:1||transmission electron microscopy:1||IRONOXIDE FILMS:1||PZT thin film:1||ferroelectric thin film:1||MISFIT RELAXATION MECHANISMS:1||PBTIO3:1||O2:1||CONDUCTING POLYMERS:1||poly(methylmethancrylate):1||microspheres:1||phase contrast Xray microscope:1||AMBIENT AIR:1||ATMOSPHERE:1||XRAY INTERFEROMETER:1||NiAu composite nanoparticles.:1||synchrotron radiation Xrays:1||microtomography:1||OIL FLYASH:1||zinc oxide:1||mammography:1||SrRuO3 film:1||Laser epitaxy:1||HOLE MOBILITY:1||Models of crystal defects:1||RABBIT LUNGS:1||NI/AU CONTACT:1||3D printing:1||Stress relaxation:1||SURFACEAREA:1||IMAGE:1||modulation transfer function (MTF):1||Pb ions:1||Insitu visualization:1||Interfacial tension:1||DISPERSION FORCES:1||SINGLECRYSTALS:1||XRAY SOURCE:1||Synchrotron Xray imaging:1||Realtime imaging:1||MEDICAL APPLICATIONS:1||wiggler bending magnet:1||undulator:1||diffractionenhanced imaging:1||ZnO film:1||CAPACITORS:1||HE3:1||NiP alloy:1||PHOTOCHEMICAL FORMATION:1||extended domain matching:1||cubetextured Ni substrates:1||RAY COMPUTEDTOMOGRAPHY:1||electrode layer:1||DOMAINSTRUCTURE:1||XRAY CT:1||SPECIMEN:1||mammographic phantom:1||Xray absorption spectroscopy:1||BLUE:1||CONTACT:1||(BA:1||synchrotron spectromicroscopy:1||thin film:1||MICROWAVE PLASMA:1||GOLD NANOPARTICLES:1||POLYMERIZATION:1||DISEASE:1||Shanghai:1||MORTALITY:1||HETEROSTRUCTURES:1||METHACRYLATE:1||prostate cancer:1||renal cell carcinoma:1||RATS:1||PULSEDLASER DEPOSITION:1||semiconducting IIVI materials:1||PATTERNS:1||sapphire:1||evaporation:1||ZINCOXIDE:1||LIGHTEMITTING DIODE:1||Synchrotron imaging:1||Dislocations:1||Cracks:1||LIVE:1||spinal cord:1||stainless steel:1||nanophotonics:1||subwavelength waveguides:1||Synchrotrons:1||High dislocation density:1||Misfit stress relaxations:1||Randomly distributed:1||Tripleaxis xray diffractions:1||FLOW:1||CRYSTALLINE ORGANIC NANORODS:1||SHAPE CHANGES:1||ZnO thin film:1||(111)SI:1||XRAY MIRRORS:1||low temperature:1||oxide cathodes:1||heterogeneity:1||Xray microscopy:1||INTERFACIAL TENSIONS:1||single crystal growth:1||CARCINOMA:1||mouse:1||ANIMALS:1||Mndoped ZnO:1||luminescence:1||solution precipitation:1||CLUSTER:1||relaxation:1||ALPHAFE2O3:1||XANES:1||epitaxy:1||LaNiO3 thin film:1||LANIO3 THINFILMS:1||ELECTRODE:1||Fe3O4 sublayer:1||EXAFS microscopy:1||FERRITE FILMS:1||SURFACE PRETREATMENTS:1||superconductors:1||CONTRAST AGENT:1||BIODISTRIBUTION:1||DEATH:1||SYNCHROTRON:1||IR:1||apo Eknockout mouse:1||plaque:1||microradiology:1||ALPHASYNUCLEIN:1||PULMONARY TOXICITY:1||XRAY TOPOGRAPHY:1||dislocation:1||metalorganic chemical vapor deposition:1||CRYSTALGROWTH:1||SELFASSEMBLED MONOLAYERS:1||MEMBRANES:1||MAGNETICANISOTROPY:1||SI1XGEX CRYSTALS:1||STRAINEDSI:1||Extended Weibull model:1||MOLYBDENUM:1||ALLOYS:1||IRON:1||Theoretical modeling:1||Threading dislocation:1||GROWTH:27||THINFILMS:16||SYNCHROTRONRADIATION:15||CONTRAST:11||RADIOLOGY:11||PARTICLES:11||FILMS:11||SILICON:10||RADIATION:10||DEPOSITION:10||RESOLUTION:9||CRYSTALS:8||SILICONCARBIDE:7||XRAYS:7||MAMMOGRAPHY:7||Xray diffraction:7||synchrotron radiation:6||XRAYSCATTERING:6||MODEL:6||microstructure:6||DYNAMICS:5||ELECTRODEPOSITION:5||LAYERS:5||CHEMICALVAPORDEPOSITION:5||TEMPERATURE:5||TOMOGRAPHY:5||COMPUTEDTOMOGRAPHY:5||SAPPHIRE:5||MEDIA:5||NANOWIRES:5||DIFFRACTION:4||TISSUES:4||pulsed laser deposition:4||phase contrast imaging:4||LAYER:4||IMAGES:4||DIODES:4||FIELDEFFECT TRANSISTORS:4||ptype GaN:4||MICROSCOPY:4||REDUCTION:4||POLYMER:4||DEFECTS:3||COHERENCE:3||MICROTOMOGRAPHY:3||NANOPARTICLES:3||synchrotron:3||LIGHT:3||TRANSISTORS:3||SURFACES:3||STRAIN:3||EPITAXIAL LAYERS:3||DRUGDELIVERY:3||REFRACTION:3||growth mechanism:3||METALS:3||MICROPIPES:3||SYSTEM:3||NUCLEATION:3||synchrotron Xray scattering:3||SURFACE:3||SCREW DISLOCATIONS:3||SIMULATION:3||HARD XRAYS:3||ELECTRICALPROPERTIES:3||EPITAXY:3||GAN:3||PM2.5:3||EVAPORATION:3||LIQUIDS:3||INPLANE:3||RAT:3||ANGIOGENESIS:3||CT:3||GaN:3||ZnO:3||NANORODS:3||strain:3||PB(ZR0.53TI0.47)O3:3||CRYSTALLIZATION:3||synchrotron Xrays:2||buffer layer:2||TRANSMISSION ELECTRONMICROSCOPY:2||EPITAXIAL COSI2 FILMS:2||MECHANISMS:2||INSITU GROWTH:2||DEVICE:2||LOCALIZED ELECTROCHEMICAL DEPOSITION:2||X ray diffraction:2||SCHOTTKY CONTACT:2||IRRADIATION:2||aqua regia treatment:2||INVIVO:2||CELLADHESION:2||MORPHOGENETIC PROTEIN2:2||RECEPTOR:2||TEM:2||broadband synchrotron light:2||nanoparticle:2||BUFFER LAYERS:2||TC:2||ENHANCED SYNCHROTRON RADIOLOGY:2||synthesis:2||POLYDIMETHYLSILOXANE:2||MICROCHANNELS:2||PRETREATMENT PROCESS:2||XRAY:2||CHEMOTAXIS:2||MECHANOSENSORY TRANSDUCTION:2||rectangular microtube:2||CONJUGATED POLYMER:2||atomic force microscopy:2||METALLIC OXIDE SRRUO3:2||LASERABLATION:2||STRESS:2||ZONE PLATES:2||FRICTION:2||THERMALSTABILITY:2||Xrays:2||RAY:2||NM:2||ENERGY:2||TOPOGRAPHY:2||synchrotron Xray:2||ACID HYDROGELS:2||CAENORHABDITISELEGANS:2||PROTEIN:2||defects:2||EVOLUTION:2||FABRICATION:2||sharp bending waveguide:2||lasing action:2||BULK CRYSTALS:2||SUPERLATTICES:2||COATED CONDUCTORS:2||SI(111):2||phase contrast:2||CORONARY ANGIOGRAPHY:2||SPECTROMICROSCOPY:2||MEPHISTO:2||OXYGEN:2||OPTICALPROPERTIES:2||RADIOGRAPHY:2||CONTACT DEFORMATIONS:2||MOLECULAR FORCES:2||SOLIDS:2||NTYPE GAN:2||deposition:2||CHEMISTRY:2||DEFORMATION:2||SUBSTRATE:2||HETEROEPITAXY:2||NANOTOPOGRAPHY:2||EPITAXIALGROWTH:2||Xray:2||CHEMICAL VAPORDEPOSITION:2||SILICON STRUCTURES:2||STEMCELLS:2||CHANNEL:2||crystal structure:2||CORONARYANGIOGRAPHY:2||SiC:2||BUFFER LAYER:2||MOLECULARBEAM EPITAXY:2||INTERFACE:2||SIZE:2||ELECTRON:2||XRAY MICROSCOPY:2||MORPHOLOGIES:2||NANOCOLLOIDS:2||FORCE MICROSCOPY:2||ablation:2||polymers:2||(NH4)(2)Sx treatment:2||CLUSTERS:2||BIOMATERIALS:2||CIRCUITS:2||rectangular ring mode:2||GUIDES:2||MICROCAVITY:2||PHOTOLUMINESCENCE:2||epitaxial growth:2||EMBRITTLEMENT:2||Xray imaging:2||BIOCOMPATIBILITY:2||BEHAVIOR:2||MICROWAVEPLASMA:2||LOWPRESSURE:2||DEGRADATION:2||TISSUE:2||LIQUID:2||SOFT LITHOGRAPHY:2||amplified spontaneous emission (ASE):2||SMALL ORGANICMOLECULES:2||PHOTONIC CRYSTAL:2||micropipes:2||radiology:2||ALLOY:2||Xray scattering:2||CRITICALCURRENT DENSITY:2||ELECTRONMICROSCOPY:2||BI(PB)SRCACUO:2||ELECTRONICSTRUCTURE:2||RECONSTRUCTION:2||MG:2||ohmic contact:2||Pd ohmic contact:2||xray scattering:2||INP:2||annealing:2||REGENERATION:2||TITANIUM:2||COLLOIDAL GOLD:2||crystallization:2||BUCKLING MECHANICS:2||LASERS:2||MODES:2||synchrotron imaging:2||lattice distortion:2||AQUEOUSELECTROLYTE:2||MOLECULARDYNAMICS:2||OXIDE:2||MICROANGIOGRAPHY:2||OXIDATION:2||MICRORADIOLOGY:2||TECHNOLOGY:2||GE:2||surface chemistry:2||RECOVERY:2||OHMIC CONTACTS:2||LASERDIODES:2||PTYPE GAN:2||MOTION:2||PHANTOM:2||PHASE:2||CALCIUMPHOSPHATE CERAMICS:2||REPAIR:2||porphyrin:2||AMPLIFIED SPONTANEOUS EMISSION:2||METALELECTRODES:2||PD:2||SUPERCONDUCTING TAPES:2||nucleation:2||COATINGS:2||Xray topography:2||MONOLAYERS:2||SURFACE MODIFICATION:2||LITHOGRAPHY:2||MECHANICAL VENTILATION:1||MICRORIBBONS:1||STIFFNESS:1||DUALPHASE STEEL:1||growth mode:1||strain evolution:1||SI(100):1||ANISOTROPY:1||WET GRANULAR PILE:1||COALESCENCE:1||INSITU POLYMERIZATION:1||GRAPHENE:1||CANCER:1||NODULES:1||RABBITS:1||phasecontrast:1||YTTRIUMOXIDE FILMS:1||BaTiO3/SrTiO3:1||dental implant:1||coincidence site density:1||ERNI2B2C:1||crystallites:1||CoCrPt films:1||tensile strain:1||gallide:1||MGO:1||Baferrite film:1||synchrotron xray scattering:1||ZNO THINFILMS:1||MORPHOLOGY:1||PHASES:1||MICE:1||EBEAM LITHOGRAPHY:1||electrorheological fluids:1||NANOFIBROUS MEMBRANES:1||NANOLITHOGRAPHY:1||refractive index radiology:1||BLOOD:1||colloidal:1||SIZE CONTROL:1||nanoradiology:1||ZnSO4:1||lung injury:1||METAL:1||PM10:1||textured grain:1||MICROSTRUCTURE:1||DIMENSIONS:1||highresolution Xray diffraction:1||low temperature buffer:1||Zinc compounds:1||SI:1||HUMAN LONGEVITY:1||Maximum human lifespan:1||LIMITS:1||MOSFETS:1||in situ XANES:1||nanowires:1||PHOTOIRRADIATION:1||FIBERS:1||WORK:1||EMISSION:1||RADIATION MICROTOMOGRAPHY:1||RAMANSCATTERING:1||gold nanoparticles:1||synchrotron Xray diffraction:1||OPTICAL WAVEGUIDES:1||CONDUCTINGPOLYMER NANOWIRE:1||Lung cancer:1||INTRAVENOUS CORONARYARTERIOGRAPHY:1||SUBLIMATION GROWTH:1||radiography:1||porous SiC:1||GIANT MAGNETORESISTANCE:1||SEMICONDUCTORS:1||Ga diffusion:1||electroless deposition:1||HEMATITE:1||FREEELECTRON LASER:1||MOCVD:1||interfaces:1||white beam:1||imaging technique:1||nucleation layer:1||interface structure:1||epitaxial Baferrite film:1||rf magnetron sputtering:1||MAGNETIC CHARACTERISTICS:1||MIXTURE:1||ACCESS MEMORY APPLICATION:1||COHERENCY STRAIN:1||DENSITY:1||nanofabrication:1||POLY(METHYL METHACRYLATE) MICROSPHERE:1||RESIST:1||unmonochromatic beam:1||MICRORADIOGRAPHY:1||INTERFEROMETER:1||EXPOSURE:1||volume variation electronic:1||PULSEDLASER ABLATION:1||Semiconducting IIVI materials:1||Light emitting diodes:1||phase contrast microscopies:1||lung:1||AUGERELECTRON SPECTROSCOPY:1||passivation:1||additive manufacturing:1||Silicon carbide:1||Synchrotron radiation:1||Synchrotron radiation imaging:1||Dislocations (crystals):1||LUNG INJURY:1||POLYMER SURFACES:1||SINGLE CELLS:1||PREFERRED ORIENTATION:1||sapphire orientation:1||TANTALUM:1||BIASENHANCED NUCLEATION:1||hexaferrite:1||stretched exponential:1||SOLIDSURFACE:1||SHEAR:1||VIDEO MICROSCOPY:1||CARBON NANOTUBES:1||realtime observation:1||Xray synchrotron:1||CARBONMONOXIDE:1||ELECTROCHEMICAL FABRICATION:1||crystal growth:1||computer simulation:1||FERROELECTRICFILMS:1||TITANIUM IMPLANTS:1||BONE INTERFACE:1||EXAFS perpendicular magnetic recording:1||Pd/Ni:1||ELECTRODES:1||internal organ:1||LIGHTEMITTINGDIODES:1||interfacial structure:1||CONSTANT:1||DIELECTRICPROPERTIES:1||AR:1||DEVICES:1||BiSrCaCuO:1||LASER ABLATION:1||MECHANISM:1||SELECTIVE DEPOSITION:1||TARGETED DRUGDELIVERY:1||PEG:1||carbon nanotubes:1||nanocharacterization:1||WALLED CARBON NANOTUBE:1||basal cell carcinoma:1||PARTICULATE AIRPOLLUTION:1||FINE:1||CITIES:1||DOPED ZNO FILMS:1||atherosclerosis:1||drug delivery:1||hard Xray:1||COMBUSTION:1||ARTIFICIAL BATIO3/SRTIO3 SUPERLATTICES:1||surface morphology:1||Direct wafer bonding:1||COLLOIDAL GOLD PARTICLES:1||DELINEATION:1||EXPECTANCY:1||DEMOGRAPHY:1||MRI:1||SIGE:1||Phase contrast microradiography:1||INJURY:1||PASSIVITY:1||VOLUME:1||CONTACTANGLE:1||ARRAYS:1||DUCTILITY:1||sputtering:1||computed microtomography (mu CT):1||unmonochromatized Xray:1||BIPOLARTRANSISTORS:1||longevity:1||Confocal microscopy:1||Colloidal wettability:1||ATOMICFORCE MICROSCOPY:1||storage ring:1||digital subtraction:1||SCATTERING:1||size effect:1||SYNTHETIC QUARTZ:1||liquid metal embrittlement:1||iron ore:1||cube textured Ni substrates:1||SrRuO3 films:1||laser ablations:1||Ti underlayer:1||RANDOMACCESS MEMORIES:1||DOMAIN CONFIGURATIONS:1||MGO(100):1||SPECTROSCOPY:1||XE:1||IONBEAM:1||GRAINBOUNDARY MIGRATION:1||SRTIO3:1||COMPOSITES:1||FOAMS:1||BREASTCANCER SPECIMENS:1||unmonochromatized:1||Xray induced nucleation:1||gold:1||ABSORPTION:1||SEPARATION:1||CZOCHRALSKI GROWTH:1||RETRIEVAL:1||GAMMARADIATION:1||AQUEOUSSOLUTION:1||NANOCOMPOSITES:1||INCREASE:1||without staining procedure:1||XPS:1||Imaging techniques:1||Interfaces (materials):1||Dislocation distributions:1||AZOBENZENE:1||STRUCTURAL EVOLUTION:1||RELAXATION:1||DROP IMPACT:1||NONLINEAR DYNAMICS:1||DISLOCATIONS:1||Colloids:1||TRANSFORMATION:1||METAL INTERCONNECTS:1||ELASTIC CONDUCTORS:1||LOGIC:1||DEFICIENT MICE:1||tomography:1||FACILITY:1||osseointegration:1||ROCKS:1||dental radiography:1||Zn coating:1||RE2O3/Ni:1||YBCO COATED CONDUCTORS:1||threedimensional islands:1||(Ba,Sr)TiO3:1||ultrahigh resolution:1||photoelectron emission:1||Pd:1||LANIO3:1||BASE ELECTRODES:1||iron oxide phase:1||ironoxide interlayer:1||COATED GLASS SUBSTRATE:1||MICROWAVE PLASMA NUCLEATION:1||ENHANCED NUCLEATION:1||phase transformation:1||ADSORPTION:1||phasecontrast xray imaging:1||lung inflammation:1||SI1XGEX SINGLECRYSTALS:1||COCONTINUITY:1||SCALE:1||OBJECT:1||synchrotron microradiography:1||FeSO4:1||INDUCTION:1||BaTiO3 and SrTiO3 thin films:1||HARDXRAYS:1||light emitting diodes:1||ACID:1||MICROSTRUCTURES:1||PHOTOLUMINESCENCE PROPERTIES:1||LASER IRRADIATION:1||Human aging:1||polychromatic synchrotron Xray:1||refraction enhanced imaging:1||CHROMOPHORES:1||ACUTE LUNG INJURY:1||spatial resolution:1||BETAFESI2:1||VLSI:1||SI1XGEX:1||COLLOIDAL SUSPENSIONS:1||ELECTRONICS:1||ENHANCEMENT:1||artificial lattice:1||sinters:1||SILVER:1||STRAIN RELAXATION:1||biaxial texture:1||synchrotron scattering:1||transmission electron microscopy:1||IRONOXIDE FILMS:1||PZT thin film:1||ferroelectric thin film:1||MISFIT RELAXATION MECHANISMS:1||PBTIO3:1||O2:1||CONDUCTING POLYMERS:1||poly(methylmethancrylate):1||microspheres:1||phase contrast Xray microscope:1||AMBIENT AIR:1||ATMOSPHERE:1||XRAY INTERFEROMETER:1||NiAu composite nanoparticles.:1||synchrotron radiation Xrays:1||microtomography:1||OIL FLYASH:1||zinc oxide:1||mammography:1||SrRuO3 film:1||Laser epitaxy:1||HOLE MOBILITY:1||Models of crystal defects:1||RABBIT LUNGS:1||NI/AU CONTACT:1||3D printing:1||Stress relaxation:1||SURFACEAREA:1||IMAGE:1||modulation transfer function (MTF):1||Pb ions:1||Insitu visualization:1||Interfacial tension:1||DISPERSION FORCES:1||SINGLECRYSTALS:1||XRAY SOURCE:1||Synchrotron Xray imaging:1||Realtime imaging:1||MEDICAL APPLICATIONS:1||wiggler bending magnet:1||undulator:1||diffractionenhanced imaging:1||ZnO film:1||CAPACITORS:1||HE3:1||NiP alloy:1||PHOTOCHEMICAL FORMATION:1||extended domain matching:1||cubetextured Ni substrates:1||RAY COMPUTEDTOMOGRAPHY:1||electrode layer:1||DOMAINSTRUCTURE:1||XRAY CT:1||SPECIMEN:1||mammographic phantom:1||Xray absorption spectroscopy:1||BLUE:1||CONTACT:1||(BA:1||synchrotron spectromicroscopy:1||thin film:1||MICROWAVE PLASMA:1||GOLD NANOPARTICLES:1||POLYMERIZATION:1||DISEASE:1||Shanghai:1||MORTALITY:1||HETEROSTRUCTURES:1||METHACRYLATE:1||prostate cancer:1||renal cell carcinoma:1||RATS:1||PULSEDLASER DEPOSITION:1||semiconducting IIVI materials:1||PATTERNS:1||sapphire:1||evaporation:1||ZINCOXIDE:1||LIGHTEMITTING DIODE:1||Synchrotron imaging:1||Dislocations:1||Cracks:1||LIVE:1||spinal cord:1||stainless steel:1||nanophotonics:1||subwavelength waveguides:1||Synchrotrons:1||High dislocation density:1||Misfit stress relaxations:1||Randomly distributed:1||Tripleaxis xray diffractions:1||FLOW:1||CRYSTALLINE ORGANIC NANORODS:1||SHAPE CHANGES:1||ZnO thin film:1||(111)SI:1||XRAY MIRRORS:1||low temperature:1||oxide cathodes:1||heterogeneity:1||Xray microscopy:1||INTERFACIAL TENSIONS:1||single crystal growth:1||CARCINOMA:1||mouse:1||ANIMALS:1||Mndoped ZnO:1||luminescence:1||solution precipitation:1||CLUSTER:1||relaxation:1||ALPHAFE2O3:1||XANES:1||epitaxy:1||LaNiO3 thin film:1||LANIO3 THINFILMS:1||ELECTRODE:1||Fe3O4 sublayer:1||EXAFS microscopy:1||FERRITE FILMS:1||SURFACE PRETREATMENTS:1||superconductors:1||CONTRAST AGENT:1||BIODISTRIBUTION:1||DEATH:1||SYNCHROTRON:1||IR:1||apo Eknockout mouse:1||plaque:1||microradiology:1||ALPHASYNUCLEIN:1||PULMONARY TOXICITY:1||XRAY TOPOGRAPHY:1||dislocation:1||metalorganic chemical vapor deposition:1||CRYSTALGROWTH:1||SELFASSEMBLED MONOLAYERS:1||MEMBRANES:1||MAGNETICANISOTROPY:1||SI1XGEX CRYSTALS:1||STRAINEDSI:1||Extended Weibull model:1||MOLYBDENUM:1||ALLOYS:1||IRON:1||Theoretical modeling:1||Threading dislocation:1||GROWTH:27||THINFILMS:16||SYNCHROTRONRADIATION:15||CONTRAST:11||RADIOLOGY:11||PARTICLES:11||FILMS:11||SILICON:10||RADIATION:10||DEPOSITION:10||RESOLUTION:9||CRYSTALS:8||SILICONCARBIDE:7||XRAYS:7||MAMMOGRAPHY:7||Xray diffraction:7||synchrotron radiation:6||XRAYSCATTERING:6||MODEL:6||microstructure:6||DYNAMICS:5||ELECTRODEPOSITION:5||LAYERS:5||CHEMICALVAPORDEPOSITION:5||TEMPERATURE:5||TOMOGRAPHY:5||COMPUTEDTOMOGRAPHY:5||SAPPHIRE:5||MEDIA:5||NANOWIRES:5||DIFFRACTION:4||TISSUES:4||pulsed laser deposition:4||phase contrast imaging:4||LAYER:4||IMAGES:4||DIODES:4||FIELDEFFECT TRANSISTORS:4||ptype GaN:4||MICROSCOPY:4||REDUCTION:4||POLYMER:4||DEFECTS:3||COHERENCE:3||MICROTOMOGRAPHY:3||NANOPARTICLES:3||synchrotron:3||LIGHT:3||TRANSISTORS:3||SURFACES:3||STRAIN:3||EPITAXIAL LAYERS:3||DRUGDELIVERY:3||REFRACTION:3||growth mechanism:3||METALS:3||MICROPIPES:3||SYSTEM:3||NUCLEATION:3||synchrotron Xray scattering:3||SURFACE:3||SCREW DISLOCATIONS:3||SIMULATION:3||HARD XRAYS:3||ELECTRICALPROPERTIES:3||EPITAXY:3||GAN:3||PM2.5:3||EVAPORATION:3||LIQUIDS:3||INPLANE:3||RAT:3||ANGIOGENESIS:3||CT:3||GaN:3||ZnO:3||NANORODS:3||strain:3||PB(ZR0.53TI0.47)O3:3||CRYSTALLIZATION:3||synchrotron Xrays:2||buffer layer:2||TRANSMISSION ELECTRONMICROSCOPY:2||EPITAXIAL COSI2 FILMS:2||MECHANISMS:2||INSITU GROWTH:2||DEVICE:2||LOCALIZED ELECTROCHEMICAL DEPOSITION:2||X ray diffraction:2||SCHOTTKY CONTACT:2||IRRADIATION:2||aqua regia treatment:2||INVIVO:2||CELLADHESION:2||MORPHOGENETIC PROTEIN2:2||RECEPTOR:2||TEM:2||broadband synchrotron light:2||nanoparticle:2||BUFFER LAYERS:2||TC:2||ENHANCED SYNCHROTRON RADIOLOGY:2||synthesis:2||POLYDIMETHYLSILOXANE:2||MICROCHANNELS:2||PRETREATMENT PROCESS:2||XRAY:2||CHEMOTAXIS:2||MECHANOSENSORY TRANSDUCTION:2||rectangular microtube:2||CONJUGATED POLYMER:2||atomic force microscopy:2||METALLIC OXIDE SRRUO3:2||LASERABLATION:2||STRESS:2||ZONE PLATES:2||FRICTION:2||THERMALSTABILITY:2||Xrays:2||RAY:2||NM:2||ENERGY:2||TOPOGRAPHY:2||synchrotron Xray:2||ACID HYDROGELS:2||CAENORHABDITISELEGANS:2||PROTEIN:2||defects:2||EVOLUTION:2||FABRICATION:2||sharp bending waveguide:2||lasing action:2||BULK CRYSTALS:2||SUPERLATTICES:2||COATED CONDUCTORS:2||SI(111):2||phase contrast:2||CORONARY ANGIOGRAPHY:2||SPECTROMICROSCOPY:2||MEPHISTO:2||OXYGEN:2||OPTICALPROPERTIES:2||RADIOGRAPHY:2||CONTACT DEFORMATIONS:2||MOLECULAR FORCES:2||SOLIDS:2||NTYPE GAN:2||deposition:2||CHEMISTRY:2||DEFORMATION:2||SUBSTRATE:2||HETEROEPITAXY:2||NANOTOPOGRAPHY:2||EPITAXIALGROWTH:2||Xray:2||CHEMICAL VAPORDEPOSITION:2||SILICON STRUCTURES:2||STEMCELLS:2||CHANNEL:2||crystal structure:2||CORONARYANGIOGRAPHY:2||SiC:2||BUFFER LAYER:2||MOLECULARBEAM EPITAXY:2||INTERFACE:2||SIZE:2||ELECTRON:2||XRAY MICROSCOPY:2||MORPHOLOGIES:2||NANOCOLLOIDS:2||FORCE MICROSCOPY:2||ablation:2||polymers:2||(NH4)(2)Sx treatment:2||CLUSTERS:2||BIOMATERIALS:2||CIRCUITS:2||rectangular ring mode:2||GUIDES:2||MICROCAVITY:2||PHOTOLUMINESCENCE:2||epitaxial growth:2||EMBRITTLEMENT:2||Xray imaging:2||BIOCOMPATIBILITY:2||BEHAVIOR:2||MICROWAVEPLASMA:2||LOWPRESSURE:2||DEGRADATION:2||TISSUE:2||LIQUID:2||SOFT LITHOGRAPHY:2||amplified spontaneous emission (ASE):2||SMALL ORGANICMOLECULES:2||PHOTONIC CRYSTAL:2||micropipes:2||radiology:2||ALLOY:2||Xray scattering:2||CRITICALCURRENT DENSITY:2||ELECTRONMICROSCOPY:2||BI(PB)SRCACUO:2||ELECTRONICSTRUCTURE:2||RECONSTRUCTION:2||MG:2||ohmic contact:2||Pd ohmic contact:2||xray scattering:2||INP:2||annealing:2||REGENERATION:2||TITANIUM:2||COLLOIDAL GOLD:2||crystallization:2||BUCKLING MECHANICS:2||LASERS:2||MODES:2||synchrotron imaging:2||lattice distortion:2||AQUEOUSELECTROLYTE:2||MOLECULARDYNAMICS:2||OXIDE:2||MICROANGIOGRAPHY:2||OXIDATION:2||MICRORADIOLOGY:2||TECHNOLOGY:2||GE:2||surface chemistry:2||RECOVERY:2||OHMIC CONTACTS:2||LASERDIODES:2||PTYPE GAN:2||MOTION:2||PHANTOM:2||PHASE:2||CALCIUMPHOSPHATE CERAMICS:2||REPAIR:2||porphyrin:2||AMPLIFIED SPONTANEOUS EMISSION:2||METALELECTRODES:2||PD:2||SUPERCONDUCTING TAPES:2||nucleation:2||COATINGS:2||Xray topography:2||MONOLAYERS:2||SURFACE MODIFICATION:2||LITHOGRAPHY:2||MECHANICAL VENTILATION:1||MICRORIBBONS:1||STIFFNESS:1||DUALPHASE STEEL:1||growth mode:1||strain evolution:1||SI(100):1||ANISOTROPY:1||WET GRANULAR PILE:1||COALESCENCE:1||INSITU POLYMERIZATION:1||GRAPHENE:1||CANCER:1||NODULES:1||RABBITS:1||phasecontrast:1||YTTRIUMOXIDE FILMS:1||BaTiO3/SrTiO3:1||dental implant:1||coincidence site density:1||ERNI2B2C:1||crystallites:1||CoCrPt films:1||tensile strain:1||gallide:1||MGO:1||Baferrite film:1||synchrotron xray scattering:1||ZNO THINFILMS:1||MORPHOLOGY:1||PHASES:1||MICE:1||EBEAM LITHOGRAPHY:1||electrorheological fluids:1||NANOFIBROUS MEMBRANES:1||NANOLITHOGRAPHY:1||refractive index radiology:1||BLOOD:1||colloidal:1||SIZE CONTROL:1||nanoradiology:1||ZnSO4:1||lung injury:1||METAL:1||PM10:1||textured grain:1||MICROSTRUCTURE:1||DIMENSIONS:1||highresolution Xray diffraction:1||low temperature buffer:1||Zinc compounds:1||SI:1||HUMAN LONGEVITY:1||Maximum human lifespan:1||LIMITS:1||MOSFETS:1||in situ XANES:1||nanowires:1||PHOTOIRRADIATION:1||FIBERS:1||WORK:1||EMISSION:1||RADIATION MICROTOMOGRAPHY:1||RAMANSCATTERING:1||gold nanoparticles:1||synchrotron Xray diffraction:1||OPTICAL WAVEGUIDES:1||CONDUCTINGPOLYMER NANOWIRE:1||Lung cancer:1||INTRAVENOUS CORONARYARTERIOGRAPHY:1||SUBLIMATION GROWTH:1||radiography:1||porous SiC:1||GIANT MAGNETORESISTANCE:1||SEMICONDUCTORS:1||Ga diffusion:1||electroless deposition:1||HEMATITE:1||FREEELECTRON LASER:1||MOCVD:1||interfaces:1||white beam:1||imaging technique:1||nucleation layer:1||interface structure:1||epitaxial Baferrite film:1||rf magnetron sputtering:1||MAGNETIC CHARACTERISTICS:1||MIXTURE:1||ACCESS MEMORY APPLICATION:1||COHERENCY STRAIN:1||DENSITY:1||nanofabrication:1||POLY(METHYL METHACRYLATE) MICROSPHERE:1||RESIST:1||unmonochromatic beam:1||MICRORADIOGRAPHY:1||INTERFEROMETER:1||EXPOSURE:1||volume variation electronic:1||PULSEDLASER ABLATION:1||Semiconducting IIVI materials:1||Light emitting diodes:1||phase contrast microscopies:1||lung:1||AUGERELECTRON SPECTROSCOPY:1||passivation:1||additive manufacturing:1||Silicon carbide:1||Synchrotron radiation:1||Synchrotron radiation imaging:1||Dislocations (crystals):1||LUNG INJURY:1||POLYMER SURFACES:1||SINGLE CELLS:1||PREFERRED ORIENTATION:1||sapphire orientation:1||TANTALUM:1||BIASENHANCED NUCLEATION:1||hexaferrite:1||stretched exponential:1||SOLIDSURFACE:1||SHEAR:1||VIDEO MICROSCOPY:1||CARBON NANOTUBES:1||realtime observation:1||Xray synchrotron:1||CARBONMONOXIDE:1||ELECTROCHEMICAL FABRICATION:1||crystal growth:1||computer simulation:1||FERROELECTRICFILMS:1||TITANIUM IMPLANTS:1||BONE INTERFACE:1||EXAFS perpendicular magnetic recording:1||Pd/Ni:1||ELECTRODES:1||internal organ:1||LIGHTEMITTINGDIODES:1||interfacial structure:1||CONSTANT:1||DIELECTRICPROPERTIES:1||AR:1||DEVICES:1||BiSrCaCuO:1||LASER ABLATION:1||MECHANISM:1||SELECTIVE DEPOSITION:1||TARGETED DRUGDELIVERY:1||PEG:1||carbon nanotubes:1||nanocharacterization:1||WALLED CARBON NANOTUBE:1||basal cell carcinoma:1||PARTICULATE AIRPOLLUTION:1||FINE:1||CITIES:1||DOPED ZNO FILMS:1||atherosclerosis:1||drug delivery:1||hard Xray:1||COMBUSTION:1||ARTIFICIAL BATIO3/SRTIO3 SUPERLATTICES:1||surface morphology:1||Direct wafer bonding:1||COLLOIDAL GOLD PARTICLES:1||DELINEATION:1||EXPECTANCY:1||DEMOGRAPHY:1||MRI:1||SIGE:1||Phase contrast microradiography:1||INJURY:1||PASSIVITY:1||VOLUME:1||CONTACTANGLE:1||ARRAYS:1||DUCTILITY:1||sputtering:1||computed microtomography (mu CT):1||unmonochromatized Xray:1||BIPOLARTRANSISTORS:1||longevity:1||Confocal microscopy:1||Colloidal wettability:1||ATOMICFORCE MICROSCOPY:1||storage ring:1||digital subtraction:1||SCATTERING:1||size effect:1||SYNTHETIC QUARTZ:1||liquid metal embrittlement:1||iron ore:1||cube textured Ni substrates:1||SrRuO3 films:1||laser ablations:1||Ti underlayer:1||RANDOMACCESS MEMORIES:1||DOMAIN CONFIGURATIONS:1||MGO(100):1||SPECTROSCOPY:1||XE:1||IONBEAM:1||GRAINBOUNDARY MIGRATION:1||SRTIO3:1||COMPOSITES:1||FOAMS:1||BREASTCANCER SPECIMENS:1||unmonochromatized:1||Xray induced nucleation:1||gold:1||ABSORPTION:1||SEPARATION:1||CZOCHRALSKI GROWTH:1||RETRIEVAL:1||GAMMARADIATION:1||AQUEOUSSOLUTION:1||NANOCOMPOSITES:1||INCREASE:1||without staining procedure:1||XPS:1||Imaging techniques:1||Interfaces (materials):1||Dislocation distributions:1||AZOBENZENE:1||STRUCTURAL EVOLUTION:1||RELAXATION:1||DROP IMPACT:1||NONLINEAR DYNAMICS:1||DISLOCATIONS:1||Colloids:1||TRANSFORMATION:1||METAL INTERCONNECTS:1||ELASTIC CONDUCTORS:1||LOGIC:1||DEFICIENT MICE:1||tomography:1||FACILITY:1||osseointegration:1||ROCKS:1||dental radiography:1||Zn coating:1||RE2O3/Ni:1||YBCO COATED CONDUCTORS:1||threedimensional islands:1||(Ba,Sr)TiO3:1||ultrahigh resolution:1||photoelectron emission:1||Pd:1||LANIO3:1||BASE ELECTRODES:1||iron oxide phase:1||ironoxide interlayer:1||COATED GLASS SUBSTRATE:1||MICROWAVE PLASMA NUCLEATION:1||ENHANCED NUCLEATION:1||phase transformation:1||ADSORPTION:1||phasecontrast xray imaging:1||lung inflammation:1||SI1XGEX SINGLECRYSTALS:1||COCONTINUITY:1||SCALE:1||OBJECT:1||synchrotron microradiography:1||FeSO4:1||INDUCTION:1||BaTiO3 and SrTiO3 thin films:1||HARDXRAYS:1||light emitting diodes:1||ACID:1||MICROSTRUCTURES:1||PHOTOLUMINESCENCE PROPERTIES:1||LASER IRRADIATION:1||Human aging:1||polychromatic synchrotron Xray:1||refraction enhanced imaging:1||CHROMOPHORES:1||ACUTE LUNG INJURY:1||spatial resolution:1||BETAFESI2:1||VLSI:1||SI1XGEX:1||COLLOIDAL SUSPENSIONS:1||ELECTRONICS:1||ENHANCEMENT:1||artificial lattice:1||sinters:1||SILVER:1||STRAIN RELAXATION:1||biaxial texture:1||synchrotron scattering:1||transmission electron microscopy:1||IRONOXIDE FILMS:1||PZT thin film:1||ferroelectric thin film:1||MISFIT RELAXATION MECHANISMS:1||PBTIO3:1||O2:1||CONDUCTING POLYMERS:1||poly(methylmethancrylate):1||microspheres:1||phase contrast Xray microscope:1||AMBIENT AIR:1||ATMOSPHERE:1||XRAY INTERFEROMETER:1||NiAu composite nanoparticles.:1||synchrotron radiation Xrays:1||microtomography:1||OIL FLYASH:1||zinc oxide:1||mammography:1||SrRuO3 film:1||Laser epitaxy:1||HOLE MOBILITY:1||Models of crystal defects:1||RABBIT LUNGS:1||NI/AU CONTACT:1||3D printing:1||Stress relaxation:1||SURFACEAREA:1||IMAGE:1||modulation transfer function (MTF):1||Pb ions:1||Insitu visualization:1||Interfacial tension:1||DISPERSION FORCES:1||SINGLECRYSTALS:1||XRAY SOURCE:1||Synchrotron Xray imaging:1||Realtime imaging:1||MEDICAL APPLICATIONS:1||wiggler bending magnet:1||undulator:1||diffractionenhanced imaging:1||ZnO film:1||CAPACITORS:1||HE3:1||NiP alloy:1||PHOTOCHEMICAL FORMATION:1||extended domain matching:1||cubetextured Ni substrates:1||RAY COMPUTEDTOMOGRAPHY:1||electrode layer:1||DOMAINSTRUCTURE:1||XRAY CT:1||SPECIMEN:1||mammographic phantom:1||Xray absorption spectroscopy:1||BLUE:1||CONTACT:1||(BA:1||synchrotron spectromicroscopy:1||thin film:1||MICROWAVE PLASMA:1||GOLD NANOPARTICLES:1||POLYMERIZATION:1||DISEASE:1||Shanghai:1||MORTALITY:1||HETEROSTRUCTURES:1||METHACRYLATE:1||prostate cancer:1||renal cell carcinoma:1||RATS:1||PULSEDLASER DEPOSITION:1||semiconducting IIVI materials:1||PATTERNS:1||sapphire:1||evaporation:1||ZINCOXIDE:1||LIGHTEMITTING DIODE:1||Synchrotron imaging:1||Dislocations:1||Cracks:1||LIVE:1||spinal cord:1||stainless steel:1||nanophotonics:1||subwavelength waveguides:1||Synchrotrons:1||High dislocation density:1||Misfit stress relaxations:1||Randomly distributed:1||Tripleaxis xray diffractions:1||FLOW:1||CRYSTALLINE ORGANIC NANORODS:1||SHAPE CHANGES:1||ZnO thin film:1||(111)SI:1||XRAY MIRRORS:1||low temperature:1||oxide cathodes:1||heterogeneity:1||Xray microscopy:1||INTERFACIAL TENSIONS:1||single crystal growth:1||CARCINOMA:1||mouse:1||ANIMALS:1||Mndoped ZnO:1||luminescence:1||solution precipitation:1||CLUSTER:1||relaxation:1||ALPHAFE2O3:1||XANES:1||epitaxy:1||LaNiO3 thin film:1||LANIO3 THINFILMS:1||ELECTRODE:1||Fe3O4 sublayer:1||EXAFS microscopy:1||FERRITE FILMS:1||SURFACE PRETREATMENTS:1||superconductors:1||CONTRAST AGENT:1||BIODISTRIBUTION:1||DEATH:1||SYNCHROTRON:1||IR:1||apo Eknockout mouse:1||plaque:1||microradiology:1||ALPHASYNUCLEIN:1||PULMONARY TOXICITY:1||XRAY TOPOGRAPHY:1||dislocation:1||metalorganic chemical vapor deposition:1||CRYSTALGROWTH:1||SELFASSEMBLED MONOLAYERS:1||MEMBRANES:1||MAGNETICANISOTROPY:1||SI1XGEX CRYSTALS:1||STRAINEDSI:1||Extended Weibull model:1||MOLYBDENUM:1||ALLOYS:1||IRON:1||Theoretical modeling:1||Threading dislocation:1||GROWTH:27||THINFILMS:16||SYNCHROTRONRADIATION:15||CONTRAST:11||RADIOLOGY:11||PARTICLES:11||FILMS:11||SILICON:10||RADIATION:10||DEPOSITION:10||RESOLUTION:9||CRYSTALS:8||SILICONCARBIDE:7||XRAYS:7||MAMMOGRAPHY:7||Xray diffraction:7||synchrotron radiation:6||XRAYSCATTERING:6||MODEL:6||microstructure:6||DYNAMICS:5||ELECTRODEPOSITION:5||LAYERS:5||CHEMICALVAPORDEPOSITION:5||TEMPERATURE:5||TOMOGRAPHY:5||COMPUTEDTOMOGRAPHY:5||SAPPHIRE:5||MEDIA:5||NANOWIRES:5||DIFFRACTION:4||TISSUES:4||pulsed laser deposition:4||phase contrast imaging:4||LAYER:4||IMAGES:4||DIODES:4||FIELDEFFECT TRANSISTORS:4||ptype GaN:4||MICROSCOPY:4||REDUCTION:4||POLYMER:4||DEFECTS:3||COHERENCE:3||MICROTOMOGRAPHY:3||NANOPARTICLES:3||synchrotron:3||LIGHT:3||TRANSISTORS:3||SURFACES:3||STRAIN:3||EPITAXIAL LAYERS:3||DRUGDELIVERY:3||REFRACTION:3||growth mechanism:3||METALS:3||MICROPIPES:3||SYSTEM:3||NUCLEATION:3||synchrotron Xray scattering:3||SURFACE:3||SCREW DISLOCATIONS:3||SIMULATION:3||HARD XRAYS:3||ELECTRICALPROPERTIES:3||EPITAXY:3||GAN:3||PM2.5:3||EVAPORATION:3||LIQUIDS:3||INPLANE:3||RAT:3||ANGIOGENESIS:3||CT:3||GaN:3||ZnO:3||NANORODS:3||strain:3||PB(ZR0.53TI0.47)O3:3||CRYSTALLIZATION:3||synchrotron Xrays:2||buffer layer:2||TRANSMISSION ELECTRONMICROSCOPY:2||EPITAXIAL COSI2 FILMS:2||MECHANISMS:2||INSITU GROWTH:2||DEVICE:2||LOCALIZED ELECTROCHEMICAL DEPOSITION:2||X ray diffraction:2||SCHOTTKY CONTACT:2||IRRADIATION:2||aqua regia treatment:2||INVIVO:2||CELLADHESION:2||MORPHOGENETIC PROTEIN2:2||RECEPTOR:2||TEM:2||broadband synchrotron light:2||nanoparticle:2||BUFFER LAYERS:2||TC:2||ENHANCED SYNCHROTRON RADIOLOGY:2||synthesis:2||POLYDIMETHYLSILOXANE:2||MICROCHANNELS:2||PRETREATMENT PROCESS:2||XRAY:2||CHEMOTAXIS:2||MECHANOSENSORY TRANSDUCTION:2||rectangular microtube:2||CONJUGATED POLYMER:2||atomic force microscopy:2||METALLIC OXIDE SRRUO3:2||LASERABLATION:2||STRESS:2||ZONE PLATES:2||FRICTION:2||THERMALSTABILITY:2||Xrays:2||RAY:2||NM:2||ENERGY:2||TOPOGRAPHY:2||synchrotron Xray:2||ACID HYDROGELS:2||CAENORHABDITISELEGANS:2||PROTEIN:2||defects:2||EVOLUTION:2||FABRICATION:2||sharp bending waveguide:2||lasing action:2||BULK CRYSTALS:2||SUPERLATTICES:2||COATED CONDUCTORS:2||SI(111):2||phase contrast:2||CORONARY ANGIOGRAPHY:2||SPECTROMICROSCOPY:2||MEPHISTO:2||OXYGEN:2||OPTICALPROPERTIES:2||RADIOGRAPHY:2||CONTACT DEFORMATIONS:2||MOLECULAR FORCES:2||SOLIDS:2||NTYPE GAN:2||deposition:2||CHEMISTRY:2||DEFORMATION:2||SUBSTRATE:2||HETEROEPITAXY:2||NANOTOPOGRAPHY:2||EPITAXIALGROWTH:2||Xray:2||CHEMICAL VAPORDEPOSITION:2||SILICON STRUCTURES:2||STEMCELLS:2||CHANNEL:2||crystal structure:2||CORONARYANGIOGRAPHY:2||SiC:2||BUFFER LAYER:2||MOLECULARBEAM EPITAXY:2||INTERFACE:2||SIZE:2||ELECTRON:2||XRAY MICROSCOPY:2||MORPHOLOGIES:2||NANOCOLLOIDS:2||FORCE MICROSCOPY:2||ablation:2||polymers:2||(NH4)(2)Sx treatment:2||CLUSTERS:2||BIOMATERIALS:2||CIRCUITS:2||rectangular ring mode:2||GUIDES:2||MICROCAVITY:2||PHOTOLUMINESCENCE:2||epitaxial growth:2||EMBRITTLEMENT:2||Xray imaging:2||BIOCOMPATIBILITY:2||BEHAVIOR:2||MICROWAVEPLASMA:2||LOWPRESSURE:2||DEGRADATION:2||TISSUE:2||LIQUID:2||SOFT LITHOGRAPHY:2||amplified spontaneous emission (ASE):2||SMALL ORGANICMOLECULES:2||PHOTONIC CRYSTAL:2||micropipes:2||radiology:2||ALLOY:2||Xray scattering:2||CRITICALCURRENT DENSITY:2||ELECTRONMICROSCOPY:2||BI(PB)SRCACUO:2||ELECTRONICSTRUCTURE:2||RECONSTRUCTION:2||MG:2||ohmic contact:2||Pd ohmic contact:2||xray scattering:2||INP:2||annealing:2||REGENERATION:2||TITANIUM:2||COLLOIDAL GOLD:2||crystallization:2||BUCKLING MECHANICS:2||LASERS:2||MODES:2||synchrotron imaging:2||lattice distortion:2||AQUEOUSELECTROLYTE:2||MOLECULARDYNAMICS:2||OXIDE:2||MICROANGIOGRAPHY:2||OXIDATION:2||MICRORADIOLOGY:2||TECHNOLOGY:2||GE:2||surface chemistry:2||RECOVERY:2||OHMIC CONTACTS:2||LASERDIODES:2||PTYPE GAN:2||MOTION:2||PHANTOM:2||PHASE:2||CALCIUMPHOSPHATE CERAMICS:2||REPAIR:2||porphyrin:2||AMPLIFIED SPONTANEOUS EMISSION:2||METALELECTRODES:2||PD:2||SUPERCONDUCTING TAPES:2||nucleation:2||COATINGS:2||Xray topography:2||MONOLAYERS:2||SURFACE MODIFICATION:2||LITHOGRAPHY:2||MECHANICAL VENTILATION:1||MICRORIBBONS:1||STIFFNESS:1||DUALPHASE STEEL:1||growth mode:1||strain evolution:1||SI(100):1||ANISOTROPY:1||WET GRANULAR PILE:1||COALESCENCE:1||INSITU POLYMERIZATION:1||GRAPHENE:1||CANCER:1||NODULES:1||RABBITS:1||phasecontrast:1||YTTRIUMOXIDE FILMS:1||BaTiO3/SrTiO3:1||dental implant:1||coincidence site density:1||ERNI2B2C:1||crystallites:1||CoCrPt films:1||tensile strain:1||gallide:1||MGO:1||Baferrite film:1||synchrotron xray scattering:1||ZNO THINFILMS:1||MORPHOLOGY:1||PHASES:1||MICE:1||EBEAM LITHOGRAPHY:1||electrorheological fluids:1||NANOFIBROUS MEMBRANES:1||NANOLITHOGRAPHY:1||refractive index radiology:1||BLOOD:1||colloidal:1||SIZE CONTROL:1||nanoradiology:1||ZnSO4:1||lung injury:1||METAL:1||PM10:1||textured grain:1||MICROSTRUCTURE:1||DIMENSIONS:1||highresolution Xray diffraction:1||low temperature buffer:1||Zinc compounds:1||SI:1||HUMAN LONGEVITY:1||Maximum human lifespan:1||LIMITS:1||MOSFETS:1||in situ XANES:1||nanowires:1||PHOTOIRRADIATION:1||FIBERS:1||WORK:1||EMISSION:1||RADIATION MICROTOMOGRAPHY:1||RAMANSCATTERING:1||gold nanoparticles:1||synchrotron Xray diffraction:1||OPTICAL WAVEGUIDES:1||CONDUCTINGPOLYMER NANOWIRE:1||Lung cancer:1||INTRAVENOUS CORONARYARTERIOGRAPHY:1||SUBLIMATION GROWTH:1||radiography:1||porous SiC:1||GIANT MAGNETORESISTANCE:1||SEMICONDUCTORS:1||Ga diffusion:1||electroless deposition:1||HEMATITE:1||FREEELECTRON LASER:1||MOCVD:1||interfaces:1||white beam:1||imaging technique:1||nucleation layer:1||interface structure:1||epitaxial Baferrite film:1||rf magnetron sputtering:1||MAGNETIC CHARACTERISTICS:1||MIXTURE:1||ACCESS MEMORY APPLICATION:1||COHERENCY STRAIN:1||DENSITY:1||nanofabrication:1||POLY(METHYL METHACRYLATE) MICROSPHERE:1||RESIST:1||unmonochromatic beam:1||MICRORADIOGRAPHY:1||INTERFEROMETER:1||EXPOSURE:1||volume variation electronic:1||PULSEDLASER ABLATION:1||Semiconducting IIVI materials:1||Light emitting diodes:1||phase contrast microscopies:1||lung:1||AUGERELECTRON SPECTROSCOPY:1||passivation:1||additive manufacturing:1||Silicon carbide:1||Synchrotron radiation:1||Synchrotron radiation imaging:1||Dislocations (crystals):1||LUNG INJURY:1||POLYMER SURFACES:1||SINGLE CELLS:1||PREFERRED ORIENTATION:1||sapphire orientation:1||TANTALUM:1||BIASENHANCED NUCLEATION:1||hexaferrite:1||stretched exponential:1||SOLIDSURFACE:1||SHEAR:1||VIDEO MICROSCOPY:1||CARBON NANOTUBES:1||realtime observation:1||Xray synchrotron:1||CARBONMONOXIDE:1||ELECTROCHEMICAL FABRICATION:1||crystal growth:1||computer simulation:1||FERROELECTRICFILMS:1||TITANIUM IMPLANTS:1||BONE INTERFACE:1||EXAFS perpendicular magnetic recording:1||Pd/Ni:1||ELECTRODES:1||internal organ:1||LIGHTEMITTINGDIODES:1||interfacial structure:1||CONSTANT:1||DIELECTRICPROPERTIES:1||AR:1||DEVICES:1||BiSrCaCuO:1||LASER ABLATION:1||MECHANISM:1||SELECTIVE DEPOSITION:1||TARGETED DRUGDELIVERY:1||PEG:1||carbon nanotubes:1||nanocharacterization:1||WALLED CARBON NANOTUBE:1||basal cell carcinoma:1||PARTICULATE AIRPOLLUTION:1||FINE:1||CITIES:1||DOPED ZNO FILMS:1||atherosclerosis:1||drug delivery:1||hard Xray:1||COMBUSTION:1||ARTIFICIAL BATIO3/SRTIO3 SUPERLATTICES:1||surface morphology:1||Direct wafer bonding:1||COLLOIDAL GOLD PARTICLES:1||DELINEATION:1||EXPECTANCY:1||DEMOGRAPHY:1||MRI:1||SIGE:1||Phase contrast microradiography:1||INJURY:1||PASSIVITY:1||VOLUME:1||CONTACTANGLE:1||ARRAYS:1||DUCTILITY:1||sputtering:1||computed microtomography (mu CT):1||unmonochromatized Xray:1||BIPOLARTRANSISTORS:1||longevity:1||Confocal microscopy:1||Colloidal wettability:1||ATOMICFORCE MICROSCOPY:1||storage ring:1||digital subtraction:1||SCATTERING:1||size effect:1||SYNTHETIC QUARTZ:1||liquid metal embrittlement:1||iron ore:1||cube textured Ni substrates:1||SrRuO3 films:1||laser ablations:1||Ti underlayer:1||RANDOMACCESS MEMORIES:1||DOMAIN CONFIGURATIONS:1||MGO(100):1||SPECTROSCOPY:1||XE:1||IONBEAM:1||GRAINBOUNDARY MIGRATION:1||SRTIO3:1||COMPOSITES:1||FOAMS:1||BREASTCANCER SPECIMENS:1||unmonochromatized:1||Xray induced nucleation:1||gold:1||ABSORPTION:1||SEPARATION:1||CZOCHRALSKI GROWTH:1||RETRIEVAL:1||GAMMARADIATION:1||AQUEOUSSOLUTION:1||NANOCOMPOSITES:1||INCREASE:1||without staining procedure:1||XPS:1||Imaging techniques:1||Interfaces (materials):1||Dislocation distributions:1||AZOBENZENE:1||STRUCTURAL EVOLUTION:1||RELAXATION:1||DROP IMPACT:1||NONLINEAR DYNAMICS:1||DISLOCATIONS:1||Colloids:1||TRANSFORMATION:1||METAL INTERCONNECTS:1||ELASTIC CONDUCTORS:1||LOGIC:1||DEFICIENT MICE:1||tomography:1||FACILITY:1||osseointegration:1||ROCKS:1||dental radiography:1||Zn coating:1||RE2O3/Ni:1||YBCO COATED CONDUCTORS:1||threedimensional islands:1||(Ba,Sr)TiO3:1||ultrahigh resolution:1||photoelectron emission:1||Pd:1||LANIO3:1||BASE ELECTRODES:1||iron oxide phase:1||ironoxide interlayer:1||COATED GLASS SUBSTRATE:1||MICROWAVE PLASMA NUCLEATION:1||ENHANCED NUCLEATION:1||phase transformation:1||ADSORPTION:1||phasecontrast xray imaging:1||lung inflammation:1||SI1XGEX SINGLECRYSTALS:1||COCONTINUITY:1||SCALE:1||OBJECT:1||synchrotron microradiography:1||FeSO4:1||INDUCTION:1||BaTiO3 and SrTiO3 thin films:1||HARDXRAYS:1||light emitting diodes:1||ACID:1||MICROSTRUCTURES:1||PHOTOLUMINESCENCE PROPERTIES:1||LASER IRRADIATION:1||Human aging:1||polychromatic synchrotron Xray:1||refraction enhanced imaging:1||CHROMOPHORES:1||ACUTE LUNG INJURY:1||spatial resolution:1||BETAFESI2:1||VLSI:1||SI1XGEX:1||COLLOIDAL SUSPENSIONS:1||ELECTRONICS:1||ENHANCEMENT:1||artificial lattice:1||sinters:1||SILVER:1||STRAIN RELAXATION:1||biaxial texture:1||synchrotron scattering:1||transmission electron microscopy:1||IRONOXIDE FILMS:1||PZT thin film:1||ferroelectric thin film:1||MISFIT RELAXATION MECHANISMS:1||PBTIO3:1||O2:1||CONDUCTING POLYMERS:1||poly(methylmethancrylate):1||microspheres:1||phase contrast Xray microscope:1||AMBIENT AIR:1||ATMOSPHERE:1||XRAY INTERFEROMETER:1||NiAu composite nanoparticles.:1||synchrotron radiation Xrays:1||microtomography:1||OIL FLYASH:1||zinc oxide:1||mammography:1||SrRuO3 film:1||Laser epitaxy:1||HOLE MOBILITY:1||Models of crystal defects:1||RABBIT LUNGS:1||NI/AU CONTACT:1||3D printing:1||Stress relaxation:1||SURFACEAREA:1||IMAGE:1||modulation transfer function (MTF):1||Pb ions:1||Insitu visualization:1||Interfacial tension:1||DISPERSION FORCES:1||SINGLECRYSTALS:1||XRAY SOURCE:1||Synchrotron Xray imaging:1||Realtime imaging:1||MEDICAL APPLICATIONS:1||wiggler bending magnet:1||undulator:1||diffractionenhanced imaging:1||ZnO film:1||CAPACITORS:1||HE3:1||NiP alloy:1||PHOTOCHEMICAL FORMATION:1||extended domain matching:1||cubetextured Ni substrates:1||RAY COMPUTEDTOMOGRAPHY:1||electrode layer:1||DOMAINSTRUCTURE:1||XRAY CT:1||SPECIMEN:1||mammographic phantom:1||Xray absorption spectroscopy:1||BLUE:1||CONTACT:1||(BA:1||synchrotron spectromicroscopy:1||thin film:1||MICROWAVE PLASMA:1||GOLD NANOPARTICLES:1||POLYMERIZATION:1||DISEASE:1||Shanghai:1||MORTALITY:1||HETEROSTRUCTURES:1||METHACRYLATE:1||prostate cancer:1||renal cell carcinoma:1||RATS:1||PULSEDLASER DEPOSITION:1||semiconducting IIVI materials:1||PATTERNS:1||sapphire:1||evaporation:1||ZINCOXIDE:1||LIGHTEMITTING DIODE:1||Synchrotron imaging:1||Dislocations:1||Cracks:1||LIVE:1||spinal cord:1||stainless steel:1||nanophotonics:1||subwavelength waveguides:1||Synchrotrons:1||High dislocation density:1||Misfit stress relaxations:1||Randomly distributed:1||Tripleaxis xray diffractions:1||FLOW:1||CRYSTALLINE ORGANIC NANORODS:1||SHAPE CHANGES:1||ZnO thin film:1||(111)SI:1||XRAY MIRRORS:1||low temperature:1||oxide cathodes:1||heterogeneity:1||Xray microscopy:1||INTERFACIAL TENSIONS:1||single crystal growth:1||CARCINOMA:1||mouse:1||ANIMALS:1||Mndoped ZnO:1||luminescence:1||solution precipitation:1||CLUSTER:1||relaxation:1||ALPHAFE2O3:1||XANES:1||epitaxy:1||LaNiO3 thin film:1||LANIO3 THINFILMS:1||ELECTRODE:1||Fe3O4 sublayer:1||EXAFS microscopy:1||FERRITE FILMS:1||SURFACE PRETREATMENTS:1||superconductors:1||CONTRAST AGENT:1||BIODISTRIBUTION:1||DEATH:1||SYNCHROTRON:1||IR:1||apo Eknockout mouse:1||plaque:1||microradiology:1||ALPHASYNUCLEIN:1||PULMONARY TOXICITY:1||XRAY TOPOGRAPHY:1||dislocation:1||metalorganic chemical vapor deposition:1||CRYSTALGROWTH:1||SELFASSEMBLED MONOLAYERS:1||MEMBRANES:1||MAGNETICANISOTROPY:1||SI1XGEX CRYSTALS:1||STRAINEDSI:1||Extended Weibull model:1||MOLYBDENUM:1||ALLOYS:1||IRON:1||Theoretical modeling:1||Threading dislocation:1||GROWTH:27||THINFILMS:16||SYNCHROTRONRADIATION:15||CONTRAST:11||RADIOLOGY:11||PARTICLES:11||FILMS:11||SILICON:10||RADIATION:10||DEPOSITION:10||RESOLUTION:9||CRYSTALS:8||SILICONCARBIDE:7||XRAYS:7||MAMMOGRAPHY:7||Xray diffraction:7||synchrotron radiation:6||XRAYSCATTERING:6||MODEL:6||microstructure:6||DYNAMICS:5||ELECTRODEPOSITION:5||LAYERS:5||CHEMICALVAPORDEPOSITION:5||TEMPERATURE:5||TOMOGRAPHY:5||COMPUTEDTOMOGRAPHY:5||SAPPHIRE:5||MEDIA:5||NANOWIRES:5||DIFFRACTION:4||TISSUES:4||pulsed laser deposition:4||phase contrast imaging:4||LAYER:4||IMAGES:4||DIODES:4||FIELDEFFECT TRANSISTORS:4||ptype GaN:4||MICROSCOPY:4||REDUCTION:4||POLYMER:4||DEFECTS:3||COHERENCE:3||MICROTOMOGRAPHY:3||NANOPARTICLES:3||synchrotron:3||LIGHT:3||TRANSISTORS:3||SURFACES:3||STRAIN:3||EPITAXIAL LAYERS:3||DRUGDELIVERY:3||REFRACTION:3||growth mechanism:3||METALS:3||MICROPIPES:3||SYSTEM:3||NUCLEATION:3||synchrotron Xray scattering:3||SURFACE:3||SCREW DISLOCATIONS:3||SIMULATION:3||HARD XRAYS:3||ELECTRICALPROPERTIES:3||EPITAXY:3||GAN:3||PM2.5:3||EVAPORATION:3||LIQUIDS:3||INPLANE:3||RAT:3||ANGIOGENESIS:3||CT:3||GaN:3||ZnO:3||NANORODS:3||strain:3||PB(ZR0.53TI0.47)O3:3||CRYSTALLIZATION:3||synchrotron Xrays:2||buffer layer:2||TRANSMISSION ELECTRONMICROSCOPY:2||EPITAXIAL COSI2 FILMS:2||MECHANISMS:2||INSITU GROWTH:2||DEVICE:2||LOCALIZED ELECTROCHEMICAL DEPOSITION:2||X ray diffraction:2||SCHOTTKY CONTACT:2||IRRADIATION:2||aqua regia treatment:2||INVIVO:2||CELLADHESION:2||MORPHOGENETIC PROTEIN2:2||RECEPTOR:2||TEM:2||broadband synchrotron light:2||nanoparticle:2||BUFFER LAYERS:2||TC:2||ENHANCED SYNCHROTRON RADIOLOGY:2||synthesis:2||POLYDIMETHYLSILOXANE:2||MICROCHANNELS:2||PRETREATMENT PROCESS:2||XRAY:2||CHEMOTAXIS:2||MECHANOSENSORY TRANSDUCTION:2||rectangular microtube:2||CONJUGATED POLYMER:2||atomic force microscopy:2||METALLIC OXIDE SRRUO3:2||LASERABLATION:2||STRESS:2||ZONE PLATES:2||FRICTION:2||THERMALSTABILITY:2||Xrays:2||RAY:2||NM:2||ENERGY:2||TOPOGRAPHY:2||synchrotron Xray:2||ACID HYDROGELS:2||CAENORHABDITISELEGANS:2||PROTEIN:2||defects:2||EVOLUTION:2||FABRICATION:2||sharp bending waveguide:2||lasing action:2||BULK CRYSTALS:2||SUPERLATTICES:2||COATED CONDUCTORS:2||SI(111):2||phase contrast:2||CORONARY ANGIOGRAPHY:2||SPECTROMICROSCOPY:2||MEPHISTO:2||OXYGEN:2||OPTICALPROPERTIES:2||RADIOGRAPHY:2||CONTACT DEFORMATIONS:2||MOLECULAR FORCES:2||SOLIDS:2||NTYPE GAN:2||deposition:2||CHEMISTRY:2||DEFORMATION:2||SUBSTRATE:2||HETEROEPITAXY:2||NANOTOPOGRAPHY:2||EPITAXIALGROWTH:2||Xray:2||CHEMICAL VAPORDEPOSITION:2||SILICON STRUCTURES:2||STEMCELLS:2||CHANNEL:2||crystal structure:2||CORONARYANGIOGRAPHY:2||SiC:2||BUFFER LAYER:2||MOLECULARBEAM EPITAXY:2||INTERFACE:2||SIZE:2||ELECTRON:2||XRAY MICROSCOPY:2||MORPHOLOGIES:2||NANOCOLLOIDS:2||FORCE MICROSCOPY:2||ablation:2||polymers:2||(NH4)(2)Sx treatment:2||CLUSTERS:2||BIOMATERIALS:2||CIRCUITS:2||rectangular ring mode:2||GUIDES:2||MICROCAVITY:2||PHOTOLUMINESCENCE:2||epitaxial growth:2||EMBRITTLEMENT:2||Xray imaging:2||BIOCOMPATIBILITY:2||BEHAVIOR:2||MICROWAVEPLASMA:2||LOWPRESSURE:2||DEGRADATION:2||TISSUE:2||LIQUID:2||SOFT LITHOGRAPHY:2||amplified spontaneous emission (ASE):2||SMALL ORGANICMOLECULES:2||PHOTONIC CRYSTAL:2||micropipes:2||radiology:2||ALLOY:2||Xray scattering:2||CRITICALCURRENT DENSITY:2||ELECTRONMICROSCOPY:2||BI(PB)SRCACUO:2||ELECTRONICSTRUCTURE:2||RECONSTRUCTION:2||MG:2||ohmic contact:2||Pd ohmic contact:2||xray scattering:2||INP:2||annealing:2||REGENERATION:2||TITANIUM:2||COLLOIDAL GOLD:2||crystallization:2||BUCKLING MECHANICS:2||LASERS:2||MODES:2||synchrotron imaging:2||lattice distortion:2||AQUEOUSELECTROLYTE:2||MOLECULARDYNAMICS:2||OXIDE:2||MICROANGIOGRAPHY:2||OXIDATION:2||MICRORADIOLOGY:2||TECHNOLOGY:2||GE:2||surface chemistry:2||RECOVERY:2||OHMIC CONTACTS:2||LASERDIODES:2||PTYPE GAN:2||MOTION:2||PHANTOM:2||PHASE:2||CALCIUMPHOSPHATE CERAMICS:2||REPAIR:2||porphyrin:2||AMPLIFIED SPONTANEOUS EMISSION:2||METALELECTRODES:2||PD:2||SUPERCONDUCTING TAPES:2||nucleation:2||COATINGS:2||Xray topography:2||MONOLAYERS:2||SURFACE MODIFICATION:2||LITHOGRAPHY:2||MECHANICAL VENTILATION:1||MICRORIBBONS:1||STIFFNESS:1||DUALPHASE STEEL:1||growth mode:1||strain evolution:1||SI(100):1||ANISOTROPY:1||WET GRANULAR PILE:1||COALESCENCE:1||INSITU POLYMERIZATION:1||GRAPHENE:1||CANCER:1||NODULES:1||RABBITS:1||phasecontrast:1||YTTRIUMOXIDE FILMS:1||BaTiO3/SrTiO3:1||dental implant:1||coincidence site density:1||ERNI2B2C:1||crystallites:1||CoCrPt films:1||tensile strain:1||gallide:1||MGO:1||Baferrite film:1||synchrotron xray scattering:1||ZNO THINFILMS:1||MORPHOLOGY:1||PHASES:1||MICE:1||EBEAM LITHOGRAPHY:1||electrorheological fluids:1||NANOFIBROUS MEMBRANES:1||NANOLITHOGRAPHY:1||refractive index radiology:1||BLOOD:1||colloidal:1||SIZE CONTROL:1||nanoradiology:1||ZnSO4:1||lung injury:1||METAL:1||PM10:1||textured grain:1||MICROSTRUCTURE:1||DIMENSIONS:1||highresolution Xray diffraction:1||low temperature buffer:1||Zinc compounds:1||SI:1||HUMAN LONGEVITY:1||Maximum human lifespan:1||LIMITS:1||MOSFETS:1||in situ XANES:1||nanowires:1||PHOTOIRRADIATION:1||FIBERS:1||WORK:1||EMISSION:1||RADIATION MICROTOMOGRAPHY:1||RAMANSCATTERING:1||gold nanoparticles:1||synchrotron Xray diffraction:1||OPTICAL WAVEGUIDES:1||CONDUCTINGPOLYMER NANOWIRE:1||Lung cancer:1||INTRAVENOUS CORONARYARTERIOGRAPHY:1||SUBLIMATION GROWTH:1||radiography:1||porous SiC:1||GIANT MAGNETORESISTANCE:1||SEMICONDUCTORS:1||Ga diffusion:1||electroless deposition:1||HEMATITE:1||FREEELECTRON LASER:1||MOCVD:1||interfaces:1||white beam:1||imaging technique:1||nucleation layer:1||interface structure:1||epitaxial Baferrite film:1||rf magnetron sputtering:1||MAGNETIC CHARACTERISTICS:1||MIXTURE:1||ACCESS MEMORY APPLICATION:1||COHERENCY STRAIN:1||DENSITY:1||nanofabrication:1||POLY(METHYL METHACRYLATE) MICROSPHERE:1||RESIST:1||unmonochromatic beam:1||MICRORADIOGRAPHY:1||INTERFEROMETER:1||EXPOSURE:1||volume variation electronic:1||PULSEDLASER ABLATION:1||Semiconducting IIVI materials:1||Light emitting diodes:1||phase contrast microscopies:1||lung:1||AUGERELECTRON SPECTROSCOPY:1||passivation:1||additive manufacturing:1||Silicon carbide:1||Synchrotron radiation:1||Synchrotron radiation imaging:1||Dislocations (crystals):1||LUNG INJURY:1||POLYMER SURFACES:1||SINGLE CELLS:1||PREFERRED ORIENTATION:1||sapphire orientation:1||TANTALUM:1||BIASENHANCED NUCLEATION:1||hexaferrite:1||stretched exponential:1||SOLIDSURFACE:1||SHEAR:1||VIDEO MICROSCOPY:1||CARBON NANOTUBES:1||realtime observation:1||Xray synchrotron:1||CARBONMONOXIDE:1||ELECTROCHEMICAL FABRICATION:1||crystal growth:1||computer simulation:1||FERROELECTRICFILMS:1||TITANIUM IMPLANTS:1||BONE INTERFACE:1||EXAFS perpendicular magnetic recording:1||Pd/Ni:1||ELECTRODES:1||internal organ:1||LIGHTEMITTINGDIODES:1||interfacial structure:1||CONSTANT:1||DIELECTRICPROPERTIES:1||AR:1||DEVICES:1||BiSrCaCuO:1||LASER ABLATION:1||MECHANISM:1||SELECTIVE DEPOSITION:1||TARGETED DRUGDELIVERY:1||PEG:1||carbon nanotubes:1||nanocharacterization:1||WALLED CARBON NANOTUBE:1||basal cell carcinoma:1||PARTICULATE AIRPOLLUTION:1||FINE:1||CITIES:1||DOPED ZNO FILMS:1||atherosclerosis:1||drug delivery:1||hard Xray:1||COMBUSTION:1||ARTIFICIAL BATIO3/SRTIO3 SUPERLATTICES:1||surface morphology:1||Direct wafer bonding:1||COLLOIDAL GOLD PARTICLES:1||DELINEATION:1||EXPECTANCY:1||DEMOGRAPHY:1||MRI:1||SIGE:1||Phase contrast microradiography:1||INJURY:1||PASSIVITY:1||VOLUME:1||CONTACTANGLE:1||ARRAYS:1||DUCTILITY:1||sputtering:1||computed microtomography (mu CT):1||unmonochromatized Xray:1||BIPOLARTRANSISTORS:1||longevity:1||Confocal microscopy:1||Colloidal wettability:1||ATOMICFORCE MICROSCOPY:1||storage ring:1||digital subtraction:1||SCATTERING:1||size effect:1||SYNTHETIC QUARTZ:1||liquid metal embrittlement:1||iron ore:1||cube textured Ni substrates:1||SrRuO3 films:1||laser ablations:1||Ti underlayer:1||RANDOMACCESS MEMORIES:1||DOMAIN CONFIGURATIONS:1||MGO(100):1||SPECTROSCOPY:1||XE:1||IONBEAM:1||GRAINBOUNDARY MIGRATION:1||SRTIO3:1||COMPOSITES:1||FOAMS:1||BREASTCANCER SPECIMENS:1||unmonochromatized:1||Xray induced nucleation:1||gold:1||ABSORPTION:1||SEPARATION:1||CZOCHRALSKI GROWTH:1||RETRIEVAL:1||GAMMARADIATION:1||AQUEOUSSOLUTION:1||NANOCOMPOSITES:1||INCREASE:1||without staining procedure:1||XPS:1||Imaging techniques:1||Interfaces (materials):1||Dislocation distributions:1||AZOBENZENE:1||STRUCTURAL EVOLUTION:1||RELAXATION:1||DROP IMPACT:1||NONLINEAR DYNAMICS:1||DISLOCATIONS:1||Colloids:1||TRANSFORMATION:1||METAL INTERCONNECTS:1||ELASTIC CONDUCTORS:1||LOGIC:1||DEFICIENT MICE:1||tomography:1||FACILITY:1||osseointegration:1||ROCKS:1||dental radiography:1||Zn coating:1||RE2O3/Ni:1||YBCO COATED CONDUCTORS:1||threedimensional islands:1||(Ba,Sr)TiO3:1||ultrahigh resolution:1||photoelectron emission:1||Pd:1||LANIO3:1||BASE ELECTRODES:1||iron oxide phase:1||ironoxide interlayer:1||COATED GLASS SUBSTRATE:1||MICROWAVE PLASMA NUCLEATION:1||ENHANCED NUCLEATION:1||phase transformation:1||ADSORPTION:1||phasecontrast xray imaging:1||lung inflammation:1||SI1XGEX SINGLECRYSTALS:1||COCONTINUITY:1||SCALE:1||OBJECT:1||synchrotron microradiography:1||FeSO4:1||INDUCTION:1||BaTiO3 and SrTiO3 thin films:1||HARDXRAYS:1||light emitting diodes:1||ACID:1||MICROSTRUCTURES:1||PHOTOLUMINESCENCE PROPERTIES:1||LASER IRRADIATION:1||Human aging:1||polychromatic synchrotron Xray:1||refraction enhanced imaging:1||CHROMOPHORES:1||ACUTE LUNG INJURY:1||spatial resolution:1||BETAFESI2:1||VLSI:1||SI1XGEX:1||COLLOIDAL SUSPENSIONS:1||ELECTRONICS:1||ENHANCEMENT:1||artificial lattice:1||sinters:1||SILVER:1||STRAIN RELAXATION:1||biaxial texture:1||synchrotron scattering:1||transmission electron microscopy:1||IRONOXIDE FILMS:1||PZT thin film:1||ferroelectric thin film:1||MISFIT RELAXATION MECHANISMS:1||PBTIO3:1||O2:1||CONDUCTING POLYMERS:1||poly(methylmethancrylate):1||microspheres:1||phase contrast Xray microscope:1||AMBIENT AIR:1||ATMOSPHERE:1||XRAY INTERFEROMETER:1||NiAu composite nanoparticles.:1||synchrotron radiation Xrays:1||microtomography:1||OIL FLYASH:1||zinc oxide:1||mammography:1||SrRuO3 film:1||Laser epitaxy:1||HOLE MOBILITY:1||Models of crystal defects:1||RABBIT LUNGS:1||NI/AU CONTACT:1||3D printing:1||Stress relaxation:1||SURFACEAREA:1||IMAGE:1||modulation transfer function (MTF):1||Pb ions:1||Insitu visualization:1||Interfacial tension:1||DISPERSION FORCES:1||SINGLECRYSTALS:1||XRAY SOURCE:1||Synchrotron Xray imaging:1||Realtime imaging:1||MEDICAL APPLICATIONS:1||wiggler bending magnet:1||undulator:1||diffractionenhanced imaging:1||ZnO film:1||CAPACITORS:1||HE3:1||NiP alloy:1||PHOTOCHEMICAL FORMATION:1||extended domain matching:1||cubetextured Ni substrates:1||RAY COMPUTEDTOMOGRAPHY:1||electrode layer:1||DOMAINSTRUCTURE:1||XRAY CT:1||SPECIMEN:1||mammographic phantom:1||Xray absorption spectroscopy:1||BLUE:1||CONTACT:1||(BA:1||synchrotron spectromicroscopy:1||thin film:1||MICROWAVE PLASMA:1||GOLD NANOPARTICLES:1||POLYMERIZATION:1||DISEASE:1||Shanghai:1||MORTALITY:1||HETEROSTRUCTURES:1||METHACRYLATE:1||prostate cancer:1||renal cell carcinoma:1||RATS:1||PULSEDLASER DEPOSITION:1||semiconducting IIVI materials:1||PATTERNS:1||sapphire:1||evaporation:1||ZINCOXIDE:1||LIGHTEMITTING DIODE:1||Synchrotron imaging:1||Dislocations:1||Cracks:1||LIVE:1||spinal cord:1||stainless steel:1||nanophotonics:1||subwavelength waveguides:1||Synchrotrons:1||High dislocation density:1||Misfit stress relaxations:1||Randomly distributed:1||Tripleaxis xray diffractions:1||FLOW:1||CRYSTALLINE ORGANIC NANORODS:1||SHAPE CHANGES:1||ZnO thin film:1||(111)SI:1||XRAY MIRRORS:1||low temperature:1||oxide cathodes:1||heterogeneity:1||Xray microscopy:1||INTERFACIAL TENSIONS:1||single crystal growth:1||CARCINOMA:1||mouse:1||ANIMALS:1||Mndoped ZnO:1||luminescence:1||solution precipitation:1||CLUSTER:1||relaxation:1||ALPHAFE2O3:1||XANES:1||epitaxy:1||LaNiO3 thin film:1||LANIO3 THINFILMS:1||ELECTRODE:1||Fe3O4 sublayer:1||EXAFS microscopy:1||FERRITE FILMS:1||SURFACE PRETREATMENTS:1||superconductors:1||CONTRAST AGENT:1||BIODISTRIBUTION:1||DEATH:1||SYNCHROTRON:1||IR:1||apo Eknockout mouse:1||plaque:1||microradiology:1||ALPHASYNUCLEIN:1||PULMONARY TOXICITY:1||XRAY TOPOGRAPHY:1||dislocation:1||metalorganic chemical vapor deposition:1||CRYSTALGROWTH:1||SELFASSEMBLED MONOLAYERS:1||MEMBRANES:1||MAGNETICANISOTROPY:1||SI1XGEX CRYSTALS:1||STRAINEDSI:1||Extended Weibull model:1||MOLYBDENUM:1||ALLOYS:1||IRON:1||Theoretical modeling:1||Threading dislocation:1||GROWTH:27||THINFILMS:16||SYNCHROTRONRADIATION:15||CONTRAST:11||RADIOLOGY:11||PARTICLES:11||FILMS:11||SILICON:10||RADIATION:10||DEPOSITION:10||RESOLUTION:9||CRYSTALS:8||SILICONCARBIDE:7||XRAYS:7||MAMMOGRAPHY:7||Xray diffraction:7||synchrotron 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ELECTRONMICROSCOPY:2||EPITAXIAL COSI2 FILMS:2||MECHANISMS:2||INSITU GROWTH:2||DEVICE:2||LOCALIZED ELECTROCHEMICAL DEPOSITION:2||X ray diffraction:2||SCHOTTKY CONTACT:2||IRRADIATION:2||aqua regia treatment:2||INVIVO:2||CELLADHESION:2||MORPHOGENETIC PROTEIN2:2||RECEPTOR:2||TEM:2||broadband synchrotron light:2||nanoparticle:2||BUFFER LAYERS:2||TC:2||ENHANCED SYNCHROTRON RADIOLOGY:2||synthesis:2||POLYDIMETHYLSILOXANE:2||MICROCHANNELS:2||PRETREATMENT PROCESS:2||XRAY:2||CHEMOTAXIS:2||MECHANOSENSORY TRANSDUCTION:2||rectangular microtube:2||CONJUGATED POLYMER:2||atomic force microscopy:2||METALLIC OXIDE SRRUO3:2||LASERABLATION:2||STRESS:2||ZONE PLATES:2||FRICTION:2||THERMALSTABILITY:2||Xrays:2||RAY:2||NM:2||ENERGY:2||TOPOGRAPHY:2||synchrotron Xray:2||ACID HYDROGELS:2||CAENORHABDITISELEGANS:2||PROTEIN:2||defects:2||EVOLUTION:2||FABRICATION:2||sharp bending waveguide:2||lasing action:2||BULK CRYSTALS:2||SUPERLATTICES:2||COATED CONDUCTORS:2||SI(111):2||phase contrast:2||CORONARY ANGIOGRAPHY:2||SPECTROMICROSCOPY:2||MEPHISTO:2||OXYGEN:2||OPTICALPROPERTIES:2||RADIOGRAPHY:2||CONTACT DEFORMATIONS:2||MOLECULAR FORCES:2||SOLIDS:2||NTYPE GAN:2||deposition:2||CHEMISTRY:2||DEFORMATION:2||SUBSTRATE:2||HETEROEPITAXY:2||NANOTOPOGRAPHY:2||EPITAXIALGROWTH:2||Xray:2||CHEMICAL VAPORDEPOSITION:2||SILICON STRUCTURES:2||STEMCELLS:2||CHANNEL:2||crystal structure:2||CORONARYANGIOGRAPHY:2||SiC:2||BUFFER LAYER:2||MOLECULARBEAM EPITAXY:2||INTERFACE:2||SIZE:2||ELECTRON:2||XRAY MICROSCOPY:2||MORPHOLOGIES:2||NANOCOLLOIDS:2||FORCE MICROSCOPY:2||ablation:2||polymers:2||(NH4)(2)Sx treatment:2||CLUSTERS:2||BIOMATERIALS:2||CIRCUITS:2||rectangular ring mode:2||GUIDES:2||MICROCAVITY:2||PHOTOLUMINESCENCE:2||epitaxial growth:2||EMBRITTLEMENT:2||Xray imaging:2||BIOCOMPATIBILITY:2||BEHAVIOR:2||MICROWAVEPLASMA:2||LOWPRESSURE:2||DEGRADATION:2||TISSUE:2||LIQUID:2||SOFT LITHOGRAPHY:2||amplified spontaneous emission (ASE):2||SMALL ORGANICMOLECULES:2||PHOTONIC 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evolution:1||SI(100):1||ANISOTROPY:1||WET GRANULAR PILE:1||COALESCENCE:1||INSITU POLYMERIZATION:1||GRAPHENE:1||CANCER:1||NODULES:1||RABBITS:1||phasecontrast:1||YTTRIUMOXIDE FILMS:1||BaTiO3/SrTiO3:1||dental implant:1||coincidence site density:1||ERNI2B2C:1||crystallites:1||CoCrPt films:1||tensile strain:1||gallide:1||MGO:1||Baferrite film:1||synchrotron xray scattering:1||ZNO THINFILMS:1||MORPHOLOGY:1||PHASES:1||MICE:1||EBEAM LITHOGRAPHY:1||electrorheological fluids:1||NANOFIBROUS MEMBRANES:1||NANOLITHOGRAPHY:1||refractive index radiology:1||BLOOD:1||colloidal:1||SIZE CONTROL:1||nanoradiology:1||ZnSO4:1||lung injury:1||METAL:1||PM10:1||textured grain:1||MICROSTRUCTURE:1||DIMENSIONS:1||highresolution Xray diffraction:1||low temperature buffer:1||Zinc compounds:1||SI:1||HUMAN LONGEVITY:1||Maximum human lifespan:1||LIMITS:1||MOSFETS:1||in situ XANES:1||nanowires:1||PHOTOIRRADIATION:1||FIBERS:1||WORK:1||EMISSION:1||RADIATION MICROTOMOGRAPHY:1||RAMANSCATTERING:1||gold 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radiation:1||Synchrotron radiation imaging:1||Dislocations (crystals):1||LUNG INJURY:1||POLYMER SURFACES:1||SINGLE CELLS:1||PREFERRED ORIENTATION:1||sapphire orientation:1||TANTALUM:1||BIASENHANCED NUCLEATION:1||hexaferrite:1||stretched exponential:1||SOLIDSURFACE:1||SHEAR:1||VIDEO MICROSCOPY:1||CARBON NANOTUBES:1||realtime observation:1||Xray synchrotron:1||CARBONMONOXIDE:1||ELECTROCHEMICAL FABRICATION:1||crystal growth:1||computer simulation:1||FERROELECTRICFILMS:1||TITANIUM IMPLANTS:1||BONE INTERFACE:1||EXAFS perpendicular magnetic recording:1||Pd/Ni:1||ELECTRODES:1||internal organ:1||LIGHTEMITTINGDIODES:1||interfacial structure:1||CONSTANT:1||DIELECTRICPROPERTIES:1||AR:1||DEVICES:1||BiSrCaCuO:1||LASER ABLATION:1||MECHANISM:1||SELECTIVE DEPOSITION:1||TARGETED DRUGDELIVERY:1||PEG:1||carbon nanotubes:1||nanocharacterization:1||WALLED CARBON NANOTUBE:1||basal cell carcinoma:1||PARTICULATE AIRPOLLUTION:1||FINE:1||CITIES:1||DOPED ZNO FILMS:1||atherosclerosis:1||drug delivery:1||hard Xray:1||COMBUSTION:1||ARTIFICIAL BATIO3/SRTIO3 SUPERLATTICES:1||surface morphology:1||Direct wafer bonding:1||COLLOIDAL GOLD PARTICLES:1||DELINEATION:1||EXPECTANCY:1||DEMOGRAPHY:1||MRI:1||SIGE:1||Phase contrast microradiography:1||INJURY:1||PASSIVITY:1||VOLUME:1||CONTACTANGLE:1||ARRAYS:1||DUCTILITY:1||sputtering:1||computed microtomography (mu CT):1||unmonochromatized Xray:1||BIPOLARTRANSISTORS:1||longevity:1||Confocal microscopy:1||Colloidal wettability:1||ATOMICFORCE MICROSCOPY:1||storage ring:1||digital subtraction:1||SCATTERING:1||size effect:1||SYNTHETIC QUARTZ:1||liquid metal embrittlement:1||iron ore:1||cube textured Ni substrates:1||SrRuO3 films:1||laser ablations:1||Ti underlayer:1||RANDOMACCESS MEMORIES:1||DOMAIN CONFIGURATIONS:1||MGO(100):1||SPECTROSCOPY:1||XE:1||IONBEAM:1||GRAINBOUNDARY MIGRATION:1||SRTIO3:1||COMPOSITES:1||FOAMS:1||BREASTCANCER SPECIMENS:1||unmonochromatized:1||Xray induced nucleation:1||gold:1||ABSORPTION:1||SEPARATION:1||CZOCHRALSKI GROWTH:1||RETRIEVAL:1||GAMMARADIATION:1||AQUEOUSSOLUTION:1||NANOCOMPOSITES:1||INCREASE:1||without staining procedure:1||XPS:1||Imaging techniques:1||Interfaces (materials):1||Dislocation distributions:1||AZOBENZENE:1||STRUCTURAL EVOLUTION:1||RELAXATION:1||DROP IMPACT:1||NONLINEAR DYNAMICS:1||DISLOCATIONS:1||Colloids:1||TRANSFORMATION:1||METAL INTERCONNECTS:1||ELASTIC CONDUCTORS:1||LOGIC:1||DEFICIENT MICE:1||tomography:1||FACILITY:1||osseointegration:1||ROCKS:1||dental radiography:1||Zn coating:1||RE2O3/Ni:1||YBCO COATED CONDUCTORS:1||threedimensional islands:1||(Ba,Sr)TiO3:1||ultrahigh resolution:1||photoelectron emission:1||Pd:1||LANIO3:1||BASE ELECTRODES:1||iron oxide phase:1||ironoxide interlayer:1||COATED GLASS SUBSTRATE:1||MICROWAVE PLASMA NUCLEATION:1||ENHANCED NUCLEATION:1||phase transformation:1||ADSORPTION:1||phasecontrast xray imaging:1||lung inflammation:1||SI1XGEX SINGLECRYSTALS:1||COCONTINUITY:1||SCALE:1||OBJECT:1||synchrotron microradiography:1||FeSO4:1||INDUCTION:1||BaTiO3 and SrTiO3 thin films:1||HARDXRAYS:1||light emitting diodes:1||ACID:1||MICROSTRUCTURES:1||PHOTOLUMINESCENCE PROPERTIES:1||LASER IRRADIATION:1||Human aging:1||polychromatic synchrotron Xray:1||refraction enhanced imaging:1||CHROMOPHORES:1||ACUTE LUNG INJURY:1||spatial resolution:1||BETAFESI2:1||VLSI:1||SI1XGEX:1||COLLOIDAL SUSPENSIONS:1||ELECTRONICS:1||ENHANCEMENT:1||artificial lattice:1||sinters:1||SILVER:1||STRAIN RELAXATION:1||biaxial texture:1||synchrotron scattering:1||transmission electron microscopy:1||IRONOXIDE FILMS:1||PZT thin film:1||ferroelectric thin film:1||MISFIT RELAXATION MECHANISMS:1||PBTIO3:1||O2:1||CONDUCTING POLYMERS:1||poly(methylmethancrylate):1||microspheres:1||phase contrast Xray microscope:1||AMBIENT AIR:1||ATMOSPHERE:1||XRAY INTERFEROMETER:1||NiAu composite nanoparticles.:1||synchrotron radiation Xrays:1||microtomography:1||OIL FLYASH:1||zinc oxide:1||mammography:1||SrRuO3 film:1||Laser epitaxy:1||HOLE MOBILITY:1||Models of crystal defects:1||RABBIT LUNGS:1||NI/AU CONTACT:1||3D printing:1||Stress relaxation:1||SURFACEAREA:1||IMAGE:1||modulation transfer function (MTF):1||Pb ions:1||Insitu visualization:1||Interfacial tension:1||DISPERSION FORCES:1||SINGLECRYSTALS:1||XRAY SOURCE:1||Synchrotron Xray imaging:1||Realtime imaging:1||MEDICAL APPLICATIONS:1||wiggler bending magnet:1||undulator:1||diffractionenhanced imaging:1||ZnO film:1||CAPACITORS:1||HE3:1||NiP alloy:1||PHOTOCHEMICAL FORMATION:1||extended domain matching:1||cubetextured Ni substrates:1||RAY COMPUTEDTOMOGRAPHY:1||electrode layer:1||DOMAINSTRUCTURE:1||XRAY CT:1||SPECIMEN:1||mammographic phantom:1||Xray absorption spectroscopy:1||BLUE:1||CONTACT:1||(BA:1||synchrotron spectromicroscopy:1||thin film:1||MICROWAVE PLASMA:1||GOLD NANOPARTICLES:1||POLYMERIZATION:1||DISEASE:1||Shanghai:1||MORTALITY:1||HETEROSTRUCTURES:1||METHACRYLATE:1||prostate cancer:1||renal cell carcinoma:1||RATS:1||PULSEDLASER DEPOSITION:1||semiconducting IIVI materials:1||PATTERNS:1||sapphire:1||evaporation:1||ZINCOXIDE:1||LIGHTEMITTING DIODE:1||Synchrotron imaging:1||Dislocations:1||Cracks:1||LIVE:1||spinal cord:1||stainless steel:1||nanophotonics:1||subwavelength waveguides:1||Synchrotrons:1||High dislocation density:1||Misfit stress relaxations:1||Randomly distributed:1||Tripleaxis xray diffractions:1||FLOW:1||CRYSTALLINE ORGANIC NANORODS:1||SHAPE CHANGES:1||ZnO thin film:1||(111)SI:1||XRAY MIRRORS:1||low temperature:1||oxide cathodes:1||heterogeneity:1||Xray microscopy:1||INTERFACIAL TENSIONS:1||single crystal growth:1||CARCINOMA:1||mouse:1||ANIMALS:1||Mndoped ZnO:1||luminescence:1||solution precipitation:1||CLUSTER:1||relaxation:1||ALPHAFE2O3:1||XANES:1||epitaxy:1||LaNiO3 thin film:1||LANIO3 THINFILMS:1||ELECTRODE:1||Fe3O4 sublayer:1||EXAFS microscopy:1||FERRITE FILMS:1||SURFACE PRETREATMENTS:1||superconductors:1||CONTRAST AGENT:1||BIODISTRIBUTION:1||DEATH:1||SYNCHROTRON:1||IR:1||apo Eknockout mouse:1||plaque:1||microradiology:1||ALPHASYNUCLEIN:1||PULMONARY TOXICITY:1||XRAY TOPOGRAPHY:1||dislocation:1||metalorganic chemical vapor deposition:1||CRYSTALGROWTH:1||SELFASSEMBLED MONOLAYERS:1||MEMBRANES:1||MAGNETICANISOTROPY:1||SI1XGEX CRYSTALS:1||STRAINEDSI:1||Extended Weibull model:1||MOLYBDENUM:1||ALLOYS:1||IRON:1||Theoretical modeling:1||Threading dislocation:1||GROWTH:27||THINFILMS:16||SYNCHROTRONRADIATION:15||CONTRAST:11||RADIOLOGY:11||PARTICLES:11||FILMS:11||SILICON:10||RADIATION:10||DEPOSITION:10||RESOLUTION:9||CRYSTALS:8||SILICONCARBIDE:7||XRAYS:7||MAMMOGRAPHY:7||Xray diffraction:7||synchrotron radiation:6||XRAYSCATTERING:6||MODEL:6||microstructure:6||DYNAMICS:5||ELECTRODEPOSITION:5||LAYERS:5||CHEMICALVAPORDEPOSITION:5||TEMPERATURE:5||TOMOGRAPHY:5||COMPUTEDTOMOGRAPHY:5||SAPPHIRE:5||MEDIA:5||NANOWIRES:5||DIFFRACTION:4||TISSUES:4||pulsed laser deposition:4||phase contrast imaging:4||LAYER:4||IMAGES:4||DIODES:4||FIELDEFFECT TRANSISTORS:4||ptype GaN:4||MICROSCOPY:4||REDUCTION:4||POLYMER:4||DEFECTS:3||COHERENCE:3||MICROTOMOGRAPHY:3||NANOPARTICLES:3||synchrotron:3||LIGHT:3||TRANSISTORS:3||SURFACES:3||STRAIN:3||EPITAXIAL LAYERS:3||DRUGDELIVERY:3||REFRACTION:3||growth mechanism:3||METALS:3||MICROPIPES:3||SYSTEM:3||NUCLEATION:3||synchrotron Xray scattering:3||SURFACE:3||SCREW DISLOCATIONS:3||SIMULATION:3||HARD XRAYS:3||ELECTRICALPROPERTIES:3||EPITAXY:3||GAN:3||PM2.5:3||EVAPORATION:3||LIQUIDS:3||INPLANE:3||RAT:3||ANGIOGENESIS:3||CT:3||GaN:3||ZnO:3||NANORODS:3||strain:3||PB(ZR0.53TI0.47)O3:3||CRYSTALLIZATION:3||synchrotron Xrays:2||buffer layer:2||TRANSMISSION ELECTRONMICROSCOPY:2||EPITAXIAL COSI2 FILMS:2||MECHANISMS:2||INSITU GROWTH:2||DEVICE:2||LOCALIZED ELECTROCHEMICAL DEPOSITION:2||X ray diffraction:2||SCHOTTKY CONTACT:2||IRRADIATION:2||aqua regia treatment:2||INVIVO:2||CELLADHESION:2||MORPHOGENETIC PROTEIN2:2||RECEPTOR:2||TEM:2||broadband synchrotron light:2||nanoparticle:2||BUFFER LAYERS:2||TC:2||ENHANCED SYNCHROTRON RADIOLOGY:2||synthesis:2||POLYDIMETHYLSILOXANE:2||MICROCHANNELS:2||PRETREATMENT PROCESS:2||XRAY:2||CHEMOTAXIS:2||MECHANOSENSORY TRANSDUCTION:2||rectangular microtube:2||CONJUGATED POLYMER:2||atomic force microscopy:2||METALLIC OXIDE SRRUO3:2||LASERABLATION:2||STRESS:2||ZONE PLATES:2||FRICTION:2||THERMALSTABILITY:2||Xrays:2||RAY:2||NM:2||ENERGY:2||TOPOGRAPHY:2||synchrotron Xray:2||ACID HYDROGELS:2||CAENORHABDITISELEGANS:2||PROTEIN:2||defects:2||EVOLUTION:2||FABRICATION:2||sharp bending waveguide:2||lasing action:2||BULK CRYSTALS:2||SUPERLATTICES:2||COATED CONDUCTORS:2||SI(111):2||phase contrast:2||CORONARY ANGIOGRAPHY:2||SPECTROMICROSCOPY:2||MEPHISTO:2||OXYGEN:2||OPTICALPROPERTIES:2||RADIOGRAPHY:2||CONTACT DEFORMATIONS:2||MOLECULAR FORCES:2||SOLIDS:2||NTYPE GAN:2||deposition:2||CHEMISTRY:2||DEFORMATION:2||SUBSTRATE:2||HETEROEPITAXY:2||NANOTOPOGRAPHY:2||EPITAXIALGROWTH:2||Xray:2||CHEMICAL VAPORDEPOSITION:2||SILICON STRUCTURES:2||STEMCELLS:2||CHANNEL:2||crystal structure:2||CORONARYANGIOGRAPHY:2||SiC:2||BUFFER LAYER:2||MOLECULARBEAM EPITAXY:2||INTERFACE:2||SIZE:2||ELECTRON:2||XRAY MICROSCOPY:2||MORPHOLOGIES:2||NANOCOLLOIDS:2||FORCE MICROSCOPY:2||ablation:2||polymers:2||(NH4)(2)Sx treatment:2||CLUSTERS:2||BIOMATERIALS:2||CIRCUITS:2||rectangular ring mode:2||GUIDES:2||MICROCAVITY:2||PHOTOLUMINESCENCE:2||epitaxial growth:2||EMBRITTLEMENT:2||Xray imaging:2||BIOCOMPATIBILITY:2||BEHAVIOR:2||MICROWAVEPLASMA:2||LOWPRESSURE:2||DEGRADATION:2||TISSUE:2||LIQUID:2||SOFT LITHOGRAPHY:2||amplified spontaneous emission (ASE):2||SMALL ORGANICMOLECULES:2||PHOTONIC CRYSTAL:2||micropipes:2||radiology:2||ALLOY:2||Xray scattering:2||CRITICALCURRENT DENSITY:2||ELECTRONMICROSCOPY:2||BI(PB)SRCACUO:2||ELECTRONICSTRUCTURE:2||RECONSTRUCTION:2||MG:2||ohmic contact:2||Pd ohmic contact:2||xray scattering:2||INP:2||annealing:2||REGENERATION:2||TITANIUM:2||COLLOIDAL GOLD:2||crystallization:2||BUCKLING MECHANICS:2||LASERS:2||MODES:2||synchrotron imaging:2||lattice distortion:2||AQUEOUSELECTROLYTE:2||MOLECULARDYNAMICS:2||OXIDE:2||MICROANGIOGRAPHY:2||OXIDATION:2||MICRORADIOLOGY:2||TECHNOLOGY:2||GE:2||surface chemistry:2||RECOVERY:2||OHMIC CONTACTS:2||LASERDIODES:2||PTYPE GAN:2||MOTION:2||PHANTOM:2||PHASE:2||CALCIUMPHOSPHATE CERAMICS:2||REPAIR:2||porphyrin:2||AMPLIFIED SPONTANEOUS EMISSION:2||METALELECTRODES:2||PD:2||SUPERCONDUCTING TAPES:2||nucleation:2||COATINGS:2||Xray topography:2||MONOLAYERS:2||SURFACE MODIFICATION:2||LITHOGRAPHY:2||MECHANICAL VENTILATION:1||MICRORIBBONS:1||STIFFNESS:1||DUALPHASE STEEL:1||growth mode:1||strain evolution:1||SI(100):1||ANISOTROPY:1||WET GRANULAR PILE:1||COALESCENCE:1||INSITU POLYMERIZATION:1||GRAPHENE:1||CANCER:1||NODULES:1||RABBITS:1||phasecontrast:1||YTTRIUMOXIDE FILMS:1||BaTiO3/SrTiO3:1||dental implant:1||coincidence site density:1||ERNI2B2C:1||crystallites:1||CoCrPt films:1||tensile strain:1||gallide:1||MGO:1||Baferrite film:1||synchrotron xray scattering:1||ZNO THINFILMS:1||MORPHOLOGY:1||PHASES:1||MICE:1||EBEAM LITHOGRAPHY:1||electrorheological fluids:1||NANOFIBROUS MEMBRANES:1||NANOLITHOGRAPHY:1||refractive index radiology:1||BLOOD:1||colloidal:1||SIZE CONTROL:1||nanoradiology:1||ZnSO4:1||lung injury:1||METAL:1||PM10:1||textured grain:1||MICROSTRUCTURE:1||DIMENSIONS:1||highresolution Xray diffraction:1||low temperature buffer:1||Zinc compounds:1||SI:1||HUMAN LONGEVITY:1||Maximum human lifespan:1||LIMITS:1||MOSFETS:1||in situ XANES:1||nanowires:1||PHOTOIRRADIATION:1||FIBERS:1||WORK:1||EMISSION:1||RADIATION MICROTOMOGRAPHY:1||RAMANSCATTERING:1||gold nanoparticles:1||synchrotron Xray diffraction:1||OPTICAL WAVEGUIDES:1||CONDUCTINGPOLYMER NANOWIRE:1||Lung cancer:1||INTRAVENOUS CORONARYARTERIOGRAPHY:1||SUBLIMATION GROWTH:1||radiography:1||porous SiC:1||GIANT MAGNETORESISTANCE:1||SEMICONDUCTORS:1||Ga diffusion:1||electroless deposition:1||HEMATITE:1||FREEELECTRON LASER:1||MOCVD:1||interfaces:1||white beam:1||imaging technique:1||nucleation layer:1||interface structure:1||epitaxial Baferrite film:1||rf magnetron sputtering:1||MAGNETIC CHARACTERISTICS:1||MIXTURE:1||ACCESS MEMORY APPLICATION:1||COHERENCY STRAIN:1||DENSITY:1||nanofabrication:1||POLY(METHYL METHACRYLATE) MICROSPHERE:1||RESIST:1||unmonochromatic beam:1||MICRORADIOGRAPHY:1||INTERFEROMETER:1||EXPOSURE:1||volume variation electronic:1||PULSEDLASER ABLATION:1||Semiconducting IIVI materials:1||Light emitting diodes:1||phase contrast microscopies:1||lung:1||AUGERELECTRON SPECTROSCOPY:1||passivation:1||additive manufacturing:1||Silicon carbide:1||Synchrotron radiation:1||Synchrotron radiation imaging:1||Dislocations (crystals):1||LUNG INJURY:1||POLYMER SURFACES:1||SINGLE CELLS:1||PREFERRED ORIENTATION:1||sapphire orientation:1||TANTALUM:1||BIASENHANCED NUCLEATION:1||hexaferrite:1||stretched exponential:1||SOLIDSURFACE:1||SHEAR:1||VIDEO MICROSCOPY:1||CARBON NANOTUBES:1||realtime observation:1||Xray synchrotron:1||CARBONMONOXIDE:1||ELECTROCHEMICAL FABRICATION:1||crystal growth:1||computer simulation:1||FERROELECTRICFILMS:1||TITANIUM IMPLANTS:1||BONE INTERFACE:1||EXAFS perpendicular magnetic recording:1||Pd/Ni:1||ELECTRODES:1||internal organ:1||LIGHTEMITTINGDIODES:1||interfacial structure:1||CONSTANT:1||DIELECTRICPROPERTIES:1||AR:1||DEVICES:1||BiSrCaCuO:1||LASER ABLATION:1||MECHANISM:1||SELECTIVE DEPOSITION:1||TARGETED DRUGDELIVERY:1||PEG:1||carbon nanotubes:1||nanocharacterization:1||WALLED CARBON NANOTUBE:1||basal cell carcinoma:1||PARTICULATE AIRPOLLUTION:1||FINE:1||CITIES:1||DOPED ZNO FILMS:1||atherosclerosis:1||drug delivery:1||hard Xray:1||COMBUSTION:1||ARTIFICIAL BATIO3/SRTIO3 SUPERLATTICES:1||surface morphology:1||Direct wafer bonding:1||COLLOIDAL GOLD PARTICLES:1||DELINEATION:1||EXPECTANCY:1||DEMOGRAPHY:1||MRI:1||SIGE:1||Phase contrast microradiography:1||INJURY:1||PASSIVITY:1||VOLUME:1||CONTACTANGLE:1||ARRAYS:1||DUCTILITY:1||sputtering:1||computed microtomography (mu CT):1||unmonochromatized Xray:1||BIPOLARTRANSISTORS:1||longevity:1||Confocal microscopy:1||Colloidal wettability:1||ATOMICFORCE MICROSCOPY:1||storage ring:1||digital subtraction:1||SCATTERING:1||size effect:1||SYNTHETIC QUARTZ:1||liquid metal embrittlement:1||iron ore:1||cube textured Ni substrates:1||SrRuO3 films:1||laser ablations:1||Ti underlayer:1||RANDOMACCESS MEMORIES:1||DOMAIN CONFIGURATIONS:1||MGO(100):1||SPECTROSCOPY:1||XE:1||IONBEAM:1||GRAINBOUNDARY MIGRATION:1||SRTIO3:1||COMPOSITES:1||FOAMS:1||BREASTCANCER SPECIMENS:1||unmonochromatized:1||Xray induced nucleation:1||gold:1||ABSORPTION:1||SEPARATION:1||CZOCHRALSKI GROWTH:1||RETRIEVAL:1||GAMMARADIATION:1||AQUEOUSSOLUTION:1||NANOCOMPOSITES:1||INCREASE:1||without staining procedure:1||XPS:1||Imaging techniques:1||Interfaces (materials):1||Dislocation distributions:1||AZOBENZENE:1||STRUCTURAL EVOLUTION:1||RELAXATION:1||DROP IMPACT:1||NONLINEAR DYNAMICS:1||DISLOCATIONS:1||Colloids:1||TRANSFORMATION:1||METAL INTERCONNECTS:1||ELASTIC CONDUCTORS:1||LOGIC:1||DEFICIENT MICE:1||tomography:1||FACILITY:1||osseointegration:1||ROCKS:1||dental radiography:1||Zn coating:1||RE2O3/Ni:1||YBCO COATED CONDUCTORS:1||threedimensional islands:1||(Ba,Sr)TiO3:1||ultrahigh resolution:1||photoelectron emission:1||Pd:1||LANIO3:1||BASE ELECTRODES:1||iron oxide phase:1||ironoxide interlayer:1||COATED GLASS SUBSTRATE:1||MICROWAVE PLASMA NUCLEATION:1||ENHANCED NUCLEATION:1||phase transformation:1||ADSORPTION:1||phasecontrast xray imaging:1||lung inflammation:1||SI1XGEX SINGLECRYSTALS:1||COCONTINUITY:1||SCALE:1||OBJECT:1||synchrotron microradiography:1||FeSO4:1||INDUCTION:1||BaTiO3 and SrTiO3 thin films:1||HARDXRAYS:1||light emitting diodes:1||ACID:1||MICROSTRUCTURES:1||PHOTOLUMINESCENCE PROPERTIES:1||LASER IRRADIATION:1||Human aging:1||polychromatic synchrotron Xray:1||refraction enhanced imaging:1||CHROMOPHORES:1||ACUTE LUNG INJURY:1||spatial resolution:1||BETAFESI2:1||VLSI:1||SI1XGEX:1||COLLOIDAL SUSPENSIONS:1||ELECTRONICS:1||ENHANCEMENT:1||artificial lattice:1||sinters:1||SILVER:1||STRAIN RELAXATION:1||biaxial texture:1||synchrotron scattering:1||transmission electron microscopy:1||IRONOXIDE FILMS:1||PZT thin film:1||ferroelectric thin film:1||MISFIT RELAXATION MECHANISMS:1||PBTIO3:1||O2:1||CONDUCTING POLYMERS:1||poly(methylmethancrylate):1||microspheres:1||phase contrast Xray microscope:1||AMBIENT AIR:1||ATMOSPHERE:1||XRAY INTERFEROMETER:1||NiAu composite nanoparticles.:1||synchrotron radiation Xrays:1||microtomography:1||OIL FLYASH:1||zinc oxide:1||mammography:1||SrRuO3 film:1||Laser epitaxy:1||HOLE MOBILITY:1||Models of crystal defects:1||RABBIT LUNGS:1||NI/AU CONTACT:1||3D printing:1||Stress relaxation:1||SURFACEAREA:1||IMAGE:1||modulation transfer function (MTF):1||Pb ions:1||Insitu visualization:1||Interfacial tension:1||DISPERSION FORCES:1||SINGLECRYSTALS:1||XRAY SOURCE:1||Synchrotron Xray imaging:1||Realtime imaging:1||MEDICAL APPLICATIONS:1||wiggler bending magnet:1||undulator:1||diffractionenhanced imaging:1||ZnO film:1||CAPACITORS:1||HE3:1||NiP alloy:1||PHOTOCHEMICAL FORMATION:1||extended domain matching:1||cubetextured Ni substrates:1||RAY COMPUTEDTOMOGRAPHY:1||electrode layer:1||DOMAINSTRUCTURE:1||XRAY CT:1||SPECIMEN:1||mammographic phantom:1||Xray absorption spectroscopy:1||BLUE:1||CONTACT:1||(BA:1||synchrotron spectromicroscopy:1||thin film:1||MICROWAVE PLASMA:1||GOLD NANOPARTICLES:1||POLYMERIZATION:1||DISEASE:1||Shanghai:1||MORTALITY:1||HETEROSTRUCTURES:1||METHACRYLATE:1||prostate cancer:1||renal cell carcinoma:1||RATS:1||PULSEDLASER DEPOSITION:1||semiconducting IIVI materials:1||PATTERNS:1||sapphire:1||evaporation:1||ZINCOXIDE:1||LIGHTEMITTING DIODE:1||Synchrotron imaging:1||Dislocations:1||Cracks:1||LIVE:1||spinal cord:1||stainless steel:1||nanophotonics:1||subwavelength waveguides:1||Synchrotrons:1||High dislocation density:1||Misfit stress relaxations:1||Randomly distributed:1||Tripleaxis xray diffractions:1||FLOW:1||CRYSTALLINE ORGANIC NANORODS:1||SHAPE CHANGES:1||ZnO thin film:1||(111)SI:1||XRAY MIRRORS:1||low temperature:1||oxide cathodes:1||heterogeneity:1||Xray microscopy:1||INTERFACIAL TENSIONS:1||single crystal growth:1||CARCINOMA:1||mouse:1||ANIMALS:1||Mndoped ZnO:1||luminescence:1||solution precipitation:1||CLUSTER:1||relaxation:1||ALPHAFE2O3:1||XANES:1||epitaxy:1||LaNiO3 thin film:1||LANIO3 THINFILMS:1||ELECTRODE:1||Fe3O4 sublayer:1||EXAFS microscopy:1||FERRITE FILMS:1||SURFACE PRETREATMENTS:1||superconductors:1||CONTRAST AGENT:1||BIODISTRIBUTION:1||DEATH:1||SYNCHROTRON:1||IR:1||apo Eknockout mouse:1||plaque:1||microradiology:1||ALPHASYNUCLEIN:1||PULMONARY TOXICITY:1||XRAY TOPOGRAPHY:1||dislocation:1||metalorganic chemical vapor deposition:1||CRYSTALGROWTH:1||SELFASSEMBLED MONOLAYERS:1||MEMBRANES:1||MAGNETICANISOTROPY:1||SI1XGEX CRYSTALS:1||STRAINEDSI:1||Extended Weibull model:1||MOLYBDENUM:1||ALLOYS:1||IRON:1||Theoretical modeling:1||Threading dislocation:1||GROWTH:27||THINFILMS:16||SYNCHROTRONRADIATION:15||CONTRAST:11||RADIOLOGY:11||PARTICLES:11||FILMS:11||SILICON:10||RADIATION:10||DEPOSITION:10||RESOLUTION:9||CRYSTALS:8||SILICONCARBIDE:7||XRAYS:7||MAMMOGRAPHY:7||Xray diffraction:7||synchrotron radiation:6||XRAYSCATTERING:6||MODEL:6||microstructure:6||DYNAMICS:5||ELECTRODEPOSITION:5||LAYERS:5||CHEMICALVAPORDEPOSITION:5||TEMPERATURE:5||TOMOGRAPHY:5||COMPUTEDTOMOGRAPHY:5||SAPPHIRE:5||MEDIA:5||NANOWIRES:5||DIFFRACTION:4||TISSUES:4||pulsed laser deposition:4||phase contrast imaging:4||LAYER:4||IMAGES:4||DIODES:4||FIELDEFFECT TRANSISTORS:4||ptype GaN:4||MICROSCOPY:4||REDUCTION:4||POLYMER:4||DEFECTS:3||COHERENCE:3||MICROTOMOGRAPHY:3||NANOPARTICLES:3||synchrotron:3||LIGHT:3||TRANSISTORS:3||SURFACES:3||STRAIN:3||EPITAXIAL LAYERS:3||DRUGDELIVERY:3||REFRACTION:3||growth mechanism:3||METALS:3||MICROPIPES:3||SYSTEM:3||NUCLEATION:3||synchrotron Xray scattering:3||SURFACE:3||SCREW DISLOCATIONS:3||SIMULATION:3||HARD 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imaging:2||BIOCOMPATIBILITY:2||BEHAVIOR:2||MICROWAVEPLASMA:2||LOWPRESSURE:2||DEGRADATION:2||TISSUE:2||LIQUID:2||SOFT LITHOGRAPHY:2||amplified spontaneous emission (ASE):2||SMALL ORGANICMOLECULES:2||PHOTONIC CRYSTAL:2||micropipes:2||radiology:2||ALLOY:2||Xray scattering:2||CRITICALCURRENT DENSITY:2||ELECTRONMICROSCOPY:2||BI(PB)SRCACUO:2||ELECTRONICSTRUCTURE:2||RECONSTRUCTION:2||MG:2||ohmic contact:2||Pd ohmic contact:2||xray scattering:2||INP:2||annealing:2||REGENERATION:2||TITANIUM:2||COLLOIDAL GOLD:2||crystallization:2||BUCKLING MECHANICS:2||LASERS:2||MODES:2||synchrotron imaging:2||lattice distortion:2||AQUEOUSELECTROLYTE:2||MOLECULARDYNAMICS:2||OXIDE:2||MICROANGIOGRAPHY:2||OXIDATION:2||MICRORADIOLOGY:2||TECHNOLOGY:2||GE:2||surface chemistry:2||RECOVERY:2||OHMIC CONTACTS:2||LASERDIODES:2||PTYPE GAN:2||MOTION:2||PHANTOM:2||PHASE:2||CALCIUMPHOSPHATE CERAMICS:2||REPAIR:2||porphyrin:2||AMPLIFIED SPONTANEOUS EMISSION:2||METALELECTRODES:2||PD:2||SUPERCONDUCTING TAPES:2||nucleation:2||COATINGS:2||Xray topography:2||MONOLAYERS:2||SURFACE MODIFICATION:2||LITHOGRAPHY:2||MECHANICAL VENTILATION:1||MICRORIBBONS:1||STIFFNESS:1||DUALPHASE STEEL:1||growth mode:1||strain evolution:1||SI(100):1||ANISOTROPY:1||WET GRANULAR PILE:1||COALESCENCE:1||INSITU POLYMERIZATION:1||GRAPHENE:1||CANCER:1||NODULES:1||RABBITS:1||phasecontrast:1||YTTRIUMOXIDE FILMS:1||BaTiO3/SrTiO3:1||dental implant:1||coincidence site density:1||ERNI2B2C:1||crystallites:1||CoCrPt films:1||tensile strain:1||gallide:1||MGO:1||Baferrite film:1||synchrotron xray scattering:1||ZNO THINFILMS:1||MORPHOLOGY:1||PHASES:1||MICE:1||EBEAM LITHOGRAPHY:1||electrorheological fluids:1||NANOFIBROUS MEMBRANES:1||NANOLITHOGRAPHY:1||refractive index radiology:1||BLOOD:1||colloidal:1||SIZE CONTROL:1||nanoradiology:1||ZnSO4:1||lung injury:1||METAL:1||PM10:1||textured grain:1||MICROSTRUCTURE:1||DIMENSIONS:1||highresolution Xray diffraction:1||low temperature buffer:1||Zinc compounds:1||SI:1||HUMAN LONGEVITY:1||Maximum human lifespan:1||LIMITS:1||MOSFETS:1||in situ XANES:1||nanowires:1||PHOTOIRRADIATION:1||FIBERS:1||WORK:1||EMISSION:1||RADIATION MICROTOMOGRAPHY:1||RAMANSCATTERING:1||gold nanoparticles:1||synchrotron Xray diffraction:1||OPTICAL WAVEGUIDES:1||CONDUCTINGPOLYMER NANOWIRE:1||Lung cancer:1||INTRAVENOUS CORONARYARTERIOGRAPHY:1||SUBLIMATION GROWTH:1||radiography:1||porous SiC:1||GIANT MAGNETORESISTANCE:1||SEMICONDUCTORS:1||Ga diffusion:1||electroless deposition:1||HEMATITE:1||FREEELECTRON LASER:1||MOCVD:1||interfaces:1||white beam:1||imaging technique:1||nucleation layer:1||interface structure:1||epitaxial Baferrite film:1||rf magnetron sputtering:1||MAGNETIC CHARACTERISTICS:1||MIXTURE:1||ACCESS MEMORY APPLICATION:1||COHERENCY STRAIN:1||DENSITY:1||nanofabrication:1||POLY(METHYL METHACRYLATE) MICROSPHERE:1||RESIST:1||unmonochromatic beam:1||MICRORADIOGRAPHY:1||INTERFEROMETER:1||EXPOSURE:1||volume variation electronic:1||PULSEDLASER ABLATION:1||Semiconducting IIVI materials:1||Light emitting diodes:1||phase contrast microscopies:1||lung:1||AUGERELECTRON SPECTROSCOPY:1||passivation:1||additive manufacturing:1||Silicon carbide:1||Synchrotron radiation:1||Synchrotron radiation imaging:1||Dislocations (crystals):1||LUNG INJURY:1||POLYMER SURFACES:1||SINGLE CELLS:1||PREFERRED ORIENTATION:1||sapphire orientation:1||TANTALUM:1||BIASENHANCED NUCLEATION:1||hexaferrite:1||stretched exponential:1||SOLIDSURFACE:1||SHEAR:1||VIDEO MICROSCOPY:1||CARBON NANOTUBES:1||realtime observation:1||Xray synchrotron:1||CARBONMONOXIDE:1||ELECTROCHEMICAL FABRICATION:1||crystal growth:1||computer simulation:1||FERROELECTRICFILMS:1||TITANIUM IMPLANTS:1||BONE INTERFACE:1||EXAFS perpendicular magnetic recording:1||Pd/Ni:1||ELECTRODES:1||internal organ:1||LIGHTEMITTINGDIODES:1||interfacial structure:1||CONSTANT:1||DIELECTRICPROPERTIES:1||AR:1||DEVICES:1||BiSrCaCuO:1||LASER ABLATION:1||MECHANISM:1||SELECTIVE DEPOSITION:1||TARGETED DRUGDELIVERY:1||PEG:1||carbon 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CONFIGURATIONS:1||MGO(100):1||SPECTROSCOPY:1||XE:1||IONBEAM:1||GRAINBOUNDARY MIGRATION:1||SRTIO3:1||COMPOSITES:1||FOAMS:1||BREASTCANCER SPECIMENS:1||unmonochromatized:1||Xray induced nucleation:1||gold:1||ABSORPTION:1||SEPARATION:1||CZOCHRALSKI GROWTH:1||RETRIEVAL:1||GAMMARADIATION:1||AQUEOUSSOLUTION:1||NANOCOMPOSITES:1||INCREASE:1||without staining procedure:1||XPS:1||Imaging techniques:1||Interfaces (materials):1||Dislocation distributions:1||AZOBENZENE:1||STRUCTURAL EVOLUTION:1||RELAXATION:1||DROP IMPACT:1||NONLINEAR DYNAMICS:1||DISLOCATIONS:1||Colloids:1||TRANSFORMATION:1||METAL INTERCONNECTS:1||ELASTIC CONDUCTORS:1||LOGIC:1||DEFICIENT MICE:1||tomography:1||FACILITY:1||osseointegration:1||ROCKS:1||dental radiography:1||Zn coating:1||RE2O3/Ni:1||YBCO COATED CONDUCTORS:1||threedimensional islands:1||(Ba,Sr)TiO3:1||ultrahigh resolution:1||photoelectron emission:1||Pd:1||LANIO3:1||BASE ELECTRODES:1||iron oxide phase:1||ironoxide interlayer:1||COATED GLASS SUBSTRATE:1||MICROWAVE PLASMA 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AIR:1||ATMOSPHERE:1||XRAY INTERFEROMETER:1||NiAu composite nanoparticles.:1||synchrotron radiation Xrays:1||microtomography:1||OIL FLYASH:1||zinc oxide:1||mammography:1||SrRuO3 film:1||Laser epitaxy:1||HOLE MOBILITY:1||Models of crystal defects:1||RABBIT LUNGS:1||NI/AU CONTACT:1||3D printing:1||Stress relaxation:1||SURFACEAREA:1||IMAGE:1||modulation transfer function (MTF):1||Pb ions:1||Insitu visualization:1||Interfacial tension:1||DISPERSION FORCES:1||SINGLECRYSTALS:1||XRAY SOURCE:1||Synchrotron Xray imaging:1||Realtime imaging:1||MEDICAL APPLICATIONS:1||wiggler bending magnet:1||undulator:1||diffractionenhanced imaging:1||ZnO film:1||CAPACITORS:1||HE3:1||NiP alloy:1||PHOTOCHEMICAL FORMATION:1||extended domain matching:1||cubetextured Ni substrates:1||RAY COMPUTEDTOMOGRAPHY:1||electrode layer:1||DOMAINSTRUCTURE:1||XRAY CT:1||SPECIMEN:1||mammographic phantom:1||Xray absorption spectroscopy:1||BLUE:1||CONTACT:1||(BA:1||synchrotron spectromicroscopy:1||thin film:1||MICROWAVE PLASMA:1||GOLD NANOPARTICLES:1||POLYMERIZATION:1||DISEASE:1||Shanghai:1||MORTALITY:1||HETEROSTRUCTURES:1||METHACRYLATE:1||prostate cancer:1||renal cell carcinoma:1||RATS:1||PULSEDLASER DEPOSITION:1||semiconducting IIVI materials:1||PATTERNS:1||sapphire:1||evaporation:1||ZINCOXIDE:1||LIGHTEMITTING DIODE:1||Synchrotron imaging:1||Dislocations:1||Cracks:1||LIVE:1||spinal cord:1||stainless steel:1||nanophotonics:1||subwavelength waveguides:1||Synchrotrons:1||High dislocation density:1||Misfit stress relaxations:1||Randomly distributed:1||Tripleaxis xray diffractions:1||FLOW:1||CRYSTALLINE ORGANIC NANORODS:1||SHAPE CHANGES:1||ZnO thin film:1||(111)SI:1||XRAY MIRRORS:1||low temperature:1||oxide cathodes:1||heterogeneity:1||Xray microscopy:1||INTERFACIAL TENSIONS:1||single crystal growth:1||CARCINOMA:1||mouse:1||ANIMALS:1||Mndoped ZnO:1||luminescence:1||solution precipitation:1||CLUSTER:1||relaxation:1||ALPHAFE2O3:1||XANES:1||epitaxy:1||LaNiO3 thin film:1||LANIO3 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ELECTRONMICROSCOPY:2||EPITAXIAL COSI2 FILMS:2||MECHANISMS:2||INSITU GROWTH:2||DEVICE:2||LOCALIZED ELECTROCHEMICAL DEPOSITION:2||X ray diffraction:2||SCHOTTKY CONTACT:2||IRRADIATION:2||aqua regia treatment:2||INVIVO:2||CELLADHESION:2||MORPHOGENETIC PROTEIN2:2||RECEPTOR:2||TEM:2||broadband synchrotron light:2||nanoparticle:2||BUFFER LAYERS:2||TC:2||ENHANCED SYNCHROTRON RADIOLOGY:2||synthesis:2||POLYDIMETHYLSILOXANE:2||MICROCHANNELS:2||PRETREATMENT PROCESS:2||XRAY:2||CHEMOTAXIS:2||MECHANOSENSORY TRANSDUCTION:2||rectangular microtube:2||CONJUGATED POLYMER:2||atomic force microscopy:2||METALLIC OXIDE SRRUO3:2||LASERABLATION:2||STRESS:2||ZONE PLATES:2||FRICTION:2||THERMALSTABILITY:2||Xrays:2||RAY:2||NM:2||ENERGY:2||TOPOGRAPHY:2||synchrotron Xray:2||ACID HYDROGELS:2||CAENORHABDITISELEGANS:2||PROTEIN:2||defects:2||EVOLUTION:2||FABRICATION:2||sharp bending waveguide:2||lasing action:2||BULK CRYSTALS:2||SUPERLATTICES:2||COATED CONDUCTORS:2||SI(111):2||phase contrast:2||CORONARY 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nanoparticles:1||synchrotron Xray diffraction:1||OPTICAL WAVEGUIDES:1||CONDUCTINGPOLYMER NANOWIRE:1||Lung cancer:1||INTRAVENOUS CORONARYARTERIOGRAPHY:1||SUBLIMATION GROWTH:1||radiography:1||porous SiC:1||GIANT MAGNETORESISTANCE:1||SEMICONDUCTORS:1||Ga diffusion:1||electroless deposition:1||HEMATITE:1||FREEELECTRON LASER:1||MOCVD:1||interfaces:1||white beam:1||imaging technique:1||nucleation layer:1||interface structure:1||epitaxial Baferrite film:1||rf magnetron sputtering:1||MAGNETIC CHARACTERISTICS:1||MIXTURE:1||ACCESS MEMORY APPLICATION:1||COHERENCY STRAIN:1||DENSITY:1||nanofabrication:1||POLY(METHYL METHACRYLATE) MICROSPHERE:1||RESIST:1||unmonochromatic beam:1||MICRORADIOGRAPHY:1||INTERFEROMETER:1||EXPOSURE:1||volume variation electronic:1||PULSEDLASER ABLATION:1||Semiconducting IIVI materials:1||Light emitting diodes:1||phase contrast microscopies:1||lung:1||AUGERELECTRON SPECTROSCOPY:1||passivation:1||additive manufacturing:1||Silicon carbide:1||Synchrotron radiation:1||Synchrotron radiation imaging:1||Dislocations (crystals):1||LUNG INJURY:1||POLYMER SURFACES:1||SINGLE CELLS:1||PREFERRED ORIENTATION:1||sapphire orientation:1||TANTALUM:1||BIASENHANCED NUCLEATION:1||hexaferrite:1||stretched exponential:1||SOLIDSURFACE:1||SHEAR:1||VIDEO MICROSCOPY:1||CARBON NANOTUBES:1||realtime observation:1||Xray synchrotron:1||CARBONMONOXIDE:1||ELECTROCHEMICAL FABRICATION:1||crystal growth:1||computer simulation:1||FERROELECTRICFILMS:1||TITANIUM IMPLANTS:1||BONE INTERFACE:1||EXAFS perpendicular magnetic recording:1||Pd/Ni:1||ELECTRODES:1||internal organ:1||LIGHTEMITTINGDIODES:1||interfacial structure:1||CONSTANT:1||DIELECTRICPROPERTIES:1||AR:1||DEVICES:1||BiSrCaCuO:1||LASER ABLATION:1||MECHANISM:1||SELECTIVE DEPOSITION:1||TARGETED DRUGDELIVERY:1||PEG:1||carbon nanotubes:1||nanocharacterization:1||WALLED CARBON NANOTUBE:1||basal cell carcinoma:1||PARTICULATE AIRPOLLUTION:1||FINE:1||CITIES:1||DOPED ZNO FILMS:1||atherosclerosis:1||drug delivery:1||hard 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microradiography:1||FeSO4:1||INDUCTION:1||BaTiO3 and SrTiO3 thin films:1||HARDXRAYS:1||light emitting diodes:1||ACID:1||MICROSTRUCTURES:1||PHOTOLUMINESCENCE PROPERTIES:1||LASER IRRADIATION:1||Human aging:1||polychromatic synchrotron Xray:1||refraction enhanced imaging:1||CHROMOPHORES:1||ACUTE LUNG INJURY:1||spatial resolution:1||BETAFESI2:1||VLSI:1||SI1XGEX:1||COLLOIDAL SUSPENSIONS:1||ELECTRONICS:1||ENHANCEMENT:1||artificial lattice:1||sinters:1||SILVER:1||STRAIN RELAXATION:1||biaxial texture:1||synchrotron scattering:1||transmission electron microscopy:1||IRONOXIDE FILMS:1||PZT thin film:1||ferroelectric thin film:1||MISFIT RELAXATION MECHANISMS:1||PBTIO3:1||O2:1||CONDUCTING POLYMERS:1||poly(methylmethancrylate):1||microspheres:1||phase contrast Xray microscope:1||AMBIENT AIR:1||ATMOSPHERE:1||XRAY INTERFEROMETER:1||NiAu composite nanoparticles.:1||synchrotron radiation Xrays:1||microtomography:1||OIL FLYASH:1||zinc oxide:1||mammography:1||SrRuO3 film:1||Laser epitaxy:1||HOLE MOBILITY:1||Models of crystal defects:1||RABBIT LUNGS:1||NI/AU CONTACT:1||3D printing:1||Stress relaxation:1||SURFACEAREA:1||IMAGE:1||modulation transfer function (MTF):1||Pb ions:1||Insitu visualization:1||Interfacial tension:1||DISPERSION FORCES:1||SINGLECRYSTALS:1||XRAY SOURCE:1||Synchrotron Xray imaging:1||Realtime imaging:1||MEDICAL APPLICATIONS:1||wiggler bending magnet:1||undulator:1||diffractionenhanced imaging:1||ZnO film:1||CAPACITORS:1||HE3:1||NiP alloy:1||PHOTOCHEMICAL FORMATION:1||extended domain matching:1||cubetextured Ni substrates:1||RAY COMPUTEDTOMOGRAPHY:1||electrode layer:1||DOMAINSTRUCTURE:1||XRAY CT:1||SPECIMEN:1||mammographic phantom:1||Xray absorption spectroscopy:1||BLUE:1||CONTACT:1||(BA:1||synchrotron spectromicroscopy:1||thin film:1||MICROWAVE PLASMA:1||GOLD NANOPARTICLES:1||POLYMERIZATION:1||DISEASE:1||Shanghai:1||MORTALITY:1||HETEROSTRUCTURES:1||METHACRYLATE:1||prostate cancer:1||renal cell carcinoma:1||RATS:1||PULSEDLASER DEPOSITION:1||semiconducting IIVI materials:1||PATTERNS:1||sapphire:1||evaporation:1||ZINCOXIDE:1||LIGHTEMITTING DIODE:1||Synchrotron imaging:1||Dislocations:1||Cracks:1||LIVE:1||spinal cord:1||stainless steel:1||nanophotonics:1||subwavelength waveguides:1||Synchrotrons:1||High dislocation density:1||Misfit stress relaxations:1||Randomly distributed:1||Tripleaxis xray diffractions:1||FLOW:1||CRYSTALLINE ORGANIC NANORODS:1||SHAPE CHANGES:1||ZnO thin film:1||(111)SI:1||XRAY MIRRORS:1||low temperature:1||oxide cathodes:1||heterogeneity:1||Xray microscopy:1||INTERFACIAL TENSIONS:1||single crystal growth:1||CARCINOMA:1||mouse:1||ANIMALS:1||Mndoped ZnO:1||luminescence:1||solution precipitation:1||CLUSTER:1||relaxation:1||ALPHAFE2O3:1||XANES:1||epitaxy:1||LaNiO3 thin film:1||LANIO3 THINFILMS:1||ELECTRODE:1||Fe3O4 sublayer:1||EXAFS microscopy:1||FERRITE FILMS:1||SURFACE PRETREATMENTS:1||superconductors:1||CONTRAST AGENT:1||BIODISTRIBUTION:1||DEATH:1||SYNCHROTRON:1||IR:1||apo Eknockout 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GaN:4||MICROSCOPY:4||REDUCTION:4||POLYMER:4||DEFECTS:3||COHERENCE:3||MICROTOMOGRAPHY:3||NANOPARTICLES:3||synchrotron:3||LIGHT:3||TRANSISTORS:3||SURFACES:3||STRAIN:3||EPITAXIAL LAYERS:3||DRUGDELIVERY:3||REFRACTION:3||growth mechanism:3||METALS:3||MICROPIPES:3||SYSTEM:3||NUCLEATION:3||synchrotron Xray scattering:3||SURFACE:3||SCREW DISLOCATIONS:3||SIMULATION:3||HARD XRAYS:3||ELECTRICALPROPERTIES:3||EPITAXY:3||GAN:3||PM2.5:3||EVAPORATION:3||LIQUIDS:3||INPLANE:3||RAT:3||ANGIOGENESIS:3||CT:3||GaN:3||ZnO:3||NANORODS:3||strain:3||PB(ZR0.53TI0.47)O3:3||CRYSTALLIZATION:3||synchrotron Xrays:2||buffer layer:2||TRANSMISSION ELECTRONMICROSCOPY:2||EPITAXIAL COSI2 FILMS:2||MECHANISMS:2||INSITU GROWTH:2||DEVICE:2||LOCALIZED ELECTROCHEMICAL DEPOSITION:2||X ray diffraction:2||SCHOTTKY CONTACT:2||IRRADIATION:2||aqua regia treatment:2||INVIVO:2||CELLADHESION:2||MORPHOGENETIC PROTEIN2:2||RECEPTOR:2||TEM:2||broadband synchrotron light:2||nanoparticle:2||BUFFER LAYERS:2||TC:2||ENHANCED SYNCHROTRON RADIOLOGY:2||synthesis:2||POLYDIMETHYLSILOXANE:2||MICROCHANNELS:2||PRETREATMENT PROCESS:2||XRAY:2||CHEMOTAXIS:2||MECHANOSENSORY TRANSDUCTION:2||rectangular microtube:2||CONJUGATED POLYMER:2||atomic force microscopy:2||METALLIC OXIDE SRRUO3:2||LASERABLATION:2||STRESS:2||ZONE PLATES:2||FRICTION:2||THERMALSTABILITY:2||Xrays:2||RAY:2||NM:2||ENERGY:2||TOPOGRAPHY:2||synchrotron Xray:2||ACID HYDROGELS:2||CAENORHABDITISELEGANS:2||PROTEIN:2||defects:2||EVOLUTION:2||FABRICATION:2||sharp bending waveguide:2||lasing action:2||BULK CRYSTALS:2||SUPERLATTICES:2||COATED CONDUCTORS:2||SI(111):2||phase contrast:2||CORONARY ANGIOGRAPHY:2||SPECTROMICROSCOPY:2||MEPHISTO:2||OXYGEN:2||OPTICALPROPERTIES:2||RADIOGRAPHY:2||CONTACT DEFORMATIONS:2||MOLECULAR FORCES:2||SOLIDS:2||NTYPE GAN:2||deposition:2||CHEMISTRY:2||DEFORMATION:2||SUBSTRATE:2||HETEROEPITAXY:2||NANOTOPOGRAPHY:2||EPITAXIALGROWTH:2||Xray:2||CHEMICAL VAPORDEPOSITION:2||SILICON STRUCTURES:2||STEMCELLS:2||CHANNEL:2||crystal 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Xray:1||BIPOLARTRANSISTORS:1||longevity:1||Confocal microscopy:1||Colloidal wettability:1||ATOMICFORCE MICROSCOPY:1||storage ring:1||digital subtraction:1||SCATTERING:1||size effect:1||SYNTHETIC QUARTZ:1||liquid metal embrittlement:1||iron ore:1||cube textured Ni substrates:1||SrRuO3 films:1||laser ablations:1||Ti underlayer:1||RANDOMACCESS MEMORIES:1||DOMAIN CONFIGURATIONS:1||MGO(100):1||SPECTROSCOPY:1||XE:1||IONBEAM:1||GRAINBOUNDARY MIGRATION:1||SRTIO3:1||COMPOSITES:1||FOAMS:1||BREASTCANCER SPECIMENS:1||unmonochromatized:1||Xray induced nucleation:1||gold:1||ABSORPTION:1||SEPARATION:1||CZOCHRALSKI GROWTH:1||RETRIEVAL:1||GAMMARADIATION:1||AQUEOUSSOLUTION:1||NANOCOMPOSITES:1||INCREASE:1||without staining procedure:1||XPS:1||Imaging techniques:1||Interfaces (materials):1||Dislocation distributions:1||AZOBENZENE:1||STRUCTURAL EVOLUTION:1||RELAXATION:1||DROP IMPACT:1||NONLINEAR DYNAMICS:1||DISLOCATIONS:1||Colloids:1||TRANSFORMATION:1||METAL INTERCONNECTS:1||ELASTIC CONDUCTORS:1||LOGIC:1||DEFICIENT MICE:1||tomography:1||FACILITY:1||osseointegration:1||ROCKS:1||dental radiography:1||Zn coating:1||RE2O3/Ni:1||YBCO COATED CONDUCTORS:1||threedimensional islands:1||(Ba,Sr)TiO3:1||ultrahigh resolution:1||photoelectron emission:1||Pd:1||LANIO3:1||BASE ELECTRODES:1||iron oxide phase:1||ironoxide interlayer:1||COATED GLASS SUBSTRATE:1||MICROWAVE PLASMA NUCLEATION:1||ENHANCED NUCLEATION:1||phase transformation:1||ADSORPTION:1||phasecontrast xray imaging:1||lung inflammation:1||SI1XGEX SINGLECRYSTALS:1||COCONTINUITY:1||SCALE:1||OBJECT:1||synchrotron microradiography:1||FeSO4:1||INDUCTION:1||BaTiO3 and SrTiO3 thin films:1||HARDXRAYS:1||light emitting diodes:1||ACID:1||MICROSTRUCTURES:1||PHOTOLUMINESCENCE PROPERTIES:1||LASER IRRADIATION:1||Human aging:1||polychromatic synchrotron Xray:1||refraction enhanced imaging:1||CHROMOPHORES:1||ACUTE LUNG INJURY:1||spatial resolution:1||BETAFESI2:1||VLSI:1||SI1XGEX:1||COLLOIDAL SUSPENSIONS:1||ELECTRONICS:1||ENHANCEMENT:1||artificial lattice:1||sinters:1||SILVER:1||STRAIN RELAXATION:1||biaxial texture:1||synchrotron scattering:1||transmission electron microscopy:1||IRONOXIDE FILMS:1||PZT thin film:1||ferroelectric thin film:1||MISFIT RELAXATION MECHANISMS:1||PBTIO3:1||O2:1||CONDUCTING POLYMERS:1||poly(methylmethancrylate):1||microspheres:1||phase contrast Xray microscope:1||AMBIENT AIR:1||ATMOSPHERE:1||XRAY INTERFEROMETER:1||NiAu composite nanoparticles.:1||synchrotron radiation Xrays:1||microtomography:1||OIL FLYASH:1||zinc oxide:1||mammography:1||SrRuO3 film:1||Laser epitaxy:1||HOLE MOBILITY:1||Models of crystal defects:1||RABBIT LUNGS:1||NI/AU CONTACT:1||3D printing:1||Stress relaxation:1||SURFACEAREA:1||IMAGE:1||modulation transfer function (MTF):1||Pb ions:1||Insitu visualization:1||Interfacial tension:1||DISPERSION FORCES:1||SINGLECRYSTALS:1||XRAY SOURCE:1||Synchrotron Xray imaging:1||Realtime imaging:1||MEDICAL APPLICATIONS:1||wiggler bending magnet:1||undulator:1||diffractionenhanced imaging:1||ZnO film:1||CAPACITORS:1||HE3:1||NiP alloy:1||PHOTOCHEMICAL FORMATION:1||extended domain matching:1||cubetextured Ni substrates:1||RAY COMPUTEDTOMOGRAPHY:1||electrode layer:1||DOMAINSTRUCTURE:1||XRAY CT:1||SPECIMEN:1||mammographic phantom:1||Xray absorption spectroscopy:1||BLUE:1||CONTACT:1||(BA:1||synchrotron spectromicroscopy:1||thin film:1||MICROWAVE PLASMA:1||GOLD NANOPARTICLES:1||POLYMERIZATION:1||DISEASE:1||Shanghai:1||MORTALITY:1||HETEROSTRUCTURES:1||METHACRYLATE:1||prostate cancer:1||renal cell carcinoma:1||RATS:1||PULSEDLASER DEPOSITION:1||semiconducting IIVI materials:1||PATTERNS:1||sapphire:1||evaporation:1||ZINCOXIDE:1||LIGHTEMITTING DIODE:1||Synchrotron imaging:1||Dislocations:1||Cracks:1||LIVE:1||spinal cord:1||stainless steel:1||nanophotonics:1||subwavelength waveguides:1||Synchrotrons:1||High dislocation density:1||Misfit stress relaxations:1||Randomly distributed:1||Tripleaxis xray diffractions:1||FLOW:1||CRYSTALLINE ORGANIC NANORODS:1||SHAPE CHANGES:1||ZnO thin film:1||(111)SI:1||XRAY MIRRORS:1||low temperature:1||oxide cathodes:1||heterogeneity:1||Xray microscopy:1||INTERFACIAL TENSIONS:1||single crystal growth:1||CARCINOMA:1||mouse:1||ANIMALS:1||Mndoped ZnO:1||luminescence:1||solution precipitation:1||CLUSTER:1||relaxation:1||ALPHAFE2O3:1||XANES:1||epitaxy:1||LaNiO3 thin film:1||LANIO3 THINFILMS:1||ELECTRODE:1||Fe3O4 sublayer:1||EXAFS microscopy:1||FERRITE FILMS:1||SURFACE PRETREATMENTS:1||superconductors:1||CONTRAST AGENT:1||BIODISTRIBUTION:1||DEATH:1||SYNCHROTRON:1||IR:1||apo Eknockout mouse:1||plaque:1||microradiology:1||ALPHASYNUCLEIN:1||PULMONARY TOXICITY:1||XRAY TOPOGRAPHY:1||dislocation:1||metalorganic chemical vapor deposition:1||CRYSTALGROWTH:1||SELFASSEMBLED MONOLAYERS:1||MEMBRANES:1||MAGNETICANISOTROPY:1||SI1XGEX CRYSTALS:1||STRAINEDSI:1||Extended Weibull model:1||MOLYBDENUM:1||ALLOYS:1||IRON:1||Theoretical modeling:1||Threading dislocation:1||GROWTH:27||THINFILMS:16||SYNCHROTRONRADIATION:15||CONTRAST:11||RADIOLOGY:11||PARTICLES:11||FILMS:11||SILICON:10||RADIATION:10||DEPOSITION:10||RESOLUTION:9||CRYSTALS:8||SILICONCARBIDE:7||XRAYS:7||MAMMOGRAPHY:7||Xray diffraction:7||synchrotron radiation:6||XRAYSCATTERING:6||MODEL:6||microstructure:6||DYNAMICS:5||ELECTRODEPOSITION:5||LAYERS:5||CHEMICALVAPORDEPOSITION:5||TEMPERATURE:5||TOMOGRAPHY:5||COMPUTEDTOMOGRAPHY:5||SAPPHIRE:5||MEDIA:5||NANOWIRES:5||DIFFRACTION:4||TISSUES:4||pulsed laser deposition:4||phase contrast imaging:4||LAYER:4||IMAGES:4||DIODES:4||FIELDEFFECT TRANSISTORS:4||ptype GaN:4||MICROSCOPY:4||REDUCTION:4||POLYMER:4||DEFECTS:3||COHERENCE:3||MICROTOMOGRAPHY:3||NANOPARTICLES:3||synchrotron:3||LIGHT:3||TRANSISTORS:3||SURFACES:3||STRAIN:3||EPITAXIAL LAYERS:3||DRUGDELIVERY:3||REFRACTION:3||growth mechanism:3||METALS:3||MICROPIPES:3||SYSTEM:3||NUCLEATION:3||synchrotron Xray scattering:3||SURFACE:3||SCREW DISLOCATIONS:3||SIMULATION:3||HARD XRAYS:3||ELECTRICALPROPERTIES:3||EPITAXY:3||GAN:3||PM2.5:3||EVAPORATION:3||LIQUIDS:3||INPLANE:3||RAT:3||ANGIOGENESIS:3||CT:3||GaN:3||ZnO:3||NANORODS:3||strain:3||PB(ZR0.53TI0.47)O3:3||CRYSTALLIZATION:3||synchrotron Xrays:2||buffer layer:2||TRANSMISSION ELECTRONMICROSCOPY:2||EPITAXIAL COSI2 FILMS:2||MECHANISMS:2||INSITU GROWTH:2||DEVICE:2||LOCALIZED ELECTROCHEMICAL DEPOSITION:2||X ray diffraction:2||SCHOTTKY CONTACT:2||IRRADIATION:2||aqua regia treatment:2||INVIVO:2||CELLADHESION:2||MORPHOGENETIC PROTEIN2:2||RECEPTOR:2||TEM:2||broadband synchrotron light:2||nanoparticle:2||BUFFER LAYERS:2||TC:2||ENHANCED SYNCHROTRON RADIOLOGY:2||synthesis:2||POLYDIMETHYLSILOXANE:2||MICROCHANNELS:2||PRETREATMENT PROCESS:2||XRAY:2||CHEMOTAXIS:2||MECHANOSENSORY TRANSDUCTION:2||rectangular microtube:2||CONJUGATED POLYMER:2||atomic force microscopy:2||METALLIC OXIDE SRRUO3:2||LASERABLATION:2||STRESS:2||ZONE PLATES:2||FRICTION:2||THERMALSTABILITY:2||Xrays:2||RAY:2||NM:2||ENERGY:2||TOPOGRAPHY:2||synchrotron Xray:2||ACID HYDROGELS:2||CAENORHABDITISELEGANS:2||PROTEIN:2||defects:2||EVOLUTION:2||FABRICATION:2||sharp bending waveguide:2||lasing action:2||BULK CRYSTALS:2||SUPERLATTICES:2||COATED CONDUCTORS:2||SI(111):2||phase contrast:2||CORONARY ANGIOGRAPHY:2||SPECTROMICROSCOPY:2||MEPHISTO:2||OXYGEN:2||OPTICALPROPERTIES:2||RADIOGRAPHY:2||CONTACT DEFORMATIONS:2||MOLECULAR FORCES:2||SOLIDS:2||NTYPE GAN:2||deposition:2||CHEMISTRY:2||DEFORMATION:2||SUBSTRATE:2||HETEROEPITAXY:2||NANOTOPOGRAPHY:2||EPITAXIALGROWTH:2||Xray:2||CHEMICAL VAPORDEPOSITION:2||SILICON STRUCTURES:2||STEMCELLS:2||CHANNEL:2||crystal structure:2||CORONARYANGIOGRAPHY:2||SiC:2||BUFFER LAYER:2||MOLECULARBEAM EPITAXY:2||INTERFACE:2||SIZE:2||ELECTRON:2||XRAY MICROSCOPY:2||MORPHOLOGIES:2||NANOCOLLOIDS:2||FORCE MICROSCOPY:2||ablation:2||polymers:2||(NH4)(2)Sx treatment:2||CLUSTERS:2||BIOMATERIALS:2||CIRCUITS:2||rectangular ring mode:2||GUIDES:2||MICROCAVITY:2||PHOTOLUMINESCENCE:2||epitaxial growth:2||EMBRITTLEMENT:2||Xray imaging:2||BIOCOMPATIBILITY:2||BEHAVIOR:2||MICROWAVEPLASMA:2||LOWPRESSURE:2||DEGRADATION:2||TISSUE:2||LIQUID:2||SOFT LITHOGRAPHY:2||amplified spontaneous emission (ASE):2||SMALL ORGANICMOLECULES:2||PHOTONIC CRYSTAL:2||micropipes:2||radiology:2||ALLOY:2||Xray scattering:2||CRITICALCURRENT DENSITY:2||ELECTRONMICROSCOPY:2||BI(PB)SRCACUO:2||ELECTRONICSTRUCTURE:2||RECONSTRUCTION:2||MG:2||ohmic contact:2||Pd ohmic contact:2||xray scattering:2||INP:2||annealing:2||REGENERATION:2||TITANIUM:2||COLLOIDAL GOLD:2||crystallization:2||BUCKLING MECHANICS:2||LASERS:2||MODES:2||synchrotron imaging:2||lattice distortion:2||AQUEOUSELECTROLYTE:2||MOLECULARDYNAMICS:2||OXIDE:2||MICROANGIOGRAPHY:2||OXIDATION:2||MICRORADIOLOGY:2||TECHNOLOGY:2||GE:2||surface chemistry:2||RECOVERY:2||OHMIC CONTACTS:2||LASERDIODES:2||PTYPE GAN:2||MOTION:2||PHANTOM:2||PHASE:2||CALCIUMPHOSPHATE CERAMICS:2||REPAIR:2||porphyrin:2||AMPLIFIED SPONTANEOUS EMISSION:2||METALELECTRODES:2||PD:2||SUPERCONDUCTING TAPES:2||nucleation:2||COATINGS:2||Xray topography:2||MONOLAYERS:2||SURFACE MODIFICATION:2||LITHOGRAPHY:2||MECHANICAL VENTILATION:1||MICRORIBBONS:1||STIFFNESS:1||DUALPHASE STEEL:1||growth mode:1||strain evolution:1||SI(100):1||ANISOTROPY:1||WET GRANULAR PILE:1||COALESCENCE:1||INSITU POLYMERIZATION:1||GRAPHENE:1||CANCER:1||NODULES:1||RABBITS:1||phasecontrast:1||YTTRIUMOXIDE FILMS:1||BaTiO3/SrTiO3:1||dental implant:1||coincidence site density:1||ERNI2B2C:1||crystallites:1||CoCrPt films:1||tensile strain:1||gallide:1||MGO:1||Baferrite film:1||synchrotron xray scattering:1||ZNO THINFILMS:1||MORPHOLOGY:1||PHASES:1||MICE:1||EBEAM LITHOGRAPHY:1||electrorheological fluids:1||NANOFIBROUS MEMBRANES:1||NANOLITHOGRAPHY:1||refractive index radiology:1||BLOOD:1||colloidal:1||SIZE CONTROL:1||nanoradiology:1||ZnSO4:1||lung injury:1||METAL:1||PM10:1||textured grain:1||MICROSTRUCTURE:1||DIMENSIONS:1||highresolution Xray diffraction:1||low temperature buffer:1||Zinc compounds:1||SI:1||HUMAN LONGEVITY:1||Maximum human lifespan:1||LIMITS:1||MOSFETS:1||in situ XANES:1||nanowires:1||PHOTOIRRADIATION:1||FIBERS:1||WORK:1||EMISSION:1||RADIATION MICROTOMOGRAPHY:1||RAMANSCATTERING:1||gold nanoparticles:1||synchrotron Xray diffraction:1||OPTICAL WAVEGUIDES:1||CONDUCTINGPOLYMER NANOWIRE:1||Lung cancer:1||INTRAVENOUS CORONARYARTERIOGRAPHY:1||SUBLIMATION GROWTH:1||radiography:1||porous SiC:1||GIANT MAGNETORESISTANCE:1||SEMICONDUCTORS:1||Ga diffusion:1||electroless deposition:1||HEMATITE:1||FREEELECTRON LASER:1||MOCVD:1||interfaces:1||white beam:1||imaging technique:1||nucleation layer:1||interface structure:1||epitaxial Baferrite film:1||rf magnetron sputtering:1||MAGNETIC CHARACTERISTICS:1||MIXTURE:1||ACCESS MEMORY APPLICATION:1||COHERENCY STRAIN:1||DENSITY:1||nanofabrication:1||POLY(METHYL METHACRYLATE) MICROSPHERE:1||RESIST:1||unmonochromatic beam:1||MICRORADIOGRAPHY:1||INTERFEROMETER:1||EXPOSURE:1||volume variation electronic:1||PULSEDLASER ABLATION:1||Semiconducting IIVI materials:1||Light emitting diodes:1||phase contrast microscopies:1||lung:1||AUGERELECTRON SPECTROSCOPY:1||passivation:1||additive manufacturing:1||Silicon carbide:1||Synchrotron radiation:1||Synchrotron radiation imaging:1||Dislocations (crystals):1||LUNG INJURY:1||POLYMER SURFACES:1||SINGLE CELLS:1||PREFERRED ORIENTATION:1||sapphire orientation:1||TANTALUM:1||BIASENHANCED NUCLEATION:1||hexaferrite:1||stretched exponential:1||SOLIDSURFACE:1||SHEAR:1||VIDEO MICROSCOPY:1||CARBON NANOTUBES:1||realtime observation:1||Xray synchrotron:1||CARBONMONOXIDE:1||ELECTROCHEMICAL FABRICATION:1||crystal growth:1||computer simulation:1||FERROELECTRICFILMS:1||TITANIUM IMPLANTS:1||BONE INTERFACE:1||EXAFS perpendicular magnetic recording:1||Pd/Ni:1||ELECTRODES:1||internal organ:1||LIGHTEMITTINGDIODES:1||interfacial structure:1||CONSTANT:1||DIELECTRICPROPERTIES:1||AR:1||DEVICES:1||BiSrCaCuO:1||LASER ABLATION:1||MECHANISM:1||SELECTIVE DEPOSITION:1||TARGETED DRUGDELIVERY:1||PEG:1||carbon nanotubes:1||nanocharacterization:1||WALLED CARBON NANOTUBE:1||basal cell carcinoma:1||PARTICULATE AIRPOLLUTION:1||FINE:1||CITIES:1||DOPED ZNO FILMS:1||atherosclerosis:1||drug delivery:1||hard Xray:1||COMBUSTION:1||ARTIFICIAL BATIO3/SRTIO3 SUPERLATTICES:1||surface morphology:1||Direct wafer bonding:1||COLLOIDAL GOLD PARTICLES:1||DELINEATION:1||EXPECTANCY:1||DEMOGRAPHY:1||MRI:1||SIGE:1||Phase contrast microradiography:1||INJURY:1||PASSIVITY:1||VOLUME:1||CONTACTANGLE:1||ARRAYS:1||DUCTILITY:1||sputtering:1||computed microtomography (mu CT):1||unmonochromatized Xray:1||BIPOLARTRANSISTORS:1||longevity:1||Confocal microscopy:1||Colloidal wettability:1||ATOMICFORCE MICROSCOPY:1||storage ring:1||digital subtraction:1||SCATTERING:1||size effect:1||SYNTHETIC QUARTZ:1||liquid metal embrittlement:1||iron ore:1||cube textured Ni substrates:1||SrRuO3 films:1||laser ablations:1||Ti underlayer:1||RANDOMACCESS MEMORIES:1||DOMAIN CONFIGURATIONS:1||MGO(100):1||SPECTROSCOPY:1||XE:1||IONBEAM:1||GRAINBOUNDARY MIGRATION:1||SRTIO3:1||COMPOSITES:1||FOAMS:1||BREASTCANCER SPECIMENS:1||unmonochromatized:1||Xray induced nucleation:1||gold:1||ABSORPTION:1||SEPARATION:1||CZOCHRALSKI GROWTH:1||RETRIEVAL:1||GAMMARADIATION:1||AQUEOUSSOLUTION:1||NANOCOMPOSITES:1||INCREASE:1||without staining procedure:1||XPS:1||Imaging techniques:1||Interfaces (materials):1||Dislocation distributions:1||AZOBENZENE:1||STRUCTURAL EVOLUTION:1||RELAXATION:1||DROP IMPACT:1||NONLINEAR DYNAMICS:1||DISLOCATIONS:1||Colloids:1||TRANSFORMATION:1||METAL INTERCONNECTS:1||ELASTIC CONDUCTORS:1||LOGIC:1||DEFICIENT MICE:1||tomography:1||FACILITY:1||osseointegration:1||ROCKS:1||dental radiography:1||Zn coating:1||RE2O3/Ni:1||YBCO COATED CONDUCTORS:1||threedimensional islands:1||(Ba,Sr)TiO3:1||ultrahigh resolution:1||photoelectron emission:1||Pd:1||LANIO3:1||BASE ELECTRODES:1||iron oxide phase:1||ironoxide interlayer:1||COATED GLASS SUBSTRATE:1||MICROWAVE PLASMA NUCLEATION:1||ENHANCED NUCLEATION:1||phase transformation:1||ADSORPTION:1||phasecontrast xray imaging:1||lung inflammation:1||SI1XGEX SINGLECRYSTALS:1||COCONTINUITY:1||SCALE:1||OBJECT:1||synchrotron microradiography:1||FeSO4:1||INDUCTION:1||BaTiO3 and SrTiO3 thin films:1||HARDXRAYS:1||light emitting diodes:1||ACID:1||MICROSTRUCTURES:1||PHOTOLUMINESCENCE PROPERTIES:1||LASER IRRADIATION:1||Human aging:1||polychromatic synchrotron Xray:1||refraction enhanced imaging:1||CHROMOPHORES:1||ACUTE LUNG INJURY:1||spatial resolution:1||BETAFESI2:1||VLSI:1||SI1XGEX:1||COLLOIDAL SUSPENSIONS:1||ELECTRONICS:1||ENHANCEMENT:1||artificial lattice:1||sinters:1||SILVER:1||STRAIN RELAXATION:1||biaxial texture:1||synchrotron scattering:1||transmission electron microscopy:1||IRONOXIDE FILMS:1||PZT thin film:1||ferroelectric thin film:1||MISFIT RELAXATION MECHANISMS:1||PBTIO3:1||O2:1||CONDUCTING POLYMERS:1||poly(methylmethancrylate):1||microspheres:1||phase contrast Xray microscope:1||AMBIENT AIR:1||ATMOSPHERE:1||XRAY INTERFEROMETER:1||NiAu composite nanoparticles.:1||synchrotron radiation Xrays:1||microtomography:1||OIL FLYASH:1||zinc oxide:1||mammography:1||SrRuO3 film:1||Laser epitaxy:1||HOLE MOBILITY:1||Models of crystal defects:1||RABBIT LUNGS:1||NI/AU CONTACT:1||3D printing:1||Stress relaxation:1||SURFACEAREA:1||IMAGE:1||modulation transfer function (MTF):1||Pb ions:1||Insitu visualization:1||Interfacial tension:1||DISPERSION FORCES:1||SINGLECRYSTALS:1||XRAY SOURCE:1||Synchrotron Xray imaging:1||Realtime imaging:1||MEDICAL APPLICATIONS:1||wiggler bending magnet:1||undulator:1||diffractionenhanced imaging:1||ZnO film:1||CAPACITORS:1||HE3:1||NiP alloy:1||PHOTOCHEMICAL FORMATION:1||extended domain matching:1||cubetextured Ni substrates:1||RAY COMPUTEDTOMOGRAPHY:1||electrode layer:1||DOMAINSTRUCTURE:1||XRAY CT:1||SPECIMEN:1||mammographic phantom:1||Xray absorption spectroscopy:1||BLUE:1||CONTACT:1||(BA:1||synchrotron spectromicroscopy:1||thin film:1||MICROWAVE PLASMA:1||GOLD NANOPARTICLES:1||POLYMERIZATION:1||DISEASE:1||Shanghai:1||MORTALITY:1||HETEROSTRUCTURES:1||METHACRYLATE:1||prostate cancer:1||renal cell carcinoma:1||RATS:1||PULSEDLASER DEPOSITION:1||semiconducting IIVI materials:1||PATTERNS:1||sapphire:1||evaporation:1||ZINCOXIDE:1||LIGHTEMITTING DIODE:1||Synchrotron imaging:1||Dislocations:1||Cracks:1||LIVE:1||spinal cord:1||stainless steel:1||nanophotonics:1||subwavelength waveguides:1||Synchrotrons:1||High dislocation density:1||Misfit stress relaxations:1||Randomly distributed:1||Tripleaxis xray diffractions:1||FLOW:1||CRYSTALLINE ORGANIC NANORODS:1||SHAPE CHANGES:1||ZnO thin film:1||(111)SI:1||XRAY MIRRORS:1||low temperature:1||oxide cathodes:1||heterogeneity:1||Xray microscopy:1||INTERFACIAL TENSIONS:1||single crystal growth:1||CARCINOMA:1||mouse:1||ANIMALS:1||Mndoped ZnO:1||luminescence:1||solution precipitation:1||CLUSTER:1||relaxation:1||ALPHAFE2O3:1||XANES:1||epitaxy:1||LaNiO3 thin film:1||LANIO3 THINFILMS:1||ELECTRODE:1||Fe3O4 sublayer:1||EXAFS microscopy:1||FERRITE FILMS:1||SURFACE PRETREATMENTS:1||superconductors:1||CONTRAST AGENT:1||BIODISTRIBUTION:1||DEATH:1||SYNCHROTRON:1||IR:1||apo Eknockout mouse:1||plaque:1||microradiology:1||ALPHASYNUCLEIN:1||PULMONARY TOXICITY:1||XRAY TOPOGRAPHY:1||dislocation:1||metalorganic chemical vapor deposition:1||CRYSTALGROWTH:1||SELFASSEMBLED MONOLAYERS:1||MEMBRANES:1||MAGNETICANISOTROPY:1||SI1XGEX CRYSTALS:1||STRAINEDSI:1||Extended Weibull model:1||MOLYBDENUM:1||ALLOYS:1||IRON:1||Theoretical modeling:1||Threading dislocation:1||GROWTH:27||THINFILMS:16||SYNCHROTRONRADIATION:15||CONTRAST:11||RADIOLOGY:11||PARTICLES:11||FILMS:11||SILICON:10||RADIATION:10||DEPOSITION:10||RESOLUTION:9||CRYSTALS:8||SILICONCARBIDE:7||XRAYS:7||MAMMOGRAPHY:7||Xray diffraction:7||synchrotron radiation:6||XRAYSCATTERING:6||MODEL:6||microstructure:6||DYNAMICS:5||ELECTRODEPOSITION:5||LAYERS:5||CHEMICALVAPORDEPOSITION:5||TEMPERATURE:5||TOMOGRAPHY:5||COMPUTEDTOMOGRAPHY:5||SAPPHIRE:5||MEDIA:5||NANOWIRES:5||DIFFRACTION:4||TISSUES:4||pulsed laser deposition:4||phase contrast imaging:4||LAYER:4||IMAGES:4||DIODES:4||FIELDEFFECT TRANSISTORS:4||ptype GaN:4||MICROSCOPY:4||REDUCTION:4||POLYMER:4||DEFECTS:3||COHERENCE:3||MICROTOMOGRAPHY:3||NANOPARTICLES:3||synchrotron:3||LIGHT:3||TRANSISTORS:3||SURFACES:3||STRAIN:3||EPITAXIAL LAYERS:3||DRUGDELIVERY:3||REFRACTION:3||growth mechanism:3||METALS:3||MICROPIPES:3||SYSTEM:3||NUCLEATION:3||synchrotron Xray scattering:3||SURFACE:3||SCREW DISLOCATIONS:3||SIMULATION:3||HARD XRAYS:3||ELECTRICALPROPERTIES:3||EPITAXY:3||GAN:3||PM2.5:3||EVAPORATION:3||LIQUIDS:3||INPLANE:3||RAT:3||ANGIOGENESIS:3||CT:3||GaN:3||ZnO:3||NANORODS:3||strain:3||PB(ZR0.53TI0.47)O3:3||CRYSTALLIZATION:3||synchrotron Xrays:2||buffer layer:2||TRANSMISSION ELECTRONMICROSCOPY:2||EPITAXIAL COSI2 FILMS:2||MECHANISMS:2||INSITU GROWTH:2||DEVICE:2||LOCALIZED ELECTROCHEMICAL DEPOSITION:2||X ray diffraction:2||SCHOTTKY CONTACT:2||IRRADIATION:2||aqua regia treatment:2||INVIVO:2||CELLADHESION:2||MORPHOGENETIC PROTEIN2:2||RECEPTOR:2||TEM:2||broadband synchrotron light:2||nanoparticle:2||BUFFER LAYERS:2||TC:2||ENHANCED SYNCHROTRON RADIOLOGY:2||synthesis:2||POLYDIMETHYLSILOXANE:2||MICROCHANNELS:2||PRETREATMENT PROCESS:2||XRAY:2||CHEMOTAXIS:2||MECHANOSENSORY TRANSDUCTION:2||rectangular microtube:2||CONJUGATED POLYMER:2||atomic force microscopy:2||METALLIC OXIDE SRRUO3:2||LASERABLATION:2||STRESS:2||ZONE PLATES:2||FRICTION:2||THERMALSTABILITY:2||Xrays:2||RAY:2||NM:2||ENERGY:2||TOPOGRAPHY:2||synchrotron Xray:2||ACID HYDROGELS:2||CAENORHABDITISELEGANS:2||PROTEIN:2||defects:2||EVOLUTION:2||FABRICATION:2||sharp bending waveguide:2||lasing action:2||BULK CRYSTALS:2||SUPERLATTICES:2||COATED CONDUCTORS:2||SI(111):2||phase contrast:2||CORONARY ANGIOGRAPHY:2||SPECTROMICROSCOPY:2||MEPHISTO:2||OXYGEN:2||OPTICALPROPERTIES:2||RADIOGRAPHY:2||CONTACT DEFORMATIONS:2||MOLECULAR FORCES:2||SOLIDS:2||NTYPE GAN:2||deposition:2||CHEMISTRY:2||DEFORMATION:2||SUBSTRATE:2||HETEROEPITAXY:2||NANOTOPOGRAPHY:2||EPITAXIALGROWTH:2||Xray:2||CHEMICAL VAPORDEPOSITION:2||SILICON STRUCTURES:2||STEMCELLS:2||CHANNEL:2||crystal structure:2||CORONARYANGIOGRAPHY:2||SiC:2||BUFFER LAYER:2||MOLECULARBEAM EPITAXY:2||INTERFACE:2||SIZE:2||ELECTRON:2||XRAY MICROSCOPY:2||MORPHOLOGIES:2||NANOCOLLOIDS:2||FORCE MICROSCOPY:2||ablation:2||polymers:2||(NH4)(2)Sx treatment:2||CLUSTERS:2||BIOMATERIALS:2||CIRCUITS:2||rectangular ring mode:2||GUIDES:2||MICROCAVITY:2||PHOTOLUMINESCENCE:2||epitaxial growth:2||EMBRITTLEMENT:2||Xray imaging:2||BIOCOMPATIBILITY:2||BEHAVIOR:2||MICROWAVEPLASMA:2||LOWPRESSURE:2||DEGRADATION:2||TISSUE:2||LIQUID:2||SOFT LITHOGRAPHY:2||amplified spontaneous emission (ASE):2||SMALL ORGANICMOLECULES:2||PHOTONIC CRYSTAL:2||micropipes:2||radiology:2||ALLOY:2||Xray scattering:2||CRITICALCURRENT DENSITY:2||ELECTRONMICROSCOPY:2||BI(PB)SRCACUO:2||ELECTRONICSTRUCTURE:2||RECONSTRUCTION:2||MG:2||ohmic contact:2||Pd ohmic contact:2||xray scattering:2||INP:2||annealing:2||REGENERATION:2||TITANIUM:2||COLLOIDAL GOLD:2||crystallization:2||BUCKLING MECHANICS:2||LASERS:2||MODES:2||synchrotron imaging:2||lattice distortion:2||AQUEOUSELECTROLYTE:2||MOLECULARDYNAMICS:2||OXIDE:2||MICROANGIOGRAPHY:2||OXIDATION:2||MICRORADIOLOGY:2||TECHNOLOGY:2||GE:2||surface chemistry:2||RECOVERY:2||OHMIC CONTACTS:2||LASERDIODES:2||PTYPE GAN:2||MOTION:2||PHANTOM:2||PHASE:2||CALCIUMPHOSPHATE CERAMICS:2||REPAIR:2||porphyrin:2||AMPLIFIED SPONTANEOUS EMISSION:2||METALELECTRODES:2||PD:2||SUPERCONDUCTING TAPES:2||nucleation:2||COATINGS:2||Xray topography:2||MONOLAYERS:2||SURFACE MODIFICATION:2||LITHOGRAPHY:2||MECHANICAL VENTILATION:1||MICRORIBBONS:1||STIFFNESS:1||DUALPHASE STEEL:1||growth mode:1||strain evolution:1||SI(100):1||ANISOTROPY:1||WET GRANULAR PILE:1||COALESCENCE:1||INSITU POLYMERIZATION:1||GRAPHENE:1||CANCER:1||NODULES:1||RABBITS:1||phasecontrast:1||YTTRIUMOXIDE FILMS:1||BaTiO3/SrTiO3:1||dental implant:1||coincidence site density:1||ERNI2B2C:1||crystallites:1||CoCrPt films:1||tensile strain:1||gallide:1||MGO:1||Baferrite film:1||synchrotron xray scattering:1||ZNO THINFILMS:1||MORPHOLOGY:1||PHASES:1||MICE:1||EBEAM LITHOGRAPHY:1||electrorheological fluids:1||NANOFIBROUS MEMBRANES:1||NANOLITHOGRAPHY:1||refractive index radiology:1||BLOOD:1||colloidal:1||SIZE CONTROL:1||nanoradiology:1||ZnSO4:1||lung injury:1||METAL:1||PM10:1||textured grain:1||MICROSTRUCTURE:1||DIMENSIONS:1||highresolution Xray diffraction:1||low temperature buffer:1||Zinc compounds:1||SI:1||HUMAN LONGEVITY:1||Maximum human lifespan:1||LIMITS:1||MOSFETS:1||in situ XANES:1||nanowires:1||PHOTOIRRADIATION:1||FIBERS:1||WORK:1||EMISSION:1||RADIATION MICROTOMOGRAPHY:1||RAMANSCATTERING:1||gold nanoparticles:1||synchrotron Xray diffraction:1||OPTICAL WAVEGUIDES:1||CONDUCTINGPOLYMER NANOWIRE:1||Lung cancer:1||INTRAVENOUS CORONARYARTERIOGRAPHY:1||SUBLIMATION GROWTH:1||radiography:1||porous SiC:1||GIANT MAGNETORESISTANCE:1||SEMICONDUCTORS:1||Ga diffusion:1||electroless deposition:1||HEMATITE:1||FREEELECTRON LASER:1||MOCVD:1||interfaces:1||white beam:1||imaging technique:1||nucleation layer:1||interface structure:1||epitaxial Baferrite film:1||rf magnetron sputtering:1||MAGNETIC CHARACTERISTICS:1||MIXTURE:1||ACCESS MEMORY APPLICATION:1||COHERENCY STRAIN:1||DENSITY:1||nanofabrication:1||POLY(METHYL METHACRYLATE) MICROSPHERE:1||RESIST:1||unmonochromatic beam:1||MICRORADIOGRAPHY:1||INTERFEROMETER:1||EXPOSURE:1||volume variation electronic:1||PULSEDLASER ABLATION:1||Semiconducting IIVI materials:1||Light emitting diodes:1||phase contrast microscopies:1||lung:1||AUGERELECTRON SPECTROSCOPY:1||passivation:1||additive manufacturing:1||Silicon carbide:1||Synchrotron radiation:1||Synchrotron radiation imaging:1||Dislocations (crystals):1||LUNG INJURY:1||POLYMER SURFACES:1||SINGLE CELLS:1||PREFERRED ORIENTATION:1||sapphire orientation:1||TANTALUM:1||BIASENHANCED NUCLEATION:1||hexaferrite:1||stretched exponential:1||SOLIDSURFACE:1||SHEAR:1||VIDEO MICROSCOPY:1||CARBON NANOTUBES:1||realtime observation:1||Xray synchrotron:1||CARBONMONOXIDE:1||ELECTROCHEMICAL FABRICATION:1||crystal growth:1||computer simulation:1||FERROELECTRICFILMS:1||TITANIUM IMPLANTS:1||BONE INTERFACE:1||EXAFS perpendicular magnetic recording:1||Pd/Ni:1||ELECTRODES:1||internal organ:1||LIGHTEMITTINGDIODES:1||interfacial structure:1||CONSTANT:1||DIELECTRICPROPERTIES:1||AR:1||DEVICES:1||BiSrCaCuO:1||LASER ABLATION:1||MECHANISM:1||SELECTIVE DEPOSITION:1||TARGETED DRUGDELIVERY:1||PEG:1||carbon nanotubes:1||nanocharacterization:1||WALLED CARBON NANOTUBE:1||basal cell carcinoma:1||PARTICULATE AIRPOLLUTION:1||FINE:1||CITIES:1||DOPED ZNO FILMS:1||atherosclerosis:1||drug delivery:1||hard Xray:1||COMBUSTION:1||ARTIFICIAL BATIO3/SRTIO3 SUPERLATTICES:1||surface morphology:1||Direct wafer bonding:1||COLLOIDAL GOLD PARTICLES:1||DELINEATION:1||EXPECTANCY:1||DEMOGRAPHY:1||MRI:1||SIGE:1||Phase contrast microradiography:1||INJURY:1||PASSIVITY:1||VOLUME:1||CONTACTANGLE:1||ARRAYS:1||DUCTILITY:1||sputtering:1||computed microtomography (mu CT):1||unmonochromatized Xray:1||BIPOLARTRANSISTORS:1||longevity:1||Confocal microscopy:1||Colloidal wettability:1||ATOMICFORCE MICROSCOPY:1||storage ring:1||digital subtraction:1||SCATTERING:1||size effect:1||SYNTHETIC QUARTZ:1||liquid metal embrittlement:1||iron ore:1||cube textured Ni substrates:1||SrRuO3 films:1||laser ablations:1||Ti underlayer:1||RANDOMACCESS MEMORIES:1||DOMAIN CONFIGURATIONS:1||MGO(100):1||SPECTROSCOPY:1||XE:1||IONBEAM:1||GRAINBOUNDARY MIGRATION:1||SRTIO3:1||COMPOSITES:1||FOAMS:1||BREASTCANCER SPECIMENS:1||unmonochromatized:1||Xray induced nucleation:1||gold:1||ABSORPTION:1||SEPARATION:1||CZOCHRALSKI GROWTH:1||RETRIEVAL:1||GAMMARADIATION:1||AQUEOUSSOLUTION:1||NANOCOMPOSITES:1||INCREASE:1||without staining procedure:1||XPS:1||Imaging techniques:1||Interfaces (materials):1||Dislocation distributions:1||AZOBENZENE:1||STRUCTURAL EVOLUTION:1||RELAXATION:1||DROP IMPACT:1||NONLINEAR DYNAMICS:1||DISLOCATIONS:1||Colloids:1||TRANSFORMATION:1||METAL INTERCONNECTS:1||ELASTIC CONDUCTORS:1||LOGIC:1||DEFICIENT MICE:1||tomography:1||FACILITY:1||osseointegration:1||ROCKS:1||dental radiography:1||Zn coating:1||RE2O3/Ni:1||YBCO COATED CONDUCTORS:1||threedimensional islands:1||(Ba,Sr)TiO3:1||ultrahigh resolution:1||photoelectron emission:1||Pd:1||LANIO3:1||BASE ELECTRODES:1||iron oxide phase:1||ironoxide interlayer:1||COATED GLASS SUBSTRATE:1||MICROWAVE PLASMA NUCLEATION:1||ENHANCED NUCLEATION:1||phase transformation:1||ADSORPTION:1||phasecontrast xray imaging:1||lung inflammation:1||SI1XGEX SINGLECRYSTALS:1||COCONTINUITY:1||SCALE:1||OBJECT:1||synchrotron microradiography:1||FeSO4:1||INDUCTION:1||BaTiO3 and SrTiO3 thin films:1||HARDXRAYS:1||light emitting diodes:1||ACID:1||MICROSTRUCTURES:1||PHOTOLUMINESCENCE PROPERTIES:1||LASER IRRADIATION:1||Human aging:1||polychromatic synchrotron Xray:1||refraction enhanced imaging:1||CHROMOPHORES:1||ACUTE LUNG INJURY:1||spatial resolution:1||BETAFESI2:1||VLSI:1||SI1XGEX:1||COLLOIDAL SUSPENSIONS:1||ELECTRONICS:1||ENHANCEMENT:1||artificial lattice:1||sinters:1||SILVER:1||STRAIN RELAXATION:1||biaxial texture:1||synchrotron scattering:1||transmission electron microscopy:1||IRONOXIDE FILMS:1||PZT thin film:1||ferroelectric thin film:1||MISFIT RELAXATION MECHANISMS:1||PBTIO3:1||O2:1||CONDUCTING POLYMERS:1||poly(methylmethancrylate):1||microspheres:1||phase contrast Xray microscope:1||AMBIENT AIR:1||ATMOSPHERE:1||XRAY INTERFEROMETER:1||NiAu composite nanoparticles.:1||synchrotron radiation Xrays:1||microtomography:1||OIL FLYASH:1||zinc oxide:1||mammography:1||SrRuO3 film:1||Laser epitaxy:1||HOLE MOBILITY:1||Models of crystal defects:1||RABBIT LUNGS:1||NI/AU CONTACT:1||3D printing:1||Stress relaxation:1||SURFACEAREA:1||IMAGE:1||modulation transfer function (MTF):1||Pb ions:1||Insitu visualization:1||Interfacial tension:1||DISPERSION FORCES:1||SINGLECRYSTALS:1||XRAY SOURCE:1||Synchrotron Xray imaging:1||Realtime imaging:1||MEDICAL APPLICATIONS:1||wiggler bending magnet:1||undulator:1||diffractionenhanced imaging:1||ZnO film:1||CAPACITORS:1||HE3:1||NiP alloy:1||PHOTOCHEMICAL FORMATION:1||extended domain matching:1||cubetextured Ni substrates:1||RAY COMPUTEDTOMOGRAPHY:1||electrode layer:1||DOMAINSTRUCTURE:1||XRAY CT:1||SPECIMEN:1||mammographic phantom:1||Xray absorption spectroscopy:1||BLUE:1||CONTACT:1||(BA:1||synchrotron spectromicroscopy:1||thin film:1||MICROWAVE PLASMA:1||GOLD NANOPARTICLES:1||POLYMERIZATION:1||DISEASE:1||Shanghai:1||MORTALITY:1||HETEROSTRUCTURES:1||METHACRYLATE:1||prostate cancer:1||renal cell carcinoma:1||RATS:1||PULSEDLASER DEPOSITION:1||semiconducting IIVI materials:1||PATTERNS:1||sapphire:1||evaporation:1||ZINCOXIDE:1||LIGHTEMITTING DIODE:1||Synchrotron imaging:1||Dislocations:1||Cracks:1||LIVE:1||spinal cord:1||stainless steel:1||nanophotonics:1||subwavelength waveguides:1||Synchrotrons:1||High dislocation density:1||Misfit stress relaxations:1||Randomly distributed:1||Tripleaxis xray diffractions:1||FLOW:1||CRYSTALLINE ORGANIC NANORODS:1||SHAPE CHANGES:1||ZnO thin film:1||(111)SI:1||XRAY MIRRORS:1||low temperature:1||oxide cathodes:1||heterogeneity:1||Xray microscopy:1||INTERFACIAL TENSIONS:1||single crystal growth:1||CARCINOMA:1||mouse:1||ANIMALS:1||Mndoped ZnO:1||luminescence:1||solution precipitation:1||CLUSTER:1||relaxation:1||ALPHAFE2O3:1||XANES:1||epitaxy:1||LaNiO3 thin film:1||LANIO3 THINFILMS:1||ELECTRODE:1||Fe3O4 sublayer:1||EXAFS microscopy:1||FERRITE FILMS:1||SURFACE PRETREATMENTS:1||superconductors:1||CONTRAST AGENT:1||BIODISTRIBUTION:1||DEATH:1||SYNCHROTRON:1||IR:1||apo Eknockout 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GaN:4||MICROSCOPY:4||REDUCTION:4||POLYMER:4||DEFECTS:3||COHERENCE:3||MICROTOMOGRAPHY:3||NANOPARTICLES:3||synchrotron:3||LIGHT:3||TRANSISTORS:3||SURFACES:3||STRAIN:3||EPITAXIAL LAYERS:3||DRUGDELIVERY:3||REFRACTION:3||growth mechanism:3||METALS:3||MICROPIPES:3||SYSTEM:3||NUCLEATION:3||synchrotron Xray scattering:3||SURFACE:3||SCREW DISLOCATIONS:3||SIMULATION:3||HARD XRAYS:3||ELECTRICALPROPERTIES:3||EPITAXY:3||GAN:3||PM2.5:3||EVAPORATION:3||LIQUIDS:3||INPLANE:3||RAT:3||ANGIOGENESIS:3||CT:3||GaN:3||ZnO:3||NANORODS:3||strain:3||PB(ZR0.53TI0.47)O3:3||CRYSTALLIZATION:3||synchrotron Xrays:2||buffer layer:2||TRANSMISSION ELECTRONMICROSCOPY:2||EPITAXIAL COSI2 FILMS:2||MECHANISMS:2||INSITU GROWTH:2||DEVICE:2||LOCALIZED ELECTROCHEMICAL DEPOSITION:2||X ray diffraction:2||SCHOTTKY CONTACT:2||IRRADIATION:2||aqua regia treatment:2||INVIVO:2||CELLADHESION:2||MORPHOGENETIC PROTEIN2:2||RECEPTOR:2||TEM:2||broadband synchrotron light:2||nanoparticle:2||BUFFER LAYERS:2||TC:2||ENHANCED SYNCHROTRON RADIOLOGY:2||synthesis:2||POLYDIMETHYLSILOXANE:2||MICROCHANNELS:2||PRETREATMENT PROCESS:2||XRAY:2||CHEMOTAXIS:2||MECHANOSENSORY TRANSDUCTION:2||rectangular microtube:2||CONJUGATED POLYMER:2||atomic force microscopy:2||METALLIC OXIDE SRRUO3:2||LASERABLATION:2||STRESS:2||ZONE PLATES:2||FRICTION:2||THERMALSTABILITY:2||Xrays:2||RAY:2||NM:2||ENERGY:2||TOPOGRAPHY:2||synchrotron Xray:2||ACID HYDROGELS:2||CAENORHABDITISELEGANS:2||PROTEIN:2||defects:2||EVOLUTION:2||FABRICATION:2||sharp bending waveguide:2||lasing action:2||BULK CRYSTALS:2||SUPERLATTICES:2||COATED CONDUCTORS:2||SI(111):2||phase contrast:2||CORONARY ANGIOGRAPHY:2||SPECTROMICROSCOPY:2||MEPHISTO:2||OXYGEN:2||OPTICALPROPERTIES:2||RADIOGRAPHY:2||CONTACT DEFORMATIONS:2||MOLECULAR FORCES:2||SOLIDS:2||NTYPE GAN:2||deposition:2||CHEMISTRY:2||DEFORMATION:2||SUBSTRATE:2||HETEROEPITAXY:2||NANOTOPOGRAPHY:2||EPITAXIALGROWTH:2||Xray:2||CHEMICAL VAPORDEPOSITION:2||SILICON STRUCTURES:2||STEMCELLS:2||CHANNEL:2||crystal structure:2||CORONARYANGIOGRAPHY:2||SiC:2||BUFFER LAYER:2||MOLECULARBEAM EPITAXY:2||INTERFACE:2||SIZE:2||ELECTRON:2||XRAY MICROSCOPY:2||MORPHOLOGIES:2||NANOCOLLOIDS:2||FORCE MICROSCOPY:2||ablation:2||polymers:2||(NH4)(2)Sx treatment:2||CLUSTERS:2||BIOMATERIALS:2||CIRCUITS:2||rectangular ring mode:2||GUIDES:2||MICROCAVITY:2||PHOTOLUMINESCENCE:2||epitaxial growth:2||EMBRITTLEMENT:2||Xray imaging:2||BIOCOMPATIBILITY:2||BEHAVIOR:2||MICROWAVEPLASMA:2||LOWPRESSURE:2||DEGRADATION:2||TISSUE:2||LIQUID:2||SOFT LITHOGRAPHY:2||amplified spontaneous emission (ASE):2||SMALL ORGANICMOLECULES:2||PHOTONIC CRYSTAL:2||micropipes:2||radiology:2||ALLOY:2||Xray scattering:2||CRITICALCURRENT DENSITY:2||ELECTRONMICROSCOPY:2||BI(PB)SRCACUO:2||ELECTRONICSTRUCTURE:2||RECONSTRUCTION:2||MG:2||ohmic contact:2||Pd ohmic contact:2||xray scattering:2||INP:2||annealing:2||REGENERATION:2||TITANIUM:2||COLLOIDAL GOLD:2||crystallization:2||BUCKLING MECHANICS:2||LASERS:2||MODES:2||synchrotron imaging:2||lattice distortion:2||AQUEOUSELECTROLYTE:2||MOLECULARDYNAMICS:2||OXIDE:2||MICROANGIOGRAPHY:2||OXIDATION:2||MICRORADIOLOGY:2||TECHNOLOGY:2||GE:2||surface chemistry:2||RECOVERY:2||OHMIC CONTACTS:2||LASERDIODES:2||PTYPE GAN:2||MOTION:2||PHANTOM:2||PHASE:2||CALCIUMPHOSPHATE CERAMICS:2||REPAIR:2||porphyrin:2||AMPLIFIED SPONTANEOUS EMISSION:2||METALELECTRODES:2||PD:2||SUPERCONDUCTING TAPES:2||nucleation:2||COATINGS:2||Xray topography:2||MONOLAYERS:2||SURFACE MODIFICATION:2||LITHOGRAPHY:2||MECHANICAL VENTILATION:1||MICRORIBBONS:1||STIFFNESS:1||DUALPHASE STEEL:1||growth mode:1||strain evolution:1||SI(100):1||ANISOTROPY:1||WET GRANULAR PILE:1||COALESCENCE:1||INSITU POLYMERIZATION:1||GRAPHENE:1||CANCER:1||NODULES:1||RABBITS:1||phasecontrast:1||YTTRIUMOXIDE FILMS:1||BaTiO3/SrTiO3:1||dental implant:1||coincidence site density:1||ERNI2B2C:1||crystallites:1||CoCrPt films:1||tensile strain:1||gallide:1||MGO:1||Baferrite film:1||synchrotron xray scattering:1||ZNO THINFILMS:1||MORPHOLOGY:1||PHASES:1||MICE:1||EBEAM LITHOGRAPHY:1||electrorheological fluids:1||NANOFIBROUS MEMBRANES:1||NANOLITHOGRAPHY:1||refractive index radiology:1||BLOOD:1||colloidal:1||SIZE CONTROL:1||nanoradiology:1||ZnSO4:1||lung injury:1||METAL:1||PM10:1||textured grain:1||MICROSTRUCTURE:1||DIMENSIONS:1||highresolution Xray diffraction:1||low temperature buffer:1||Zinc compounds:1||SI:1||HUMAN LONGEVITY:1||Maximum human lifespan:1||LIMITS:1||MOSFETS:1||in situ XANES:1||nanowires:1||PHOTOIRRADIATION:1||FIBERS:1||WORK:1||EMISSION:1||RADIATION MICROTOMOGRAPHY:1||RAMANSCATTERING:1||gold nanoparticles:1||synchrotron Xray diffraction:1||OPTICAL WAVEGUIDES:1||CONDUCTINGPOLYMER NANOWIRE:1||Lung cancer:1||INTRAVENOUS CORONARYARTERIOGRAPHY:1||SUBLIMATION GROWTH:1||radiography:1||porous SiC:1||GIANT MAGNETORESISTANCE:1||SEMICONDUCTORS:1||Ga diffusion:1||electroless deposition:1||HEMATITE:1||FREEELECTRON LASER:1||MOCVD:1||interfaces:1||white beam:1||imaging technique:1||nucleation 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Xray:1||BIPOLARTRANSISTORS:1||longevity:1||Confocal microscopy:1||Colloidal wettability:1||ATOMICFORCE MICROSCOPY:1||storage ring:1||digital subtraction:1||SCATTERING:1||size effect:1||SYNTHETIC QUARTZ:1||liquid metal embrittlement:1||iron ore:1||cube textured Ni substrates:1||SrRuO3 films:1||laser ablations:1||Ti underlayer:1||RANDOMACCESS MEMORIES:1||DOMAIN CONFIGURATIONS:1||MGO(100):1||SPECTROSCOPY:1||XE:1||IONBEAM:1||GRAINBOUNDARY MIGRATION:1||SRTIO3:1||COMPOSITES:1||FOAMS:1||BREASTCANCER SPECIMENS:1||unmonochromatized:1||Xray induced nucleation:1||gold:1||ABSORPTION:1||SEPARATION:1||CZOCHRALSKI GROWTH:1||RETRIEVAL:1||GAMMARADIATION:1||AQUEOUSSOLUTION:1||NANOCOMPOSITES:1||INCREASE:1||without staining procedure:1||XPS:1||Imaging techniques:1||Interfaces (materials):1||Dislocation distributions:1||AZOBENZENE:1||STRUCTURAL EVOLUTION:1||RELAXATION:1||DROP IMPACT:1||NONLINEAR DYNAMICS:1||DISLOCATIONS:1||Colloids:1||TRANSFORMATION:1||METAL INTERCONNECTS:1||ELASTIC CONDUCTORS:1||LOGIC:1||DEFICIENT MICE:1||tomography:1||FACILITY:1||osseointegration:1||ROCKS:1||dental radiography:1||Zn coating:1||RE2O3/Ni:1||YBCO COATED CONDUCTORS:1||threedimensional islands:1||(Ba,Sr)TiO3:1||ultrahigh resolution:1||photoelectron emission:1||Pd:1||LANIO3:1||BASE ELECTRODES:1||iron oxide phase:1||ironoxide interlayer:1||COATED GLASS SUBSTRATE:1||MICROWAVE PLASMA NUCLEATION:1||ENHANCED NUCLEATION:1||phase transformation:1||ADSORPTION:1||phasecontrast xray imaging:1||lung inflammation:1||SI1XGEX SINGLECRYSTALS:1||COCONTINUITY:1||SCALE:1||OBJECT:1||synchrotron microradiography:1||FeSO4:1||INDUCTION:1||BaTiO3 and SrTiO3 thin films:1||HARDXRAYS:1||light emitting diodes:1||ACID:1||MICROSTRUCTURES:1||PHOTOLUMINESCENCE PROPERTIES:1||LASER IRRADIATION:1||Human aging:1||polychromatic synchrotron Xray:1||refraction enhanced imaging:1||CHROMOPHORES:1||ACUTE LUNG INJURY:1||spatial resolution:1||BETAFESI2:1||VLSI:1||SI1XGEX:1||COLLOIDAL SUSPENSIONS:1||ELECTRONICS:1||ENHANCEMENT:1||artificial lattice:1||sinters:1||SILVER:1||STRAIN RELAXATION:1||biaxial texture:1||synchrotron scattering:1||transmission electron microscopy:1||IRONOXIDE FILMS:1||PZT thin film:1||ferroelectric thin film:1||MISFIT RELAXATION MECHANISMS:1||PBTIO3:1||O2:1||CONDUCTING POLYMERS:1||poly(methylmethancrylate):1||microspheres:1||phase contrast Xray microscope:1||AMBIENT AIR:1||ATMOSPHERE:1||XRAY INTERFEROMETER:1||NiAu composite nanoparticles.:1||synchrotron radiation Xrays:1||microtomography:1||OIL FLYASH:1||zinc oxide:1||mammography:1||SrRuO3 film:1||Laser epitaxy:1||HOLE MOBILITY:1||Models of crystal defects:1||RABBIT LUNGS:1||NI/AU CONTACT:1||3D printing:1||Stress relaxation:1||SURFACEAREA:1||IMAGE:1||modulation transfer function (MTF):1||Pb ions:1||Insitu visualization:1||Interfacial tension:1||DISPERSION FORCES:1||SINGLECRYSTALS:1||XRAY SOURCE:1||Synchrotron Xray imaging:1||Realtime imaging:1||MEDICAL APPLICATIONS:1||wiggler bending magnet:1||undulator:1||diffractionenhanced imaging:1||ZnO film:1||CAPACITORS:1||HE3:1||NiP alloy:1||PHOTOCHEMICAL FORMATION:1||extended domain matching:1||cubetextured Ni substrates:1||RAY COMPUTEDTOMOGRAPHY:1||electrode layer:1||DOMAINSTRUCTURE:1||XRAY CT:1||SPECIMEN:1||mammographic phantom:1||Xray absorption spectroscopy:1||BLUE:1||CONTACT:1||(BA:1||synchrotron spectromicroscopy:1||thin film:1||MICROWAVE PLASMA:1||GOLD NANOPARTICLES:1||POLYMERIZATION:1||DISEASE:1||Shanghai:1||MORTALITY:1||HETEROSTRUCTURES:1||METHACRYLATE:1||prostate cancer:1||renal cell carcinoma:1||RATS:1||PULSEDLASER DEPOSITION:1||semiconducting IIVI materials:1||PATTERNS:1||sapphire:1||evaporation:1||ZINCOXIDE:1||LIGHTEMITTING DIODE:1||Synchrotron imaging:1||Dislocations:1||Cracks:1||LIVE:1||spinal cord:1||stainless steel:1||nanophotonics:1||subwavelength waveguides:1||Synchrotrons:1||High dislocation density:1||Misfit stress relaxations:1||Randomly distributed:1||Tripleaxis xray diffractions:1||FLOW:1||CRYSTALLINE ORGANIC NANORODS:1||SHAPE CHANGES:1||ZnO thin film:1||(111)SI:1||XRAY MIRRORS:1||low temperature:1||oxide cathodes:1||heterogeneity:1||Xray microscopy:1||INTERFACIAL TENSIONS:1||single crystal growth:1||CARCINOMA:1||mouse:1||ANIMALS:1||Mndoped ZnO:1||luminescence:1||solution precipitation:1||CLUSTER:1||relaxation:1||ALPHAFE2O3:1||XANES:1||epitaxy:1||LaNiO3 thin film:1||LANIO3 THINFILMS:1||ELECTRODE:1||Fe3O4 sublayer:1||EXAFS microscopy:1||FERRITE FILMS:1||SURFACE PRETREATMENTS:1||superconductors:1||CONTRAST AGENT:1||BIODISTRIBUTION:1||DEATH:1||SYNCHROTRON:1||IR:1||apo Eknockout mouse:1||plaque:1||microradiology:1||ALPHASYNUCLEIN:1||PULMONARY TOXICITY:1||XRAY TOPOGRAPHY:1||dislocation:1||metalorganic chemical vapor deposition:1||CRYSTALGROWTH:1||SELFASSEMBLED MONOLAYERS:1||MEMBRANES:1||MAGNETICANISOTROPY:1||SI1XGEX CRYSTALS:1||STRAINEDSI:1||Extended Weibull model:1||MOLYBDENUM:1||ALLOYS:1||IRON:1||Theoretical modeling:1||Threading dislocation:1||GROWTH:27||THINFILMS:16||SYNCHROTRONRADIATION:15||CONTRAST:11||RADIOLOGY:11||PARTICLES:11||FILMS:11||SILICON:10||RADIATION:10||DEPOSITION:10||RESOLUTION:9||CRYSTALS:8||SILICONCARBIDE:7||XRAYS:7||MAMMOGRAPHY:7||Xray diffraction:7||synchrotron radiation:6||XRAYSCATTERING:6||MODEL:6||microstructure:6||DYNAMICS:5||ELECTRODEPOSITION:5||LAYERS:5||CHEMICALVAPORDEPOSITION:5||TEMPERATURE:5||TOMOGRAPHY:5||COMPUTEDTOMOGRAPHY:5||SAPPHIRE:5||MEDIA:5||NANOWIRES:5||DIFFRACTION:4||TISSUES:4||pulsed laser deposition:4||phase contrast imaging:4||LAYER:4||IMAGES:4||DIODES:4||FIELDEFFECT TRANSISTORS:4||ptype GaN:4||MICROSCOPY:4||REDUCTION:4||POLYMER:4||DEFECTS:3||COHERENCE:3||MICROTOMOGRAPHY:3||NANOPARTICLES:3||synchrotron:3||LIGHT:3||TRANSISTORS:3||SURFACES:3||STRAIN:3||EPITAXIAL LAYERS:3||DRUGDELIVERY:3||REFRACTION:3||growth mechanism:3||METALS:3||MICROPIPES:3||SYSTEM:3||NUCLEATION:3||synchrotron Xray scattering:3||SURFACE:3||SCREW DISLOCATIONS:3||SIMULATION:3||HARD XRAYS:3||ELECTRICALPROPERTIES:3||EPITAXY:3||GAN:3||PM2.5:3||EVAPORATION:3||LIQUIDS:3||INPLANE:3||RAT:3||ANGIOGENESIS:3||CT:3||GaN:3||ZnO:3||NANORODS:3||strain:3||PB(ZR0.53TI0.47)O3:3||CRYSTALLIZATION:3||synchrotron Xrays:2||buffer layer:2||TRANSMISSION ELECTRONMICROSCOPY:2||EPITAXIAL COSI2 FILMS:2||MECHANISMS:2||INSITU GROWTH:2||DEVICE:2||LOCALIZED ELECTROCHEMICAL DEPOSITION:2||X ray diffraction:2||SCHOTTKY CONTACT:2||IRRADIATION:2||aqua regia treatment:2||INVIVO:2||CELLADHESION:2||MORPHOGENETIC PROTEIN2:2||RECEPTOR:2||TEM:2||broadband synchrotron light:2||nanoparticle:2||BUFFER LAYERS:2||TC:2||ENHANCED SYNCHROTRON RADIOLOGY:2||synthesis:2||POLYDIMETHYLSILOXANE:2||MICROCHANNELS:2||PRETREATMENT PROCESS:2||XRAY:2||CHEMOTAXIS:2||MECHANOSENSORY TRANSDUCTION:2||rectangular microtube:2||CONJUGATED POLYMER:2||atomic force microscopy:2||METALLIC OXIDE SRRUO3:2||LASERABLATION:2||STRESS:2||ZONE PLATES:2||FRICTION:2||THERMALSTABILITY:2||Xrays:2||RAY:2||NM:2||ENERGY:2||TOPOGRAPHY:2||synchrotron Xray:2||ACID HYDROGELS:2||CAENORHABDITISELEGANS:2||PROTEIN:2||defects:2||EVOLUTION:2||FABRICATION:2||sharp bending waveguide:2||lasing action:2||BULK CRYSTALS:2||SUPERLATTICES:2||COATED CONDUCTORS:2||SI(111):2||phase contrast:2||CORONARY ANGIOGRAPHY:2||SPECTROMICROSCOPY:2||MEPHISTO:2||OXYGEN:2||OPTICALPROPERTIES:2||RADIOGRAPHY:2||CONTACT DEFORMATIONS:2||MOLECULAR FORCES:2||SOLIDS:2||NTYPE GAN:2||deposition:2||CHEMISTRY:2||DEFORMATION:2||SUBSTRATE:2||HETEROEPITAXY:2||NANOTOPOGRAPHY:2||EPITAXIALGROWTH:2||Xray:2||CHEMICAL VAPORDEPOSITION:2||SILICON STRUCTURES:2||STEMCELLS:2||CHANNEL:2||crystal structure:2||CORONARYANGIOGRAPHY:2||SiC:2||BUFFER LAYER:2||MOLECULARBEAM EPITAXY:2||INTERFACE:2||SIZE:2||ELECTRON:2||XRAY MICROSCOPY:2||MORPHOLOGIES:2||NANOCOLLOIDS:2||FORCE MICROSCOPY:2||ablation:2||polymers:2||(NH4)(2)Sx treatment:2||CLUSTERS:2||BIOMATERIALS:2||CIRCUITS:2||rectangular ring mode:2||GUIDES:2||MICROCAVITY:2||PHOTOLUMINESCENCE:2||epitaxial growth:2||EMBRITTLEMENT:2||Xray imaging:2||BIOCOMPATIBILITY:2||BEHAVIOR:2||MICROWAVEPLASMA:2||LOWPRESSURE:2||DEGRADATION:2||TISSUE:2||LIQUID:2||SOFT LITHOGRAPHY:2||amplified spontaneous emission (ASE):2||SMALL ORGANICMOLECULES:2||PHOTONIC CRYSTAL:2||micropipes:2||radiology:2||ALLOY:2||Xray scattering:2||CRITICALCURRENT DENSITY:2||ELECTRONMICROSCOPY:2||BI(PB)SRCACUO:2||ELECTRONICSTRUCTURE:2||RECONSTRUCTION:2||MG:2||ohmic contact:2||Pd ohmic contact:2||xray scattering:2||INP:2||annealing:2||REGENERATION:2||TITANIUM:2||COLLOIDAL GOLD:2||crystallization:2||BUCKLING MECHANICS:2||LASERS:2||MODES:2||synchrotron imaging:2||lattice distortion:2||AQUEOUSELECTROLYTE:2||MOLECULARDYNAMICS:2||OXIDE:2||MICROANGIOGRAPHY:2||OXIDATION:2||MICRORADIOLOGY:2||TECHNOLOGY:2||GE:2||surface chemistry:2||RECOVERY:2||OHMIC CONTACTS:2||LASERDIODES:2||PTYPE GAN:2||MOTION:2||PHANTOM:2||PHASE:2||CALCIUMPHOSPHATE CERAMICS:2||REPAIR:2||porphyrin:2||AMPLIFIED SPONTANEOUS EMISSION:2||METALELECTRODES:2||PD:2||SUPERCONDUCTING TAPES:2||nucleation:2||COATINGS:2||Xray topography:2||MONOLAYERS:2||SURFACE MODIFICATION:2||LITHOGRAPHY:2||MECHANICAL VENTILATION:1||MICRORIBBONS:1||STIFFNESS:1||DUALPHASE STEEL:1||growth mode:1||strain evolution:1||SI(100):1||ANISOTROPY:1||WET GRANULAR PILE:1||COALESCENCE:1||INSITU POLYMERIZATION:1||GRAPHENE:1||CANCER:1||NODULES:1||RABBITS:1||phasecontrast:1||YTTRIUMOXIDE FILMS:1||BaTiO3/SrTiO3:1||dental implant:1||coincidence site density:1||ERNI2B2C:1||crystallites:1||CoCrPt films:1||tensile strain:1||gallide:1||MGO:1||Baferrite film:1||synchrotron xray scattering:1||ZNO THINFILMS:1||MORPHOLOGY:1||PHASES:1||MICE:1||EBEAM LITHOGRAPHY:1||electrorheological fluids:1||NANOFIBROUS MEMBRANES:1||NANOLITHOGRAPHY:1||refractive index radiology:1||BLOOD:1||colloidal:1||SIZE CONTROL:1||nanoradiology:1||ZnSO4:1||lung injury:1||METAL:1||PM10:1||textured grain:1||MICROSTRUCTURE:1||DIMENSIONS:1||highresolution Xray diffraction:1||low temperature buffer:1||Zinc compounds:1||SI:1||HUMAN LONGEVITY:1||Maximum human lifespan:1||LIMITS:1||MOSFETS:1||in situ XANES:1||nanowires:1||PHOTOIRRADIATION:1||FIBERS:1||WORK:1||EMISSION:1||RADIATION MICROTOMOGRAPHY:1||RAMANSCATTERING:1||gold nanoparticles:1||synchrotron Xray diffraction:1||OPTICAL WAVEGUIDES:1||CONDUCTINGPOLYMER NANOWIRE:1||Lung cancer:1||INTRAVENOUS CORONARYARTERIOGRAPHY:1||SUBLIMATION GROWTH:1||radiography:1||porous SiC:1||GIANT MAGNETORESISTANCE:1||SEMICONDUCTORS:1||Ga diffusion:1||electroless deposition:1||HEMATITE:1||FREEELECTRON LASER:1||MOCVD:1||interfaces:1||white beam:1||imaging technique:1||nucleation layer:1||interface structure:1||epitaxial Baferrite film:1||rf magnetron sputtering:1||MAGNETIC CHARACTERISTICS:1||MIXTURE:1||ACCESS MEMORY APPLICATION:1||COHERENCY STRAIN:1||DENSITY:1||nanofabrication:1||POLY(METHYL METHACRYLATE) MICROSPHERE:1||RESIST:1||unmonochromatic beam:1||MICRORADIOGRAPHY:1||INTERFEROMETER:1||EXPOSURE:1||volume variation electronic:1||PULSEDLASER ABLATION:1||Semiconducting IIVI materials:1||Light emitting diodes:1||phase contrast microscopies:1||lung:1||AUGERELECTRON SPECTROSCOPY:1||passivation:1||additive manufacturing:1||Silicon carbide:1||Synchrotron radiation:1||Synchrotron radiation imaging:1||Dislocations (crystals):1||LUNG INJURY:1||POLYMER SURFACES:1||SINGLE CELLS:1||PREFERRED ORIENTATION:1||sapphire orientation:1||TANTALUM:1||BIASENHANCED NUCLEATION:1||hexaferrite:1||stretched exponential:1||SOLIDSURFACE:1||SHEAR:1||VIDEO MICROSCOPY:1||CARBON NANOTUBES:1||realtime observation:1||Xray synchrotron:1||CARBONMONOXIDE:1||ELECTROCHEMICAL FABRICATION:1||crystal growth:1||computer simulation:1||FERROELECTRICFILMS:1||TITANIUM IMPLANTS:1||BONE INTERFACE:1||EXAFS perpendicular magnetic recording:1||Pd/Ni:1||ELECTRODES:1||internal organ:1||LIGHTEMITTINGDIODES:1||interfacial structure:1||CONSTANT:1||DIELECTRICPROPERTIES:1||AR:1||DEVICES:1||BiSrCaCuO:1||LASER ABLATION:1||MECHANISM:1||SELECTIVE DEPOSITION:1||TARGETED DRUGDELIVERY:1||PEG:1||carbon 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CONFIGURATIONS:1||MGO(100):1||SPECTROSCOPY:1||XE:1||IONBEAM:1||GRAINBOUNDARY MIGRATION:1||SRTIO3:1||COMPOSITES:1||FOAMS:1||BREASTCANCER SPECIMENS:1||unmonochromatized:1||Xray induced nucleation:1||gold:1||ABSORPTION:1||SEPARATION:1||CZOCHRALSKI GROWTH:1||RETRIEVAL:1||GAMMARADIATION:1||AQUEOUSSOLUTION:1||NANOCOMPOSITES:1||INCREASE:1||without staining procedure:1||XPS:1||Imaging techniques:1||Interfaces (materials):1||Dislocation distributions:1||AZOBENZENE:1||STRUCTURAL EVOLUTION:1||RELAXATION:1||DROP IMPACT:1||NONLINEAR DYNAMICS:1||DISLOCATIONS:1||Colloids:1||TRANSFORMATION:1||METAL INTERCONNECTS:1||ELASTIC CONDUCTORS:1||LOGIC:1||DEFICIENT MICE:1||tomography:1||FACILITY:1||osseointegration:1||ROCKS:1||dental radiography:1||Zn coating:1||RE2O3/Ni:1||YBCO COATED CONDUCTORS:1||threedimensional islands:1||(Ba,Sr)TiO3:1||ultrahigh resolution:1||photoelectron emission:1||Pd:1||LANIO3:1||BASE ELECTRODES:1||iron oxide phase:1||ironoxide interlayer:1||COATED GLASS SUBSTRATE:1||MICROWAVE PLASMA NUCLEATION:1||ENHANCED NUCLEATION:1||phase transformation:1||ADSORPTION:1||phasecontrast xray imaging:1||lung inflammation:1||SI1XGEX SINGLECRYSTALS:1||COCONTINUITY:1||SCALE:1||OBJECT:1||synchrotron microradiography:1||FeSO4:1||INDUCTION:1||BaTiO3 and SrTiO3 thin films:1||HARDXRAYS:1||light emitting diodes:1||ACID:1||MICROSTRUCTURES:1||PHOTOLUMINESCENCE PROPERTIES:1||LASER IRRADIATION:1||Human aging:1||polychromatic synchrotron Xray:1||refraction enhanced imaging:1||CHROMOPHORES:1||ACUTE LUNG INJURY:1||spatial resolution:1||BETAFESI2:1||VLSI:1||SI1XGEX:1||COLLOIDAL SUSPENSIONS:1||ELECTRONICS:1||ENHANCEMENT:1||artificial lattice:1||sinters:1||SILVER:1||STRAIN RELAXATION:1||biaxial texture:1||synchrotron scattering:1||transmission electron microscopy:1||IRONOXIDE FILMS:1||PZT thin film:1||ferroelectric thin film:1||MISFIT RELAXATION MECHANISMS:1||PBTIO3:1||O2:1||CONDUCTING POLYMERS:1||poly(methylmethancrylate):1||microspheres:1||phase contrast Xray microscope:1||AMBIENT AIR:1||ATMOSPHERE:1||XRAY INTERFEROMETER:1||NiAu composite nanoparticles.:1||synchrotron radiation Xrays:1||microtomography:1||OIL FLYASH:1||zinc oxide:1||mammography:1||SrRuO3 film:1||Laser epitaxy:1||HOLE MOBILITY:1||Models of crystal defects:1||RABBIT LUNGS:1||NI/AU CONTACT:1||3D printing:1||Stress relaxation:1||SURFACEAREA:1||IMAGE:1||modulation transfer function (MTF):1||Pb ions:1||Insitu visualization:1||Interfacial tension:1||DISPERSION FORCES:1||SINGLECRYSTALS:1||XRAY SOURCE:1||Synchrotron Xray imaging:1||Realtime imaging:1||MEDICAL APPLICATIONS:1||wiggler bending magnet:1||undulator:1||diffractionenhanced imaging:1||ZnO film:1||CAPACITORS:1||HE3:1||NiP alloy:1||PHOTOCHEMICAL FORMATION:1||extended domain matching:1||cubetextured Ni substrates:1||RAY COMPUTEDTOMOGRAPHY:1||electrode layer:1||DOMAINSTRUCTURE:1||XRAY CT:1||SPECIMEN:1||mammographic phantom:1||Xray absorption spectroscopy:1||BLUE:1||CONTACT:1||(BA:1||synchrotron spectromicroscopy:1||thin film:1||MICROWAVE PLASMA:1||GOLD NANOPARTICLES:1||POLYMERIZATION:1||DISEASE:1||Shanghai:1||MORTALITY:1||HETEROSTRUCTURES:1||METHACRYLATE:1||prostate cancer:1||renal cell carcinoma:1||RATS:1||PULSEDLASER DEPOSITION:1||semiconducting IIVI materials:1||PATTERNS:1||sapphire:1||evaporation:1||ZINCOXIDE:1||LIGHTEMITTING DIODE:1||Synchrotron imaging:1||Dislocations:1||Cracks:1||LIVE:1||spinal cord:1||stainless steel:1||nanophotonics:1||subwavelength waveguides:1||Synchrotrons:1||High dislocation density:1||Misfit stress relaxations:1||Randomly distributed:1||Tripleaxis xray diffractions:1||FLOW:1||CRYSTALLINE ORGANIC NANORODS:1||SHAPE CHANGES:1||ZnO thin film:1||(111)SI:1||XRAY MIRRORS:1||low temperature:1||oxide cathodes:1||heterogeneity:1||Xray microscopy:1||INTERFACIAL TENSIONS:1||single crystal growth:1||CARCINOMA:1||mouse:1||ANIMALS:1||Mndoped ZnO:1||luminescence:1||solution precipitation:1||CLUSTER:1||relaxation:1||ALPHAFE2O3:1||XANES:1||epitaxy:1||LaNiO3 thin film:1||LANIO3 THINFILMS:1||ELECTRODE:1||Fe3O4 sublayer:1||EXAFS microscopy:1||FERRITE FILMS:1||SURFACE PRETREATMENTS:1||superconductors:1||CONTRAST AGENT:1||BIODISTRIBUTION:1||DEATH:1||SYNCHROTRON:1||IR:1||apo Eknockout mouse:1||plaque:1||microradiology:1||ALPHASYNUCLEIN:1||PULMONARY TOXICITY:1||XRAY TOPOGRAPHY:1||dislocation:1||metalorganic chemical vapor deposition:1||CRYSTALGROWTH:1||SELFASSEMBLED MONOLAYERS:1||MEMBRANES:1||MAGNETICANISOTROPY:1||SI1XGEX CRYSTALS:1||STRAINEDSI:1||Extended Weibull model:1||MOLYBDENUM:1||ALLOYS:1||IRON:1||Theoretical modeling:1||Threading dislocation:1||GROWTH:27||THINFILMS:16||SYNCHROTRONRADIATION:15||CONTRAST:11||RADIOLOGY:11||PARTICLES:11||FILMS:11||SILICON:10||RADIATION:10||DEPOSITION:10||RESOLUTION:9||CRYSTALS:8||SILICONCARBIDE:7||XRAYS:7||MAMMOGRAPHY:7||Xray diffraction:7||synchrotron radiation:6||XRAYSCATTERING:6||MODEL:6||microstructure:6||DYNAMICS:5||ELECTRODEPOSITION:5||LAYERS:5||CHEMICALVAPORDEPOSITION:5||TEMPERATURE:5||TOMOGRAPHY:5||COMPUTEDTOMOGRAPHY:5||SAPPHIRE:5||MEDIA:5||NANOWIRES:5||DIFFRACTION:4||TISSUES:4||pulsed laser deposition:4||phase contrast imaging:4||LAYER:4||IMAGES:4||DIODES:4||FIELDEFFECT TRANSISTORS:4||ptype GaN:4||MICROSCOPY:4||REDUCTION:4||POLYMER:4||DEFECTS:3||COHERENCE:3||MICROTOMOGRAPHY:3||NANOPARTICLES:3||synchrotron:3||LIGHT:3||TRANSISTORS:3||SURFACES:3||STRAIN:3||EPITAXIAL LAYERS:3||DRUGDELIVERY:3||REFRACTION:3||growth mechanism:3||METALS:3||MICROPIPES:3||SYSTEM:3||NUCLEATION:3||synchrotron Xray scattering:3||SURFACE:3||SCREW DISLOCATIONS:3||SIMULATION:3||HARD XRAYS:3||ELECTRICALPROPERTIES:3||EPITAXY:3||GAN:3||PM2.5:3||EVAPORATION:3||LIQUIDS:3||INPLANE:3||RAT:3||ANGIOGENESIS:3||CT:3||GaN:3||ZnO:3||NANORODS:3||strain:3||PB(ZR0.53TI0.47)O3:3||CRYSTALLIZATION:3||synchrotron Xrays:2||buffer layer:2||TRANSMISSION ELECTRONMICROSCOPY:2||EPITAXIAL COSI2 FILMS:2||MECHANISMS:2||INSITU GROWTH:2||DEVICE:2||LOCALIZED ELECTROCHEMICAL DEPOSITION:2||X ray diffraction:2||SCHOTTKY CONTACT:2||IRRADIATION:2||aqua regia treatment:2||INVIVO:2||CELLADHESION:2||MORPHOGENETIC PROTEIN2:2||RECEPTOR:2||TEM:2||broadband synchrotron light:2||nanoparticle:2||BUFFER LAYERS:2||TC:2||ENHANCED SYNCHROTRON RADIOLOGY:2||synthesis:2||POLYDIMETHYLSILOXANE:2||MICROCHANNELS:2||PRETREATMENT PROCESS:2||XRAY:2||CHEMOTAXIS:2||MECHANOSENSORY TRANSDUCTION:2||rectangular microtube:2||CONJUGATED POLYMER:2||atomic force microscopy:2||METALLIC OXIDE SRRUO3:2||LASERABLATION:2||STRESS:2||ZONE PLATES:2||FRICTION:2||THERMALSTABILITY:2||Xrays:2||RAY:2||NM:2||ENERGY:2||TOPOGRAPHY:2||synchrotron Xray:2||ACID HYDROGELS:2||CAENORHABDITISELEGANS:2||PROTEIN:2||defects:2||EVOLUTION:2||FABRICATION:2||sharp bending waveguide:2||lasing action:2||BULK CRYSTALS:2||SUPERLATTICES:2||COATED CONDUCTORS:2||SI(111):2||phase contrast:2||CORONARY ANGIOGRAPHY:2||SPECTROMICROSCOPY:2||MEPHISTO:2||OXYGEN:2||OPTICALPROPERTIES:2||RADIOGRAPHY:2||CONTACT DEFORMATIONS:2||MOLECULAR FORCES:2||SOLIDS:2||NTYPE GAN:2||deposition:2||CHEMISTRY:2||DEFORMATION:2||SUBSTRATE:2||HETEROEPITAXY:2||NANOTOPOGRAPHY:2||EPITAXIALGROWTH:2||Xray:2||CHEMICAL VAPORDEPOSITION:2||SILICON STRUCTURES:2||STEMCELLS:2||CHANNEL:2||crystal structure:2||CORONARYANGIOGRAPHY:2||SiC:2||BUFFER LAYER:2||MOLECULARBEAM EPITAXY:2||INTERFACE:2||SIZE:2||ELECTRON:2||XRAY MICROSCOPY:2||MORPHOLOGIES:2||NANOCOLLOIDS:2||FORCE MICROSCOPY:2||ablation:2||polymers:2||(NH4)(2)Sx treatment:2||CLUSTERS:2||BIOMATERIALS:2||CIRCUITS:2||rectangular ring mode:2||GUIDES:2||MICROCAVITY:2||PHOTOLUMINESCENCE:2||epitaxial growth:2||EMBRITTLEMENT:2||Xray imaging:2||BIOCOMPATIBILITY:2||BEHAVIOR:2||MICROWAVEPLASMA:2||LOWPRESSURE:2||DEGRADATION:2||TISSUE:2||LIQUID:2||SOFT LITHOGRAPHY:2||amplified spontaneous emission (ASE):2||SMALL ORGANICMOLECULES:2||PHOTONIC CRYSTAL:2||micropipes:2||radiology:2||ALLOY:2||Xray scattering:2||CRITICALCURRENT DENSITY:2||ELECTRONMICROSCOPY:2||BI(PB)SRCACUO:2||ELECTRONICSTRUCTURE:2||RECONSTRUCTION:2||MG:2||ohmic contact:2||Pd ohmic contact:2||xray scattering:2||INP:2||annealing:2||REGENERATION:2||TITANIUM:2||COLLOIDAL GOLD:2||crystallization:2||BUCKLING MECHANICS:2||LASERS:2||MODES:2||synchrotron imaging:2||lattice distortion:2||AQUEOUSELECTROLYTE:2||MOLECULARDYNAMICS:2||OXIDE:2||MICROANGIOGRAPHY:2||OXIDATION:2||MICRORADIOLOGY:2||TECHNOLOGY:2||GE:2||surface chemistry:2||RECOVERY:2||OHMIC CONTACTS:2||LASERDIODES:2||PTYPE GAN:2||MOTION:2||PHANTOM:2||PHASE:2||CALCIUMPHOSPHATE CERAMICS:2||REPAIR:2||porphyrin:2||AMPLIFIED SPONTANEOUS EMISSION:2||METALELECTRODES:2||PD:2||SUPERCONDUCTING TAPES:2||nucleation:2||COATINGS:2||Xray topography:2||MONOLAYERS:2||SURFACE MODIFICATION:2||LITHOGRAPHY:2||MECHANICAL VENTILATION:1||MICRORIBBONS:1||STIFFNESS:1||DUALPHASE STEEL:1||growth mode:1||strain evolution:1||SI(100):1||ANISOTROPY:1||WET GRANULAR PILE:1||COALESCENCE:1||INSITU POLYMERIZATION:1||GRAPHENE:1||CANCER:1||NODULES:1||RABBITS:1||phasecontrast:1||YTTRIUMOXIDE FILMS:1||BaTiO3/SrTiO3:1||dental implant:1||coincidence site density:1||ERNI2B2C:1||crystallites:1||CoCrPt films:1||tensile strain:1||gallide:1||MGO:1||Baferrite film:1||synchrotron xray scattering:1||ZNO THINFILMS:1||MORPHOLOGY:1||PHASES:1||MICE:1||EBEAM LITHOGRAPHY:1||electrorheological fluids:1||NANOFIBROUS MEMBRANES:1||NANOLITHOGRAPHY:1||refractive index radiology:1||BLOOD:1||colloidal:1||SIZE CONTROL:1||nanoradiology:1||ZnSO4:1||lung injury:1||METAL:1||PM10:1||textured grain:1||MICROSTRUCTURE:1||DIMENSIONS:1||highresolution Xray diffraction:1||low temperature buffer:1||Zinc compounds:1||SI:1||HUMAN LONGEVITY:1||Maximum human lifespan:1||LIMITS:1||MOSFETS:1||in situ XANES:1||nanowires:1||PHOTOIRRADIATION:1||FIBERS:1||WORK:1||EMISSION:1||RADIATION MICROTOMOGRAPHY:1||RAMANSCATTERING:1||gold nanoparticles:1||synchrotron Xray diffraction:1||OPTICAL WAVEGUIDES:1||CONDUCTINGPOLYMER NANOWIRE:1||Lung cancer:1||INTRAVENOUS CORONARYARTERIOGRAPHY:1||SUBLIMATION GROWTH:1||radiography:1||porous SiC:1||GIANT MAGNETORESISTANCE:1||SEMICONDUCTORS:1||Ga diffusion:1||electroless deposition:1||HEMATITE:1||FREEELECTRON LASER:1||MOCVD:1||interfaces:1||white beam:1||imaging technique:1||nucleation layer:1||interface structure:1||epitaxial Baferrite film:1||rf magnetron sputtering:1||MAGNETIC CHARACTERISTICS:1||MIXTURE:1||ACCESS MEMORY APPLICATION:1||COHERENCY STRAIN:1||DENSITY:1||nanofabrication:1||POLY(METHYL METHACRYLATE) MICROSPHERE:1||RESIST:1||unmonochromatic beam:1||MICRORADIOGRAPHY:1||INTERFEROMETER:1||EXPOSURE:1||volume variation electronic:1||PULSEDLASER ABLATION:1||Semiconducting IIVI materials:1||Light emitting diodes:1||phase contrast microscopies:1||lung:1||AUGERELECTRON SPECTROSCOPY:1||passivation:1||additive manufacturing:1||Silicon carbide:1||Synchrotron radiation:1||Synchrotron radiation imaging:1||Dislocations (crystals):1||LUNG INJURY:1||POLYMER SURFACES:1||SINGLE CELLS:1||PREFERRED ORIENTATION:1||sapphire orientation:1||TANTALUM:1||BIASENHANCED NUCLEATION:1||hexaferrite:1||stretched exponential:1||SOLIDSURFACE:1||SHEAR:1||VIDEO MICROSCOPY:1||CARBON NANOTUBES:1||realtime observation:1||Xray synchrotron:1||CARBONMONOXIDE:1||ELECTROCHEMICAL FABRICATION:1||crystal growth:1||computer simulation:1||FERROELECTRICFILMS:1||TITANIUM IMPLANTS:1||BONE INTERFACE:1||EXAFS perpendicular magnetic recording:1||Pd/Ni:1||ELECTRODES:1||internal organ:1||LIGHTEMITTINGDIODES:1||interfacial structure:1||CONSTANT:1||DIELECTRICPROPERTIES:1||AR:1||DEVICES:1||BiSrCaCuO:1||LASER ABLATION:1||MECHANISM:1||SELECTIVE DEPOSITION:1||TARGETED DRUGDELIVERY:1||PEG:1||carbon nanotubes:1||nanocharacterization:1||WALLED CARBON NANOTUBE:1||basal cell carcinoma:1||PARTICULATE AIRPOLLUTION:1||FINE:1||CITIES:1||DOPED ZNO FILMS:1||atherosclerosis:1||drug delivery:1||hard Xray:1||COMBUSTION:1||ARTIFICIAL BATIO3/SRTIO3 SUPERLATTICES:1||surface morphology:1||Direct wafer bonding:1||COLLOIDAL GOLD PARTICLES:1||DELINEATION:1||EXPECTANCY:1||DEMOGRAPHY:1||MRI:1||SIGE:1||Phase contrast microradiography:1||INJURY:1||PASSIVITY:1||VOLUME:1||CONTACTANGLE:1||ARRAYS:1||DUCTILITY:1||sputtering:1||computed microtomography (mu CT):1||unmonochromatized Xray:1||BIPOLARTRANSISTORS:1||longevity:1||Confocal microscopy:1||Colloidal wettability:1||ATOMICFORCE MICROSCOPY:1||storage ring:1||digital subtraction:1||SCATTERING:1||size effect:1||SYNTHETIC QUARTZ:1||liquid metal embrittlement:1||iron ore:1||cube textured Ni substrates:1||SrRuO3 films:1||laser ablations:1||Ti underlayer:1||RANDOMACCESS MEMORIES:1||DOMAIN CONFIGURATIONS:1||MGO(100):1||SPECTROSCOPY:1||XE:1||IONBEAM:1||GRAINBOUNDARY MIGRATION:1||SRTIO3:1||COMPOSITES:1||FOAMS:1||BREASTCANCER SPECIMENS:1||unmonochromatized:1||Xray induced nucleation:1||gold:1||ABSORPTION:1||SEPARATION:1||CZOCHRALSKI GROWTH:1||RETRIEVAL:1||GAMMARADIATION:1||AQUEOUSSOLUTION:1||NANOCOMPOSITES:1||INCREASE:1||without staining procedure:1||XPS:1||Imaging techniques:1||Interfaces (materials):1||Dislocation distributions:1||AZOBENZENE:1||STRUCTURAL EVOLUTION:1||RELAXATION:1||DROP IMPACT:1||NONLINEAR DYNAMICS:1||DISLOCATIONS:1||Colloids:1||TRANSFORMATION:1||METAL INTERCONNECTS:1||ELASTIC CONDUCTORS:1||LOGIC:1||DEFICIENT MICE:1||tomography:1||FACILITY:1||osseointegration:1||ROCKS:1||dental radiography:1||Zn coating:1||RE2O3/Ni:1||YBCO COATED CONDUCTORS:1||threedimensional islands:1||(Ba,Sr)TiO3:1||ultrahigh resolution:1||photoelectron emission:1||Pd:1||LANIO3:1||BASE ELECTRODES:1||iron oxide phase:1||ironoxide interlayer:1||COATED GLASS SUBSTRATE:1||MICROWAVE PLASMA NUCLEATION:1||ENHANCED NUCLEATION:1||phase transformation:1||ADSORPTION:1||phasecontrast xray imaging:1||lung inflammation:1||SI1XGEX SINGLECRYSTALS:1||COCONTINUITY:1||SCALE:1||OBJECT:1||synchrotron microradiography:1||FeSO4:1||INDUCTION:1||BaTiO3 and SrTiO3 thin films:1||HARDXRAYS:1||light emitting diodes:1||ACID:1||MICROSTRUCTURES:1||PHOTOLUMINESCENCE PROPERTIES:1||LASER IRRADIATION:1||Human aging:1||polychromatic synchrotron Xray:1||refraction enhanced imaging:1||CHROMOPHORES:1||ACUTE LUNG INJURY:1||spatial resolution:1||BETAFESI2:1||VLSI:1||SI1XGEX:1||COLLOIDAL SUSPENSIONS:1||ELECTRONICS:1||ENHANCEMENT:1||artificial lattice:1||sinters:1||SILVER:1||STRAIN RELAXATION:1||biaxial texture:1||synchrotron scattering:1||transmission electron microscopy:1||IRONOXIDE FILMS:1||PZT thin film:1||ferroelectric thin film:1||MISFIT RELAXATION MECHANISMS:1||PBTIO3:1||O2:1||CONDUCTING POLYMERS:1||poly(methylmethancrylate):1||microspheres:1||phase contrast Xray microscope:1||AMBIENT AIR:1||ATMOSPHERE:1||XRAY INTERFEROMETER:1||NiAu composite nanoparticles.:1||synchrotron radiation Xrays:1||microtomography:1||OIL FLYASH:1||zinc oxide:1||mammography:1||SrRuO3 film:1||Laser epitaxy:1||HOLE MOBILITY:1||Models of crystal defects:1||RABBIT LUNGS:1||NI/AU CONTACT:1||3D printing:1||Stress relaxation:1||SURFACEAREA:1||IMAGE:1||modulation transfer function (MTF):1||Pb ions:1||Insitu visualization:1||Interfacial tension:1||DISPERSION FORCES:1||SINGLECRYSTALS:1||XRAY SOURCE:1||Synchrotron Xray imaging:1||Realtime imaging:1||MEDICAL APPLICATIONS:1||wiggler bending magnet:1||undulator:1||diffractionenhanced imaging:1||ZnO film:1||CAPACITORS:1||HE3:1||NiP alloy:1||PHOTOCHEMICAL FORMATION:1||extended domain matching:1||cubetextured Ni substrates:1||RAY COMPUTEDTOMOGRAPHY:1||electrode layer:1||DOMAINSTRUCTURE:1||XRAY CT:1||SPECIMEN:1||mammographic phantom:1||Xray absorption spectroscopy:1||BLUE:1||CONTACT:1||(BA:1||synchrotron spectromicroscopy:1||thin film:1||MICROWAVE PLASMA:1||GOLD NANOPARTICLES:1||POLYMERIZATION:1||DISEASE:1||Shanghai:1||MORTALITY:1||HETEROSTRUCTURES:1||METHACRYLATE:1||prostate cancer:1||renal cell carcinoma:1||RATS:1||PULSEDLASER DEPOSITION:1||semiconducting IIVI materials:1||PATTERNS:1||sapphire:1||evaporation:1||ZINCOXIDE:1||LIGHTEMITTING DIODE:1||Synchrotron imaging:1||Dislocations:1||Cracks:1||LIVE:1||spinal cord:1||stainless steel:1||nanophotonics:1||subwavelength waveguides:1||Synchrotrons:1||High dislocation density:1||Misfit stress relaxations:1||Randomly distributed:1||Tripleaxis xray diffractions:1||FLOW:1||CRYSTALLINE ORGANIC NANORODS:1||SHAPE CHANGES:1||ZnO thin film:1||(111)SI:1||XRAY MIRRORS:1||low temperature:1||oxide cathodes:1||heterogeneity:1||Xray microscopy:1||INTERFACIAL TENSIONS:1||single crystal growth:1||CARCINOMA:1||mouse:1||ANIMALS:1||Mndoped ZnO:1||luminescence:1||solution precipitation:1||CLUSTER:1||relaxation:1||ALPHAFE2O3:1||XANES:1||epitaxy:1||LaNiO3 thin film:1||LANIO3 THINFILMS:1||ELECTRODE:1||Fe3O4 sublayer:1||EXAFS microscopy:1||FERRITE FILMS:1||SURFACE PRETREATMENTS:1||superconductors:1||CONTRAST AGENT:1||BIODISTRIBUTION:1||DEATH:1||SYNCHROTRON:1||IR:1||apo Eknockout mouse:1||plaque:1||microradiology:1||ALPHASYNUCLEIN:1||PULMONARY TOXICITY:1||XRAY TOPOGRAPHY:1||dislocation:1||metalorganic chemical vapor deposition:1||CRYSTALGROWTH:1||SELFASSEMBLED MONOLAYERS:1||MEMBRANES:1||MAGNETICANISOTROPY:1||SI1XGEX CRYSTALS:1||STRAINEDSI:1||Extended Weibull model:1||MOLYBDENUM:1||ALLOYS:1||IRON:1||Theoretical modeling:1||Threading dislocation:1||GROWTH:27||THINFILMS:16||SYNCHROTRONRADIATION:15||CONTRAST:11||RADIOLOGY:11||PARTICLES:11||FILMS:11||SILICON:10||RADIATION:10||DEPOSITION:10||RESOLUTION:9||CRYSTALS:8||SILICONCARBIDE:7||XRAYS:7||MAMMOGRAPHY:7||Xray diffraction:7||synchrotron radiation:6||XRAYSCATTERING:6||MODEL:6||microstructure:6||DYNAMICS:5||ELECTRODEPOSITION:5||LAYERS:5||CHEMICALVAPORDEPOSITION:5||TEMPERATURE:5||TOMOGRAPHY:5||COMPUTEDTOMOGRAPHY:5||SAPPHIRE:5||MEDIA:5||NANOWIRES:5||DIFFRACTION:4||TISSUES:4||pulsed laser deposition:4||phase contrast imaging:4||LAYER:4||IMAGES:4||DIODES:4||FIELDEFFECT TRANSISTORS:4||ptype GaN:4||MICROSCOPY:4||REDUCTION:4||POLYMER:4||DEFECTS:3||COHERENCE:3||MICROTOMOGRAPHY:3||NANOPARTICLES:3||synchrotron:3||LIGHT:3||TRANSISTORS:3||SURFACES:3||STRAIN:3||EPITAXIAL LAYERS:3||DRUGDELIVERY:3||REFRACTION:3||growth mechanism:3||METALS:3||MICROPIPES:3||SYSTEM:3||NUCLEATION:3||synchrotron Xray scattering:3||SURFACE:3||SCREW DISLOCATIONS:3||SIMULATION:3||HARD XRAYS:3||ELECTRICALPROPERTIES:3||EPITAXY:3||GAN:3||PM2.5:3||EVAPORATION:3||LIQUIDS:3||INPLANE:3||RAT:3||ANGIOGENESIS:3||CT:3||GaN:3||ZnO:3||NANORODS:3||strain:3||PB(ZR0.53TI0.47)O3:3||CRYSTALLIZATION:3||synchrotron Xrays:2||buffer layer:2||TRANSMISSION ELECTRONMICROSCOPY:2||EPITAXIAL COSI2 FILMS:2||MECHANISMS:2||INSITU GROWTH:2||DEVICE:2||LOCALIZED ELECTROCHEMICAL DEPOSITION:2||X ray diffraction:2||SCHOTTKY CONTACT:2||IRRADIATION:2||aqua regia treatment:2||INVIVO:2||CELLADHESION:2||MORPHOGENETIC PROTEIN2:2||RECEPTOR:2||TEM:2||broadband synchrotron light:2||nanoparticle:2||BUFFER LAYERS:2||TC:2||ENHANCED SYNCHROTRON RADIOLOGY:2||synthesis:2||POLYDIMETHYLSILOXANE:2||MICROCHANNELS:2||PRETREATMENT PROCESS:2||XRAY:2||CHEMOTAXIS:2||MECHANOSENSORY TRANSDUCTION:2||rectangular microtube:2||CONJUGATED POLYMER:2||atomic force microscopy:2||METALLIC OXIDE SRRUO3:2||LASERABLATION:2||STRESS:2||ZONE PLATES:2||FRICTION:2||THERMALSTABILITY:2||Xrays:2||RAY:2||NM:2||ENERGY:2||TOPOGRAPHY:2||synchrotron Xray:2||ACID HYDROGELS:2||CAENORHABDITISELEGANS:2||PROTEIN:2||defects:2||EVOLUTION:2||FABRICATION:2||sharp bending waveguide:2||lasing action:2||BULK CRYSTALS:2||SUPERLATTICES:2||COATED CONDUCTORS:2||SI(111):2||phase contrast:2||CORONARY ANGIOGRAPHY:2||SPECTROMICROSCOPY:2||MEPHISTO:2||OXYGEN:2||OPTICALPROPERTIES:2||RADIOGRAPHY:2||CONTACT DEFORMATIONS:2||MOLECULAR FORCES:2||SOLIDS:2||NTYPE GAN:2||deposition:2||CHEMISTRY:2||DEFORMATION:2||SUBSTRATE:2||HETEROEPITAXY:2||NANOTOPOGRAPHY:2||EPITAXIALGROWTH:2||Xray:2||CHEMICAL VAPORDEPOSITION:2||SILICON STRUCTURES:2||STEMCELLS:2||CHANNEL:2||crystal structure:2||CORONARYANGIOGRAPHY:2||SiC:2||BUFFER LAYER:2||MOLECULARBEAM EPITAXY:2||INTERFACE:2||SIZE:2||ELECTRON:2||XRAY MICROSCOPY:2||MORPHOLOGIES:2||NANOCOLLOIDS:2||FORCE MICROSCOPY:2||ablation:2||polymers:2||(NH4)(2)Sx treatment:2||CLUSTERS:2||BIOMATERIALS:2||CIRCUITS:2||rectangular ring mode:2||GUIDES:2||MICROCAVITY:2||PHOTOLUMINESCENCE:2||epitaxial growth:2||EMBRITTLEMENT:2||Xray imaging:2||BIOCOMPATIBILITY:2||BEHAVIOR:2||MICROWAVEPLASMA:2||LOWPRESSURE:2||DEGRADATION:2||TISSUE:2||LIQUID:2||SOFT LITHOGRAPHY:2||amplified spontaneous emission (ASE):2||SMALL ORGANICMOLECULES:2||PHOTONIC CRYSTAL:2||micropipes:2||radiology:2||ALLOY:2||Xray scattering:2||CRITICALCURRENT DENSITY:2||ELECTRONMICROSCOPY:2||BI(PB)SRCACUO:2||ELECTRONICSTRUCTURE:2||RECONSTRUCTION:2||MG:2||ohmic contact:2||Pd ohmic contact:2||xray scattering:2||INP:2||annealing:2||REGENERATION:2||TITANIUM:2||COLLOIDAL GOLD:2||crystallization:2||BUCKLING MECHANICS:2||LASERS:2||MODES:2||synchrotron imaging:2||lattice distortion:2||AQUEOUSELECTROLYTE:2||MOLECULARDYNAMICS:2||OXIDE:2||MICROANGIOGRAPHY:2||OXIDATION:2||MICRORADIOLOGY:2||TECHNOLOGY:2||GE:2||surface chemistry:2||RECOVERY:2||OHMIC CONTACTS:2||LASERDIODES:2||PTYPE GAN:2||MOTION:2||PHANTOM:2||PHASE:2||CALCIUMPHOSPHATE CERAMICS:2||REPAIR:2||porphyrin:2||AMPLIFIED SPONTANEOUS EMISSION:2||METALELECTRODES:2||PD:2||SUPERCONDUCTING TAPES:2||nucleation:2||COATINGS:2||Xray topography:2||MONOLAYERS:2||SURFACE MODIFICATION:2||LITHOGRAPHY:2||MECHANICAL VENTILATION:1||MICRORIBBONS:1||STIFFNESS:1||DUALPHASE STEEL:1||growth mode:1||strain evolution:1||SI(100):1||ANISOTROPY:1||WET GRANULAR PILE:1||COALESCENCE:1||INSITU POLYMERIZATION:1||GRAPHENE:1||CANCER:1||NODULES:1||RABBITS:1||phasecontrast:1||YTTRIUMOXIDE FILMS:1||BaTiO3/SrTiO3:1||dental implant:1||coincidence site density:1||ERNI2B2C:1||crystallites:1||CoCrPt films:1||tensile strain:1||gallide:1||MGO:1||Baferrite film:1||synchrotron xray scattering:1||ZNO THINFILMS:1||MORPHOLOGY:1||PHASES:1||MICE:1||EBEAM LITHOGRAPHY:1||electrorheological fluids:1||NANOFIBROUS MEMBRANES:1||NANOLITHOGRAPHY:1||refractive index radiology:1||BLOOD:1||colloidal:1||SIZE CONTROL:1||nanoradiology:1||ZnSO4:1||lung injury:1||METAL:1||PM10:1||textured grain:1||MICROSTRUCTURE:1||DIMENSIONS:1||highresolution Xray diffraction:1||low temperature buffer:1||Zinc compounds:1||SI:1||HUMAN LONGEVITY:1||Maximum human lifespan:1||LIMITS:1||MOSFETS:1||in situ XANES:1||nanowires:1||PHOTOIRRADIATION:1||FIBERS:1||WORK:1||EMISSION:1||RADIATION MICROTOMOGRAPHY:1||RAMANSCATTERING:1||gold nanoparticles:1||synchrotron Xray diffraction:1||OPTICAL WAVEGUIDES:1||CONDUCTINGPOLYMER NANOWIRE:1||Lung cancer:1||INTRAVENOUS CORONARYARTERIOGRAPHY:1||SUBLIMATION GROWTH:1||radiography:1||porous SiC:1||GIANT MAGNETORESISTANCE:1||SEMICONDUCTORS:1||Ga diffusion:1||electroless deposition:1||HEMATITE:1||FREEELECTRON LASER:1||MOCVD:1||interfaces:1||white beam:1||imaging technique:1||nucleation layer:1||interface structure:1||epitaxial Baferrite film:1||rf magnetron sputtering:1||MAGNETIC CHARACTERISTICS:1||MIXTURE:1||ACCESS MEMORY APPLICATION:1||COHERENCY STRAIN:1||DENSITY:1||nanofabrication:1||POLY(METHYL METHACRYLATE) MICROSPHERE:1||RESIST:1||unmonochromatic beam:1||MICRORADIOGRAPHY:1||INTERFEROMETER:1||EXPOSURE:1||volume variation electronic:1||PULSEDLASER ABLATION:1||Semiconducting IIVI materials:1||Light emitting diodes:1||phase contrast microscopies:1||lung:1||AUGERELECTRON SPECTROSCOPY:1||passivation:1||additive manufacturing:1||Silicon carbide:1||Synchrotron radiation:1||Synchrotron radiation imaging:1||Dislocations (crystals):1||LUNG INJURY:1||POLYMER SURFACES:1||SINGLE CELLS:1||PREFERRED ORIENTATION:1||sapphire orientation:1||TANTALUM:1||BIASENHANCED NUCLEATION:1||hexaferrite:1||stretched exponential:1||SOLIDSURFACE:1||SHEAR:1||VIDEO MICROSCOPY:1||CARBON NANOTUBES:1||realtime observation:1||Xray synchrotron:1||CARBONMONOXIDE:1||ELECTROCHEMICAL FABRICATION:1||crystal growth:1||computer simulation:1||FERROELECTRICFILMS:1||TITANIUM IMPLANTS:1||BONE INTERFACE:1||EXAFS perpendicular magnetic recording:1||Pd/Ni:1||ELECTRODES:1||internal organ:1||LIGHTEMITTINGDIODES:1||interfacial structure:1||CONSTANT:1||DIELECTRICPROPERTIES:1||AR:1||DEVICES:1||BiSrCaCuO:1||LASER ABLATION:1||MECHANISM:1||SELECTIVE DEPOSITION:1||TARGETED DRUGDELIVERY:1||PEG:1||carbon nanotubes:1||nanocharacterization:1||WALLED CARBON NANOTUBE:1||basal cell carcinoma:1||PARTICULATE AIRPOLLUTION:1||FINE:1||CITIES:1||DOPED ZNO FILMS:1||atherosclerosis:1||drug delivery:1||hard Xray:1||COMBUSTION:1||ARTIFICIAL BATIO3/SRTIO3 SUPERLATTICES:1||surface morphology:1||Direct wafer bonding:1||COLLOIDAL GOLD PARTICLES:1||DELINEATION:1||EXPECTANCY:1||DEMOGRAPHY:1||MRI:1||SIGE:1||Phase contrast microradiography:1||INJURY:1||PASSIVITY:1||VOLUME:1||CONTACTANGLE:1||ARRAYS:1||DUCTILITY:1||sputtering:1||computed microtomography (mu CT):1||unmonochromatized Xray:1||BIPOLARTRANSISTORS:1||longevity:1||Confocal microscopy:1||Colloidal wettability:1||ATOMICFORCE MICROSCOPY:1||storage ring:1||digital subtraction:1||SCATTERING:1||size effect:1||SYNTHETIC QUARTZ:1||liquid metal embrittlement:1||iron ore:1||cube textured Ni substrates:1||SrRuO3 films:1||laser ablations:1||Ti underlayer:1||RANDOMACCESS MEMORIES:1||DOMAIN CONFIGURATIONS:1||MGO(100):1||SPECTROSCOPY:1||XE:1||IONBEAM:1||GRAINBOUNDARY MIGRATION:1||SRTIO3:1||COMPOSITES:1||FOAMS:1||BREASTCANCER SPECIMENS:1||unmonochromatized:1||Xray induced nucleation:1||gold:1||ABSORPTION:1||SEPARATION:1||CZOCHRALSKI GROWTH:1||RETRIEVAL:1||GAMMARADIATION:1||AQUEOUSSOLUTION:1||NANOCOMPOSITES:1||INCREASE:1||without staining procedure:1||XPS:1||Imaging techniques:1||Interfaces (materials):1||Dislocation distributions:1||AZOBENZENE:1||STRUCTURAL EVOLUTION:1||RELAXATION:1||DROP IMPACT:1||NONLINEAR DYNAMICS:1||DISLOCATIONS:1||Colloids:1||TRANSFORMATION:1||METAL INTERCONNECTS:1||ELASTIC CONDUCTORS:1||LOGIC:1||DEFICIENT MICE:1||tomography:1||FACILITY:1||osseointegration:1||ROCKS:1||dental radiography:1||Zn coating:1||RE2O3/Ni:1||YBCO COATED CONDUCTORS:1||threedimensional islands:1||(Ba,Sr)TiO3:1||ultrahigh resolution:1||photoelectron emission:1||Pd:1||LANIO3:1||BASE ELECTRODES:1||iron oxide phase:1||ironoxide interlayer:1||COATED GLASS SUBSTRATE:1||MICROWAVE PLASMA NUCLEATION:1||ENHANCED NUCLEATION:1||phase transformation:1||ADSORPTION:1||phasecontrast xray imaging:1||lung inflammation:1||SI1XGEX SINGLECRYSTALS:1||COCONTINUITY:1||SCALE:1||OBJECT:1||synchrotron microradiography:1||FeSO4:1||INDUCTION:1||BaTiO3 and SrTiO3 thin films:1||HARDXRAYS:1||light emitting diodes:1||ACID:1||MICROSTRUCTURES:1||PHOTOLUMINESCENCE PROPERTIES:1||LASER IRRADIATION:1||Human aging:1||polychromatic synchrotron Xray:1||refraction enhanced imaging:1||CHROMOPHORES:1||ACUTE LUNG INJURY:1||spatial resolution:1||BETAFESI2:1||VLSI:1||SI1XGEX:1||COLLOIDAL SUSPENSIONS:1||ELECTRONICS:1||ENHANCEMENT:1||artificial lattice:1||sinters:1||SILVER:1||STRAIN RELAXATION:1||biaxial texture:1||synchrotron scattering:1||transmission electron microscopy:1||IRONOXIDE FILMS:1||PZT thin film:1||ferroelectric thin film:1||MISFIT RELAXATION MECHANISMS:1||PBTIO3:1||O2:1||CONDUCTING POLYMERS:1||poly(methylmethancrylate):1||microspheres:1||phase contrast Xray microscope:1||AMBIENT AIR:1||ATMOSPHERE:1||XRAY INTERFEROMETER:1||NiAu composite nanoparticles.:1||synchrotron radiation Xrays:1||microtomography:1||OIL FLYASH:1||zinc oxide:1||mammography:1||SrRuO3 film:1||Laser epitaxy:1||HOLE MOBILITY:1||Models of crystal defects:1||RABBIT LUNGS:1||NI/AU CONTACT:1||3D printing:1||Stress relaxation:1||SURFACEAREA:1||IMAGE:1||modulation transfer function (MTF):1||Pb ions:1||Insitu visualization:1||Interfacial tension:1||DISPERSION FORCES:1||SINGLECRYSTALS:1||XRAY SOURCE:1||Synchrotron Xray imaging:1||Realtime imaging:1||MEDICAL APPLICATIONS:1||wiggler bending magnet:1||undulator:1||diffractionenhanced imaging:1||ZnO film:1||CAPACITORS:1||HE3:1||NiP alloy:1||PHOTOCHEMICAL FORMATION:1||extended domain matching:1||cubetextured Ni substrates:1||RAY COMPUTEDTOMOGRAPHY:1||electrode layer:1||DOMAINSTRUCTURE:1||XRAY CT:1||SPECIMEN:1||mammographic phantom:1||Xray absorption spectroscopy:1||BLUE:1||CONTACT:1||(BA:1||synchrotron spectromicroscopy:1||thin film:1||MICROWAVE PLASMA:1||GOLD NANOPARTICLES:1||POLYMERIZATION:1||DISEASE:1||Shanghai:1||MORTALITY:1||HETEROSTRUCTURES:1||METHACRYLATE:1||prostate cancer:1||renal cell carcinoma:1||RATS:1||PULSEDLASER DEPOSITION:1||semiconducting IIVI materials:1||PATTERNS:1||sapphire:1||evaporation:1||ZINCOXIDE:1||LIGHTEMITTING DIODE:1||Synchrotron imaging:1||Dislocations:1||Cracks:1||LIVE:1||spinal cord:1||stainless steel:1||nanophotonics:1||subwavelength waveguides:1||Synchrotrons:1||High dislocation density:1||Misfit stress relaxations:1||Randomly distributed:1||Tripleaxis xray diffractions:1||FLOW:1||CRYSTALLINE ORGANIC NANORODS:1||SHAPE CHANGES:1||ZnO thin film:1||(111)SI:1||XRAY MIRRORS:1||low temperature:1||oxide cathodes:1||heterogeneity:1||Xray microscopy:1||INTERFACIAL TENSIONS:1||single crystal growth:1||CARCINOMA:1||mouse:1||ANIMALS:1||Mndoped ZnO:1||luminescence:1||solution precipitation:1||CLUSTER:1||relaxation:1||ALPHAFE2O3:1||XANES:1||epitaxy:1||LaNiO3 thin film:1||LANIO3 THINFILMS:1||ELECTRODE:1||Fe3O4 sublayer:1||EXAFS microscopy:1||FERRITE FILMS:1||SURFACE PRETREATMENTS:1||superconductors:1||CONTRAST AGENT:1||BIODISTRIBUTION:1||DEATH:1||SYNCHROTRON:1||IR:1||apo Eknockout mouse:1||plaque:1||microradiology:1||ALPHASYNUCLEIN:1||PULMONARY TOXICITY:1||XRAY TOPOGRAPHY:1||dislocation:1||metalorganic chemical vapor deposition:1||CRYSTALGROWTH:1||SELFASSEMBLED MONOLAYERS:1||MEMBRANES:1||MAGNETICANISOTROPY:1||SI1XGEX CRYSTALS:1||STRAINEDSI:1||Extended Weibull model:1||MOLYBDENUM:1||ALLOYS:1||IRON:1||Theoretical modeling:1||Threading dislocation:1||GROWTH:27||THINFILMS:16||SYNCHROTRONRADIATION:15||CONTRAST:11||RADIOLOGY:11||PARTICLES:11||FILMS:11||SILICON:10||RADIATION:10||DEPOSITION:10||RESOLUTION:9||CRYSTALS:8||SILICONCARBIDE:7||XRAYS:7||MAMMOGRAPHY:7||Xray diffraction:7||synchrotron radiation:6||XRAYSCATTERING:6||MODEL:6||microstructure:6||DYNAMICS:5||ELECTRODEPOSITION:5||LAYERS:5||CHEMICALVAPORDEPOSITION:5||TEMPERATURE:5||TOMOGRAPHY:5||COMPUTEDTOMOGRAPHY:5||SAPPHIRE:5||MEDIA:5||NANOWIRES:5||DIFFRACTION:4||TISSUES:4||pulsed laser deposition:4||phase contrast imaging:4||LAYER:4||IMAGES:4||DIODES:4||FIELDEFFECT TRANSISTORS:4||ptype GaN:4||MICROSCOPY:4||REDUCTION:4||POLYMER:4||DEFECTS:3||COHERENCE:3||MICROTOMOGRAPHY:3||NANOPARTICLES:3||synchrotron:3||LIGHT:3||TRANSISTORS:3||SURFACES:3||STRAIN:3||EPITAXIAL LAYERS:3||DRUGDELIVERY:3||REFRACTION:3||growth mechanism:3||METALS:3||MICROPIPES:3||SYSTEM:3||NUCLEATION:3||synchrotron Xray scattering:3||SURFACE:3||SCREW DISLOCATIONS:3||SIMULATION:3||HARD XRAYS:3||ELECTRICALPROPERTIES:3||EPITAXY:3||GAN:3||PM2.5:3||EVAPORATION:3||LIQUIDS:3||INPLANE:3||RAT:3||ANGIOGENESIS:3||CT:3||GaN:3||ZnO:3||NANORODS:3||strain:3||PB(ZR0.53TI0.47)O3:3||CRYSTALLIZATION:3||synchrotron Xrays:2||buffer layer:2||TRANSMISSION ELECTRONMICROSCOPY:2||EPITAXIAL COSI2 FILMS:2||MECHANISMS:2||INSITU GROWTH:2||DEVICE:2||LOCALIZED ELECTROCHEMICAL DEPOSITION:2||X ray diffraction:2||SCHOTTKY CONTACT:2||IRRADIATION:2||aqua regia treatment:2||INVIVO:2||CELLADHESION:2||MORPHOGENETIC PROTEIN2:2||RECEPTOR:2||TEM:2||broadband synchrotron light:2||nanoparticle:2||BUFFER LAYERS:2||TC:2||ENHANCED SYNCHROTRON RADIOLOGY:2||synthesis:2||POLYDIMETHYLSILOXANE:2||MICROCHANNELS:2||PRETREATMENT PROCESS:2||XRAY:2||CHEMOTAXIS:2||MECHANOSENSORY TRANSDUCTION:2||rectangular microtube:2||CONJUGATED POLYMER:2||atomic force microscopy:2||METALLIC OXIDE SRRUO3:2||LASERABLATION:2||STRESS:2||ZONE PLATES:2||FRICTION:2||THERMALSTABILITY:2||Xrays:2||RAY:2||NM:2||ENERGY:2||TOPOGRAPHY:2||synchrotron Xray:2||ACID HYDROGELS:2||CAENORHABDITISELEGANS:2||PROTEIN:2||defects:2||EVOLUTION:2||FABRICATION:2||sharp bending waveguide:2||lasing action:2||BULK CRYSTALS:2||SUPERLATTICES:2||COATED CONDUCTORS:2||SI(111):2||phase contrast:2||CORONARY ANGIOGRAPHY:2||SPECTROMICROSCOPY:2||MEPHISTO:2||OXYGEN:2||OPTICALPROPERTIES:2||RADIOGRAPHY:2||CONTACT DEFORMATIONS:2||MOLECULAR FORCES:2||SOLIDS:2||NTYPE GAN:2||deposition:2||CHEMISTRY:2||DEFORMATION:2||SUBSTRATE:2||HETEROEPITAXY:2||NANOTOPOGRAPHY:2||EPITAXIALGROWTH:2||Xray:2||CHEMICAL VAPORDEPOSITION:2||SILICON STRUCTURES:2||STEMCELLS:2||CHANNEL:2||crystal structure:2||CORONARYANGIOGRAPHY:2||SiC:2||BUFFER LAYER:2||MOLECULARBEAM EPITAXY:2||INTERFACE:2||SIZE:2||ELECTRON:2||XRAY MICROSCOPY:2||MORPHOLOGIES:2||NANOCOLLOIDS:2||FORCE MICROSCOPY:2||ablation:2||polymers:2||(NH4)(2)Sx treatment:2||CLUSTERS:2||BIOMATERIALS:2||CIRCUITS:2||rectangular ring mode:2||GUIDES:2||MICROCAVITY:2||PHOTOLUMINESCENCE:2||epitaxial growth:2||EMBRITTLEMENT:2||Xray imaging:2||BIOCOMPATIBILITY:2||BEHAVIOR:2||MICROWAVEPLASMA:2||LOWPRESSURE:2||DEGRADATION:2||TISSUE:2||LIQUID:2||SOFT LITHOGRAPHY:2||amplified spontaneous emission (ASE):2||SMALL ORGANICMOLECULES:2||PHOTONIC CRYSTAL:2||micropipes:2||radiology:2||ALLOY:2||Xray scattering:2||CRITICALCURRENT DENSITY:2||ELECTRONMICROSCOPY:2||BI(PB)SRCACUO:2||ELECTRONICSTRUCTURE:2||RECONSTRUCTION:2||MG:2||ohmic contact:2||Pd ohmic contact:2||xray scattering:2||INP:2||annealing:2||REGENERATION:2||TITANIUM:2||COLLOIDAL GOLD:2||crystallization:2||BUCKLING MECHANICS:2||LASERS:2||MODES:2||synchrotron imaging:2||lattice distortion:2||AQUEOUSELECTROLYTE:2||MOLECULARDYNAMICS:2||OXIDE:2||MICROANGIOGRAPHY:2||OXIDATION:2||MICRORADIOLOGY:2||TECHNOLOGY:2||GE:2||surface chemistry:2||RECOVERY:2||OHMIC CONTACTS:2||LASERDIODES:2||PTYPE GAN:2||MOTION:2||PHANTOM:2||PHASE:2||CALCIUMPHOSPHATE CERAMICS:2||REPAIR:2||porphyrin:2||AMPLIFIED SPONTANEOUS EMISSION:2||METALELECTRODES:2||PD:2||SUPERCONDUCTING TAPES:2||nucleation:2||COATINGS:2||Xray topography:2||MONOLAYERS:2||SURFACE MODIFICATION:2||LITHOGRAPHY:2||MECHANICAL VENTILATION:1||MICRORIBBONS:1||STIFFNESS:1||DUALPHASE STEEL:1||growth mode:1||strain evolution:1||SI(100):1||ANISOTROPY:1||WET GRANULAR PILE:1||COALESCENCE:1||INSITU POLYMERIZATION:1||GRAPHENE:1||CANCER:1||NODULES:1||RABBITS:1||phasecontrast:1||YTTRIUMOXIDE FILMS:1||BaTiO3/SrTiO3:1||dental implant:1||coincidence site density:1||ERNI2B2C:1||crystallites:1||CoCrPt films:1||tensile strain:1||gallide:1||MGO:1||Baferrite film:1||synchrotron xray scattering:1||ZNO THINFILMS:1||MORPHOLOGY:1||PHASES:1||MICE:1||EBEAM LITHOGRAPHY:1||electrorheological fluids:1||NANOFIBROUS MEMBRANES:1||NANOLITHOGRAPHY:1||refractive index radiology:1||BLOOD:1||colloidal:1||SIZE CONTROL:1||nanoradiology:1||ZnSO4:1||lung injury:1||METAL:1||PM10:1||textured grain:1||MICROSTRUCTURE:1||DIMENSIONS:1||highresolution Xray diffraction:1||low temperature buffer:1||Zinc compounds:1||SI:1||HUMAN LONGEVITY:1||Maximum human lifespan:1||LIMITS:1||MOSFETS:1||in situ XANES:1||nanowires:1||PHOTOIRRADIATION:1||FIBERS:1||WORK:1||EMISSION:1||RADIATION MICROTOMOGRAPHY:1||RAMANSCATTERING:1||gold nanoparticles:1||synchrotron Xray diffraction:1||OPTICAL WAVEGUIDES:1||CONDUCTINGPOLYMER NANOWIRE:1||Lung cancer:1||INTRAVENOUS CORONARYARTERIOGRAPHY:1||SUBLIMATION GROWTH:1||radiography:1||porous SiC:1||GIANT MAGNETORESISTANCE:1||SEMICONDUCTORS:1||Ga diffusion:1||electroless deposition:1||HEMATITE:1||FREEELECTRON LASER:1||MOCVD:1||interfaces:1||white beam:1||imaging technique:1||nucleation layer:1||interface structure:1||epitaxial Baferrite film:1||rf magnetron sputtering:1||MAGNETIC CHARACTERISTICS:1||MIXTURE:1||ACCESS MEMORY APPLICATION:1||COHERENCY STRAIN:1||DENSITY:1||nanofabrication:1||POLY(METHYL METHACRYLATE) MICROSPHERE:1||RESIST:1||unmonochromatic beam:1||MICRORADIOGRAPHY:1||INTERFEROMETER:1||EXPOSURE:1||volume variation electronic:1||PULSEDLASER ABLATION:1||Semiconducting IIVI materials:1||Light emitting diodes:1||phase contrast microscopies:1||lung:1||AUGERELECTRON SPECTROSCOPY:1||passivation:1||additive manufacturing:1||Silicon carbide:1||Synchrotron radiation:1||Synchrotron radiation imaging:1||Dislocations (crystals):1||LUNG INJURY:1||POLYMER SURFACES:1||SINGLE CELLS:1||PREFERRED ORIENTATION:1||sapphire orientation:1||TANTALUM:1||BIASENHANCED NUCLEATION:1||hexaferrite:1||stretched exponential:1||SOLIDSURFACE:1||SHEAR:1||VIDEO MICROSCOPY:1||CARBON NANOTUBES:1||realtime observation:1||Xray synchrotron:1||CARBONMONOXIDE:1||ELECTROCHEMICAL FABRICATION:1||crystal growth:1||computer simulation:1||FERROELECTRICFILMS:1||TITANIUM IMPLANTS:1||BONE INTERFACE:1||EXAFS perpendicular magnetic recording:1||Pd/Ni:1||ELECTRODES:1||internal organ:1||LIGHTEMITTINGDIODES:1||interfacial structure:1||CONSTANT:1||DIELECTRICPROPERTIES:1||AR:1||DEVICES:1||BiSrCaCuO:1||LASER ABLATION:1||MECHANISM:1||SELECTIVE DEPOSITION:1||TARGETED DRUGDELIVERY:1||PEG:1||carbon nanotubes:1||nanocharacterization:1||WALLED CARBON NANOTUBE:1||basal cell carcinoma:1||PARTICULATE AIRPOLLUTION:1||FINE:1||CITIES:1||DOPED ZNO FILMS:1||atherosclerosis:1||drug delivery:1||hard Xray:1||COMBUSTION:1||ARTIFICIAL BATIO3/SRTIO3 SUPERLATTICES:1||surface morphology:1||Direct wafer bonding:1||COLLOIDAL GOLD PARTICLES:1||DELINEATION:1||EXPECTANCY:1||DEMOGRAPHY:1||MRI:1||SIGE:1||Phase contrast microradiography:1||INJURY:1||PASSIVITY:1||VOLUME:1||CONTACTANGLE:1||ARRAYS:1||DUCTILITY:1||sputtering:1||computed microtomography (mu CT):1||unmonochromatized Xray:1||BIPOLARTRANSISTORS:1||longevity:1||Confocal microscopy:1||Colloidal wettability:1||ATOMICFORCE MICROSCOPY:1||storage ring:1||digital subtraction:1||SCATTERING:1||size effect:1||SYNTHETIC QUARTZ:1||liquid metal embrittlement:1||iron ore:1||cube textured Ni substrates:1||SrRuO3 films:1||laser ablations:1||Ti underlayer:1||RANDOMACCESS MEMORIES:1||DOMAIN CONFIGURATIONS:1||MGO(100):1||SPECTROSCOPY:1||XE:1||IONBEAM:1||GRAINBOUNDARY MIGRATION:1||SRTIO3:1||COMPOSITES:1||FOAMS:1||BREASTCANCER SPECIMENS:1||unmonochromatized:1||Xray induced nucleation:1||gold:1||ABSORPTION:1||SEPARATION:1||CZOCHRALSKI GROWTH:1||RETRIEVAL:1||GAMMARADIATION:1||AQUEOUSSOLUTION:1||NANOCOMPOSITES:1||INCREASE:1||without staining procedure:1||XPS:1||Imaging techniques:1||Interfaces (materials):1||Dislocation distributions:1||AZOBENZENE:1||STRUCTURAL EVOLUTION:1||RELAXATION:1||DROP IMPACT:1||NONLINEAR DYNAMICS:1||DISLOCATIONS:1||Colloids:1||TRANSFORMATION:1||METAL INTERCONNECTS:1||ELASTIC CONDUCTORS:1||LOGIC:1||DEFICIENT MICE:1||tomography:1||FACILITY:1||osseointegration:1||ROCKS:1||dental radiography:1||Zn coating:1||RE2O3/Ni:1||YBCO COATED CONDUCTORS:1||threedimensional islands:1||(Ba,Sr)TiO3:1||ultrahigh resolution:1||photoelectron emission:1||Pd:1||LANIO3:1||BASE ELECTRODES:1||iron oxide phase:1||ironoxide interlayer:1||COATED GLASS SUBSTRATE:1||MICROWAVE PLASMA NUCLEATION:1||ENHANCED NUCLEATION:1||phase transformation:1||ADSORPTION:1||phasecontrast xray imaging:1||lung inflammation:1||SI1XGEX SINGLECRYSTALS:1||COCONTINUITY:1||SCALE:1||OBJECT:1||synchrotron microradiography:1||FeSO4:1||INDUCTION:1||BaTiO3 and SrTiO3 thin films:1||HARDXRAYS:1||light emitting diodes:1||ACID:1||MICROSTRUCTURES:1||PHOTOLUMINESCENCE PROPERTIES:1||LASER IRRADIATION:1||Human aging:1||polychromatic synchrotron Xray:1||refraction enhanced imaging:1||CHROMOPHORES:1||ACUTE LUNG INJURY:1||spatial resolution:1||BETAFESI2:1||VLSI:1||SI1XGEX:1||COLLOIDAL SUSPENSIONS:1||ELECTRONICS:1||ENHANCEMENT:1||artificial lattice:1||sinters:1||SILVER:1||STRAIN RELAXATION:1||biaxial texture:1||synchrotron scattering:1||transmission electron microscopy:1||IRONOXIDE FILMS:1||PZT thin film:1||ferroelectric thin film:1||MISFIT RELAXATION MECHANISMS:1||PBTIO3:1||O2:1||CONDUCTING POLYMERS:1||poly(methylmethancrylate):1||microspheres:1||phase contrast Xray microscope:1||AMBIENT AIR:1||ATMOSPHERE:1||XRAY INTERFEROMETER:1||NiAu composite nanoparticles.:1||synchrotron radiation Xrays:1||microtomography:1||OIL FLYASH:1||zinc oxide:1||mammography:1||SrRuO3 film:1||Laser epitaxy:1||HOLE MOBILITY:1||Models of crystal defects:1||RABBIT LUNGS:1||NI/AU CONTACT:1||3D printing:1||Stress relaxation:1||SURFACEAREA:1||IMAGE:1||modulation transfer function (MTF):1||Pb ions:1||Insitu visualization:1||Interfacial tension:1||DISPERSION FORCES:1||SINGLECRYSTALS:1||XRAY SOURCE:1||Synchrotron Xray imaging:1||Realtime imaging:1||MEDICAL APPLICATIONS:1||wiggler bending magnet:1||undulator:1||diffractionenhanced imaging:1||ZnO film:1||CAPACITORS:1||HE3:1||NiP alloy:1||PHOTOCHEMICAL FORMATION:1||extended domain matching:1||cubetextured Ni substrates:1||RAY COMPUTEDTOMOGRAPHY:1||electrode layer:1||DOMAINSTRUCTURE:1||XRAY CT:1||SPECIMEN:1||mammographic phantom:1||Xray absorption spectroscopy:1||BLUE:1||CONTACT:1||(BA:1||synchrotron spectromicroscopy:1||thin film:1||MICROWAVE PLASMA:1||GOLD NANOPARTICLES:1||POLYMERIZATION:1||DISEASE:1||Shanghai:1||MORTALITY:1||HETEROSTRUCTURES:1||METHACRYLATE:1||prostate cancer:1||renal cell carcinoma:1||RATS:1||PULSEDLASER DEPOSITION:1||semiconducting IIVI materials:1||PATTERNS:1||sapphire:1||evaporation:1||ZINCOXIDE:1||LIGHTEMITTING DIODE:1||Synchrotron imaging:1||Dislocations:1||Cracks:1||LIVE:1||spinal cord:1||stainless steel:1||nanophotonics:1||subwavelength waveguides:1||Synchrotrons:1||High dislocation density:1||Misfit stress relaxations:1||Randomly distributed:1||Tripleaxis xray diffractions:1||FLOW:1||CRYSTALLINE ORGANIC NANORODS:1||SHAPE CHANGES:1||ZnO thin film:1||(111)SI:1||XRAY MIRRORS:1||low temperature:1||oxide cathodes:1||heterogeneity:1||Xray microscopy:1||INTERFACIAL TENSIONS:1||single crystal growth:1||CARCINOMA:1||mouse:1||ANIMALS:1||Mndoped ZnO:1||luminescence:1||solution precipitation:1||CLUSTER:1||relaxation:1||ALPHAFE2O3:1||XANES:1||epitaxy:1||LaNiO3 thin film:1||LANIO3 THINFILMS:1||ELECTRODE:1||Fe3O4 sublayer:1||EXAFS microscopy:1||FERRITE FILMS:1||SURFACE PRETREATMENTS:1||superconductors:1||CONTRAST AGENT:1||BIODISTRIBUTION:1||DEATH:1||SYNCHROTRON:1||IR:1||apo Eknockout mouse:1||plaque:1||microradiology:1||ALPHASYNUCLEIN:1||PULMONARY TOXICITY:1||XRAY TOPOGRAPHY:1||dislocation:1||metalorganic chemical vapor deposition:1||CRYSTALGROWTH:1||SELFASSEMBLED MONOLAYERS:1||MEMBRANES:1||MAGNETICANISOTROPY:1||SI1XGEX CRYSTALS:1||STRAINEDSI:1||Extended Weibull model:1||MOLYBDENUM:1||ALLOYS:1||IRON:1||Theoretical modeling:1||Threading dislocation:1||GROWTH:27||THINFILMS:16||SYNCHROTRONRADIATION:15||CONTRAST:11||RADIOLOGY:11||PARTICLES:11||FILMS:11||SILICON:10||RADIATION:10||DEPOSITION:10||RESOLUTION:9||CRYSTALS:8||SILICONCARBIDE:7||XRAYS:7||MAMMOGRAPHY:7||Xray diffraction:7||synchrotron radiation:6||XRAYSCATTERING:6||MODEL:6||microstructure:6||DYNAMICS:5||ELECTRODEPOSITION:5||LAYERS:5||CHEMICALVAPORDEPOSITION:5||TEMPERATURE:5||TOMOGRAPHY:5||COMPUTEDTOMOGRAPHY:5||SAPPHIRE:5||MEDIA:5||NANOWIRES:5||DIFFRACTION:4||TISSUES:4||pulsed laser deposition:4||phase contrast imaging:4||LAYER:4||IMAGES:4||DIODES:4||FIELDEFFECT TRANSISTORS:4||ptype GaN:4||MICROSCOPY:4||REDUCTION:4||POLYMER:4||DEFECTS:3||COHERENCE:3||MICROTOMOGRAPHY:3||NANOPARTICLES:3||synchrotron:3||LIGHT:3||TRANSISTORS:3||SURFACES:3||STRAIN:3||EPITAXIAL LAYERS:3||DRUGDELIVERY:3||REFRACTION:3||growth mechanism:3||METALS:3||MICROPIPES:3||SYSTEM:3||NUCLEATION:3||synchrotron Xray scattering:3||SURFACE:3||SCREW DISLOCATIONS:3||SIMULATION:3||HARD XRAYS:3||ELECTRICALPROPERTIES:3||EPITAXY:3||GAN:3||PM2.5:3||EVAPORATION:3||LIQUIDS:3||INPLANE:3||RAT:3||ANGIOGENESIS:3||CT:3||GaN:3||ZnO:3||NANORODS:3||strain:3||PB(ZR0.53TI0.47)O3:3||CRYSTALLIZATION:3||synchrotron Xrays:2||buffer layer:2||TRANSMISSION ELECTRONMICROSCOPY:2||EPITAXIAL COSI2 FILMS:2||MECHANISMS:2||INSITU GROWTH:2||DEVICE:2||LOCALIZED ELECTROCHEMICAL DEPOSITION:2||X ray diffraction:2||SCHOTTKY CONTACT:2||IRRADIATION:2||aqua regia treatment:2||INVIVO:2||CELLADHESION:2||MORPHOGENETIC PROTEIN2:2||RECEPTOR:2||TEM:2||broadband synchrotron light:2||nanoparticle:2||BUFFER LAYERS:2||TC:2||ENHANCED SYNCHROTRON RADIOLOGY:2||synthesis:2||POLYDIMETHYLSILOXANE:2||MICROCHANNELS:2||PRETREATMENT PROCESS:2||XRAY:2||CHEMOTAXIS:2||MECHANOSENSORY TRANSDUCTION:2||rectangular microtube:2||CONJUGATED POLYMER:2||atomic force microscopy:2||METALLIC OXIDE SRRUO3:2||LASERABLATION:2||STRESS:2||ZONE PLATES:2||FRICTION:2||THERMALSTABILITY:2||Xrays:2||RAY:2||NM:2||ENERGY:2||TOPOGRAPHY:2||synchrotron Xray:2||ACID HYDROGELS:2||CAENORHABDITISELEGANS:2||PROTEIN:2||defects:2||EVOLUTION:2||FABRICATION:2||sharp bending waveguide:2||lasing action:2||BULK CRYSTALS:2||SUPERLATTICES:2||COATED CONDUCTORS:2||SI(111):2||phase contrast:2||CORONARY ANGIOGRAPHY:2||SPECTROMICROSCOPY:2||MEPHISTO:2||OXYGEN:2||OPTICALPROPERTIES:2||RADIOGRAPHY:2||CONTACT DEFORMATIONS:2||MOLECULAR FORCES:2||SOLIDS:2||NTYPE GAN:2||deposition:2||CHEMISTRY:2||DEFORMATION:2||SUBSTRATE:2||HETEROEPITAXY:2||NANOTOPOGRAPHY:2||EPITAXIALGROWTH:2||Xray:2||CHEMICAL VAPORDEPOSITION:2||SILICON STRUCTURES:2||STEMCELLS:2||CHANNEL:2||crystal structure:2||CORONARYANGIOGRAPHY:2||SiC:2||BUFFER LAYER:2||MOLECULARBEAM EPITAXY:2||INTERFACE:2||SIZE:2||ELECTRON:2||XRAY MICROSCOPY:2||MORPHOLOGIES:2||NANOCOLLOIDS:2||FORCE MICROSCOPY:2||ablation:2||polymers:2||(NH4)(2)Sx treatment:2||CLUSTERS:2||BIOMATERIALS:2||CIRCUITS:2||rectangular ring mode:2||GUIDES:2||MICROCAVITY:2||PHOTOLUMINESCENCE:2||epitaxial growth:2||EMBRITTLEMENT:2||Xray imaging:2||BIOCOMPATIBILITY:2||BEHAVIOR:2||MICROWAVEPLASMA:2||LOWPRESSURE:2||DEGRADATION:2||TISSUE:2||LIQUID:2||SOFT LITHOGRAPHY:2||amplified spontaneous emission (ASE):2||SMALL ORGANICMOLECULES:2||PHOTONIC CRYSTAL:2||micropipes:2||radiology:2||ALLOY:2||Xray scattering:2||CRITICALCURRENT DENSITY:2||ELECTRONMICROSCOPY:2||BI(PB)SRCACUO:2||ELECTRONICSTRUCTURE:2||RECONSTRUCTION:2||MG:2||ohmic contact:2||Pd ohmic contact:2||xray scattering:2||INP:2||annealing:2||REGENERATION:2||TITANIUM:2||COLLOIDAL GOLD:2||crystallization:2||BUCKLING MECHANICS:2||LASERS:2||MODES:2||synchrotron imaging:2||lattice distortion:2||AQUEOUSELECTROLYTE:2||MOLECULARDYNAMICS:2||OXIDE:2||MICROANGIOGRAPHY:2||OXIDATION:2||MICRORADIOLOGY:2||TECHNOLOGY:2||GE:2||surface chemistry:2||RECOVERY:2||OHMIC CONTACTS:2||LASERDIODES:2||PTYPE GAN:2||MOTION:2||PHANTOM:2||PHASE:2||CALCIUMPHOSPHATE CERAMICS:2||REPAIR:2||porphyrin:2||AMPLIFIED SPONTANEOUS EMISSION:2||METALELECTRODES:2||PD:2||SUPERCONDUCTING TAPES:2||nucleation:2||COATINGS:2||Xray topography:2||MONOLAYERS:2||SURFACE MODIFICATION:2||LITHOGRAPHY:2||MECHANICAL VENTILATION:1||MICRORIBBONS:1||STIFFNESS:1||DUALPHASE STEEL:1||growth mode:1||strain evolution:1||SI(100):1||ANISOTROPY:1||WET GRANULAR PILE:1||COALESCENCE:1||INSITU POLYMERIZATION:1||GRAPHENE:1||CANCER:1||NODULES:1||RABBITS:1||phasecontrast:1||YTTRIUMOXIDE FILMS:1||BaTiO3/SrTiO3:1||dental implant:1||coincidence site density:1||ERNI2B2C:1||crystallites:1||CoCrPt films:1||tensile strain:1||gallide:1||MGO:1||Baferrite film:1||synchrotron xray scattering:1||ZNO THINFILMS:1||MORPHOLOGY:1||PHASES:1||MICE:1||EBEAM LITHOGRAPHY:1||electrorheological fluids:1||NANOFIBROUS MEMBRANES:1||NANOLITHOGRAPHY:1||refractive index radiology:1||BLOOD:1||colloidal:1||SIZE CONTROL:1||nanoradiology:1||ZnSO4:1||lung injury:1||METAL:1||PM10:1||textured grain:1||MICROSTRUCTURE:1||DIMENSIONS:1||highresolution Xray diffraction:1||low temperature buffer:1||Zinc compounds:1||SI:1||HUMAN LONGEVITY:1||Maximum human lifespan:1||LIMITS:1||MOSFETS:1||in situ XANES:1||nanowires:1||PHOTOIRRADIATION:1||FIBERS:1||WORK:1||EMISSION:1||RADIATION MICROTOMOGRAPHY:1||RAMANSCATTERING:1||gold nanoparticles:1||synchrotron Xray diffraction:1||OPTICAL WAVEGUIDES:1||CONDUCTINGPOLYMER NANOWIRE:1||Lung cancer:1||INTRAVENOUS CORONARYARTERIOGRAPHY:1||SUBLIMATION GROWTH:1||radiography:1||porous SiC:1||GIANT MAGNETORESISTANCE:1||SEMICONDUCTORS:1||Ga diffusion:1||electroless deposition:1||HEMATITE:1||FREEELECTRON LASER:1||MOCVD:1||interfaces:1||white beam:1||imaging technique:1||nucleation layer:1||interface structure:1||epitaxial Baferrite film:1||rf magnetron sputtering:1||MAGNETIC CHARACTERISTICS:1||MIXTURE:1||ACCESS MEMORY APPLICATION:1||COHERENCY STRAIN:1||DENSITY:1||nanofabrication:1||POLY(METHYL METHACRYLATE) MICROSPHERE:1||RESIST:1||unmonochromatic beam:1||MICRORADIOGRAPHY:1||INTERFEROMETER:1||EXPOSURE:1||volume variation electronic:1||PULSEDLASER ABLATION:1||Semiconducting IIVI materials:1||Light emitting diodes:1||phase contrast microscopies:1||lung:1||AUGERELECTRON SPECTROSCOPY:1||passivation:1||additive manufacturing:1||Silicon carbide:1||Synchrotron radiation:1||Synchrotron radiation imaging:1||Dislocations (crystals):1||LUNG INJURY:1||POLYMER SURFACES:1||SINGLE CELLS:1||PREFERRED ORIENTATION:1||sapphire orientation:1||TANTALUM:1||BIASENHANCED NUCLEATION:1||hexaferrite:1||stretched exponential:1||SOLIDSURFACE:1||SHEAR:1||VIDEO MICROSCOPY:1||CARBON NANOTUBES:1||realtime observation:1||Xray synchrotron:1||CARBONMONOXIDE:1||ELECTROCHEMICAL FABRICATION:1||crystal growth:1||computer simulation:1||FERROELECTRICFILMS:1||TITANIUM IMPLANTS:1||BONE INTERFACE:1||EXAFS perpendicular magnetic recording:1||Pd/Ni:1||ELECTRODES:1||internal organ:1||LIGHTEMITTINGDIODES:1||interfacial structure:1||CONSTANT:1||DIELECTRICPROPERTIES:1||AR:1||DEVICES:1||BiSrCaCuO:1||LASER ABLATION:1||MECHANISM:1||SELECTIVE DEPOSITION:1||TARGETED DRUGDELIVERY:1||PEG:1||carbon nanotubes:1||nanocharacterization:1||WALLED CARBON NANOTUBE:1||basal cell carcinoma:1||PARTICULATE AIRPOLLUTION:1||FINE:1||CITIES:1||DOPED ZNO FILMS:1||atherosclerosis:1||drug delivery:1||hard Xray:1||COMBUSTION:1||ARTIFICIAL BATIO3/SRTIO3 SUPERLATTICES:1||surface morphology:1||Direct wafer bonding:1||COLLOIDAL GOLD PARTICLES:1||DELINEATION:1||EXPECTANCY:1||DEMOGRAPHY:1||MRI:1||SIGE:1||Phase contrast microradiography:1||INJURY:1||PASSIVITY:1||VOLUME:1||CONTACTANGLE:1||ARRAYS:1||DUCTILITY:1||sputtering:1||computed microtomography (mu CT):1||unmonochromatized Xray:1||BIPOLARTRANSISTORS:1||longevity:1||Confocal microscopy:1||Colloidal wettability:1||ATOMICFORCE MICROSCOPY:1||storage ring:1||digital subtraction:1||SCATTERING:1||size effect:1||SYNTHETIC QUARTZ:1||liquid metal embrittlement:1||iron ore:1||cube textured Ni substrates:1||SrRuO3 films:1||laser ablations:1||Ti underlayer:1||RANDOMACCESS MEMORIES:1||DOMAIN CONFIGURATIONS:1||MGO(100):1||SPECTROSCOPY:1||XE:1||IONBEAM:1||GRAINBOUNDARY MIGRATION:1||SRTIO3:1||COMPOSITES:1||FOAMS:1||BREASTCANCER SPECIMENS:1||unmonochromatized:1||Xray induced nucleation:1||gold:1||ABSORPTION:1||SEPARATION:1||CZOCHRALSKI GROWTH:1||RETRIEVAL:1||GAMMARADIATION:1||AQUEOUSSOLUTION:1||NANOCOMPOSITES:1||INCREASE:1||without staining procedure:1||XPS:1||Imaging techniques:1||Interfaces (materials):1||Dislocation distributions:1||AZOBENZENE:1||STRUCTURAL EVOLUTION:1||RELAXATION:1||DROP IMPACT:1||NONLINEAR DYNAMICS:1||DISLOCATIONS:1||Colloids:1||TRANSFORMATION:1||METAL INTERCONNECTS:1||ELASTIC CONDUCTORS:1||LOGIC:1||DEFICIENT MICE:1||tomography:1||FACILITY:1||osseointegration:1||ROCKS:1||dental radiography:1||Zn coating:1||RE2O3/Ni:1||YBCO COATED CONDUCTORS:1||threedimensional islands:1||(Ba,Sr)TiO3:1||ultrahigh resolution:1||photoelectron emission:1||Pd:1||LANIO3:1||BASE ELECTRODES:1||iron oxide phase:1||ironoxide interlayer:1||COATED GLASS SUBSTRATE:1||MICROWAVE PLASMA NUCLEATION:1||ENHANCED NUCLEATION:1||phase transformation:1||ADSORPTION:1||phasecontrast xray imaging:1||lung inflammation:1||SI1XGEX SINGLECRYSTALS:1||COCONTINUITY:1||SCALE:1||OBJECT:1||synchrotron microradiography:1||FeSO4:1||INDUCTION:1||BaTiO3 and SrTiO3 thin films:1||HARDXRAYS:1||light emitting diodes:1||ACID:1||MICROSTRUCTURES:1||PHOTOLUMINESCENCE PROPERTIES:1||LASER IRRADIATION:1||Human aging:1||polychromatic synchrotron Xray:1||refraction enhanced imaging:1||CHROMOPHORES:1||ACUTE LUNG INJURY:1||spatial resolution:1||BETAFESI2:1||VLSI:1||SI1XGEX:1||COLLOIDAL SUSPENSIONS:1||ELECTRONICS:1||ENHANCEMENT:1||artificial lattice:1||sinters:1||SILVER:1||STRAIN RELAXATION:1||biaxial texture:1||synchrotron scattering:1||transmission electron microscopy:1||IRONOXIDE FILMS:1||PZT thin film:1||ferroelectric thin film:1||MISFIT RELAXATION MECHANISMS:1||PBTIO3:1||O2:1||CONDUCTING POLYMERS:1||poly(methylmethancrylate):1||microspheres:1||phase contrast Xray microscope:1||AMBIENT AIR:1||ATMOSPHERE:1||XRAY INTERFEROMETER:1||NiAu composite nanoparticles.:1||synchrotron radiation Xrays:1||microtomography:1||OIL FLYASH:1||zinc oxide:1||mammography:1||SrRuO3 film:1||Laser epitaxy:1||HOLE MOBILITY:1||Models of crystal defects:1||RABBIT LUNGS:1||NI/AU CONTACT:1||3D printing:1||Stress relaxation:1||SURFACEAREA:1||IMAGE:1||modulation transfer function (MTF):1||Pb ions:1||Insitu visualization:1||Interfacial tension:1||DISPERSION FORCES:1||SINGLECRYSTALS:1||XRAY SOURCE:1||Synchrotron Xray imaging:1||Realtime imaging:1||MEDICAL APPLICATIONS:1||wiggler bending magnet:1||undulator:1||diffractionenhanced imaging:1||ZnO film:1||CAPACITORS:1||HE3:1||NiP alloy:1||PHOTOCHEMICAL FORMATION:1||extended domain matching:1||cubetextured Ni substrates:1||RAY COMPUTEDTOMOGRAPHY:1||electrode layer:1||DOMAINSTRUCTURE:1||XRAY CT:1||SPECIMEN:1||mammographic phantom:1||Xray absorption spectroscopy:1||BLUE:1||CONTACT:1||(BA:1||synchrotron spectromicroscopy:1||thin film:1||MICROWAVE PLASMA:1||GOLD NANOPARTICLES:1||POLYMERIZATION:1||DISEASE:1||Shanghai:1||MORTALITY:1||HETEROSTRUCTURES:1||METHACRYLATE:1||prostate cancer:1||renal cell carcinoma:1||RATS:1||PULSEDLASER DEPOSITION:1||semiconducting IIVI materials:1||PATTERNS:1||sapphire:1||evaporation:1||ZINCOXIDE:1||LIGHTEMITTING DIODE:1||Synchrotron imaging:1||Dislocations:1||Cracks:1||LIVE:1||spinal cord:1||stainless steel:1||nanophotonics:1||subwavelength waveguides:1||Synchrotrons:1||High dislocation density:1||Misfit stress relaxations:1||Randomly distributed:1||Tripleaxis xray diffractions:1||FLOW:1||CRYSTALLINE ORGANIC NANORODS:1||SHAPE CHANGES:1||ZnO thin film:1||(111)SI:1||XRAY MIRRORS:1||low temperature:1||oxide cathodes:1||heterogeneity:1||Xray microscopy:1||INTERFACIAL TENSIONS:1||single crystal growth:1||CARCINOMA:1||mouse:1||ANIMALS:1||Mndoped ZnO:1||luminescence:1||solution precipitation:1||CLUSTER:1||relaxation:1||ALPHAFE2O3:1||XANES:1||epitaxy:1||LaNiO3 thin film:1||LANIO3 THINFILMS:1||ELECTRODE:1||Fe3O4 sublayer:1||EXAFS microscopy:1||FERRITE FILMS:1||SURFACE PRETREATMENTS:1||superconductors:1||CONTRAST AGENT:1||BIODISTRIBUTION:1||DEATH:1||SYNCHROTRON:1||IR:1||apo Eknockout mouse:1||plaque:1||microradiology:1||ALPHASYNUCLEIN:1||PULMONARY TOXICITY:1||XRAY TOPOGRAPHY:1||dislocation:1||metalorganic chemical vapor deposition:1||CRYSTALGROWTH:1||SELFASSEMBLED MONOLAYERS:1||MEMBRANES:1||MAGNETICANISOTROPY:1||SI1XGEX CRYSTALS:1||STRAINEDSI:1||Extended Weibull model:1||MOLYBDENUM:1||ALLOYS:1||IRON:1||Theoretical modeling:1||Threading dislocation:1||GROWTH:27||THINFILMS:16||SYNCHROTRONRADIATION:15||CONTRAST:11||RADIOLOGY:11||PARTICLES:11||FILMS:11||SILICON:10||RADIATION:10||DEPOSITION:10||RESOLUTION:9||CRYSTALS:8||SILICONCARBIDE:7||XRAYS:7||MAMMOGRAPHY:7||Xray diffraction:7||synchrotron radiation:6||XRAYSCATTERING:6||MODEL:6||microstructure:6||DYNAMICS:5||ELECTRODEPOSITION:5||LAYERS:5||CHEMICALVAPORDEPOSITION:5||TEMPERATURE:5||TOMOGRAPHY:5||COMPUTEDTOMOGRAPHY:5||SAPPHIRE:5||MEDIA:5||NANOWIRES:5||DIFFRACTION:4||TISSUES:4||pulsed laser deposition:4||phase contrast imaging:4||LAYER:4||IMAGES:4||DIODES:4||FIELDEFFECT TRANSISTORS:4||ptype GaN:4||MICROSCOPY:4||REDUCTION:4||POLYMER:4||DEFECTS:3||COHERENCE:3||MICROTOMOGRAPHY:3||NANOPARTICLES:3||synchrotron:3||LIGHT:3||TRANSISTORS:3||SURFACES:3||STRAIN:3||EPITAXIAL LAYERS:3||DRUGDELIVERY:3||REFRACTION:3||growth mechanism:3||METALS:3||MICROPIPES:3||SYSTEM:3||NUCLEATION:3||synchrotron Xray scattering:3||SURFACE:3||SCREW DISLOCATIONS:3||SIMULATION:3||HARD XRAYS:3||ELECTRICALPROPERTIES:3||EPITAXY:3||GAN:3||PM2.5:3||EVAPORATION:3||LIQUIDS:3||INPLANE:3||RAT:3||ANGIOGENESIS:3||CT:3||GaN:3||ZnO:3||NANORODS:3||strain:3||PB(ZR0.53TI0.47)O3:3||CRYSTALLIZATION:3||synchrotron Xrays:2||buffer layer:2||TRANSMISSION ELECTRONMICROSCOPY:2||EPITAXIAL COSI2 FILMS:2||MECHANISMS:2||INSITU GROWTH:2||DEVICE:2||LOCALIZED ELECTROCHEMICAL DEPOSITION:2||X ray diffraction:2||SCHOTTKY CONTACT:2||IRRADIATION:2||aqua regia treatment:2||INVIVO:2||CELLADHESION:2||MORPHOGENETIC PROTEIN2:2||RECEPTOR:2||TEM:2||broadband synchrotron light:2||nanoparticle:2||BUFFER LAYERS:2||TC:2||ENHANCED SYNCHROTRON RADIOLOGY:2||synthesis:2||POLYDIMETHYLSILOXANE:2||MICROCHANNELS:2||PRETREATMENT PROCESS:2||XRAY:2||CHEMOTAXIS:2||MECHANOSENSORY TRANSDUCTION:2||rectangular microtube:2||CONJUGATED POLYMER:2||atomic force microscopy:2||METALLIC OXIDE SRRUO3:2||LASERABLATION:2||STRESS:2||ZONE PLATES:2||FRICTION:2||THERMALSTABILITY:2||Xrays:2||RAY:2||NM:2||ENERGY:2||TOPOGRAPHY:2||synchrotron Xray:2||ACID HYDROGELS:2||CAENORHABDITISELEGANS:2||PROTEIN:2||defects:2||EVOLUTION:2||FABRICATION:2||sharp bending waveguide:2||lasing action:2||BULK CRYSTALS:2||SUPERLATTICES:2||COATED CONDUCTORS:2||SI(111):2||phase contrast:2||CORONARY ANGIOGRAPHY:2||SPECTROMICROSCOPY:2||MEPHISTO:2||OXYGEN:2||OPTICALPROPERTIES:2||RADIOGRAPHY:2||CONTACT DEFORMATIONS:2||MOLECULAR FORCES:2||SOLIDS:2||NTYPE GAN:2||deposition:2||CHEMISTRY:2||DEFORMATION:2||SUBSTRATE:2||HETEROEPITAXY:2||NANOTOPOGRAPHY:2||EPITAXIALGROWTH:2||Xray:2||CHEMICAL VAPORDEPOSITION:2||SILICON STRUCTURES:2||STEMCELLS:2||CHANNEL:2||crystal structure:2||CORONARYANGIOGRAPHY:2||SiC:2||BUFFER LAYER:2||MOLECULARBEAM EPITAXY:2||INTERFACE:2||SIZE:2||ELECTRON:2||XRAY MICROSCOPY:2||MORPHOLOGIES:2||NANOCOLLOIDS:2||FORCE MICROSCOPY:2||ablation:2||polymers:2||(NH4)(2)Sx treatment:2||CLUSTERS:2||BIOMATERIALS:2||CIRCUITS:2||rectangular ring mode:2||GUIDES:2||MICROCAVITY:2||PHOTOLUMINESCENCE:2||epitaxial growth:2||EMBRITTLEMENT:2||Xray imaging:2||BIOCOMPATIBILITY:2||BEHAVIOR:2||MICROWAVEPLASMA:2||LOWPRESSURE:2||DEGRADATION:2||TISSUE:2||LIQUID:2||SOFT LITHOGRAPHY:2||amplified spontaneous emission (ASE):2||SMALL ORGANICMOLECULES:2||PHOTONIC CRYSTAL:2||micropipes:2||radiology:2||ALLOY:2||Xray scattering:2||CRITICALCURRENT DENSITY:2||ELECTRONMICROSCOPY:2||BI(PB)SRCACUO:2||ELECTRONICSTRUCTURE:2||RECONSTRUCTION:2||MG:2||ohmic contact:2||Pd ohmic contact:2||xray scattering:2||INP:2||annealing:2||REGENERATION:2||TITANIUM:2||COLLOIDAL GOLD:2||crystallization:2||BUCKLING MECHANICS:2||LASERS:2||MODES:2||synchrotron imaging:2||lattice distortion:2||AQUEOUSELECTROLYTE:2||MOLECULARDYNAMICS:2||OXIDE:2||MICROANGIOGRAPHY:2||OXIDATION:2||MICRORADIOLOGY:2||TECHNOLOGY:2||GE:2||surface chemistry:2||RECOVERY:2||OHMIC CONTACTS:2||LASERDIODES:2||PTYPE GAN:2||MOTION:2||PHANTOM:2||PHASE:2||CALCIUMPHOSPHATE CERAMICS:2||REPAIR:2||porphyrin:2||AMPLIFIED SPONTANEOUS EMISSION:2||METALELECTRODES:2||PD:2||SUPERCONDUCTING TAPES:2||nucleation:2||COATINGS:2||Xray topography:2||MONOLAYERS:2||SURFACE MODIFICATION:2||LITHOGRAPHY:2||MECHANICAL VENTILATION:1||MICRORIBBONS:1||STIFFNESS:1||DUALPHASE STEEL:1||growth mode:1||strain evolution:1||SI(100):1||ANISOTROPY:1||WET GRANULAR PILE:1||COALESCENCE:1||INSITU POLYMERIZATION:1||GRAPHENE:1||CANCER:1||NODULES:1||RABBITS:1||phasecontrast:1||YTTRIUMOXIDE FILMS:1||BaTiO3/SrTiO3:1||dental implant:1||coincidence site density:1||ERNI2B2C:1||crystallites:1||CoCrPt films:1||tensile strain:1||gallide:1||MGO:1||Baferrite film:1||synchrotron xray scattering:1||ZNO THINFILMS:1||MORPHOLOGY:1||PHASES:1||MICE:1||EBEAM LITHOGRAPHY:1||electrorheological fluids:1||NANOFIBROUS MEMBRANES:1||NANOLITHOGRAPHY:1||refractive index radiology:1||BLOOD:1||colloidal:1||SIZE CONTROL:1||nanoradiology:1||ZnSO4:1||lung injury:1||METAL:1||PM10:1||textured grain:1||MICROSTRUCTURE:1||DIMENSIONS:1||highresolution Xray diffraction:1||low temperature buffer:1||Zinc compounds:1||SI:1||HUMAN LONGEVITY:1||Maximum human lifespan:1||LIMITS:1||MOSFETS:1||in situ XANES:1||nanowires:1||PHOTOIRRADIATION:1||FIBERS:1||WORK:1||EMISSION:1||RADIATION MICROTOMOGRAPHY:1||RAMANSCATTERING:1||gold nanoparticles:1||synchrotron Xray diffraction:1||OPTICAL WAVEGUIDES:1||CONDUCTINGPOLYMER NANOWIRE:1||Lung cancer:1||INTRAVENOUS CORONARYARTERIOGRAPHY:1||SUBLIMATION GROWTH:1||radiography:1||porous SiC:1||GIANT MAGNETORESISTANCE:1||SEMICONDUCTORS:1||Ga diffusion:1||electroless deposition:1||HEMATITE:1||FREEELECTRON LASER:1||MOCVD:1||interfaces:1||white beam:1||imaging technique:1||nucleation layer:1||interface structure:1||epitaxial Baferrite film:1||rf magnetron sputtering:1||MAGNETIC CHARACTERISTICS:1||MIXTURE:1||ACCESS MEMORY APPLICATION:1||COHERENCY STRAIN:1||DENSITY:1||nanofabrication:1||POLY(METHYL METHACRYLATE) MICROSPHERE:1||RESIST:1||unmonochromatic beam:1||MICRORADIOGRAPHY:1||INTERFEROMETER:1||EXPOSURE:1||volume variation electronic:1||PULSEDLASER ABLATION:1||Semiconducting IIVI materials:1||Light emitting diodes:1||phase contrast microscopies:1||lung:1||AUGERELECTRON SPECTROSCOPY:1||passivation:1||additive manufacturing:1||Silicon carbide:1||Synchrotron radiation:1||Synchrotron radiation imaging:1||Dislocations (crystals):1||LUNG INJURY:1||POLYMER SURFACES:1||SINGLE CELLS:1||PREFERRED ORIENTATION:1||sapphire orientation:1||TANTALUM:1||BIASENHANCED NUCLEATION:1||hexaferrite:1||stretched exponential:1||SOLIDSURFACE:1||SHEAR:1||VIDEO MICROSCOPY:1||CARBON NANOTUBES:1||realtime observation:1||Xray synchrotron:1||CARBONMONOXIDE:1||ELECTROCHEMICAL FABRICATION:1||crystal growth:1||computer simulation:1||FERROELECTRICFILMS:1||TITANIUM IMPLANTS:1||BONE INTERFACE:1||EXAFS perpendicular magnetic recording:1||Pd/Ni:1||ELECTRODES:1||internal organ:1||LIGHTEMITTINGDIODES:1||interfacial structure:1||CONSTANT:1||DIELECTRICPROPERTIES:1||AR:1||DEVICES:1||BiSrCaCuO:1||LASER ABLATION:1||MECHANISM:1||SELECTIVE DEPOSITION:1||TARGETED DRUGDELIVERY:1||PEG:1||carbon nanotubes:1||nanocharacterization:1||WALLED CARBON NANOTUBE:1||basal cell carcinoma:1||PARTICULATE AIRPOLLUTION:1||FINE:1||CITIES:1||DOPED ZNO FILMS:1||atherosclerosis:1||drug delivery:1||hard Xray:1||COMBUSTION:1||ARTIFICIAL BATIO3/SRTIO3 SUPERLATTICES:1||surface morphology:1||Direct wafer bonding:1||COLLOIDAL GOLD PARTICLES:1||DELINEATION:1||EXPECTANCY:1||DEMOGRAPHY:1||MRI:1||SIGE:1||Phase contrast microradiography:1||INJURY:1||PASSIVITY:1||VOLUME:1||CONTACTANGLE:1||ARRAYS:1||DUCTILITY:1||sputtering:1||computed microtomography (mu CT):1||unmonochromatized Xray:1||BIPOLARTRANSISTORS:1||longevity:1||Confocal microscopy:1||Colloidal wettability:1||ATOMICFORCE MICROSCOPY:1||storage ring:1||digital subtraction:1||SCATTERING:1||size effect:1||SYNTHETIC QUARTZ:1||liquid metal embrittlement:1||iron ore:1||cube textured Ni substrates:1||SrRuO3 films:1||laser ablations:1||Ti underlayer:1||RANDOMACCESS MEMORIES:1||DOMAIN CONFIGURATIONS:1||MGO(100):1||SPECTROSCOPY:1||XE:1||IONBEAM:1||GRAINBOUNDARY MIGRATION:1||SRTIO3:1||COMPOSITES:1||FOAMS:1||BREASTCANCER SPECIMENS:1||unmonochromatized:1||Xray induced nucleation:1||gold:1||ABSORPTION:1||SEPARATION:1||CZOCHRALSKI GROWTH:1||RETRIEVAL:1||GAMMARADIATION:1||AQUEOUSSOLUTION:1||NANOCOMPOSITES:1||INCREASE:1||without staining procedure:1||XPS:1||Imaging techniques:1||Interfaces (materials):1||Dislocation distributions:1||AZOBENZENE:1||STRUCTURAL EVOLUTION:1||RELAXATION:1||DROP IMPACT:1||NONLINEAR DYNAMICS:1||DISLOCATIONS:1||Colloids:1||TRANSFORMATION:1||METAL INTERCONNECTS:1||ELASTIC CONDUCTORS:1||LOGIC:1||DEFICIENT MICE:1||tomography:1||FACILITY:1||osseointegration:1||ROCKS:1||dental radiography:1||Zn coating:1||RE2O3/Ni:1||YBCO COATED CONDUCTORS:1||threedimensional islands:1||(Ba,Sr)TiO3:1||ultrahigh resolution:1||photoelectron emission:1||Pd:1||LANIO3:1||BASE ELECTRODES:1||iron oxide phase:1||ironoxide interlayer:1||COATED GLASS SUBSTRATE:1||MICROWAVE PLASMA NUCLEATION:1||ENHANCED NUCLEATION:1||phase transformation:1||ADSORPTION:1||phasecontrast xray imaging:1||lung inflammation:1||SI1XGEX SINGLECRYSTALS:1||COCONTINUITY:1||SCALE:1||OBJECT:1||synchrotron microradiography:1||FeSO4:1||INDUCTION:1||BaTiO3 and SrTiO3 thin films:1||HARDXRAYS:1||light emitting diodes:1||ACID:1||MICROSTRUCTURES:1||PHOTOLUMINESCENCE PROPERTIES:1||LASER IRRADIATION:1||Human aging:1||polychromatic synchrotron Xray:1||refraction enhanced imaging:1||CHROMOPHORES:1||ACUTE LUNG INJURY:1||spatial resolution:1||BETAFESI2:1||VLSI:1||SI1XGEX:1||COLLOIDAL SUSPENSIONS:1||ELECTRONICS:1||ENHANCEMENT:1||artificial lattice:1||sinters:1||SILVER:1||STRAIN RELAXATION:1||biaxial texture:1||synchrotron scattering:1||transmission electron microscopy:1||IRONOXIDE FILMS:1||PZT thin film:1||ferroelectric thin film:1||MISFIT RELAXATION MECHANISMS:1||PBTIO3:1||O2:1||CONDUCTING POLYMERS:1||poly(methylmethancrylate):1||microspheres:1||phase contrast Xray microscope:1||AMBIENT AIR:1||ATMOSPHERE:1||XRAY INTERFEROMETER:1||NiAu composite nanoparticles.:1||synchrotron radiation Xrays:1||microtomography:1||OIL FLYASH:1||zinc oxide:1||mammography:1||SrRuO3 film:1||Laser epitaxy:1||HOLE MOBILITY:1||Models of crystal defects:1||RABBIT LUNGS:1||NI/AU CONTACT:1||3D printing:1||Stress relaxation:1||SURFACEAREA:1||IMAGE:1||modulation transfer function (MTF):1||Pb ions:1||Insitu visualization:1||Interfacial tension:1||DISPERSION FORCES:1||SINGLECRYSTALS:1||XRAY SOURCE:1||Synchrotron Xray imaging:1||Realtime imaging:1||MEDICAL APPLICATIONS:1||wiggler bending magnet:1||undulator:1||diffractionenhanced imaging:1||ZnO film:1||CAPACITORS:1||HE3:1||NiP alloy:1||PHOTOCHEMICAL FORMATION:1||extended domain matching:1||cubetextured Ni substrates:1||RAY COMPUTEDTOMOGRAPHY:1||electrode layer:1||DOMAINSTRUCTURE:1||XRAY CT:1||SPECIMEN:1||mammographic phantom:1||Xray absorption spectroscopy:1||BLUE:1||CONTACT:1||(BA:1||synchrotron spectromicroscopy:1||thin film:1||MICROWAVE PLASMA:1||GOLD NANOPARTICLES:1||POLYMERIZATION:1||DISEASE:1||Shanghai:1||MORTALITY:1||HETEROSTRUCTURES:1||METHACRYLATE:1||prostate cancer:1||renal cell carcinoma:1||RATS:1||PULSEDLASER DEPOSITION:1||semiconducting IIVI materials:1||PATTERNS:1||sapphire:1||evaporation:1||ZINCOXIDE:1||LIGHTEMITTING DIODE:1||Synchrotron imaging:1||Dislocations:1||Cracks:1||LIVE:1||spinal cord:1||stainless steel:1||nanophotonics:1||subwavelength waveguides:1||Synchrotrons:1||High dislocation density:1||Misfit stress relaxations:1||Randomly distributed:1||Tripleaxis xray diffractions:1||FLOW:1||CRYSTALLINE ORGANIC NANORODS:1||SHAPE CHANGES:1||ZnO thin film:1||(111)SI:1||XRAY MIRRORS:1||low temperature:1||oxide cathodes:1||heterogeneity:1||Xray microscopy:1||INTERFACIAL TENSIONS:1||single crystal growth:1||CARCINOMA:1||mouse:1||ANIMALS:1||Mndoped ZnO:1||luminescence:1||solution precipitation:1||CLUSTER:1||relaxation:1||ALPHAFE2O3:1||XANES:1||epitaxy:1||LaNiO3 thin film:1||LANIO3 THINFILMS:1||ELECTRODE:1||Fe3O4 sublayer:1||EXAFS microscopy:1||FERRITE FILMS:1||SURFACE PRETREATMENTS:1||superconductors:1||CONTRAST AGENT:1||BIODISTRIBUTION:1||DEATH:1||SYNCHROTRON:1||IR:1||apo Eknockout mouse:1||plaque:1||microradiology:1||ALPHASYNUCLEIN:1||PULMONARY TOXICITY:1||XRAY TOPOGRAPHY:1||dislocation:1||metalorganic chemical vapor deposition:1||CRYSTALGROWTH:1||SELFASSEMBLED MONOLAYERS:1||MEMBRANES:1||MAGNETICANISOTROPY:1||SI1XGEX CRYSTALS:1||STRAINEDSI:1||Extended Weibull model:1||MOLYBDENUM:1||ALLOYS:1||IRON:1||Theoretical modeling:1||Threading dislocation:1||GROWTH:27||THINFILMS:16||SYNCHROTRONRADIATION:15||CONTRAST:11||RADIOLOGY:11||PARTICLES:11||FILMS:11||SILICON:10||RADIATION:10||DEPOSITION:10||RESOLUTION:9||CRYSTALS:8||SILICONCARBIDE:7||XRAYS:7||MAMMOGRAPHY:7||Xray diffraction:7||synchrotron radiation:6||XRAYSCATTERING:6||MODEL:6||microstructure:6||DYNAMICS:5||ELECTRODEPOSITION:5||LAYERS:5||CHEMICALVAPORDEPOSITION:5||TEMPERATURE:5||TOMOGRAPHY:5||COMPUTEDTOMOGRAPHY:5||SAPPHIRE:5||MEDIA:5||NANOWIRES:5||DIFFRACTION:4||TISSUES:4||pulsed laser deposition:4||phase contrast imaging:4||LAYER:4||IMAGES:4||DIODES:4||FIELDEFFECT TRANSISTORS:4||ptype GaN:4||MICROSCOPY:4||REDUCTION:4||POLYMER:4||DEFECTS:3||COHERENCE:3||MICROTOMOGRAPHY:3||NANOPARTICLES:3||synchrotron:3||LIGHT:3||TRANSISTORS:3||SURFACES:3||STRAIN:3||EPITAXIAL LAYERS:3||DRUGDELIVERY:3||REFRACTION:3||growth mechanism:3||METALS:3||MICROPIPES:3||SYSTEM:3||NUCLEATION:3||synchrotron Xray scattering:3||SURFACE:3||SCREW DISLOCATIONS:3||SIMULATION:3||HARD XRAYS:3||ELECTRICALPROPERTIES:3||EPITAXY:3||GAN:3||PM2.5:3||EVAPORATION:3||LIQUIDS:3||INPLANE:3||RAT:3||ANGIOGENESIS:3||CT:3||GaN:3||ZnO:3||NANORODS:3||strain:3||PB(ZR0.53TI0.47)O3:3||CRYSTALLIZATION:3||synchrotron Xrays:2||buffer layer:2||TRANSMISSION ELECTRONMICROSCOPY:2||EPITAXIAL COSI2 FILMS:2||MECHANISMS:2||INSITU GROWTH:2||DEVICE:2||LOCALIZED ELECTROCHEMICAL DEPOSITION:2||X ray diffraction:2||SCHOTTKY CONTACT:2||IRRADIATION:2||aqua regia treatment:2||INVIVO:2||CELLADHESION:2||MORPHOGENETIC PROTEIN2:2||RECEPTOR:2||TEM:2||broadband synchrotron light:2||nanoparticle:2||BUFFER LAYERS:2||TC:2||ENHANCED SYNCHROTRON RADIOLOGY:2||synthesis:2||POLYDIMETHYLSILOXANE:2||MICROCHANNELS:2||PRETREATMENT PROCESS:2||XRAY:2||CHEMOTAXIS:2||MECHANOSENSORY TRANSDUCTION:2||rectangular microtube:2||CONJUGATED POLYMER:2||atomic force microscopy:2||METALLIC OXIDE SRRUO3:2||LASERABLATION:2||STRESS:2||ZONE PLATES:2||FRICTION:2||THERMALSTABILITY:2||Xrays:2||RAY:2||NM:2||ENERGY:2||TOPOGRAPHY:2||synchrotron Xray:2||ACID HYDROGELS:2||CAENORHABDITISELEGANS:2||PROTEIN:2||defects:2||EVOLUTION:2||FABRICATION:2||sharp bending waveguide:2||lasing action:2||BULK CRYSTALS:2||SUPERLATTICES:2||COATED CONDUCTORS:2||SI(111):2||phase contrast:2||CORONARY ANGIOGRAPHY:2||SPECTROMICROSCOPY:2||MEPHISTO:2||OXYGEN:2||OPTICALPROPERTIES:2||RADIOGRAPHY:2||CONTACT DEFORMATIONS:2||MOLECULAR FORCES:2||SOLIDS:2||NTYPE GAN:2||deposition:2||CHEMISTRY:2||DEFORMATION:2||SUBSTRATE:2||HETEROEPITAXY:2||NANOTOPOGRAPHY:2||EPITAXIALGROWTH:2||Xray:2||CHEMICAL VAPORDEPOSITION:2||SILICON STRUCTURES:2||STEMCELLS:2||CHANNEL:2||crystal structure:2||CORONARYANGIOGRAPHY:2||SiC:2||BUFFER LAYER:2||MOLECULARBEAM EPITAXY:2||INTERFACE:2||SIZE:2||ELECTRON:2||XRAY MICROSCOPY:2||MORPHOLOGIES:2||NANOCOLLOIDS:2||FORCE MICROSCOPY:2||ablation:2||polymers:2||(NH4)(2)Sx treatment:2||CLUSTERS:2||BIOMATERIALS:2||CIRCUITS:2||rectangular ring mode:2||GUIDES:2||MICROCAVITY:2||PHOTOLUMINESCENCE:2||epitaxial growth:2||EMBRITTLEMENT:2||Xray imaging:2||BIOCOMPATIBILITY:2||BEHAVIOR:2||MICROWAVEPLASMA:2||LOWPRESSURE:2||DEGRADATION:2||TISSUE:2||LIQUID:2||SOFT LITHOGRAPHY:2||amplified spontaneous emission (ASE):2||SMALL ORGANICMOLECULES:2||PHOTONIC CRYSTAL:2||micropipes:2||radiology:2||ALLOY:2||Xray scattering:2||CRITICALCURRENT DENSITY:2||ELECTRONMICROSCOPY:2||BI(PB)SRCACUO:2||ELECTRONICSTRUCTURE:2||RECONSTRUCTION:2||MG:2||ohmic contact:2||Pd ohmic contact:2||xray scattering:2||INP:2||annealing:2||REGENERATION:2||TITANIUM:2||COLLOIDAL GOLD:2||crystallization:2||BUCKLING MECHANICS:2||LASERS:2||MODES:2||synchrotron imaging:2||lattice distortion:2||AQUEOUSELECTROLYTE:2||MOLECULARDYNAMICS:2||OXIDE:2||MICROANGIOGRAPHY:2||OXIDATION:2||MICRORADIOLOGY:2||TECHNOLOGY:2||GE:2||surface chemistry:2||RECOVERY:2||OHMIC CONTACTS:2||LASERDIODES:2||PTYPE GAN:2||MOTION:2||PHANTOM:2||PHASE:2||CALCIUMPHOSPHATE CERAMICS:2||REPAIR:2||porphyrin:2||AMPLIFIED SPONTANEOUS EMISSION:2||METALELECTRODES:2||PD:2||SUPERCONDUCTING TAPES:2||nucleation:2||COATINGS:2||Xray topography:2||MONOLAYERS:2||SURFACE MODIFICATION:2||LITHOGRAPHY:2||MECHANICAL VENTILATION:1||MICRORIBBONS:1||STIFFNESS:1||DUALPHASE STEEL:1||growth mode:1||strain evolution:1||SI(100):1||ANISOTROPY:1||WET GRANULAR PILE:1||COALESCENCE:1||INSITU POLYMERIZATION:1||GRAPHENE:1||CANCER:1||NODULES:1||RABBITS:1||phasecontrast:1||YTTRIUMOXIDE FILMS:1||BaTiO3/SrTiO3:1||dental implant:1||coincidence site density:1||ERNI2B2C:1||crystallites:1||CoCrPt films:1||tensile strain:1||gallide:1||MGO:1||Baferrite film:1||synchrotron xray scattering:1||ZNO THINFILMS:1||MORPHOLOGY:1||PHASES:1||MICE:1||EBEAM LITHOGRAPHY:1||electrorheological fluids:1||NANOFIBROUS MEMBRANES:1||NANOLITHOGRAPHY:1||refractive index radiology:1||BLOOD:1||colloidal:1||SIZE CONTROL:1||nanoradiology:1||ZnSO4:1||lung injury:1||METAL:1||PM10:1||textured grain:1||MICROSTRUCTURE:1||DIMENSIONS:1||highresolution Xray diffraction:1||low temperature buffer:1||Zinc compounds:1||SI:1||HUMAN LONGEVITY:1||Maximum human lifespan:1||LIMITS:1||MOSFETS:1||in situ XANES:1||nanowires:1||PHOTOIRRADIATION:1||FIBERS:1||WORK:1||EMISSION:1||RADIATION MICROTOMOGRAPHY:1||RAMANSCATTERING:1||gold nanoparticles:1||synchrotron Xray diffraction:1||OPTICAL WAVEGUIDES:1||CONDUCTINGPOLYMER NANOWIRE:1||Lung cancer:1||INTRAVENOUS CORONARYARTERIOGRAPHY:1||SUBLIMATION GROWTH:1||radiography:1||porous SiC:1||GIANT MAGNETORESISTANCE:1||SEMICONDUCTORS:1||Ga diffusion:1||electroless deposition:1||HEMATITE:1||FREEELECTRON LASER:1||MOCVD:1||interfaces:1||white beam:1||imaging technique:1||nucleation layer:1||interface structure:1||epitaxial Baferrite film:1||rf magnetron sputtering:1||MAGNETIC CHARACTERISTICS:1||MIXTURE:1||ACCESS MEMORY APPLICATION:1||COHERENCY STRAIN:1||DENSITY:1||nanofabrication:1||POLY(METHYL METHACRYLATE) MICROSPHERE:1||RESIST:1||unmonochromatic beam:1||MICRORADIOGRAPHY:1||INTERFEROMETER:1||EXPOSURE:1||volume variation electronic:1||PULSEDLASER ABLATION:1||Semiconducting IIVI materials:1||Light emitting diodes:1||phase contrast microscopies:1||lung:1||AUGERELECTRON SPECTROSCOPY:1||passivation:1||additive manufacturing:1||Silicon carbide:1||Synchrotron radiation:1||Synchrotron radiation imaging:1||Dislocations (crystals):1||LUNG INJURY:1||POLYMER SURFACES:1||SINGLE CELLS:1||PREFERRED ORIENTATION:1||sapphire orientation:1||TANTALUM:1||BIASENHANCED NUCLEATION:1||hexaferrite:1||stretched exponential:1||SOLIDSURFACE:1||SHEAR:1||VIDEO MICROSCOPY:1||CARBON NANOTUBES:1||realtime observation:1||Xray synchrotron:1||CARBONMONOXIDE:1||ELECTROCHEMICAL FABRICATION:1||crystal growth:1||computer simulation:1||FERROELECTRICFILMS:1||TITANIUM IMPLANTS:1||BONE INTERFACE:1||EXAFS perpendicular magnetic recording:1||Pd/Ni:1||ELECTRODES:1||internal organ:1||LIGHTEMITTINGDIODES:1||interfacial structure:1||CONSTANT:1||DIELECTRICPROPERTIES:1||AR:1||DEVICES:1||BiSrCaCuO:1||LASER ABLATION:1||MECHANISM:1||SELECTIVE DEPOSITION:1||TARGETED DRUGDELIVERY:1||PEG:1||carbon nanotubes:1||nanocharacterization:1||WALLED CARBON NANOTUBE:1||basal cell carcinoma:1||PARTICULATE AIRPOLLUTION:1||FINE:1||CITIES:1||DOPED ZNO FILMS:1||atherosclerosis:1||drug delivery:1||hard Xray:1||COMBUSTION:1||ARTIFICIAL BATIO3/SRTIO3 SUPERLATTICES:1||surface morphology:1||Direct wafer bonding:1||COLLOIDAL GOLD PARTICLES:1||DELINEATION:1||EXPECTANCY:1||DEMOGRAPHY:1||MRI:1||SIGE:1||Phase contrast microradiography:1||INJURY:1||PASSIVITY:1||VOLUME:1||CONTACTANGLE:1||ARRAYS:1||DUCTILITY:1||sputtering:1||computed microtomography (mu CT):1||unmonochromatized Xray:1||BIPOLARTRANSISTORS:1||longevity:1||Confocal microscopy:1||Colloidal wettability:1||ATOMICFORCE MICROSCOPY:1||storage ring:1||digital subtraction:1||SCATTERING:1||size effect:1||SYNTHETIC QUARTZ:1||liquid metal embrittlement:1||iron ore:1||cube textured Ni substrates:1||SrRuO3 films:1||laser ablations:1||Ti underlayer:1||RANDOMACCESS MEMORIES:1||DOMAIN CONFIGURATIONS:1||MGO(100):1||SPECTROSCOPY:1||XE:1||IONBEAM:1||GRAINBOUNDARY MIGRATION:1||SRTIO3:1||COMPOSITES:1||FOAMS:1||BREASTCANCER SPECIMENS:1||unmonochromatized:1||Xray induced nucleation:1||gold:1||ABSORPTION:1||SEPARATION:1||CZOCHRALSKI GROWTH:1||RETRIEVAL:1||GAMMARADIATION:1||AQUEOUSSOLUTION:1||NANOCOMPOSITES:1||INCREASE:1||without staining procedure:1||XPS:1||Imaging techniques:1||Interfaces (materials):1||Dislocation distributions:1||AZOBENZENE:1||STRUCTURAL EVOLUTION:1||RELAXATION:1||DROP IMPACT:1||NONLINEAR DYNAMICS:1||DISLOCATIONS:1||Colloids:1||TRANSFORMATION:1||METAL INTERCONNECTS:1||ELASTIC CONDUCTORS:1||LOGIC:1||DEFICIENT MICE:1||tomography:1||FACILITY:1||osseointegration:1||ROCKS:1||dental radiography:1||Zn coating:1||RE2O3/Ni:1||YBCO COATED CONDUCTORS:1||threedimensional islands:1||(Ba,Sr)TiO3:1||ultrahigh resolution:1||photoelectron emission:1||Pd:1||LANIO3:1||BASE ELECTRODES:1||iron oxide phase:1||ironoxide interlayer:1||COATED GLASS SUBSTRATE:1||MICROWAVE PLASMA NUCLEATION:1||ENHANCED NUCLEATION:1||phase transformation:1||ADSORPTION:1||phasecontrast xray imaging:1||lung inflammation:1||SI1XGEX SINGLECRYSTALS:1||COCONTINUITY:1||SCALE:1||OBJECT:1||synchrotron microradiography:1||FeSO4:1||INDUCTION:1||BaTiO3 and SrTiO3 thin films:1||HARDXRAYS:1||light emitting diodes:1||ACID:1||MICROSTRUCTURES:1||PHOTOLUMINESCENCE PROPERTIES:1||LASER IRRADIATION:1||Human aging:1||polychromatic synchrotron Xray:1||refraction enhanced imaging:1||CHROMOPHORES:1||ACUTE LUNG INJURY:1||spatial resolution:1||BETAFESI2:1||VLSI:1||SI1XGEX:1||COLLOIDAL SUSPENSIONS:1||ELECTRONICS:1||ENHANCEMENT:1||artificial lattice:1||sinters:1||SILVER:1||STRAIN RELAXATION:1||biaxial texture:1||synchrotron scattering:1||transmission electron microscopy:1||IRONOXIDE FILMS:1||PZT thin film:1||ferroelectric thin film:1||MISFIT RELAXATION MECHANISMS:1||PBTIO3:1||O2:1||CONDUCTING POLYMERS:1||poly(methylmethancrylate):1||microspheres:1||phase contrast Xray microscope:1||AMBIENT AIR:1||ATMOSPHERE:1||XRAY INTERFEROMETER:1||NiAu composite nanoparticles.:1||synchrotron radiation Xrays:1||microtomography:1||OIL FLYASH:1||zinc oxide:1||mammography:1||SrRuO3 film:1||Laser epitaxy:1||HOLE MOBILITY:1||Models of crystal defects:1||RABBIT LUNGS:1||NI/AU CONTACT:1||3D printing:1||Stress relaxation:1||SURFACEAREA:1||IMAGE:1||modulation transfer function (MTF):1||Pb ions:1||Insitu visualization:1||Interfacial tension:1||DISPERSION FORCES:1||SINGLECRYSTALS:1||XRAY SOURCE:1||Synchrotron Xray imaging:1||Realtime imaging:1||MEDICAL APPLICATIONS:1||wiggler bending magnet:1||undulator:1||diffractionenhanced imaging:1||ZnO film:1||CAPACITORS:1||HE3:1||NiP alloy:1||PHOTOCHEMICAL FORMATION:1||extended domain matching:1||cubetextured Ni substrates:1||RAY COMPUTEDTOMOGRAPHY:1||electrode layer:1||DOMAINSTRUCTURE:1||XRAY CT:1||SPECIMEN:1||mammographic phantom:1||Xray absorption spectroscopy:1||BLUE:1||CONTACT:1||(BA:1||synchrotron spectromicroscopy:1||thin film:1||MICROWAVE PLASMA:1||GOLD NANOPARTICLES:1||POLYMERIZATION:1||DISEASE:1||Shanghai:1||MORTALITY:1||HETEROSTRUCTURES:1||METHACRYLATE:1||prostate cancer:1||renal cell carcinoma:1||RATS:1||PULSEDLASER DEPOSITION:1||semiconducting IIVI materials:1||PATTERNS:1||sapphire:1||evaporation:1||ZINCOXIDE:1||LIGHTEMITTING DIODE:1||Synchrotron imaging:1||Dislocations:1||Cracks:1||LIVE:1||spinal cord:1||stainless steel:1||nanophotonics:1||subwavelength waveguides:1||Synchrotrons:1||High dislocation density:1||Misfit stress relaxations:1||Randomly distributed:1||Tripleaxis xray diffractions:1||FLOW:1||CRYSTALLINE ORGANIC NANORODS:1||SHAPE CHANGES:1||ZnO thin film:1||(111)SI:1||XRAY MIRRORS:1||low temperature:1||oxide cathodes:1||heterogeneity:1||Xray microscopy:1||INTERFACIAL TENSIONS:1||single crystal growth:1||CARCINOMA:1||mouse:1||ANIMALS:1||Mndoped ZnO:1||luminescence:1||solution precipitation:1||CLUSTER:1||relaxation:1||ALPHAFE2O3:1||XANES:1||epitaxy:1||LaNiO3 thin film:1||LANIO3 THINFILMS:1||ELECTRODE:1||Fe3O4 sublayer:1||EXAFS microscopy:1||FERRITE FILMS:1||SURFACE PRETREATMENTS:1||superconductors:1||CONTRAST AGENT:1||BIODISTRIBUTION:1||DEATH:1||SYNCHROTRON:1||IR:1||apo Eknockout mouse:1||plaque:1||microradiology:1||ALPHASYNUCLEIN:1||PULMONARY TOXICITY:1||XRAY TOPOGRAPHY:1||dislocation:1||metalorganic chemical vapor deposition:1||CRYSTALGROWTH:1||SELFASSEMBLED MONOLAYERS:1||MEMBRANES:1||MAGNETICANISOTROPY:1||SI1XGEX CRYSTALS:1||STRAINEDSI:1||Extended Weibull model:1||MOLYBDENUM:1||ALLOYS:1||IRON:1||Theoretical modeling:1||Threading dislocation:1||GROWTH:27||THINFILMS:16||SYNCHROTRONRADIATION:15||CONTRAST:11||RADIOLOGY:11||PARTICLES:11||FILMS:11||SILICON:10||RADIATION:10||DEPOSITION:10||RESOLUTION:9||CRYSTALS:8||SILICONCARBIDE:7||XRAYS:7||MAMMOGRAPHY:7||Xray diffraction:7||synchrotron 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ELECTRONMICROSCOPY:2||EPITAXIAL COSI2 FILMS:2||MECHANISMS:2||INSITU GROWTH:2||DEVICE:2||LOCALIZED ELECTROCHEMICAL DEPOSITION:2||X ray diffraction:2||SCHOTTKY CONTACT:2||IRRADIATION:2||aqua regia treatment:2||INVIVO:2||CELLADHESION:2||MORPHOGENETIC PROTEIN2:2||RECEPTOR:2||TEM:2||broadband synchrotron light:2||nanoparticle:2||BUFFER LAYERS:2||TC:2||ENHANCED SYNCHROTRON RADIOLOGY:2||synthesis:2||POLYDIMETHYLSILOXANE:2||MICROCHANNELS:2||PRETREATMENT PROCESS:2||XRAY:2||CHEMOTAXIS:2||MECHANOSENSORY TRANSDUCTION:2||rectangular microtube:2||CONJUGATED POLYMER:2||atomic force microscopy:2||METALLIC OXIDE SRRUO3:2||LASERABLATION:2||STRESS:2||ZONE PLATES:2||FRICTION:2||THERMALSTABILITY:2||Xrays:2||RAY:2||NM:2||ENERGY:2||TOPOGRAPHY:2||synchrotron Xray:2||ACID HYDROGELS:2||CAENORHABDITISELEGANS:2||PROTEIN:2||defects:2||EVOLUTION:2||FABRICATION:2||sharp bending waveguide:2||lasing action:2||BULK CRYSTALS:2||SUPERLATTICES:2||COATED CONDUCTORS:2||SI(111):2||phase contrast:2||CORONARY ANGIOGRAPHY:2||SPECTROMICROSCOPY:2||MEPHISTO:2||OXYGEN:2||OPTICALPROPERTIES:2||RADIOGRAPHY:2||CONTACT DEFORMATIONS:2||MOLECULAR FORCES:2||SOLIDS:2||NTYPE GAN:2||deposition:2||CHEMISTRY:2||DEFORMATION:2||SUBSTRATE:2||HETEROEPITAXY:2||NANOTOPOGRAPHY:2||EPITAXIALGROWTH:2||Xray:2||CHEMICAL VAPORDEPOSITION:2||SILICON STRUCTURES:2||STEMCELLS:2||CHANNEL:2||crystal structure:2||CORONARYANGIOGRAPHY:2||SiC:2||BUFFER LAYER:2||MOLECULARBEAM EPITAXY:2||INTERFACE:2||SIZE:2||ELECTRON:2||XRAY MICROSCOPY:2||MORPHOLOGIES:2||NANOCOLLOIDS:2||FORCE MICROSCOPY:2||ablation:2||polymers:2||(NH4)(2)Sx treatment:2||CLUSTERS:2||BIOMATERIALS:2||CIRCUITS:2||rectangular ring mode:2||GUIDES:2||MICROCAVITY:2||PHOTOLUMINESCENCE:2||epitaxial growth:2||EMBRITTLEMENT:2||Xray imaging:2||BIOCOMPATIBILITY:2||BEHAVIOR:2||MICROWAVEPLASMA:2||LOWPRESSURE:2||DEGRADATION:2||TISSUE:2||LIQUID:2||SOFT LITHOGRAPHY:2||amplified spontaneous emission (ASE):2||SMALL ORGANICMOLECULES:2||PHOTONIC 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evolution:1||SI(100):1||ANISOTROPY:1||WET GRANULAR PILE:1||COALESCENCE:1||INSITU POLYMERIZATION:1||GRAPHENE:1||CANCER:1||NODULES:1||RABBITS:1||phasecontrast:1||YTTRIUMOXIDE FILMS:1||BaTiO3/SrTiO3:1||dental implant:1||coincidence site density:1||ERNI2B2C:1||crystallites:1||CoCrPt films:1||tensile strain:1||gallide:1||MGO:1||Baferrite film:1||synchrotron xray scattering:1||ZNO THINFILMS:1||MORPHOLOGY:1||PHASES:1||MICE:1||EBEAM LITHOGRAPHY:1||electrorheological fluids:1||NANOFIBROUS MEMBRANES:1||NANOLITHOGRAPHY:1||refractive index radiology:1||BLOOD:1||colloidal:1||SIZE CONTROL:1||nanoradiology:1||ZnSO4:1||lung injury:1||METAL:1||PM10:1||textured grain:1||MICROSTRUCTURE:1||DIMENSIONS:1||highresolution Xray diffraction:1||low temperature buffer:1||Zinc compounds:1||SI:1||HUMAN LONGEVITY:1||Maximum human lifespan:1||LIMITS:1||MOSFETS:1||in situ XANES:1||nanowires:1||PHOTOIRRADIATION:1||FIBERS:1||WORK:1||EMISSION:1||RADIATION MICROTOMOGRAPHY:1||RAMANSCATTERING:1||gold 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radiation:1||Synchrotron radiation imaging:1||Dislocations (crystals):1||LUNG INJURY:1||POLYMER SURFACES:1||SINGLE CELLS:1||PREFERRED ORIENTATION:1||sapphire orientation:1||TANTALUM:1||BIASENHANCED NUCLEATION:1||hexaferrite:1||stretched exponential:1||SOLIDSURFACE:1||SHEAR:1||VIDEO MICROSCOPY:1||CARBON NANOTUBES:1||realtime observation:1||Xray synchrotron:1||CARBONMONOXIDE:1||ELECTROCHEMICAL FABRICATION:1||crystal growth:1||computer simulation:1||FERROELECTRICFILMS:1||TITANIUM IMPLANTS:1||BONE INTERFACE:1||EXAFS perpendicular magnetic recording:1||Pd/Ni:1||ELECTRODES:1||internal organ:1||LIGHTEMITTINGDIODES:1||interfacial structure:1||CONSTANT:1||DIELECTRICPROPERTIES:1||AR:1||DEVICES:1||BiSrCaCuO:1||LASER ABLATION:1||MECHANISM:1||SELECTIVE DEPOSITION:1||TARGETED DRUGDELIVERY:1||PEG:1||carbon nanotubes:1||nanocharacterization:1||WALLED CARBON NANOTUBE:1||basal cell carcinoma:1||PARTICULATE AIRPOLLUTION:1||FINE:1||CITIES:1||DOPED ZNO FILMS:1||atherosclerosis:1||drug delivery:1||hard Xray:1||COMBUSTION:1||ARTIFICIAL BATIO3/SRTIO3 SUPERLATTICES:1||surface morphology:1||Direct wafer bonding:1||COLLOIDAL GOLD PARTICLES:1||DELINEATION:1||EXPECTANCY:1||DEMOGRAPHY:1||MRI:1||SIGE:1||Phase contrast microradiography:1||INJURY:1||PASSIVITY:1||VOLUME:1||CONTACTANGLE:1||ARRAYS:1||DUCTILITY:1||sputtering:1||computed microtomography (mu CT):1||unmonochromatized Xray:1||BIPOLARTRANSISTORS:1||longevity:1||Confocal microscopy:1||Colloidal wettability:1||ATOMICFORCE MICROSCOPY:1||storage ring:1||digital subtraction:1||SCATTERING:1||size effect:1||SYNTHETIC QUARTZ:1||liquid metal embrittlement:1||iron ore:1||cube textured Ni substrates:1||SrRuO3 films:1||laser ablations:1||Ti underlayer:1||RANDOMACCESS MEMORIES:1||DOMAIN CONFIGURATIONS:1||MGO(100):1||SPECTROSCOPY:1||XE:1||IONBEAM:1||GRAINBOUNDARY MIGRATION:1||SRTIO3:1||COMPOSITES:1||FOAMS:1||BREASTCANCER SPECIMENS:1||unmonochromatized:1||Xray induced nucleation:1||gold:1||ABSORPTION:1||SEPARATION:1||CZOCHRALSKI GROWTH:1||RETRIEVAL:1||GAMMARADIATION:1||AQUEOUSSOLUTION:1||NANOCOMPOSITES:1||INCREASE:1||without staining procedure:1||XPS:1||Imaging techniques:1||Interfaces (materials):1||Dislocation distributions:1||AZOBENZENE:1||STRUCTURAL EVOLUTION:1||RELAXATION:1||DROP IMPACT:1||NONLINEAR DYNAMICS:1||DISLOCATIONS:1||Colloids:1||TRANSFORMATION:1||METAL INTERCONNECTS:1||ELASTIC CONDUCTORS:1||LOGIC:1||DEFICIENT MICE:1||tomography:1||FACILITY:1||osseointegration:1||ROCKS:1||dental radiography:1||Zn coating:1||RE2O3/Ni:1||YBCO COATED CONDUCTORS:1||threedimensional islands:1||(Ba,Sr)TiO3:1||ultrahigh resolution:1||photoelectron emission:1||Pd:1||LANIO3:1||BASE ELECTRODES:1||iron oxide phase:1||ironoxide interlayer:1||COATED GLASS SUBSTRATE:1||MICROWAVE PLASMA NUCLEATION:1||ENHANCED NUCLEATION:1||phase transformation:1||ADSORPTION:1||phasecontrast xray imaging:1||lung inflammation:1||SI1XGEX SINGLECRYSTALS:1||COCONTINUITY:1||SCALE:1||OBJECT:1||synchrotron microradiography:1||FeSO4:1||INDUCTION:1||BaTiO3 and SrTiO3 thin films:1||HARDXRAYS:1||light emitting diodes:1||ACID:1||MICROSTRUCTURES:1||PHOTOLUMINESCENCE PROPERTIES:1||LASER IRRADIATION:1||Human aging:1||polychromatic synchrotron Xray:1||refraction enhanced imaging:1||CHROMOPHORES:1||ACUTE LUNG INJURY:1||spatial resolution:1||BETAFESI2:1||VLSI:1||SI1XGEX:1||COLLOIDAL SUSPENSIONS:1||ELECTRONICS:1||ENHANCEMENT:1||artificial lattice:1||sinters:1||SILVER:1||STRAIN RELAXATION:1||biaxial texture:1||synchrotron scattering:1||transmission electron microscopy:1||IRONOXIDE FILMS:1||PZT thin film:1||ferroelectric thin film:1||MISFIT RELAXATION MECHANISMS:1||PBTIO3:1||O2:1||CONDUCTING POLYMERS:1||poly(methylmethancrylate):1||microspheres:1||phase contrast Xray microscope:1||AMBIENT AIR:1||ATMOSPHERE:1||XRAY INTERFEROMETER:1||NiAu composite nanoparticles.:1||synchrotron radiation Xrays:1||microtomography:1||OIL FLYASH:1||zinc oxide:1||mammography:1||SrRuO3 film:1||Laser epitaxy:1||HOLE MOBILITY:1||Models of crystal defects:1||RABBIT LUNGS:1||NI/AU CONTACT:1||3D printing:1||Stress relaxation:1||SURFACEAREA:1||IMAGE:1||modulation transfer function (MTF):1||Pb ions:1||Insitu visualization:1||Interfacial tension:1||DISPERSION FORCES:1||SINGLECRYSTALS:1||XRAY SOURCE:1||Synchrotron Xray imaging:1||Realtime imaging:1||MEDICAL APPLICATIONS:1||wiggler bending magnet:1||undulator:1||diffractionenhanced imaging:1||ZnO film:1||CAPACITORS:1||HE3:1||NiP alloy:1||PHOTOCHEMICAL FORMATION:1||extended domain matching:1||cubetextured Ni substrates:1||RAY COMPUTEDTOMOGRAPHY:1||electrode layer:1||DOMAINSTRUCTURE:1||XRAY CT:1||SPECIMEN:1||mammographic phantom:1||Xray absorption spectroscopy:1||BLUE:1||CONTACT:1||(BA:1||synchrotron spectromicroscopy:1||thin film:1||MICROWAVE PLASMA:1||GOLD NANOPARTICLES:1||POLYMERIZATION:1||DISEASE:1||Shanghai:1||MORTALITY:1||HETEROSTRUCTURES:1||METHACRYLATE:1||prostate cancer:1||renal cell carcinoma:1||RATS:1||PULSEDLASER DEPOSITION:1||semiconducting IIVI materials:1||PATTERNS:1||sapphire:1||evaporation:1||ZINCOXIDE:1||LIGHTEMITTING DIODE:1||Synchrotron imaging:1||Dislocations:1||Cracks:1||LIVE:1||spinal cord:1||stainless steel:1||nanophotonics:1||subwavelength waveguides:1||Synchrotrons:1||High dislocation density:1||Misfit stress relaxations:1||Randomly distributed:1||Tripleaxis xray diffractions:1||FLOW:1||CRYSTALLINE ORGANIC NANORODS:1||SHAPE CHANGES:1||ZnO thin film:1||(111)SI:1||XRAY MIRRORS:1||low temperature:1||oxide cathodes:1||heterogeneity:1||Xray microscopy:1||INTERFACIAL TENSIONS:1||single crystal growth:1||CARCINOMA:1||mouse:1||ANIMALS:1||Mndoped ZnO:1||luminescence:1||solution precipitation:1||CLUSTER:1||relaxation:1||ALPHAFE2O3:1||XANES:1||epitaxy:1||LaNiO3 thin film:1||LANIO3 THINFILMS:1||ELECTRODE:1||Fe3O4 sublayer:1||EXAFS microscopy:1||FERRITE FILMS:1||SURFACE PRETREATMENTS:1||superconductors:1||CONTRAST AGENT:1||BIODISTRIBUTION:1||DEATH:1||SYNCHROTRON:1||IR:1||apo Eknockout mouse:1||plaque:1||microradiology:1||ALPHASYNUCLEIN:1||PULMONARY TOXICITY:1||XRAY TOPOGRAPHY:1||dislocation:1||metalorganic chemical vapor deposition:1||CRYSTALGROWTH:1||SELFASSEMBLED MONOLAYERS:1||MEMBRANES:1||MAGNETICANISOTROPY:1||SI1XGEX CRYSTALS:1||STRAINEDSI:1||Extended Weibull model:1||MOLYBDENUM:1||ALLOYS:1||IRON:1||Theoretical modeling:1||Threading dislocation:1||GROWTH:27||THINFILMS:16||SYNCHROTRONRADIATION:15||CONTRAST:11||RADIOLOGY:11||PARTICLES:11||FILMS:11||SILICON:10||RADIATION:10||DEPOSITION:10||RESOLUTION:9||CRYSTALS:8||SILICONCARBIDE:7||XRAYS:7||MAMMOGRAPHY:7||Xray diffraction:7||synchrotron radiation:6||XRAYSCATTERING:6||MODEL:6||microstructure:6||DYNAMICS:5||ELECTRODEPOSITION:5||LAYERS:5||CHEMICALVAPORDEPOSITION:5||TEMPERATURE:5||TOMOGRAPHY:5||COMPUTEDTOMOGRAPHY:5||SAPPHIRE:5||MEDIA:5||NANOWIRES:5||DIFFRACTION:4||TISSUES:4||pulsed laser deposition:4||phase contrast imaging:4||LAYER:4||IMAGES:4||DIODES:4||FIELDEFFECT TRANSISTORS:4||ptype GaN:4||MICROSCOPY:4||REDUCTION:4||POLYMER:4||DEFECTS:3||COHERENCE:3||MICROTOMOGRAPHY:3||NANOPARTICLES:3||synchrotron:3||LIGHT:3||TRANSISTORS:3||SURFACES:3||STRAIN:3||EPITAXIAL LAYERS:3||DRUGDELIVERY:3||REFRACTION:3||growth mechanism:3||METALS:3||MICROPIPES:3||SYSTEM:3||NUCLEATION:3||synchrotron Xray scattering:3||SURFACE:3||SCREW DISLOCATIONS:3||SIMULATION:3||HARD XRAYS:3||ELECTRICALPROPERTIES:3||EPITAXY:3||GAN:3||PM2.5:3||EVAPORATION:3||LIQUIDS:3||INPLANE:3||RAT:3||ANGIOGENESIS:3||CT:3||GaN:3||ZnO:3||NANORODS:3||strain:3||PB(ZR0.53TI0.47)O3:3||CRYSTALLIZATION:3||synchrotron Xrays:2||buffer layer:2||TRANSMISSION ELECTRONMICROSCOPY:2||EPITAXIAL COSI2 FILMS:2||MECHANISMS:2||INSITU GROWTH:2||DEVICE:2||LOCALIZED ELECTROCHEMICAL DEPOSITION:2||X ray diffraction:2||SCHOTTKY CONTACT:2||IRRADIATION:2||aqua regia treatment:2||INVIVO:2||CELLADHESION:2||MORPHOGENETIC PROTEIN2:2||RECEPTOR:2||TEM:2||broadband synchrotron light:2||nanoparticle:2||BUFFER LAYERS:2||TC:2||ENHANCED SYNCHROTRON RADIOLOGY:2||synthesis:2||POLYDIMETHYLSILOXANE:2||MICROCHANNELS:2||PRETREATMENT PROCESS:2||XRAY:2||CHEMOTAXIS:2||MECHANOSENSORY TRANSDUCTION:2||rectangular microtube:2||CONJUGATED POLYMER:2||atomic force microscopy:2||METALLIC OXIDE SRRUO3:2||LASERABLATION:2||STRESS:2||ZONE PLATES:2||FRICTION:2||THERMALSTABILITY:2||Xrays:2||RAY:2||NM:2||ENERGY:2||TOPOGRAPHY:2||synchrotron Xray:2||ACID HYDROGELS:2||CAENORHABDITISELEGANS:2||PROTEIN:2||defects:2||EVOLUTION:2||FABRICATION:2||sharp bending waveguide:2||lasing action:2||BULK CRYSTALS:2||SUPERLATTICES:2||COATED CONDUCTORS:2||SI(111):2||phase contrast:2||CORONARY ANGIOGRAPHY:2||SPECTROMICROSCOPY:2||MEPHISTO:2||OXYGEN:2||OPTICALPROPERTIES:2||RADIOGRAPHY:2||CONTACT DEFORMATIONS:2||MOLECULAR FORCES:2||SOLIDS:2||NTYPE GAN:2||deposition:2||CHEMISTRY:2||DEFORMATION:2||SUBSTRATE:2||HETEROEPITAXY:2||NANOTOPOGRAPHY:2||EPITAXIALGROWTH:2||Xray:2||CHEMICAL VAPORDEPOSITION:2||SILICON STRUCTURES:2||STEMCELLS:2||CHANNEL:2||crystal structure:2||CORONARYANGIOGRAPHY:2||SiC:2||BUFFER LAYER:2||MOLECULARBEAM EPITAXY:2||INTERFACE:2||SIZE:2||ELECTRON:2||XRAY MICROSCOPY:2||MORPHOLOGIES:2||NANOCOLLOIDS:2||FORCE MICROSCOPY:2||ablation:2||polymers:2||(NH4)(2)Sx treatment:2||CLUSTERS:2||BIOMATERIALS:2||CIRCUITS:2||rectangular ring mode:2||GUIDES:2||MICROCAVITY:2||PHOTOLUMINESCENCE:2||epitaxial growth:2||EMBRITTLEMENT:2||Xray imaging:2||BIOCOMPATIBILITY:2||BEHAVIOR:2||MICROWAVEPLASMA:2||LOWPRESSURE:2||DEGRADATION:2||TISSUE:2||LIQUID:2||SOFT LITHOGRAPHY:2||amplified spontaneous emission (ASE):2||SMALL ORGANICMOLECULES:2||PHOTONIC CRYSTAL:2||micropipes:2||radiology:2||ALLOY:2||Xray scattering:2||CRITICALCURRENT DENSITY:2||ELECTRONMICROSCOPY:2||BI(PB)SRCACUO:2||ELECTRONICSTRUCTURE:2||RECONSTRUCTION:2||MG:2||ohmic contact:2||Pd ohmic contact:2||xray scattering:2||INP:2||annealing:2||REGENERATION:2||TITANIUM:2||COLLOIDAL GOLD:2||crystallization:2||BUCKLING MECHANICS:2||LASERS:2||MODES:2||synchrotron imaging:2||lattice distortion:2||AQUEOUSELECTROLYTE:2||MOLECULARDYNAMICS:2||OXIDE:2||MICROANGIOGRAPHY:2||OXIDATION:2||MICRORADIOLOGY:2||TECHNOLOGY:2||GE:2||surface chemistry:2||RECOVERY:2||OHMIC CONTACTS:2||LASERDIODES:2||PTYPE GAN:2||MOTION:2||PHANTOM:2||PHASE:2||CALCIUMPHOSPHATE CERAMICS:2||REPAIR:2||porphyrin:2||AMPLIFIED SPONTANEOUS EMISSION:2||METALELECTRODES:2||PD:2||SUPERCONDUCTING TAPES:2||nucleation:2||COATINGS:2||Xray topography:2||MONOLAYERS:2||SURFACE MODIFICATION:2||LITHOGRAPHY:2||MECHANICAL VENTILATION:1||MICRORIBBONS:1||STIFFNESS:1||DUALPHASE STEEL:1||growth mode:1||strain evolution:1||SI(100):1||ANISOTROPY:1||WET GRANULAR PILE:1||COALESCENCE:1||INSITU POLYMERIZATION:1||GRAPHENE:1||CANCER:1||NODULES:1||RABBITS:1||phasecontrast:1||YTTRIUMOXIDE FILMS:1||BaTiO3/SrTiO3:1||dental implant:1||coincidence site density:1||ERNI2B2C:1||crystallites:1||CoCrPt films:1||tensile strain:1||gallide:1||MGO:1||Baferrite film:1||synchrotron xray scattering:1||ZNO THINFILMS:1||MORPHOLOGY:1||PHASES:1||MICE:1||EBEAM LITHOGRAPHY:1||electrorheological fluids:1||NANOFIBROUS MEMBRANES:1||NANOLITHOGRAPHY:1||refractive index radiology:1||BLOOD:1||colloidal:1||SIZE CONTROL:1||nanoradiology:1||ZnSO4:1||lung injury:1||METAL:1||PM10:1||textured grain:1||MICROSTRUCTURE:1||DIMENSIONS:1||highresolution Xray diffraction:1||low temperature buffer:1||Zinc compounds:1||SI:1||HUMAN LONGEVITY:1||Maximum human lifespan:1||LIMITS:1||MOSFETS:1||in situ XANES:1||nanowires:1||PHOTOIRRADIATION:1||FIBERS:1||WORK:1||EMISSION:1||RADIATION MICROTOMOGRAPHY:1||RAMANSCATTERING:1||gold nanoparticles:1||synchrotron Xray diffraction:1||OPTICAL WAVEGUIDES:1||CONDUCTINGPOLYMER NANOWIRE:1||Lung cancer:1||INTRAVENOUS CORONARYARTERIOGRAPHY:1||SUBLIMATION GROWTH:1||radiography:1||porous SiC:1||GIANT MAGNETORESISTANCE:1||SEMICONDUCTORS:1||Ga diffusion:1||electroless deposition:1||HEMATITE:1||FREEELECTRON LASER:1||MOCVD:1||interfaces:1||white beam:1||imaging technique:1||nucleation layer:1||interface structure:1||epitaxial Baferrite film:1||rf magnetron sputtering:1||MAGNETIC CHARACTERISTICS:1||MIXTURE:1||ACCESS MEMORY APPLICATION:1||COHERENCY STRAIN:1||DENSITY:1||nanofabrication:1||POLY(METHYL METHACRYLATE) MICROSPHERE:1||RESIST:1||unmonochromatic beam:1||MICRORADIOGRAPHY:1||INTERFEROMETER:1||EXPOSURE:1||volume variation electronic:1||PULSEDLASER ABLATION:1||Semiconducting IIVI materials:1||Light emitting diodes:1||phase contrast microscopies:1||lung:1||AUGERELECTRON SPECTROSCOPY:1||passivation:1||additive manufacturing:1||Silicon carbide:1||Synchrotron radiation:1||Synchrotron radiation imaging:1||Dislocations (crystals):1||LUNG INJURY:1||POLYMER SURFACES:1||SINGLE CELLS:1||PREFERRED ORIENTATION:1||sapphire orientation:1||TANTALUM:1||BIASENHANCED NUCLEATION:1||hexaferrite:1||stretched exponential:1||SOLIDSURFACE:1||SHEAR:1||VIDEO MICROSCOPY:1||CARBON NANOTUBES:1||realtime observation:1||Xray synchrotron:1||CARBONMONOXIDE:1||ELECTROCHEMICAL FABRICATION:1||crystal growth:1||computer simulation:1||FERROELECTRICFILMS:1||TITANIUM IMPLANTS:1||BONE INTERFACE:1||EXAFS perpendicular magnetic recording:1||Pd/Ni:1||ELECTRODES:1||internal organ:1||LIGHTEMITTINGDIODES:1||interfacial structure:1||CONSTANT:1||DIELECTRICPROPERTIES:1||AR:1||DEVICES:1||BiSrCaCuO:1||LASER ABLATION:1||MECHANISM:1||SELECTIVE DEPOSITION:1||TARGETED DRUGDELIVERY:1||PEG:1||carbon nanotubes:1||nanocharacterization:1||WALLED CARBON NANOTUBE:1||basal cell carcinoma:1||PARTICULATE AIRPOLLUTION:1||FINE:1||CITIES:1||DOPED ZNO FILMS:1||atherosclerosis:1||drug delivery:1||hard Xray:1||COMBUSTION:1||ARTIFICIAL BATIO3/SRTIO3 SUPERLATTICES:1||surface morphology:1||Direct wafer bonding:1||COLLOIDAL GOLD PARTICLES:1||DELINEATION:1||EXPECTANCY:1||DEMOGRAPHY:1||MRI:1||SIGE:1||Phase contrast microradiography:1||INJURY:1||PASSIVITY:1||VOLUME:1||CONTACTANGLE:1||ARRAYS:1||DUCTILITY:1||sputtering:1||computed microtomography (mu CT):1||unmonochromatized Xray:1||BIPOLARTRANSISTORS:1||longevity:1||Confocal microscopy:1||Colloidal wettability:1||ATOMICFORCE MICROSCOPY:1||storage ring:1||digital subtraction:1||SCATTERING:1||size effect:1||SYNTHETIC QUARTZ:1||liquid metal embrittlement:1||iron ore:1||cube textured Ni substrates:1||SrRuO3 films:1||laser ablations:1||Ti underlayer:1||RANDOMACCESS MEMORIES:1||DOMAIN CONFIGURATIONS:1||MGO(100):1||SPECTROSCOPY:1||XE:1||IONBEAM:1||GRAINBOUNDARY MIGRATION:1||SRTIO3:1||COMPOSITES:1||FOAMS:1||BREASTCANCER SPECIMENS:1||unmonochromatized:1||Xray induced nucleation:1||gold:1||ABSORPTION:1||SEPARATION:1||CZOCHRALSKI GROWTH:1||RETRIEVAL:1||GAMMARADIATION:1||AQUEOUSSOLUTION:1||NANOCOMPOSITES:1||INCREASE:1||without staining procedure:1||XPS:1||Imaging techniques:1||Interfaces (materials):1||Dislocation distributions:1||AZOBENZENE:1||STRUCTURAL EVOLUTION:1||RELAXATION:1||DROP IMPACT:1||NONLINEAR DYNAMICS:1||DISLOCATIONS:1||Colloids:1||TRANSFORMATION:1||METAL INTERCONNECTS:1||ELASTIC CONDUCTORS:1||LOGIC:1||DEFICIENT MICE:1||tomography:1||FACILITY:1||osseointegration:1||ROCKS:1||dental radiography:1||Zn coating:1||RE2O3/Ni:1||YBCO COATED CONDUCTORS:1||threedimensional islands:1||(Ba,Sr)TiO3:1||ultrahigh resolution:1||photoelectron emission:1||Pd:1||LANIO3:1||BASE ELECTRODES:1||iron oxide phase:1||ironoxide interlayer:1||COATED GLASS SUBSTRATE:1||MICROWAVE PLASMA NUCLEATION:1||ENHANCED NUCLEATION:1||phase transformation:1||ADSORPTION:1||phasecontrast xray imaging:1||lung inflammation:1||SI1XGEX SINGLECRYSTALS:1||COCONTINUITY:1||SCALE:1||OBJECT:1||synchrotron microradiography:1||FeSO4:1||INDUCTION:1||BaTiO3 and SrTiO3 thin films:1||HARDXRAYS:1||light emitting diodes:1||ACID:1||MICROSTRUCTURES:1||PHOTOLUMINESCENCE PROPERTIES:1||LASER IRRADIATION:1||Human aging:1||polychromatic synchrotron Xray:1||refraction enhanced imaging:1||CHROMOPHORES:1||ACUTE LUNG INJURY:1||spatial resolution:1||BETAFESI2:1||VLSI:1||SI1XGEX:1||COLLOIDAL SUSPENSIONS:1||ELECTRONICS:1||ENHANCEMENT:1||artificial lattice:1||sinters:1||SILVER:1||STRAIN RELAXATION:1||biaxial texture:1||synchrotron scattering:1||transmission electron microscopy:1||IRONOXIDE FILMS:1||PZT thin film:1||ferroelectric thin film:1||MISFIT RELAXATION MECHANISMS:1||PBTIO3:1||O2:1||CONDUCTING POLYMERS:1||poly(methylmethancrylate):1||microspheres:1||phase contrast Xray microscope:1||AMBIENT AIR:1||ATMOSPHERE:1||XRAY INTERFEROMETER:1||NiAu composite nanoparticles.:1||synchrotron radiation Xrays:1||microtomography:1||OIL FLYASH:1||zinc oxide:1||mammography:1||SrRuO3 film:1||Laser epitaxy:1||HOLE MOBILITY:1||Models of crystal defects:1||RABBIT LUNGS:1||NI/AU CONTACT:1||3D printing:1||Stress relaxation:1||SURFACEAREA:1||IMAGE:1||modulation transfer function (MTF):1||Pb ions:1||Insitu visualization:1||Interfacial tension:1||DISPERSION FORCES:1||SINGLECRYSTALS:1||XRAY SOURCE:1||Synchrotron Xray imaging:1||Realtime imaging:1||MEDICAL APPLICATIONS:1||wiggler bending magnet:1||undulator:1||diffractionenhanced imaging:1||ZnO film:1||CAPACITORS:1||HE3:1||NiP alloy:1||PHOTOCHEMICAL FORMATION:1||extended domain matching:1||cubetextured Ni substrates:1||RAY COMPUTEDTOMOGRAPHY:1||electrode layer:1||DOMAINSTRUCTURE:1||XRAY CT:1||SPECIMEN:1||mammographic phantom:1||Xray absorption spectroscopy:1||BLUE:1||CONTACT:1||(BA:1||synchrotron spectromicroscopy:1||thin film:1||MICROWAVE PLASMA:1||GOLD NANOPARTICLES:1||POLYMERIZATION:1||DISEASE:1||Shanghai:1||MORTALITY:1||HETEROSTRUCTURES:1||METHACRYLATE:1||prostate cancer:1||renal cell carcinoma:1||RATS:1||PULSEDLASER DEPOSITION:1||semiconducting IIVI materials:1||PATTERNS:1||sapphire:1||evaporation:1||ZINCOXIDE:1||LIGHTEMITTING DIODE:1||Synchrotron imaging:1||Dislocations:1||Cracks:1||LIVE:1||spinal cord:1||stainless steel:1||nanophotonics:1||subwavelength waveguides:1||Synchrotrons:1||High dislocation density:1||Misfit stress relaxations:1||Randomly distributed:1||Tripleaxis xray diffractions:1||FLOW:1||CRYSTALLINE ORGANIC NANORODS:1||SHAPE CHANGES:1||ZnO thin film:1||(111)SI:1||XRAY MIRRORS:1||low temperature:1||oxide cathodes:1||heterogeneity:1||Xray microscopy:1||INTERFACIAL TENSIONS:1||single crystal growth:1||CARCINOMA:1||mouse:1||ANIMALS:1||Mndoped ZnO:1||luminescence:1||solution precipitation:1||CLUSTER:1||relaxation:1||ALPHAFE2O3:1||XANES:1||epitaxy:1||LaNiO3 thin film:1||LANIO3 THINFILMS:1||ELECTRODE:1||Fe3O4 sublayer:1||EXAFS microscopy:1||FERRITE FILMS:1||SURFACE PRETREATMENTS:1||superconductors:1||CONTRAST AGENT:1||BIODISTRIBUTION:1||DEATH:1||SYNCHROTRON:1||IR:1||apo Eknockout mouse:1||plaque:1||microradiology:1||ALPHASYNUCLEIN:1||PULMONARY TOXICITY:1||XRAY TOPOGRAPHY:1||dislocation:1||metalorganic chemical vapor deposition:1||CRYSTALGROWTH:1||SELFASSEMBLED MONOLAYERS:1||MEMBRANES:1||MAGNETICANISOTROPY:1||SI1XGEX CRYSTALS:1||STRAINEDSI:1||Extended Weibull model:1||MOLYBDENUM:1||ALLOYS:1||IRON:1||Theoretical modeling:1||Threading dislocation:1||GROWTH:27||THINFILMS:16||SYNCHROTRONRADIATION:15||CONTRAST:11||RADIOLOGY:11||PARTICLES:11||FILMS:11||SILICON:10||RADIATION:10||DEPOSITION:10||RESOLUTION:9||CRYSTALS:8||SILICONCARBIDE:7||XRAYS:7||MAMMOGRAPHY:7||Xray diffraction:7||synchrotron radiation:6||XRAYSCATTERING:6||MODEL:6||microstructure:6||DYNAMICS:5||ELECTRODEPOSITION:5||LAYERS:5||CHEMICALVAPORDEPOSITION:5||TEMPERATURE:5||TOMOGRAPHY:5||COMPUTEDTOMOGRAPHY:5||SAPPHIRE:5||MEDIA:5||NANOWIRES:5||DIFFRACTION:4||TISSUES:4||pulsed laser deposition:4||phase contrast imaging:4||LAYER:4||IMAGES:4||DIODES:4||FIELDEFFECT TRANSISTORS:4||ptype GaN:4||MICROSCOPY:4||REDUCTION:4||POLYMER:4||DEFECTS:3||COHERENCE:3||MICROTOMOGRAPHY:3||NANOPARTICLES:3||synchrotron:3||LIGHT:3||TRANSISTORS:3||SURFACES:3||STRAIN:3||EPITAXIAL LAYERS:3||DRUGDELIVERY:3||REFRACTION:3||growth mechanism:3||METALS:3||MICROPIPES:3||SYSTEM:3||NUCLEATION:3||synchrotron Xray scattering:3||SURFACE:3||SCREW DISLOCATIONS:3||SIMULATION:3||HARD 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imaging:2||BIOCOMPATIBILITY:2||BEHAVIOR:2||MICROWAVEPLASMA:2||LOWPRESSURE:2||DEGRADATION:2||TISSUE:2||LIQUID:2||SOFT LITHOGRAPHY:2||amplified spontaneous emission (ASE):2||SMALL ORGANICMOLECULES:2||PHOTONIC CRYSTAL:2||micropipes:2||radiology:2||ALLOY:2||Xray scattering:2||CRITICALCURRENT DENSITY:2||ELECTRONMICROSCOPY:2||BI(PB)SRCACUO:2||ELECTRONICSTRUCTURE:2||RECONSTRUCTION:2||MG:2||ohmic contact:2||Pd ohmic contact:2||xray scattering:2||INP:2||annealing:2||REGENERATION:2||TITANIUM:2||COLLOIDAL GOLD:2||crystallization:2||BUCKLING MECHANICS:2||LASERS:2||MODES:2||synchrotron imaging:2||lattice distortion:2||AQUEOUSELECTROLYTE:2||MOLECULARDYNAMICS:2||OXIDE:2||MICROANGIOGRAPHY:2||OXIDATION:2||MICRORADIOLOGY:2||TECHNOLOGY:2||GE:2||surface chemistry:2||RECOVERY:2||OHMIC CONTACTS:2||LASERDIODES:2||PTYPE GAN:2||MOTION:2||PHANTOM:2||PHASE:2||CALCIUMPHOSPHATE CERAMICS:2||REPAIR:2||porphyrin:2||AMPLIFIED SPONTANEOUS EMISSION:2||METALELECTRODES:2||PD:2||SUPERCONDUCTING TAPES:2||nucleation:2||COATINGS:2||Xray topography:2||MONOLAYERS:2||SURFACE MODIFICATION:2||LITHOGRAPHY:2||MECHANICAL VENTILATION:1||MICRORIBBONS:1||STIFFNESS:1||DUALPHASE STEEL:1||growth mode:1||strain evolution:1||SI(100):1||ANISOTROPY:1||WET GRANULAR PILE:1||COALESCENCE:1||INSITU POLYMERIZATION:1||GRAPHENE:1||CANCER:1||NODULES:1||RABBITS:1||phasecontrast:1||YTTRIUMOXIDE FILMS:1||BaTiO3/SrTiO3:1||dental implant:1||coincidence site density:1||ERNI2B2C:1||crystallites:1||CoCrPt films:1||tensile strain:1||gallide:1||MGO:1||Baferrite film:1||synchrotron xray scattering:1||ZNO THINFILMS:1||MORPHOLOGY:1||PHASES:1||MICE:1||EBEAM LITHOGRAPHY:1||electrorheological fluids:1||NANOFIBROUS MEMBRANES:1||NANOLITHOGRAPHY:1||refractive index radiology:1||BLOOD:1||colloidal:1||SIZE CONTROL:1||nanoradiology:1||ZnSO4:1||lung injury:1||METAL:1||PM10:1||textured grain:1||MICROSTRUCTURE:1||DIMENSIONS:1||highresolution Xray diffraction:1||low temperature buffer:1||Zinc compounds:1||SI:1||HUMAN LONGEVITY:1||Maximum human lifespan:1||LIMITS:1||MOSFETS:1||in situ XANES:1||nanowires:1||PHOTOIRRADIATION:1||FIBERS:1||WORK:1||EMISSION:1||RADIATION MICROTOMOGRAPHY:1||RAMANSCATTERING:1||gold nanoparticles:1||synchrotron Xray diffraction:1||OPTICAL WAVEGUIDES:1||CONDUCTINGPOLYMER NANOWIRE:1||Lung cancer:1||INTRAVENOUS CORONARYARTERIOGRAPHY:1||SUBLIMATION GROWTH:1||radiography:1||porous SiC:1||GIANT MAGNETORESISTANCE:1||SEMICONDUCTORS:1||Ga diffusion:1||electroless deposition:1||HEMATITE:1||FREEELECTRON LASER:1||MOCVD:1||interfaces:1||white beam:1||imaging technique:1||nucleation layer:1||interface structure:1||epitaxial Baferrite film:1||rf magnetron sputtering:1||MAGNETIC CHARACTERISTICS:1||MIXTURE:1||ACCESS MEMORY APPLICATION:1||COHERENCY STRAIN:1||DENSITY:1||nanofabrication:1||POLY(METHYL METHACRYLATE) MICROSPHERE:1||RESIST:1||unmonochromatic beam:1||MICRORADIOGRAPHY:1||INTERFEROMETER:1||EXPOSURE:1||volume variation electronic:1||PULSEDLASER ABLATION:1||Semiconducting IIVI materials:1||Light emitting diodes:1||phase contrast microscopies:1||lung:1||AUGERELECTRON SPECTROSCOPY:1||passivation:1||additive manufacturing:1||Silicon carbide:1||Synchrotron radiation:1||Synchrotron radiation imaging:1||Dislocations (crystals):1||LUNG INJURY:1||POLYMER SURFACES:1||SINGLE CELLS:1||PREFERRED ORIENTATION:1||sapphire orientation:1||TANTALUM:1||BIASENHANCED NUCLEATION:1||hexaferrite:1||stretched exponential:1||SOLIDSURFACE:1||SHEAR:1||VIDEO MICROSCOPY:1||CARBON NANOTUBES:1||realtime observation:1||Xray synchrotron:1||CARBONMONOXIDE:1||ELECTROCHEMICAL FABRICATION:1||crystal growth:1||computer simulation:1||FERROELECTRICFILMS:1||TITANIUM IMPLANTS:1||BONE INTERFACE:1||EXAFS perpendicular magnetic recording:1||Pd/Ni:1||ELECTRODES:1||internal organ:1||LIGHTEMITTINGDIODES:1||interfacial structure:1||CONSTANT:1||DIELECTRICPROPERTIES:1||AR:1||DEVICES:1||BiSrCaCuO:1||LASER ABLATION:1||MECHANISM:1||SELECTIVE DEPOSITION:1||TARGETED DRUGDELIVERY:1||PEG:1||carbon 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CONFIGURATIONS:1||MGO(100):1||SPECTROSCOPY:1||XE:1||IONBEAM:1||GRAINBOUNDARY MIGRATION:1||SRTIO3:1||COMPOSITES:1||FOAMS:1||BREASTCANCER SPECIMENS:1||unmonochromatized:1||Xray induced nucleation:1||gold:1||ABSORPTION:1||SEPARATION:1||CZOCHRALSKI GROWTH:1||RETRIEVAL:1||GAMMARADIATION:1||AQUEOUSSOLUTION:1||NANOCOMPOSITES:1||INCREASE:1||without staining procedure:1||XPS:1||Imaging techniques:1||Interfaces (materials):1||Dislocation distributions:1||AZOBENZENE:1||STRUCTURAL EVOLUTION:1||RELAXATION:1||DROP IMPACT:1||NONLINEAR DYNAMICS:1||DISLOCATIONS:1||Colloids:1||TRANSFORMATION:1||METAL INTERCONNECTS:1||ELASTIC CONDUCTORS:1||LOGIC:1||DEFICIENT MICE:1||tomography:1||FACILITY:1||osseointegration:1||ROCKS:1||dental radiography:1||Zn coating:1||RE2O3/Ni:1||YBCO COATED CONDUCTORS:1||threedimensional islands:1||(Ba,Sr)TiO3:1||ultrahigh resolution:1||photoelectron emission:1||Pd:1||LANIO3:1||BASE ELECTRODES:1||iron oxide phase:1||ironoxide interlayer:1||COATED GLASS SUBSTRATE:1||MICROWAVE PLASMA 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AIR:1||ATMOSPHERE:1||XRAY INTERFEROMETER:1||NiAu composite nanoparticles.:1||synchrotron radiation Xrays:1||microtomography:1||OIL FLYASH:1||zinc oxide:1||mammography:1||SrRuO3 film:1||Laser epitaxy:1||HOLE MOBILITY:1||Models of crystal defects:1||RABBIT LUNGS:1||NI/AU CONTACT:1||3D printing:1||Stress relaxation:1||SURFACEAREA:1||IMAGE:1||modulation transfer function (MTF):1||Pb ions:1||Insitu visualization:1||Interfacial tension:1||DISPERSION FORCES:1||SINGLECRYSTALS:1||XRAY SOURCE:1||Synchrotron Xray imaging:1||Realtime imaging:1||MEDICAL APPLICATIONS:1||wiggler bending magnet:1||undulator:1||diffractionenhanced imaging:1||ZnO film:1||CAPACITORS:1||HE3:1||NiP alloy:1||PHOTOCHEMICAL FORMATION:1||extended domain matching:1||cubetextured Ni substrates:1||RAY COMPUTEDTOMOGRAPHY:1||electrode layer:1||DOMAINSTRUCTURE:1||XRAY CT:1||SPECIMEN:1||mammographic phantom:1||Xray absorption spectroscopy:1||BLUE:1||CONTACT:1||(BA:1||synchrotron spectromicroscopy:1||thin film:1||MICROWAVE PLASMA:1||GOLD NANOPARTICLES:1||POLYMERIZATION:1||DISEASE:1||Shanghai:1||MORTALITY:1||HETEROSTRUCTURES:1||METHACRYLATE:1||prostate cancer:1||renal cell carcinoma:1||RATS:1||PULSEDLASER DEPOSITION:1||semiconducting IIVI materials:1||PATTERNS:1||sapphire:1||evaporation:1||ZINCOXIDE:1||LIGHTEMITTING DIODE:1||Synchrotron imaging:1||Dislocations:1||Cracks:1||LIVE:1||spinal cord:1||stainless steel:1||nanophotonics:1||subwavelength waveguides:1||Synchrotrons:1||High dislocation density:1||Misfit stress relaxations:1||Randomly distributed:1||Tripleaxis xray diffractions:1||FLOW:1||CRYSTALLINE ORGANIC NANORODS:1||SHAPE CHANGES:1||ZnO thin film:1||(111)SI:1||XRAY MIRRORS:1||low temperature:1||oxide cathodes:1||heterogeneity:1||Xray microscopy:1||INTERFACIAL TENSIONS:1||single crystal growth:1||CARCINOMA:1||mouse:1||ANIMALS:1||Mndoped ZnO:1||luminescence:1||solution precipitation:1||CLUSTER:1||relaxation:1||ALPHAFE2O3:1||XANES:1||epitaxy:1||LaNiO3 thin film:1||LANIO3 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ELECTRONMICROSCOPY:2||EPITAXIAL COSI2 FILMS:2||MECHANISMS:2||INSITU GROWTH:2||DEVICE:2||LOCALIZED ELECTROCHEMICAL DEPOSITION:2||X ray diffraction:2||SCHOTTKY CONTACT:2||IRRADIATION:2||aqua regia treatment:2||INVIVO:2||CELLADHESION:2||MORPHOGENETIC PROTEIN2:2||RECEPTOR:2||TEM:2||broadband synchrotron light:2||nanoparticle:2||BUFFER LAYERS:2||TC:2||ENHANCED SYNCHROTRON RADIOLOGY:2||synthesis:2||POLYDIMETHYLSILOXANE:2||MICROCHANNELS:2||PRETREATMENT PROCESS:2||XRAY:2||CHEMOTAXIS:2||MECHANOSENSORY TRANSDUCTION:2||rectangular microtube:2||CONJUGATED POLYMER:2||atomic force microscopy:2||METALLIC OXIDE SRRUO3:2||LASERABLATION:2||STRESS:2||ZONE PLATES:2||FRICTION:2||THERMALSTABILITY:2||Xrays:2||RAY:2||NM:2||ENERGY:2||TOPOGRAPHY:2||synchrotron Xray:2||ACID HYDROGELS:2||CAENORHABDITISELEGANS:2||PROTEIN:2||defects:2||EVOLUTION:2||FABRICATION:2||sharp bending waveguide:2||lasing action:2||BULK CRYSTALS:2||SUPERLATTICES:2||COATED CONDUCTORS:2||SI(111):2||phase contrast:2||CORONARY 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nanoparticles:1||synchrotron Xray diffraction:1||OPTICAL WAVEGUIDES:1||CONDUCTINGPOLYMER NANOWIRE:1||Lung cancer:1||INTRAVENOUS CORONARYARTERIOGRAPHY:1||SUBLIMATION GROWTH:1||radiography:1||porous SiC:1||GIANT MAGNETORESISTANCE:1||SEMICONDUCTORS:1||Ga diffusion:1||electroless deposition:1||HEMATITE:1||FREEELECTRON LASER:1||MOCVD:1||interfaces:1||white beam:1||imaging technique:1||nucleation layer:1||interface structure:1||epitaxial Baferrite film:1||rf magnetron sputtering:1||MAGNETIC CHARACTERISTICS:1||MIXTURE:1||ACCESS MEMORY APPLICATION:1||COHERENCY STRAIN:1||DENSITY:1||nanofabrication:1||POLY(METHYL METHACRYLATE) MICROSPHERE:1||RESIST:1||unmonochromatic beam:1||MICRORADIOGRAPHY:1||INTERFEROMETER:1||EXPOSURE:1||volume variation electronic:1||PULSEDLASER ABLATION:1||Semiconducting IIVI materials:1||Light emitting diodes:1||phase contrast microscopies:1||lung:1||AUGERELECTRON SPECTROSCOPY:1||passivation:1||additive manufacturing:1||Silicon carbide:1||Synchrotron radiation:1||Synchrotron radiation imaging:1||Dislocations (crystals):1||LUNG INJURY:1||POLYMER SURFACES:1||SINGLE CELLS:1||PREFERRED ORIENTATION:1||sapphire orientation:1||TANTALUM:1||BIASENHANCED NUCLEATION:1||hexaferrite:1||stretched exponential:1||SOLIDSURFACE:1||SHEAR:1||VIDEO MICROSCOPY:1||CARBON NANOTUBES:1||realtime observation:1||Xray synchrotron:1||CARBONMONOXIDE:1||ELECTROCHEMICAL FABRICATION:1||crystal growth:1||computer simulation:1||FERROELECTRICFILMS:1||TITANIUM IMPLANTS:1||BONE INTERFACE:1||EXAFS perpendicular magnetic recording:1||Pd/Ni:1||ELECTRODES:1||internal organ:1||LIGHTEMITTINGDIODES:1||interfacial structure:1||CONSTANT:1||DIELECTRICPROPERTIES:1||AR:1||DEVICES:1||BiSrCaCuO:1||LASER ABLATION:1||MECHANISM:1||SELECTIVE DEPOSITION:1||TARGETED DRUGDELIVERY:1||PEG:1||carbon nanotubes:1||nanocharacterization:1||WALLED CARBON NANOTUBE:1||basal cell carcinoma:1||PARTICULATE AIRPOLLUTION:1||FINE:1||CITIES:1||DOPED ZNO FILMS:1||atherosclerosis:1||drug delivery:1||hard 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microradiography:1||FeSO4:1||INDUCTION:1||BaTiO3 and SrTiO3 thin films:1||HARDXRAYS:1||light emitting diodes:1||ACID:1||MICROSTRUCTURES:1||PHOTOLUMINESCENCE PROPERTIES:1||LASER IRRADIATION:1||Human aging:1||polychromatic synchrotron Xray:1||refraction enhanced imaging:1||CHROMOPHORES:1||ACUTE LUNG INJURY:1||spatial resolution:1||BETAFESI2:1||VLSI:1||SI1XGEX:1||COLLOIDAL SUSPENSIONS:1||ELECTRONICS:1||ENHANCEMENT:1||artificial lattice:1||sinters:1||SILVER:1||STRAIN RELAXATION:1||biaxial texture:1||synchrotron scattering:1||transmission electron microscopy:1||IRONOXIDE FILMS:1||PZT thin film:1||ferroelectric thin film:1||MISFIT RELAXATION MECHANISMS:1||PBTIO3:1||O2:1||CONDUCTING POLYMERS:1||poly(methylmethancrylate):1||microspheres:1||phase contrast Xray microscope:1||AMBIENT AIR:1||ATMOSPHERE:1||XRAY INTERFEROMETER:1||NiAu composite nanoparticles.:1||synchrotron radiation Xrays:1||microtomography:1||OIL FLYASH:1||zinc oxide:1||mammography:1||SrRuO3 film:1||Laser epitaxy:1||HOLE MOBILITY:1||Models of crystal defects:1||RABBIT LUNGS:1||NI/AU CONTACT:1||3D printing:1||Stress relaxation:1||SURFACEAREA:1||IMAGE:1||modulation transfer function (MTF):1||Pb ions:1||Insitu visualization:1||Interfacial tension:1||DISPERSION FORCES:1||SINGLECRYSTALS:1||XRAY SOURCE:1||Synchrotron Xray imaging:1||Realtime imaging:1||MEDICAL APPLICATIONS:1||wiggler bending magnet:1||undulator:1||diffractionenhanced imaging:1||ZnO film:1||CAPACITORS:1||HE3:1||NiP alloy:1||PHOTOCHEMICAL FORMATION:1||extended domain matching:1||cubetextured Ni substrates:1||RAY COMPUTEDTOMOGRAPHY:1||electrode layer:1||DOMAINSTRUCTURE:1||XRAY CT:1||SPECIMEN:1||mammographic phantom:1||Xray absorption spectroscopy:1||BLUE:1||CONTACT:1||(BA:1||synchrotron spectromicroscopy:1||thin film:1||MICROWAVE PLASMA:1||GOLD NANOPARTICLES:1||POLYMERIZATION:1||DISEASE:1||Shanghai:1||MORTALITY:1||HETEROSTRUCTURES:1||METHACRYLATE:1||prostate cancer:1||renal cell carcinoma:1||RATS:1||PULSEDLASER DEPOSITION:1||semiconducting IIVI materials:1||PATTERNS:1||sapphire:1||evaporation:1||ZINCOXIDE:1||LIGHTEMITTING DIODE:1||Synchrotron imaging:1||Dislocations:1||Cracks:1||LIVE:1||spinal cord:1||stainless steel:1||nanophotonics:1||subwavelength waveguides:1||Synchrotrons:1||High dislocation density:1||Misfit stress relaxations:1||Randomly distributed:1||Tripleaxis xray diffractions:1||FLOW:1||CRYSTALLINE ORGANIC NANORODS:1||SHAPE CHANGES:1||ZnO thin film:1||(111)SI:1||XRAY MIRRORS:1||low temperature:1||oxide cathodes:1||heterogeneity:1||Xray microscopy:1||INTERFACIAL TENSIONS:1||single crystal growth:1||CARCINOMA:1||mouse:1||ANIMALS:1||Mndoped ZnO:1||luminescence:1||solution precipitation:1||CLUSTER:1||relaxation:1||ALPHAFE2O3:1||XANES:1||epitaxy:1||LaNiO3 thin film:1||LANIO3 THINFILMS:1||ELECTRODE:1||Fe3O4 sublayer:1||EXAFS microscopy:1||FERRITE FILMS:1||SURFACE PRETREATMENTS:1||superconductors:1||CONTRAST AGENT:1||BIODISTRIBUTION:1||DEATH:1||SYNCHROTRON:1||IR:1||apo Eknockout 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GaN:4||MICROSCOPY:4||REDUCTION:4||POLYMER:4||DEFECTS:3||COHERENCE:3||MICROTOMOGRAPHY:3||NANOPARTICLES:3||synchrotron:3||LIGHT:3||TRANSISTORS:3||SURFACES:3||STRAIN:3||EPITAXIAL LAYERS:3||DRUGDELIVERY:3||REFRACTION:3||growth mechanism:3||METALS:3||MICROPIPES:3||SYSTEM:3||NUCLEATION:3||synchrotron Xray scattering:3||SURFACE:3||SCREW DISLOCATIONS:3||SIMULATION:3||HARD XRAYS:3||ELECTRICALPROPERTIES:3||EPITAXY:3||GAN:3||PM2.5:3||EVAPORATION:3||LIQUIDS:3||INPLANE:3||RAT:3||ANGIOGENESIS:3||CT:3||GaN:3||ZnO:3||NANORODS:3||strain:3||PB(ZR0.53TI0.47)O3:3||CRYSTALLIZATION:3||synchrotron Xrays:2||buffer layer:2||TRANSMISSION ELECTRONMICROSCOPY:2||EPITAXIAL COSI2 FILMS:2||MECHANISMS:2||INSITU GROWTH:2||DEVICE:2||LOCALIZED ELECTROCHEMICAL DEPOSITION:2||X ray diffraction:2||SCHOTTKY CONTACT:2||IRRADIATION:2||aqua regia treatment:2||INVIVO:2||CELLADHESION:2||MORPHOGENETIC PROTEIN2:2||RECEPTOR:2||TEM:2||broadband synchrotron light:2||nanoparticle:2||BUFFER LAYERS:2||TC:2||ENHANCED SYNCHROTRON RADIOLOGY:2||synthesis:2||POLYDIMETHYLSILOXANE:2||MICROCHANNELS:2||PRETREATMENT PROCESS:2||XRAY:2||CHEMOTAXIS:2||MECHANOSENSORY TRANSDUCTION:2||rectangular microtube:2||CONJUGATED POLYMER:2||atomic force microscopy:2||METALLIC OXIDE SRRUO3:2||LASERABLATION:2||STRESS:2||ZONE PLATES:2||FRICTION:2||THERMALSTABILITY:2||Xrays:2||RAY:2||NM:2||ENERGY:2||TOPOGRAPHY:2||synchrotron Xray:2||ACID HYDROGELS:2||CAENORHABDITISELEGANS:2||PROTEIN:2||defects:2||EVOLUTION:2||FABRICATION:2||sharp bending waveguide:2||lasing action:2||BULK CRYSTALS:2||SUPERLATTICES:2||COATED CONDUCTORS:2||SI(111):2||phase contrast:2||CORONARY ANGIOGRAPHY:2||SPECTROMICROSCOPY:2||MEPHISTO:2||OXYGEN:2||OPTICALPROPERTIES:2||RADIOGRAPHY:2||CONTACT DEFORMATIONS:2||MOLECULAR FORCES:2||SOLIDS:2||NTYPE GAN:2||deposition:2||CHEMISTRY:2||DEFORMATION:2||SUBSTRATE:2||HETEROEPITAXY:2||NANOTOPOGRAPHY:2||EPITAXIALGROWTH:2||Xray:2||CHEMICAL VAPORDEPOSITION:2||SILICON STRUCTURES:2||STEMCELLS:2||CHANNEL:2||crystal 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Xray:1||BIPOLARTRANSISTORS:1||longevity:1||Confocal microscopy:1||Colloidal wettability:1||ATOMICFORCE MICROSCOPY:1||storage ring:1||digital subtraction:1||SCATTERING:1||size effect:1||SYNTHETIC QUARTZ:1||liquid metal embrittlement:1||iron ore:1||cube textured Ni substrates:1||SrRuO3 films:1||laser ablations:1||Ti underlayer:1||RANDOMACCESS MEMORIES:1||DOMAIN CONFIGURATIONS:1||MGO(100):1||SPECTROSCOPY:1||XE:1||IONBEAM:1||GRAINBOUNDARY MIGRATION:1||SRTIO3:1||COMPOSITES:1||FOAMS:1||BREASTCANCER SPECIMENS:1||unmonochromatized:1||Xray induced nucleation:1||gold:1||ABSORPTION:1||SEPARATION:1||CZOCHRALSKI GROWTH:1||RETRIEVAL:1||GAMMARADIATION:1||AQUEOUSSOLUTION:1||NANOCOMPOSITES:1||INCREASE:1||without staining procedure:1||XPS:1||Imaging techniques:1||Interfaces (materials):1||Dislocation distributions:1||AZOBENZENE:1||STRUCTURAL EVOLUTION:1||RELAXATION:1||DROP IMPACT:1||NONLINEAR DYNAMICS:1||DISLOCATIONS:1||Colloids:1||TRANSFORMATION:1||METAL INTERCONNECTS:1||ELASTIC CONDUCTORS:1||LOGIC:1||DEFICIENT MICE:1||tomography:1||FACILITY:1||osseointegration:1||ROCKS:1||dental radiography:1||Zn coating:1||RE2O3/Ni:1||YBCO COATED CONDUCTORS:1||threedimensional islands:1||(Ba,Sr)TiO3:1||ultrahigh resolution:1||photoelectron emission:1||Pd:1||LANIO3:1||BASE ELECTRODES:1||iron oxide phase:1||ironoxide interlayer:1||COATED GLASS SUBSTRATE:1||MICROWAVE PLASMA NUCLEATION:1||ENHANCED NUCLEATION:1||phase transformation:1||ADSORPTION:1||phasecontrast xray imaging:1||lung inflammation:1||SI1XGEX SINGLECRYSTALS:1||COCONTINUITY:1||SCALE:1||OBJECT:1||synchrotron microradiography:1||FeSO4:1||INDUCTION:1||BaTiO3 and SrTiO3 thin films:1||HARDXRAYS:1||light emitting diodes:1||ACID:1||MICROSTRUCTURES:1||PHOTOLUMINESCENCE PROPERTIES:1||LASER IRRADIATION:1||Human aging:1||polychromatic synchrotron Xray:1||refraction enhanced imaging:1||CHROMOPHORES:1||ACUTE LUNG INJURY:1||spatial resolution:1||BETAFESI2:1||VLSI:1||SI1XGEX:1||COLLOIDAL SUSPENSIONS:1||ELECTRONICS:1||ENHANCEMENT:1||artificial lattice:1||sinters:1||SILVER:1||STRAIN RELAXATION:1||biaxial texture:1||synchrotron scattering:1||transmission electron microscopy:1||IRONOXIDE FILMS:1||PZT thin film:1||ferroelectric thin film:1||MISFIT RELAXATION MECHANISMS:1||PBTIO3:1||O2:1||CONDUCTING POLYMERS:1||poly(methylmethancrylate):1||microspheres:1||phase contrast Xray microscope:1||AMBIENT AIR:1||ATMOSPHERE:1||XRAY INTERFEROMETER:1||NiAu composite nanoparticles.:1||synchrotron radiation Xrays:1||microtomography:1||OIL FLYASH:1||zinc oxide:1||mammography:1||SrRuO3 film:1||Laser epitaxy:1||HOLE MOBILITY:1||Models of crystal defects:1||RABBIT LUNGS:1||NI/AU CONTACT:1||3D printing:1||Stress relaxation:1||SURFACEAREA:1||IMAGE:1||modulation transfer function (MTF):1||Pb ions:1||Insitu visualization:1||Interfacial tension:1||DISPERSION FORCES:1||SINGLECRYSTALS:1||XRAY SOURCE:1||Synchrotron Xray imaging:1||Realtime imaging:1||MEDICAL APPLICATIONS:1||wiggler bending magnet:1||undulator:1||diffractionenhanced imaging:1||ZnO film:1||CAPACITORS:1||HE3:1||NiP alloy:1||PHOTOCHEMICAL FORMATION:1||extended domain matching:1||cubetextured Ni substrates:1||RAY COMPUTEDTOMOGRAPHY:1||electrode layer:1||DOMAINSTRUCTURE:1||XRAY CT:1||SPECIMEN:1||mammographic phantom:1||Xray absorption spectroscopy:1||BLUE:1||CONTACT:1||(BA:1||synchrotron spectromicroscopy:1||thin film:1||MICROWAVE PLASMA:1||GOLD NANOPARTICLES:1||POLYMERIZATION:1||DISEASE:1||Shanghai:1||MORTALITY:1||HETEROSTRUCTURES:1||METHACRYLATE:1||prostate cancer:1||renal cell carcinoma:1||RATS:1||PULSEDLASER DEPOSITION:1||semiconducting IIVI materials:1||PATTERNS:1||sapphire:1||evaporation:1||ZINCOXIDE:1||LIGHTEMITTING DIODE:1||Synchrotron imaging:1||Dislocations:1||Cracks:1||LIVE:1||spinal cord:1||stainless steel:1||nanophotonics:1||subwavelength waveguides:1||Synchrotrons:1||High dislocation density:1||Misfit stress relaxations:1||Randomly distributed:1||Tripleaxis xray diffractions:1||FLOW:1||CRYSTALLINE ORGANIC NANORODS:1||SHAPE CHANGES:1||ZnO thin film:1||(111)SI:1||XRAY MIRRORS:1||low temperature:1||oxide cathodes:1||heterogeneity:1||Xray microscopy:1||INTERFACIAL TENSIONS:1||single crystal growth:1||CARCINOMA:1||mouse:1||ANIMALS:1||Mndoped ZnO:1||luminescence:1||solution precipitation:1||CLUSTER:1||relaxation:1||ALPHAFE2O3:1||XANES:1||epitaxy:1||LaNiO3 thin film:1||LANIO3 THINFILMS:1||ELECTRODE:1||Fe3O4 sublayer:1||EXAFS microscopy:1||FERRITE FILMS:1||SURFACE PRETREATMENTS:1||superconductors:1||CONTRAST AGENT:1||BIODISTRIBUTION:1||DEATH:1||SYNCHROTRON:1||IR:1||apo Eknockout mouse:1||plaque:1||microradiology:1||ALPHASYNUCLEIN:1||PULMONARY TOXICITY:1||XRAY TOPOGRAPHY:1||dislocation:1||metalorganic chemical vapor deposition:1||CRYSTALGROWTH:1||SELFASSEMBLED MONOLAYERS:1||MEMBRANES:1||MAGNETICANISOTROPY:1||SI1XGEX CRYSTALS:1||STRAINEDSI:1||Extended Weibull model:1||MOLYBDENUM:1||ALLOYS:1||IRON:1||Theoretical modeling:1||Threading dislocation:1||GROWTH:27||THINFILMS:16||SYNCHROTRONRADIATION:15||CONTRAST:11||RADIOLOGY:11||PARTICLES:11||FILMS:11||SILICON:10||RADIATION:10||DEPOSITION:10||RESOLUTION:9||CRYSTALS:8||SILICONCARBIDE:7||XRAYS:7||MAMMOGRAPHY:7||Xray diffraction:7||synchrotron radiation:6||XRAYSCATTERING:6||MODEL:6||microstructure:6||DYNAMICS:5||ELECTRODEPOSITION:5||LAYERS:5||CHEMICALVAPORDEPOSITION:5||TEMPERATURE:5||TOMOGRAPHY:5||COMPUTEDTOMOGRAPHY:5||SAPPHIRE:5||MEDIA:5||NANOWIRES:5||DIFFRACTION:4||TISSUES:4||pulsed laser deposition:4||phase contrast imaging:4||LAYER:4||IMAGES:4||DIODES:4||FIELDEFFECT TRANSISTORS:4||ptype GaN:4||MICROSCOPY:4||REDUCTION:4||POLYMER:4||DEFECTS:3||COHERENCE:3||MICROTOMOGRAPHY:3||NANOPARTICLES:3||synchrotron:3||LIGHT:3||TRANSISTORS:3||SURFACES:3||STRAIN:3||EPITAXIAL LAYERS:3||DRUGDELIVERY:3||REFRACTION:3||growth mechanism:3||METALS:3||MICROPIPES:3||SYSTEM:3||NUCLEATION:3||synchrotron Xray scattering:3||SURFACE:3||SCREW DISLOCATIONS:3||SIMULATION:3||HARD XRAYS:3||ELECTRICALPROPERTIES:3||EPITAXY:3||GAN:3||PM2.5:3||EVAPORATION:3||LIQUIDS:3||INPLANE:3||RAT:3||ANGIOGENESIS:3||CT:3||GaN:3||ZnO:3||NANORODS:3||strain:3||PB(ZR0.53TI0.47)O3:3||CRYSTALLIZATION:3||synchrotron Xrays:2||buffer layer:2||TRANSMISSION ELECTRONMICROSCOPY:2||EPITAXIAL COSI2 FILMS:2||MECHANISMS:2||INSITU GROWTH:2||DEVICE:2||LOCALIZED ELECTROCHEMICAL DEPOSITION:2||X ray diffraction:2||SCHOTTKY CONTACT:2||IRRADIATION:2||aqua regia treatment:2||INVIVO:2||CELLADHESION:2||MORPHOGENETIC PROTEIN2:2||RECEPTOR:2||TEM:2||broadband synchrotron light:2||nanoparticle:2||BUFFER LAYERS:2||TC:2||ENHANCED SYNCHROTRON RADIOLOGY:2||synthesis:2||POLYDIMETHYLSILOXANE:2||MICROCHANNELS:2||PRETREATMENT PROCESS:2||XRAY:2||CHEMOTAXIS:2||MECHANOSENSORY TRANSDUCTION:2||rectangular microtube:2||CONJUGATED POLYMER:2||atomic force microscopy:2||METALLIC OXIDE SRRUO3:2||LASERABLATION:2||STRESS:2||ZONE PLATES:2||FRICTION:2||THERMALSTABILITY:2||Xrays:2||RAY:2||NM:2||ENERGY:2||TOPOGRAPHY:2||synchrotron Xray:2||ACID HYDROGELS:2||CAENORHABDITISELEGANS:2||PROTEIN:2||defects:2||EVOLUTION:2||FABRICATION:2||sharp bending waveguide:2||lasing action:2||BULK CRYSTALS:2||SUPERLATTICES:2||COATED CONDUCTORS:2||SI(111):2||phase contrast:2||CORONARY ANGIOGRAPHY:2||SPECTROMICROSCOPY:2||MEPHISTO:2||OXYGEN:2||OPTICALPROPERTIES:2||RADIOGRAPHY:2||CONTACT DEFORMATIONS:2||MOLECULAR FORCES:2||SOLIDS:2||NTYPE GAN:2||deposition:2||CHEMISTRY:2||DEFORMATION:2||SUBSTRATE:2||HETEROEPITAXY:2||NANOTOPOGRAPHY:2||EPITAXIALGROWTH:2||Xray:2||CHEMICAL VAPORDEPOSITION:2||SILICON STRUCTURES:2||STEMCELLS:2||CHANNEL:2||crystal structure:2||CORONARYANGIOGRAPHY:2||SiC:2||BUFFER LAYER:2||MOLECULARBEAM EPITAXY:2||INTERFACE:2||SIZE:2||ELECTRON:2||XRAY MICROSCOPY:2||MORPHOLOGIES:2||NANOCOLLOIDS:2||FORCE MICROSCOPY:2||ablation:2||polymers:2||(NH4)(2)Sx treatment:2||CLUSTERS:2||BIOMATERIALS:2||CIRCUITS:2||rectangular ring mode:2||GUIDES:2||MICROCAVITY:2||PHOTOLUMINESCENCE:2||epitaxial growth:2||EMBRITTLEMENT:2||Xray imaging:2||BIOCOMPATIBILITY:2||BEHAVIOR:2||MICROWAVEPLASMA:2||LOWPRESSURE:2||DEGRADATION:2||TISSUE:2||LIQUID:2||SOFT LITHOGRAPHY:2||amplified spontaneous emission (ASE):2||SMALL ORGANICMOLECULES:2||PHOTONIC CRYSTAL:2||micropipes:2||radiology:2||ALLOY:2||Xray scattering:2||CRITICALCURRENT DENSITY:2||ELECTRONMICROSCOPY:2||BI(PB)SRCACUO:2||ELECTRONICSTRUCTURE:2||RECONSTRUCTION:2||MG:2||ohmic contact:2||Pd ohmic contact:2||xray scattering:2||INP:2||annealing:2||REGENERATION:2||TITANIUM:2||COLLOIDAL GOLD:2||crystallization:2||BUCKLING MECHANICS:2||LASERS:2||MODES:2||synchrotron imaging:2||lattice distortion:2||AQUEOUSELECTROLYTE:2||MOLECULARDYNAMICS:2||OXIDE:2||MICROANGIOGRAPHY:2||OXIDATION:2||MICRORADIOLOGY:2||TECHNOLOGY:2||GE:2||surface chemistry:2||RECOVERY:2||OHMIC CONTACTS:2||LASERDIODES:2||PTYPE GAN:2||MOTION:2||PHANTOM:2||PHASE:2||CALCIUMPHOSPHATE CERAMICS:2||REPAIR:2||porphyrin:2||AMPLIFIED SPONTANEOUS EMISSION:2||METALELECTRODES:2||PD:2||SUPERCONDUCTING TAPES:2||nucleation:2||COATINGS:2||Xray topography:2||MONOLAYERS:2||SURFACE MODIFICATION:2||LITHOGRAPHY:2||MECHANICAL VENTILATION:1||MICRORIBBONS:1||STIFFNESS:1||DUALPHASE STEEL:1||growth mode:1||strain evolution:1||SI(100):1||ANISOTROPY:1||WET GRANULAR PILE:1||COALESCENCE:1||INSITU POLYMERIZATION:1||GRAPHENE:1||CANCER:1||NODULES:1||RABBITS:1||phasecontrast:1||YTTRIUMOXIDE FILMS:1||BaTiO3/SrTiO3:1||dental implant:1||coincidence site density:1||ERNI2B2C:1||crystallites:1||CoCrPt films:1||tensile strain:1||gallide:1||MGO:1||Baferrite film:1||synchrotron xray scattering:1||ZNO THINFILMS:1||MORPHOLOGY:1||PHASES:1||MICE:1||EBEAM LITHOGRAPHY:1||electrorheological fluids:1||NANOFIBROUS MEMBRANES:1||NANOLITHOGRAPHY:1||refractive index radiology:1||BLOOD:1||colloidal:1||SIZE CONTROL:1||nanoradiology:1||ZnSO4:1||lung injury:1||METAL:1||PM10:1||textured grain:1||MICROSTRUCTURE:1||DIMENSIONS:1||highresolution Xray diffraction:1||low temperature buffer:1||Zinc compounds:1||SI:1||HUMAN LONGEVITY:1||Maximum human lifespan:1||LIMITS:1||MOSFETS:1||in situ XANES:1||nanowires:1||PHOTOIRRADIATION:1||FIBERS:1||WORK:1||EMISSION:1||RADIATION MICROTOMOGRAPHY:1||RAMANSCATTERING:1||gold nanoparticles:1||synchrotron Xray diffraction:1||OPTICAL WAVEGUIDES:1||CONDUCTINGPOLYMER NANOWIRE:1||Lung cancer:1||INTRAVENOUS CORONARYARTERIOGRAPHY:1||SUBLIMATION GROWTH:1||radiography:1||porous SiC:1||GIANT MAGNETORESISTANCE:1||SEMICONDUCTORS:1||Ga diffusion:1||electroless deposition:1||HEMATITE:1||FREEELECTRON LASER:1||MOCVD:1||interfaces:1||white beam:1||imaging technique:1||nucleation layer:1||interface structure:1||epitaxial Baferrite film:1||rf magnetron sputtering:1||MAGNETIC CHARACTERISTICS:1||MIXTURE:1||ACCESS MEMORY APPLICATION:1||COHERENCY STRAIN:1||DENSITY:1||nanofabrication:1||POLY(METHYL METHACRYLATE) MICROSPHERE:1||RESIST:1||unmonochromatic beam:1||MICRORADIOGRAPHY:1||INTERFEROMETER:1||EXPOSURE:1||volume variation electronic:1||PULSEDLASER ABLATION:1||Semiconducting IIVI materials:1||Light emitting diodes:1||phase contrast microscopies:1||lung:1||AUGERELECTRON SPECTROSCOPY:1||passivation:1||additive manufacturing:1||Silicon carbide:1||Synchrotron radiation:1||Synchrotron radiation imaging:1||Dislocations (crystals):1||LUNG INJURY:1||POLYMER SURFACES:1||SINGLE CELLS:1||PREFERRED ORIENTATION:1||sapphire orientation:1||TANTALUM:1||BIASENHANCED NUCLEATION:1||hexaferrite:1||stretched exponential:1||SOLIDSURFACE:1||SHEAR:1||VIDEO MICROSCOPY:1||CARBON NANOTUBES:1||realtime observation:1||Xray synchrotron:1||CARBONMONOXIDE:1||ELECTROCHEMICAL FABRICATION:1||crystal growth:1||computer simulation:1||FERROELECTRICFILMS:1||TITANIUM IMPLANTS:1||BONE INTERFACE:1||EXAFS perpendicular magnetic recording:1||Pd/Ni:1||ELECTRODES:1||internal organ:1||LIGHTEMITTINGDIODES:1||interfacial structure:1||CONSTANT:1||DIELECTRICPROPERTIES:1||AR:1||DEVICES:1||BiSrCaCuO:1||LASER ABLATION:1||MECHANISM:1||SELECTIVE DEPOSITION:1||TARGETED DRUGDELIVERY:1||PEG:1||carbon nanotubes:1||nanocharacterization:1||WALLED CARBON NANOTUBE:1||basal cell carcinoma:1||PARTICULATE AIRPOLLUTION:1||FINE:1||CITIES:1||DOPED ZNO FILMS:1||atherosclerosis:1||drug delivery:1||hard Xray:1||COMBUSTION:1||ARTIFICIAL BATIO3/SRTIO3 SUPERLATTICES:1||surface morphology:1||Direct wafer bonding:1||COLLOIDAL GOLD PARTICLES:1||DELINEATION:1||EXPECTANCY:1||DEMOGRAPHY:1||MRI:1||SIGE:1||Phase contrast microradiography:1||INJURY:1||PASSIVITY:1||VOLUME:1||CONTACTANGLE:1||ARRAYS:1||DUCTILITY:1||sputtering:1||computed microtomography (mu CT):1||unmonochromatized Xray:1||BIPOLARTRANSISTORS:1||longevity:1||Confocal microscopy:1||Colloidal wettability:1||ATOMICFORCE MICROSCOPY:1||storage ring:1||digital subtraction:1||SCATTERING:1||size effect:1||SYNTHETIC QUARTZ:1||liquid metal embrittlement:1||iron ore:1||cube textured Ni substrates:1||SrRuO3 films:1||laser ablations:1||Ti underlayer:1||RANDOMACCESS MEMORIES:1||DOMAIN CONFIGURATIONS:1||MGO(100):1||SPECTROSCOPY:1||XE:1||IONBEAM:1||GRAINBOUNDARY MIGRATION:1||SRTIO3:1||COMPOSITES:1||FOAMS:1||BREASTCANCER SPECIMENS:1||unmonochromatized:1||Xray induced nucleation:1||gold:1||ABSORPTION:1||SEPARATION:1||CZOCHRALSKI GROWTH:1||RETRIEVAL:1||GAMMARADIATION:1||AQUEOUSSOLUTION:1||NANOCOMPOSITES:1||INCREASE:1||without staining procedure:1||XPS:1||Imaging techniques:1||Interfaces (materials):1||Dislocation distributions:1||AZOBENZENE:1||STRUCTURAL EVOLUTION:1||RELAXATION:1||DROP IMPACT:1||NONLINEAR DYNAMICS:1||DISLOCATIONS:1||Colloids:1||TRANSFORMATION:1||METAL INTERCONNECTS:1||ELASTIC CONDUCTORS:1||LOGIC:1||DEFICIENT MICE:1||tomography:1||FACILITY:1||osseointegration:1||ROCKS:1||dental radiography:1||Zn coating:1||RE2O3/Ni:1||YBCO COATED CONDUCTORS:1||threedimensional islands:1||(Ba,Sr)TiO3:1||ultrahigh resolution:1||photoelectron emission:1||Pd:1||LANIO3:1||BASE ELECTRODES:1||iron oxide phase:1||ironoxide interlayer:1||COATED GLASS SUBSTRATE:1||MICROWAVE PLASMA NUCLEATION:1||ENHANCED NUCLEATION:1||phase transformation:1||ADSORPTION:1||phasecontrast xray imaging:1||lung inflammation:1||SI1XGEX SINGLECRYSTALS:1||COCONTINUITY:1||SCALE:1||OBJECT:1||synchrotron microradiography:1||FeSO4:1||INDUCTION:1||BaTiO3 and SrTiO3 thin films:1||HARDXRAYS:1||light emitting diodes:1||ACID:1||MICROSTRUCTURES:1||PHOTOLUMINESCENCE PROPERTIES:1||LASER IRRADIATION:1||Human aging:1||polychromatic synchrotron Xray:1||refraction enhanced imaging:1||CHROMOPHORES:1||ACUTE LUNG INJURY:1||spatial resolution:1||BETAFESI2:1||VLSI:1||SI1XGEX:1||COLLOIDAL SUSPENSIONS:1||ELECTRONICS:1||ENHANCEMENT:1||artificial lattice:1||sinters:1||SILVER:1||STRAIN RELAXATION:1||biaxial texture:1||synchrotron scattering:1||transmission electron microscopy:1||IRONOXIDE FILMS:1||PZT thin film:1||ferroelectric thin film:1||MISFIT RELAXATION MECHANISMS:1||PBTIO3:1||O2:1||CONDUCTING POLYMERS:1||poly(methylmethancrylate):1||microspheres:1||phase contrast Xray microscope:1||AMBIENT AIR:1||ATMOSPHERE:1||XRAY INTERFEROMETER:1||NiAu composite nanoparticles.:1||synchrotron radiation Xrays:1||microtomography:1||OIL FLYASH:1||zinc oxide:1||mammography:1||SrRuO3 film:1||Laser epitaxy:1||HOLE MOBILITY:1||Models of crystal defects:1||RABBIT LUNGS:1||NI/AU CONTACT:1||3D printing:1||Stress relaxation:1||SURFACEAREA:1||IMAGE:1||modulation transfer function (MTF):1||Pb ions:1||Insitu visualization:1||Interfacial tension:1||DISPERSION FORCES:1||SINGLECRYSTALS:1||XRAY SOURCE:1||Synchrotron Xray imaging:1||Realtime imaging:1||MEDICAL APPLICATIONS:1||wiggler bending magnet:1||undulator:1||diffractionenhanced imaging:1||ZnO film:1||CAPACITORS:1||HE3:1||NiP alloy:1||PHOTOCHEMICAL FORMATION:1||extended domain matching:1||cubetextured Ni substrates:1||RAY COMPUTEDTOMOGRAPHY:1||electrode layer:1||DOMAINSTRUCTURE:1||XRAY CT:1||SPECIMEN:1||mammographic phantom:1||Xray absorption spectroscopy:1||BLUE:1||CONTACT:1||(BA:1||synchrotron spectromicroscopy:1||thin film:1||MICROWAVE PLASMA:1||GOLD NANOPARTICLES:1||POLYMERIZATION:1||DISEASE:1||Shanghai:1||MORTALITY:1||HETEROSTRUCTURES:1||METHACRYLATE:1||prostate cancer:1||renal cell carcinoma:1||RATS:1||PULSEDLASER DEPOSITION:1||semiconducting IIVI materials:1||PATTERNS:1||sapphire:1||evaporation:1||ZINCOXIDE:1||LIGHTEMITTING DIODE:1||Synchrotron imaging:1||Dislocations:1||Cracks:1||LIVE:1||spinal cord:1||stainless steel:1||nanophotonics:1||subwavelength waveguides:1||Synchrotrons:1||High dislocation density:1||Misfit stress relaxations:1||Randomly distributed:1||Tripleaxis xray diffractions:1||FLOW:1||CRYSTALLINE ORGANIC NANORODS:1||SHAPE CHANGES:1||ZnO thin film:1||(111)SI:1||XRAY MIRRORS:1||low temperature:1||oxide cathodes:1||heterogeneity:1||Xray microscopy:1||INTERFACIAL TENSIONS:1||single crystal growth:1||CARCINOMA:1||mouse:1||ANIMALS:1||Mndoped ZnO:1||luminescence:1||solution precipitation:1||CLUSTER:1||relaxation:1||ALPHAFE2O3:1||XANES:1||epitaxy:1||LaNiO3 thin film:1||LANIO3 THINFILMS:1||ELECTRODE:1||Fe3O4 sublayer:1||EXAFS microscopy:1||FERRITE FILMS:1||SURFACE PRETREATMENTS:1||superconductors:1||CONTRAST AGENT:1||BIODISTRIBUTION:1||DEATH:1||SYNCHROTRON:1||IR:1||apo Eknockout mouse:1||plaque:1||microradiology:1||ALPHASYNUCLEIN:1||PULMONARY TOXICITY:1||XRAY TOPOGRAPHY:1||dislocation:1||metalorganic chemical vapor deposition:1||CRYSTALGROWTH:1||SELFASSEMBLED MONOLAYERS:1||MEMBRANES:1||MAGNETICANISOTROPY:1||SI1XGEX CRYSTALS:1||STRAINEDSI:1||Extended Weibull model:1||MOLYBDENUM:1||ALLOYS:1||IRON:1||Theoretical modeling:1||Threading dislocation:1||GROWTH:27||THINFILMS:16||SYNCHROTRONRADIATION:15||CONTRAST:11||RADIOLOGY:11||PARTICLES:11||FILMS:11||SILICON:10||RADIATION:10||DEPOSITION:10||RESOLUTION:9||CRYSTALS:8||SILICONCARBIDE:7||XRAYS:7||MAMMOGRAPHY:7||Xray diffraction:7||synchrotron radiation:6||XRAYSCATTERING:6||MODEL:6||microstructure:6||DYNAMICS:5||ELECTRODEPOSITION:5||LAYERS:5||CHEMICALVAPORDEPOSITION:5||TEMPERATURE:5||TOMOGRAPHY:5||COMPUTEDTOMOGRAPHY:5||SAPPHIRE:5||MEDIA:5||NANOWIRES:5||DIFFRACTION:4||TISSUES:4||pulsed laser deposition:4||phase contrast imaging:4||LAYER:4||IMAGES:4||DIODES:4||FIELDEFFECT TRANSISTORS:4||ptype GaN:4||MICROSCOPY:4||REDUCTION:4||POLYMER:4||DEFECTS:3||COHERENCE:3||MICROTOMOGRAPHY:3||NANOPARTICLES:3||synchrotron:3||LIGHT:3||TRANSISTORS:3||SURFACES:3||STRAIN:3||EPITAXIAL LAYERS:3||DRUGDELIVERY:3||REFRACTION:3||growth mechanism:3||METALS:3||MICROPIPES:3||SYSTEM:3||NUCLEATION:3||synchrotron Xray scattering:3||SURFACE:3||SCREW DISLOCATIONS:3||SIMULATION:3||HARD XRAYS:3||ELECTRICALPROPERTIES:3||EPITAXY:3||GAN:3||PM2.5:3||EVAPORATION:3||LIQUIDS:3||INPLANE:3||RAT:3||ANGIOGENESIS:3||CT:3||GaN:3||ZnO:3||NANORODS:3||strain:3||PB(ZR0.53TI0.47)O3:3||CRYSTALLIZATION:3||synchrotron Xrays:2||buffer layer:2||TRANSMISSION ELECTRONMICROSCOPY:2||EPITAXIAL COSI2 FILMS:2||MECHANISMS:2||INSITU GROWTH:2||DEVICE:2||LOCALIZED ELECTROCHEMICAL DEPOSITION:2||X ray diffraction:2||SCHOTTKY CONTACT:2||IRRADIATION:2||aqua regia treatment:2||INVIVO:2||CELLADHESION:2||MORPHOGENETIC PROTEIN2:2||RECEPTOR:2||TEM:2||broadband synchrotron light:2||nanoparticle:2||BUFFER LAYERS:2||TC:2||ENHANCED SYNCHROTRON RADIOLOGY:2||synthesis:2||POLYDIMETHYLSILOXANE:2||MICROCHANNELS:2||PRETREATMENT PROCESS:2||XRAY:2||CHEMOTAXIS:2||MECHANOSENSORY TRANSDUCTION:2||rectangular microtube:2||CONJUGATED POLYMER:2||atomic force microscopy:2||METALLIC OXIDE SRRUO3:2||LASERABLATION:2||STRESS:2||ZONE PLATES:2||FRICTION:2||THERMALSTABILITY:2||Xrays:2||RAY:2||NM:2||ENERGY:2||TOPOGRAPHY:2||synchrotron Xray:2||ACID HYDROGELS:2||CAENORHABDITISELEGANS:2||PROTEIN:2||defects:2||EVOLUTION:2||FABRICATION:2||sharp bending waveguide:2||lasing action:2||BULK CRYSTALS:2||SUPERLATTICES:2||COATED CONDUCTORS:2||SI(111):2||phase contrast:2||CORONARY ANGIOGRAPHY:2||SPECTROMICROSCOPY:2||MEPHISTO:2||OXYGEN:2||OPTICALPROPERTIES:2||RADIOGRAPHY:2||CONTACT DEFORMATIONS:2||MOLECULAR FORCES:2||SOLIDS:2||NTYPE GAN:2||deposition:2||CHEMISTRY:2||DEFORMATION:2||SUBSTRATE:2||HETEROEPITAXY:2||NANOTOPOGRAPHY:2||EPITAXIALGROWTH:2||Xray:2||CHEMICAL VAPORDEPOSITION:2||SILICON STRUCTURES:2||STEMCELLS:2||CHANNEL:2||crystal structure:2||CORONARYANGIOGRAPHY:2||SiC:2||BUFFER LAYER:2||MOLECULARBEAM EPITAXY:2||INTERFACE:2||SIZE:2||ELECTRON:2||XRAY MICROSCOPY:2||MORPHOLOGIES:2||NANOCOLLOIDS:2||FORCE MICROSCOPY:2||ablation:2||polymers:2||(NH4)(2)Sx treatment:2||CLUSTERS:2||BIOMATERIALS:2||CIRCUITS:2||rectangular ring mode:2||GUIDES:2||MICROCAVITY:2||PHOTOLUMINESCENCE:2||epitaxial growth:2||EMBRITTLEMENT:2||Xray imaging:2||BIOCOMPATIBILITY:2||BEHAVIOR:2||MICROWAVEPLASMA:2||LOWPRESSURE:2||DEGRADATION:2||TISSUE:2||LIQUID:2||SOFT LITHOGRAPHY:2||amplified spontaneous emission (ASE):2||SMALL ORGANICMOLECULES:2||PHOTONIC CRYSTAL:2||micropipes:2||radiology:2||ALLOY:2||Xray scattering:2||CRITICALCURRENT DENSITY:2||ELECTRONMICROSCOPY:2||BI(PB)SRCACUO:2||ELECTRONICSTRUCTURE:2||RECONSTRUCTION:2||MG:2||ohmic contact:2||Pd ohmic contact:2||xray scattering:2||INP:2||annealing:2||REGENERATION:2||TITANIUM:2||COLLOIDAL GOLD:2||crystallization:2||BUCKLING MECHANICS:2||LASERS:2||MODES:2||synchrotron imaging:2||lattice distortion:2||AQUEOUSELECTROLYTE:2||MOLECULARDYNAMICS:2||OXIDE:2||MICROANGIOGRAPHY:2||OXIDATION:2||MICRORADIOLOGY:2||TECHNOLOGY:2||GE:2||surface chemistry:2||RECOVERY:2||OHMIC CONTACTS:2||LASERDIODES:2||PTYPE GAN:2||MOTION:2||PHANTOM:2||PHASE:2||CALCIUMPHOSPHATE CERAMICS:2||REPAIR:2||porphyrin:2||AMPLIFIED SPONTANEOUS EMISSION:2||METALELECTRODES:2||PD:2||SUPERCONDUCTING TAPES:2||nucleation:2||COATINGS:2||Xray topography:2||MONOLAYERS:2||SURFACE MODIFICATION:2||LITHOGRAPHY:2||MECHANICAL VENTILATION:1||MICRORIBBONS:1||STIFFNESS:1||DUALPHASE STEEL:1||growth mode:1||strain evolution:1||SI(100):1||ANISOTROPY:1||WET GRANULAR PILE:1||COALESCENCE:1||INSITU POLYMERIZATION:1||GRAPHENE:1||CANCER:1||NODULES:1||RABBITS:1||phasecontrast:1||YTTRIUMOXIDE FILMS:1||BaTiO3/SrTiO3:1||dental implant:1||coincidence site density:1||ERNI2B2C:1||crystallites:1||CoCrPt films:1||tensile strain:1||gallide:1||MGO:1||Baferrite film:1||synchrotron xray scattering:1||ZNO THINFILMS:1||MORPHOLOGY:1||PHASES:1||MICE:1||EBEAM LITHOGRAPHY:1||electrorheological fluids:1||NANOFIBROUS MEMBRANES:1||NANOLITHOGRAPHY:1||refractive index radiology:1||BLOOD:1||colloidal:1||SIZE CONTROL:1||nanoradiology:1||ZnSO4:1||lung injury:1||METAL:1||PM10:1||textured grain:1||MICROSTRUCTURE:1||DIMENSIONS:1||highresolution Xray diffraction:1||low temperature buffer:1||Zinc compounds:1||SI:1||HUMAN LONGEVITY:1||Maximum human lifespan:1||LIMITS:1||MOSFETS:1||in situ XANES:1||nanowires:1||PHOTOIRRADIATION:1||FIBERS:1||WORK:1||EMISSION:1||RADIATION MICROTOMOGRAPHY:1||RAMANSCATTERING:1||gold nanoparticles:1||synchrotron Xray diffraction:1||OPTICAL WAVEGUIDES:1||CONDUCTINGPOLYMER NANOWIRE:1||Lung cancer:1||INTRAVENOUS CORONARYARTERIOGRAPHY:1||SUBLIMATION GROWTH:1||radiography:1||porous SiC:1||GIANT MAGNETORESISTANCE:1||SEMICONDUCTORS:1||Ga diffusion:1||electroless deposition:1||HEMATITE:1||FREEELECTRON LASER:1||MOCVD:1||interfaces:1||white beam:1||imaging technique:1||nucleation layer:1||interface structure:1||epitaxial Baferrite film:1||rf magnetron sputtering:1||MAGNETIC CHARACTERISTICS:1||MIXTURE:1||ACCESS MEMORY APPLICATION:1||COHERENCY STRAIN:1||DENSITY:1||nanofabrication:1||POLY(METHYL METHACRYLATE) MICROSPHERE:1||RESIST:1||unmonochromatic beam:1||MICRORADIOGRAPHY:1||INTERFEROMETER:1||EXPOSURE:1||volume variation electronic:1||PULSEDLASER ABLATION:1||Semiconducting IIVI materials:1||Light emitting diodes:1||phase contrast microscopies:1||lung:1||AUGERELECTRON SPECTROSCOPY:1||passivation:1||additive manufacturing:1||Silicon carbide:1||Synchrotron radiation:1||Synchrotron radiation imaging:1||Dislocations (crystals):1||LUNG INJURY:1||POLYMER SURFACES:1||SINGLE CELLS:1||PREFERRED ORIENTATION:1||sapphire orientation:1||TANTALUM:1||BIASENHANCED NUCLEATION:1||hexaferrite:1||stretched exponential:1||SOLIDSURFACE:1||SHEAR:1||VIDEO MICROSCOPY:1||CARBON NANOTUBES:1||realtime observation:1||Xray synchrotron:1||CARBONMONOXIDE:1||ELECTROCHEMICAL FABRICATION:1||crystal growth:1||computer simulation:1||FERROELECTRICFILMS:1||TITANIUM IMPLANTS:1||BONE INTERFACE:1||EXAFS perpendicular magnetic recording:1||Pd/Ni:1||ELECTRODES:1||internal organ:1||LIGHTEMITTINGDIODES:1||interfacial structure:1||CONSTANT:1||DIELECTRICPROPERTIES:1||AR:1||DEVICES:1||BiSrCaCuO:1||LASER ABLATION:1||MECHANISM:1||SELECTIVE DEPOSITION:1||TARGETED DRUGDELIVERY:1||PEG:1||carbon nanotubes:1||nanocharacterization:1||WALLED CARBON NANOTUBE:1||basal cell carcinoma:1||PARTICULATE AIRPOLLUTION:1||FINE:1||CITIES:1||DOPED ZNO FILMS:1||atherosclerosis:1||drug delivery:1||hard Xray:1||COMBUSTION:1||ARTIFICIAL BATIO3/SRTIO3 SUPERLATTICES:1||surface morphology:1||Direct wafer bonding:1||COLLOIDAL GOLD PARTICLES:1||DELINEATION:1||EXPECTANCY:1||DEMOGRAPHY:1||MRI:1||SIGE:1||Phase contrast microradiography:1||INJURY:1||PASSIVITY:1||VOLUME:1||CONTACTANGLE:1||ARRAYS:1||DUCTILITY:1||sputtering:1||computed microtomography (mu CT):1||unmonochromatized Xray:1||BIPOLARTRANSISTORS:1||longevity:1||Confocal microscopy:1||Colloidal wettability:1||ATOMICFORCE MICROSCOPY:1||storage ring:1||digital subtraction:1||SCATTERING:1||size effect:1||SYNTHETIC QUARTZ:1||liquid metal embrittlement:1||iron ore:1||cube textured Ni substrates:1||SrRuO3 films:1||laser ablations:1||Ti underlayer:1||RANDOMACCESS MEMORIES:1||DOMAIN CONFIGURATIONS:1||MGO(100):1||SPECTROSCOPY:1||XE:1||IONBEAM:1||GRAINBOUNDARY MIGRATION:1||SRTIO3:1||COMPOSITES:1||FOAMS:1||BREASTCANCER SPECIMENS:1||unmonochromatized:1||Xray induced nucleation:1||gold:1||ABSORPTION:1||SEPARATION:1||CZOCHRALSKI GROWTH:1||RETRIEVAL:1||GAMMARADIATION:1||AQUEOUSSOLUTION:1||NANOCOMPOSITES:1||INCREASE:1||without staining procedure:1||XPS:1||Imaging techniques:1||Interfaces (materials):1||Dislocation distributions:1||AZOBENZENE:1||STRUCTURAL EVOLUTION:1||RELAXATION:1||DROP IMPACT:1||NONLINEAR DYNAMICS:1||DISLOCATIONS:1||Colloids:1||TRANSFORMATION:1||METAL INTERCONNECTS:1||ELASTIC CONDUCTORS:1||LOGIC:1||DEFICIENT MICE:1||tomography:1||FACILITY:1||osseointegration:1||ROCKS:1||dental radiography:1||Zn coating:1||RE2O3/Ni:1||YBCO COATED CONDUCTORS:1||threedimensional islands:1||(Ba,Sr)TiO3:1||ultrahigh resolution:1||photoelectron emission:1||Pd:1||LANIO3:1||BASE ELECTRODES:1||iron oxide phase:1||ironoxide interlayer:1||COATED GLASS SUBSTRATE:1||MICROWAVE PLASMA NUCLEATION:1||ENHANCED NUCLEATION:1||phase transformation:1||ADSORPTION:1||phasecontrast xray imaging:1||lung inflammation:1||SI1XGEX SINGLECRYSTALS:1||COCONTINUITY:1||SCALE:1||OBJECT:1||synchrotron microradiography:1||FeSO4:1||INDUCTION:1||BaTiO3 and SrTiO3 thin films:1||HARDXRAYS:1||light emitting diodes:1||ACID:1||MICROSTRUCTURES:1||PHOTOLUMINESCENCE PROPERTIES:1||LASER IRRADIATION:1||Human aging:1||polychromatic synchrotron Xray:1||refraction enhanced imaging:1||CHROMOPHORES:1||ACUTE LUNG INJURY:1||spatial resolution:1||BETAFESI2:1||VLSI:1||SI1XGEX:1||COLLOIDAL SUSPENSIONS:1||ELECTRONICS:1||ENHANCEMENT:1||artificial lattice:1||sinters:1||SILVER:1||STRAIN RELAXATION:1||biaxial texture:1||synchrotron scattering:1||transmission electron microscopy:1||IRONOXIDE FILMS:1||PZT thin film:1||ferroelectric thin film:1||MISFIT RELAXATION MECHANISMS:1||PBTIO3:1||O2:1||CONDUCTING POLYMERS:1||poly(methylmethancrylate):1||microspheres:1||phase contrast Xray microscope:1||AMBIENT AIR:1||ATMOSPHERE:1||XRAY INTERFEROMETER:1||NiAu composite nanoparticles.:1||synchrotron radiation Xrays:1||microtomography:1||OIL FLYASH:1||zinc oxide:1||mammography:1||SrRuO3 film:1||Laser epitaxy:1||HOLE MOBILITY:1||Models of crystal defects:1||RABBIT LUNGS:1||NI/AU CONTACT:1||3D printing:1||Stress relaxation:1||SURFACEAREA:1||IMAGE:1||modulation transfer function (MTF):1||Pb ions:1||Insitu visualization:1||Interfacial tension:1||DISPERSION FORCES:1||SINGLECRYSTALS:1||XRAY SOURCE:1||Synchrotron Xray imaging:1||Realtime imaging:1||MEDICAL APPLICATIONS:1||wiggler bending magnet:1||undulator:1||diffractionenhanced imaging:1||ZnO film:1||CAPACITORS:1||HE3:1||NiP alloy:1||PHOTOCHEMICAL FORMATION:1||extended domain matching:1||cubetextured Ni substrates:1||RAY COMPUTEDTOMOGRAPHY:1||electrode layer:1||DOMAINSTRUCTURE:1||XRAY CT:1||SPECIMEN:1||mammographic phantom:1||Xray absorption spectroscopy:1||BLUE:1||CONTACT:1||(BA:1||synchrotron spectromicroscopy:1||thin film:1||MICROWAVE PLASMA:1||GOLD NANOPARTICLES:1||POLYMERIZATION:1||DISEASE:1||Shanghai:1||MORTALITY:1||HETEROSTRUCTURES:1||METHACRYLATE:1||prostate cancer:1||renal cell carcinoma:1||RATS:1||PULSEDLASER DEPOSITION:1||semiconducting IIVI materials:1||PATTERNS:1||sapphire:1||evaporation:1||ZINCOXIDE:1||LIGHTEMITTING DIODE:1||Synchrotron imaging:1||Dislocations:1||Cracks:1||LIVE:1||spinal cord:1||stainless steel:1||nanophotonics:1||subwavelength waveguides:1||Synchrotrons:1||High dislocation density:1||Misfit stress relaxations:1||Randomly distributed:1||Tripleaxis xray diffractions:1||FLOW:1||CRYSTALLINE ORGANIC NANORODS:1||SHAPE CHANGES:1||ZnO thin film:1||(111)SI:1||XRAY MIRRORS:1||low temperature:1||oxide cathodes:1||heterogeneity:1||Xray microscopy:1||INTERFACIAL TENSIONS:1||single crystal growth:1||CARCINOMA:1||mouse:1||ANIMALS:1||Mndoped ZnO:1||luminescence:1||solution precipitation:1||CLUSTER:1||relaxation:1||ALPHAFE2O3:1||XANES:1||epitaxy:1||LaNiO3 thin film:1||LANIO3 THINFILMS:1||ELECTRODE:1||Fe3O4 sublayer:1||EXAFS microscopy:1||FERRITE FILMS:1||SURFACE PRETREATMENTS:1||superconductors:1||CONTRAST AGENT:1||BIODISTRIBUTION:1||DEATH:1||SYNCHROTRON:1||IR:1||apo Eknockout 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GaN:4||MICROSCOPY:4||REDUCTION:4||POLYMER:4||DEFECTS:3||COHERENCE:3||MICROTOMOGRAPHY:3||NANOPARTICLES:3||synchrotron:3||LIGHT:3||TRANSISTORS:3||SURFACES:3||STRAIN:3||EPITAXIAL LAYERS:3||DRUGDELIVERY:3||REFRACTION:3||growth mechanism:3||METALS:3||MICROPIPES:3||SYSTEM:3||NUCLEATION:3||synchrotron Xray scattering:3||SURFACE:3||SCREW DISLOCATIONS:3||SIMULATION:3||HARD XRAYS:3||ELECTRICALPROPERTIES:3||EPITAXY:3||GAN:3||PM2.5:3||EVAPORATION:3||LIQUIDS:3||INPLANE:3||RAT:3||ANGIOGENESIS:3||CT:3||GaN:3||ZnO:3||NANORODS:3||strain:3||PB(ZR0.53TI0.47)O3:3||CRYSTALLIZATION:3||synchrotron Xrays:2||buffer layer:2||TRANSMISSION ELECTRONMICROSCOPY:2||EPITAXIAL COSI2 FILMS:2||MECHANISMS:2||INSITU GROWTH:2||DEVICE:2||LOCALIZED ELECTROCHEMICAL DEPOSITION:2||X ray diffraction:2||SCHOTTKY CONTACT:2||IRRADIATION:2||aqua regia treatment:2||INVIVO:2||CELLADHESION:2||MORPHOGENETIC PROTEIN2:2||RECEPTOR:2||TEM:2||broadband synchrotron light:2||nanoparticle:2||BUFFER LAYERS:2||TC:2||ENHANCED SYNCHROTRON RADIOLOGY:2||synthesis:2||POLYDIMETHYLSILOXANE:2||MICROCHANNELS:2||PRETREATMENT PROCESS:2||XRAY:2||CHEMOTAXIS:2||MECHANOSENSORY TRANSDUCTION:2||rectangular microtube:2||CONJUGATED POLYMER:2||atomic force microscopy:2||METALLIC OXIDE SRRUO3:2||LASERABLATION:2||STRESS:2||ZONE PLATES:2||FRICTION:2||THERMALSTABILITY:2||Xrays:2||RAY:2||NM:2||ENERGY:2||TOPOGRAPHY:2||synchrotron Xray:2||ACID HYDROGELS:2||CAENORHABDITISELEGANS:2||PROTEIN:2||defects:2||EVOLUTION:2||FABRICATION:2||sharp bending waveguide:2||lasing action:2||BULK CRYSTALS:2||SUPERLATTICES:2||COATED CONDUCTORS:2||SI(111):2||phase contrast:2||CORONARY ANGIOGRAPHY:2||SPECTROMICROSCOPY:2||MEPHISTO:2||OXYGEN:2||OPTICALPROPERTIES:2||RADIOGRAPHY:2||CONTACT DEFORMATIONS:2||MOLECULAR FORCES:2||SOLIDS:2||NTYPE GAN:2||deposition:2||CHEMISTRY:2||DEFORMATION:2||SUBSTRATE:2||HETEROEPITAXY:2||NANOTOPOGRAPHY:2||EPITAXIALGROWTH:2||Xray:2||CHEMICAL VAPORDEPOSITION:2||SILICON STRUCTURES:2||STEMCELLS:2||CHANNEL:2||crystal structure:2||CORONARYANGIOGRAPHY:2||SiC:2||BUFFER LAYER:2||MOLECULARBEAM EPITAXY:2||INTERFACE:2||SIZE:2||ELECTRON:2||XRAY MICROSCOPY:2||MORPHOLOGIES:2||NANOCOLLOIDS:2||FORCE MICROSCOPY:2||ablation:2||polymers:2||(NH4)(2)Sx treatment:2||CLUSTERS:2||BIOMATERIALS:2||CIRCUITS:2||rectangular ring mode:2||GUIDES:2||MICROCAVITY:2||PHOTOLUMINESCENCE:2||epitaxial growth:2||EMBRITTLEMENT:2||Xray imaging:2||BIOCOMPATIBILITY:2||BEHAVIOR:2||MICROWAVEPLASMA:2||LOWPRESSURE:2||DEGRADATION:2||TISSUE:2||LIQUID:2||SOFT LITHOGRAPHY:2||amplified spontaneous emission (ASE):2||SMALL ORGANICMOLECULES:2||PHOTONIC CRYSTAL:2||micropipes:2||radiology:2||ALLOY:2||Xray scattering:2||CRITICALCURRENT DENSITY:2||ELECTRONMICROSCOPY:2||BI(PB)SRCACUO:2||ELECTRONICSTRUCTURE:2||RECONSTRUCTION:2||MG:2||ohmic contact:2||Pd ohmic contact:2||xray scattering:2||INP:2||annealing:2||REGENERATION:2||TITANIUM:2||COLLOIDAL GOLD:2||crystallization:2||BUCKLING MECHANICS:2||LASERS:2||MODES:2||synchrotron imaging:2||lattice distortion:2||AQUEOUSELECTROLYTE:2||MOLECULARDYNAMICS:2||OXIDE:2||MICROANGIOGRAPHY:2||OXIDATION:2||MICRORADIOLOGY:2||TECHNOLOGY:2||GE:2||surface chemistry:2||RECOVERY:2||OHMIC CONTACTS:2||LASERDIODES:2||PTYPE GAN:2||MOTION:2||PHANTOM:2||PHASE:2||CALCIUMPHOSPHATE CERAMICS:2||REPAIR:2||porphyrin:2||AMPLIFIED SPONTANEOUS EMISSION:2||METALELECTRODES:2||PD:2||SUPERCONDUCTING TAPES:2||nucleation:2||COATINGS:2||Xray topography:2||MONOLAYERS:2||SURFACE MODIFICATION:2||LITHOGRAPHY:2||MECHANICAL VENTILATION:1||MICRORIBBONS:1||STIFFNESS:1||DUALPHASE STEEL:1||growth mode:1||strain evolution:1||SI(100):1||ANISOTROPY:1||WET GRANULAR PILE:1||COALESCENCE:1||INSITU POLYMERIZATION:1||GRAPHENE:1||CANCER:1||NODULES:1||RABBITS:1||phasecontrast:1||YTTRIUMOXIDE FILMS:1||BaTiO3/SrTiO3:1||dental implant:1||coincidence site density:1||ERNI2B2C:1||crystallites:1||CoCrPt films:1||tensile strain:1||gallide:1||MGO:1||Baferrite film:1||synchrotron xray scattering:1||ZNO THINFILMS:1||MORPHOLOGY:1||PHASES:1||MICE:1||EBEAM LITHOGRAPHY:1||electrorheological fluids:1||NANOFIBROUS MEMBRANES:1||NANOLITHOGRAPHY:1||refractive index radiology:1||BLOOD:1||colloidal:1||SIZE CONTROL:1||nanoradiology:1||ZnSO4:1||lung injury:1||METAL:1||PM10:1||textured grain:1||MICROSTRUCTURE:1||DIMENSIONS:1||highresolution Xray diffraction:1||low temperature buffer:1||Zinc compounds:1||SI:1||HUMAN LONGEVITY:1||Maximum human lifespan:1||LIMITS:1||MOSFETS:1||in situ XANES:1||nanowires:1||PHOTOIRRADIATION:1||FIBERS:1||WORK:1||EMISSION:1||RADIATION MICROTOMOGRAPHY:1||RAMANSCATTERING:1||gold nanoparticles:1||synchrotron Xray diffraction:1||OPTICAL WAVEGUIDES:1||CONDUCTINGPOLYMER NANOWIRE:1||Lung cancer:1||INTRAVENOUS CORONARYARTERIOGRAPHY:1||SUBLIMATION GROWTH:1||radiography:1||porous SiC:1||GIANT MAGNETORESISTANCE:1||SEMICONDUCTORS:1||Ga diffusion:1||electroless deposition:1||HEMATITE:1||FREEELECTRON LASER:1||MOCVD:1||interfaces:1||white beam:1||imaging technique:1||nucleation 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Xray:1||BIPOLARTRANSISTORS:1||longevity:1||Confocal microscopy:1||Colloidal wettability:1||ATOMICFORCE MICROSCOPY:1||storage ring:1||digital subtraction:1||SCATTERING:1||size effect:1||SYNTHETIC QUARTZ:1||liquid metal embrittlement:1||iron ore:1||cube textured Ni substrates:1||SrRuO3 films:1||laser ablations:1||Ti underlayer:1||RANDOMACCESS MEMORIES:1||DOMAIN CONFIGURATIONS:1||MGO(100):1||SPECTROSCOPY:1||XE:1||IONBEAM:1||GRAINBOUNDARY MIGRATION:1||SRTIO3:1||COMPOSITES:1||FOAMS:1||BREASTCANCER SPECIMENS:1||unmonochromatized:1||Xray induced nucleation:1||gold:1||ABSORPTION:1||SEPARATION:1||CZOCHRALSKI GROWTH:1||RETRIEVAL:1||GAMMARADIATION:1||AQUEOUSSOLUTION:1||NANOCOMPOSITES:1||INCREASE:1||without staining procedure:1||XPS:1||Imaging techniques:1||Interfaces (materials):1||Dislocation distributions:1||AZOBENZENE:1||STRUCTURAL EVOLUTION:1||RELAXATION:1||DROP IMPACT:1||NONLINEAR DYNAMICS:1||DISLOCATIONS:1||Colloids:1||TRANSFORMATION:1||METAL INTERCONNECTS:1||ELASTIC CONDUCTORS:1||LOGIC:1||DEFICIENT MICE:1||tomography:1||FACILITY:1||osseointegration:1||ROCKS:1||dental radiography:1||Zn coating:1||RE2O3/Ni:1||YBCO COATED CONDUCTORS:1||threedimensional islands:1||(Ba,Sr)TiO3:1||ultrahigh resolution:1||photoelectron emission:1||Pd:1||LANIO3:1||BASE ELECTRODES:1||iron oxide phase:1||ironoxide interlayer:1||COATED GLASS SUBSTRATE:1||MICROWAVE PLASMA NUCLEATION:1||ENHANCED NUCLEATION:1||phase transformation:1||ADSORPTION:1||phasecontrast xray imaging:1||lung inflammation:1||SI1XGEX SINGLECRYSTALS:1||COCONTINUITY:1||SCALE:1||OBJECT:1||synchrotron microradiography:1||FeSO4:1||INDUCTION:1||BaTiO3 and SrTiO3 thin films:1||HARDXRAYS:1||light emitting diodes:1||ACID:1||MICROSTRUCTURES:1||PHOTOLUMINESCENCE PROPERTIES:1||LASER IRRADIATION:1||Human aging:1||polychromatic synchrotron Xray:1||refraction enhanced imaging:1||CHROMOPHORES:1||ACUTE LUNG INJURY:1||spatial resolution:1||BETAFESI2:1||VLSI:1||SI1XGEX:1||COLLOIDAL SUSPENSIONS:1||ELECTRONICS:1||ENHANCEMENT:1||artificial lattice:1||sinters:1||SILVER:1||STRAIN RELAXATION:1||biaxial texture:1||synchrotron scattering:1||transmission electron microscopy:1||IRONOXIDE FILMS:1||PZT thin film:1||ferroelectric thin film:1||MISFIT RELAXATION MECHANISMS:1||PBTIO3:1||O2:1||CONDUCTING POLYMERS:1||poly(methylmethancrylate):1||microspheres:1||phase contrast Xray microscope:1||AMBIENT AIR:1||ATMOSPHERE:1||XRAY INTERFEROMETER:1||NiAu composite nanoparticles.:1||synchrotron radiation Xrays:1||microtomography:1||OIL FLYASH:1||zinc oxide:1||mammography:1||SrRuO3 film:1||Laser epitaxy:1||HOLE MOBILITY:1||Models of crystal defects:1||RABBIT LUNGS:1||NI/AU CONTACT:1||3D printing:1||Stress relaxation:1||SURFACEAREA:1||IMAGE:1||modulation transfer function (MTF):1||Pb ions:1||Insitu visualization:1||Interfacial tension:1||DISPERSION FORCES:1||SINGLECRYSTALS:1||XRAY SOURCE:1||Synchrotron Xray imaging:1||Realtime imaging:1||MEDICAL APPLICATIONS:1||wiggler bending magnet:1||undulator:1||diffractionenhanced imaging:1||ZnO film:1||CAPACITORS:1||HE3:1||NiP alloy:1||PHOTOCHEMICAL FORMATION:1||extended domain matching:1||cubetextured Ni substrates:1||RAY COMPUTEDTOMOGRAPHY:1||electrode layer:1||DOMAINSTRUCTURE:1||XRAY CT:1||SPECIMEN:1||mammographic phantom:1||Xray absorption spectroscopy:1||BLUE:1||CONTACT:1||(BA:1||synchrotron spectromicroscopy:1||thin film:1||MICROWAVE PLASMA:1||GOLD NANOPARTICLES:1||POLYMERIZATION:1||DISEASE:1||Shanghai:1||MORTALITY:1||HETEROSTRUCTURES:1||METHACRYLATE:1||prostate cancer:1||renal cell carcinoma:1||RATS:1||PULSEDLASER DEPOSITION:1||semiconducting IIVI materials:1||PATTERNS:1||sapphire:1||evaporation:1||ZINCOXIDE:1||LIGHTEMITTING DIODE:1||Synchrotron imaging:1||Dislocations:1||Cracks:1||LIVE:1||spinal cord:1||stainless steel:1||nanophotonics:1||subwavelength waveguides:1||Synchrotrons:1||High dislocation density:1||Misfit stress relaxations:1||Randomly distributed:1||Tripleaxis xray diffractions:1||FLOW:1||CRYSTALLINE ORGANIC NANORODS:1||SHAPE CHANGES:1||ZnO thin film:1||(111)SI:1||XRAY MIRRORS:1||low temperature:1||oxide cathodes:1||heterogeneity:1||Xray microscopy:1||INTERFACIAL TENSIONS:1||single crystal growth:1||CARCINOMA:1||mouse:1||ANIMALS:1||Mndoped ZnO:1||luminescence:1||solution precipitation:1||CLUSTER:1||relaxation:1||ALPHAFE2O3:1||XANES:1||epitaxy:1||LaNiO3 thin film:1||LANIO3 THINFILMS:1||ELECTRODE:1||Fe3O4 sublayer:1||EXAFS microscopy:1||FERRITE FILMS:1||SURFACE PRETREATMENTS:1||superconductors:1||CONTRAST AGENT:1||BIODISTRIBUTION:1||DEATH:1||SYNCHROTRON:1||IR:1||apo Eknockout mouse:1||plaque:1||microradiology:1||ALPHASYNUCLEIN:1||PULMONARY TOXICITY:1||XRAY TOPOGRAPHY:1||dislocation:1||metalorganic chemical vapor deposition:1||CRYSTALGROWTH:1||SELFASSEMBLED MONOLAYERS:1||MEMBRANES:1||MAGNETICANISOTROPY:1||SI1XGEX CRYSTALS:1||STRAINEDSI:1||Extended Weibull model:1||MOLYBDENUM:1||ALLOYS:1||IRON:1||Theoretical modeling:1||Threading dislocation:1||GROWTH:27||THINFILMS:16||SYNCHROTRONRADIATION:15||CONTRAST:11||RADIOLOGY:11||PARTICLES:11||FILMS:11||SILICON:10||RADIATION:10||DEPOSITION:10||RESOLUTION:9||CRYSTALS:8||SILICONCARBIDE:7||XRAYS:7||MAMMOGRAPHY:7||Xray diffraction:7||synchrotron radiation:6||XRAYSCATTERING:6||MODEL:6||microstructure:6||DYNAMICS:5||ELECTRODEPOSITION:5||LAYERS:5||CHEMICALVAPORDEPOSITION:5||TEMPERATURE:5||TOMOGRAPHY:5||COMPUTEDTOMOGRAPHY:5||SAPPHIRE:5||MEDIA:5||NANOWIRES:5||DIFFRACTION:4||TISSUES:4||pulsed laser deposition:4||phase contrast imaging:4||LAYER:4||IMAGES:4||DIODES:4||FIELDEFFECT TRANSISTORS:4||ptype GaN:4||MICROSCOPY:4||REDUCTION:4||POLYMER:4||DEFECTS:3||COHERENCE:3||MICROTOMOGRAPHY:3||NANOPARTICLES:3||synchrotron:3||LIGHT:3||TRANSISTORS:3||SURFACES:3||STRAIN:3||EPITAXIAL LAYERS:3||DRUGDELIVERY:3||REFRACTION:3||growth mechanism:3||METALS:3||MICROPIPES:3||SYSTEM:3||NUCLEATION:3||synchrotron Xray scattering:3||SURFACE:3||SCREW DISLOCATIONS:3||SIMULATION:3||HARD XRAYS:3||ELECTRICALPROPERTIES:3||EPITAXY:3||GAN:3||PM2.5:3||EVAPORATION:3||LIQUIDS:3||INPLANE:3||RAT:3||ANGIOGENESIS:3||CT:3||GaN:3||ZnO:3||NANORODS:3||strain:3||PB(ZR0.53TI0.47)O3:3||CRYSTALLIZATION:3||synchrotron Xrays:2||buffer layer:2||TRANSMISSION ELECTRONMICROSCOPY:2||EPITAXIAL COSI2 FILMS:2||MECHANISMS:2||INSITU GROWTH:2||DEVICE:2||LOCALIZED ELECTROCHEMICAL DEPOSITION:2||X ray diffraction:2||SCHOTTKY CONTACT:2||IRRADIATION:2||aqua regia treatment:2||INVIVO:2||CELLADHESION:2||MORPHOGENETIC PROTEIN2:2||RECEPTOR:2||TEM:2||broadband synchrotron light:2||nanoparticle:2||BUFFER LAYERS:2||TC:2||ENHANCED SYNCHROTRON RADIOLOGY:2||synthesis:2||POLYDIMETHYLSILOXANE:2||MICROCHANNELS:2||PRETREATMENT PROCESS:2||XRAY:2||CHEMOTAXIS:2||MECHANOSENSORY TRANSDUCTION:2||rectangular microtube:2||CONJUGATED POLYMER:2||atomic force microscopy:2||METALLIC OXIDE SRRUO3:2||LASERABLATION:2||STRESS:2||ZONE PLATES:2||FRICTION:2||THERMALSTABILITY:2||Xrays:2||RAY:2||NM:2||ENERGY:2||TOPOGRAPHY:2||synchrotron Xray:2||ACID HYDROGELS:2||CAENORHABDITISELEGANS:2||PROTEIN:2||defects:2||EVOLUTION:2||FABRICATION:2||sharp bending waveguide:2||lasing action:2||BULK CRYSTALS:2||SUPERLATTICES:2||COATED CONDUCTORS:2||SI(111):2||phase contrast:2||CORONARY ANGIOGRAPHY:2||SPECTROMICROSCOPY:2||MEPHISTO:2||OXYGEN:2||OPTICALPROPERTIES:2||RADIOGRAPHY:2||CONTACT DEFORMATIONS:2||MOLECULAR FORCES:2||SOLIDS:2||NTYPE GAN:2||deposition:2||CHEMISTRY:2||DEFORMATION:2||SUBSTRATE:2||HETEROEPITAXY:2||NANOTOPOGRAPHY:2||EPITAXIALGROWTH:2||Xray:2||CHEMICAL VAPORDEPOSITION:2||SILICON STRUCTURES:2||STEMCELLS:2||CHANNEL:2||crystal structure:2||CORONARYANGIOGRAPHY:2||SiC:2||BUFFER LAYER:2||MOLECULARBEAM EPITAXY:2||INTERFACE:2||SIZE:2||ELECTRON:2||XRAY MICROSCOPY:2||MORPHOLOGIES:2||NANOCOLLOIDS:2||FORCE MICROSCOPY:2||ablation:2||polymers:2||(NH4)(2)Sx treatment:2||CLUSTERS:2||BIOMATERIALS:2||CIRCUITS:2||rectangular ring mode:2||GUIDES:2||MICROCAVITY:2||PHOTOLUMINESCENCE:2||epitaxial growth:2||EMBRITTLEMENT:2||Xray imaging:2||BIOCOMPATIBILITY:2||BEHAVIOR:2||MICROWAVEPLASMA:2||LOWPRESSURE:2||DEGRADATION:2||TISSUE:2||LIQUID:2||SOFT LITHOGRAPHY:2||amplified spontaneous emission (ASE):2||SMALL ORGANICMOLECULES:2||PHOTONIC CRYSTAL:2||micropipes:2||radiology:2||ALLOY:2||Xray scattering:2||CRITICALCURRENT DENSITY:2||ELECTRONMICROSCOPY:2||BI(PB)SRCACUO:2||ELECTRONICSTRUCTURE:2||RECONSTRUCTION:2||MG:2||ohmic contact:2||Pd ohmic contact:2||xray scattering:2||INP:2||annealing:2||REGENERATION:2||TITANIUM:2||COLLOIDAL GOLD:2||crystallization:2||BUCKLING MECHANICS:2||LASERS:2||MODES:2||synchrotron imaging:2||lattice distortion:2||AQUEOUSELECTROLYTE:2||MOLECULARDYNAMICS:2||OXIDE:2||MICROANGIOGRAPHY:2||OXIDATION:2||MICRORADIOLOGY:2||TECHNOLOGY:2||GE:2||surface chemistry:2||RECOVERY:2||OHMIC CONTACTS:2||LASERDIODES:2||PTYPE GAN:2||MOTION:2||PHANTOM:2||PHASE:2||CALCIUMPHOSPHATE CERAMICS:2||REPAIR:2||porphyrin:2||AMPLIFIED SPONTANEOUS EMISSION:2||METALELECTRODES:2||PD:2||SUPERCONDUCTING TAPES:2||nucleation:2||COATINGS:2||Xray topography:2||MONOLAYERS:2||SURFACE MODIFICATION:2||LITHOGRAPHY:2||MECHANICAL VENTILATION:1||MICRORIBBONS:1||STIFFNESS:1||DUALPHASE STEEL:1||growth mode:1||strain evolution:1||SI(100):1||ANISOTROPY:1||WET GRANULAR PILE:1||COALESCENCE:1||INSITU POLYMERIZATION:1||GRAPHENE:1||CANCER:1||NODULES:1||RABBITS:1||phasecontrast:1||YTTRIUMOXIDE FILMS:1||BaTiO3/SrTiO3:1||dental implant:1||coincidence site density:1||ERNI2B2C:1||crystallites:1||CoCrPt films:1||tensile strain:1||gallide:1||MGO:1||Baferrite film:1||synchrotron xray scattering:1||ZNO THINFILMS:1||MORPHOLOGY:1||PHASES:1||MICE:1||EBEAM LITHOGRAPHY:1||electrorheological fluids:1||NANOFIBROUS MEMBRANES:1||NANOLITHOGRAPHY:1||refractive index radiology:1||BLOOD:1||colloidal:1||SIZE CONTROL:1||nanoradiology:1||ZnSO4:1||lung injury:1||METAL:1||PM10:1||textured grain:1||MICROSTRUCTURE:1||DIMENSIONS:1||highresolution Xray diffraction:1||low temperature buffer:1||Zinc compounds:1||SI:1||HUMAN LONGEVITY:1||Maximum human lifespan:1||LIMITS:1||MOSFETS:1||in situ XANES:1||nanowires:1||PHOTOIRRADIATION:1||FIBERS:1||WORK:1||EMISSION:1||RADIATION MICROTOMOGRAPHY:1||RAMANSCATTERING:1||gold nanoparticles:1||synchrotron Xray diffraction:1||OPTICAL WAVEGUIDES:1||CONDUCTINGPOLYMER NANOWIRE:1||Lung cancer:1||INTRAVENOUS CORONARYARTERIOGRAPHY:1||SUBLIMATION GROWTH:1||radiography:1||porous SiC:1||GIANT MAGNETORESISTANCE:1||SEMICONDUCTORS:1||Ga diffusion:1||electroless deposition:1||HEMATITE:1||FREEELECTRON LASER:1||MOCVD:1||interfaces:1||white beam:1||imaging technique:1||nucleation layer:1||interface structure:1||epitaxial Baferrite film:1||rf magnetron sputtering:1||MAGNETIC CHARACTERISTICS:1||MIXTURE:1||ACCESS MEMORY APPLICATION:1||COHERENCY STRAIN:1||DENSITY:1||nanofabrication:1||POLY(METHYL METHACRYLATE) MICROSPHERE:1||RESIST:1||unmonochromatic beam:1||MICRORADIOGRAPHY:1||INTERFEROMETER:1||EXPOSURE:1||volume variation electronic:1||PULSEDLASER ABLATION:1||Semiconducting IIVI materials:1||Light emitting diodes:1||phase contrast microscopies:1||lung:1||AUGERELECTRON SPECTROSCOPY:1||passivation:1||additive manufacturing:1||Silicon carbide:1||Synchrotron radiation:1||Synchrotron radiation imaging:1||Dislocations (crystals):1||LUNG INJURY:1||POLYMER SURFACES:1||SINGLE CELLS:1||PREFERRED ORIENTATION:1||sapphire orientation:1||TANTALUM:1||BIASENHANCED NUCLEATION:1||hexaferrite:1||stretched exponential:1||SOLIDSURFACE:1||SHEAR:1||VIDEO MICROSCOPY:1||CARBON NANOTUBES:1||realtime observation:1||Xray synchrotron:1||CARBONMONOXIDE:1||ELECTROCHEMICAL FABRICATION:1||crystal growth:1||computer simulation:1||FERROELECTRICFILMS:1||TITANIUM IMPLANTS:1||BONE INTERFACE:1||EXAFS perpendicular magnetic recording:1||Pd/Ni:1||ELECTRODES:1||internal organ:1||LIGHTEMITTINGDIODES:1||interfacial structure:1||CONSTANT:1||DIELECTRICPROPERTIES:1||AR:1||DEVICES:1||BiSrCaCuO:1||LASER ABLATION:1||MECHANISM:1||SELECTIVE DEPOSITION:1||TARGETED DRUGDELIVERY:1||PEG:1||carbon 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CONFIGURATIONS:1||MGO(100):1||SPECTROSCOPY:1||XE:1||IONBEAM:1||GRAINBOUNDARY MIGRATION:1||SRTIO3:1||COMPOSITES:1||FOAMS:1||BREASTCANCER SPECIMENS:1||unmonochromatized:1||Xray induced nucleation:1||gold:1||ABSORPTION:1||SEPARATION:1||CZOCHRALSKI GROWTH:1||RETRIEVAL:1||GAMMARADIATION:1||AQUEOUSSOLUTION:1||NANOCOMPOSITES:1||INCREASE:1||without staining procedure:1||XPS:1||Imaging techniques:1||Interfaces (materials):1||Dislocation distributions:1||AZOBENZENE:1||STRUCTURAL EVOLUTION:1||RELAXATION:1||DROP IMPACT:1||NONLINEAR DYNAMICS:1||DISLOCATIONS:1||Colloids:1||TRANSFORMATION:1||METAL INTERCONNECTS:1||ELASTIC CONDUCTORS:1||LOGIC:1||DEFICIENT MICE:1||tomography:1||FACILITY:1||osseointegration:1||ROCKS:1||dental radiography:1||Zn coating:1||RE2O3/Ni:1||YBCO COATED CONDUCTORS:1||threedimensional islands:1||(Ba,Sr)TiO3:1||ultrahigh resolution:1||photoelectron emission:1||Pd:1||LANIO3:1||BASE ELECTRODES:1||iron oxide phase:1||ironoxide interlayer:1||COATED GLASS SUBSTRATE:1||MICROWAVE PLASMA NUCLEATION:1||ENHANCED NUCLEATION:1||phase transformation:1||ADSORPTION:1||phasecontrast xray imaging:1||lung inflammation:1||SI1XGEX SINGLECRYSTALS:1||COCONTINUITY:1||SCALE:1||OBJECT:1||synchrotron microradiography:1||FeSO4:1||INDUCTION:1||BaTiO3 and SrTiO3 thin films:1||HARDXRAYS:1||light emitting diodes:1||ACID:1||MICROSTRUCTURES:1||PHOTOLUMINESCENCE PROPERTIES:1||LASER IRRADIATION:1||Human aging:1||polychromatic synchrotron Xray:1||refraction enhanced imaging:1||CHROMOPHORES:1||ACUTE LUNG INJURY:1||spatial resolution:1||BETAFESI2:1||VLSI:1||SI1XGEX:1||COLLOIDAL SUSPENSIONS:1||ELECTRONICS:1||ENHANCEMENT:1||artificial lattice:1||sinters:1||SILVER:1||STRAIN RELAXATION:1||biaxial texture:1||synchrotron scattering:1||transmission electron microscopy:1||IRONOXIDE FILMS:1||PZT thin film:1||ferroelectric thin film:1||MISFIT RELAXATION MECHANISMS:1||PBTIO3:1||O2:1||CONDUCTING POLYMERS:1||poly(methylmethancrylate):1||microspheres:1||phase contrast Xray microscope:1||AMBIENT AIR:1||ATMOSPHERE:1||XRAY INTERFEROMETER:1||NiAu composite nanoparticles.:1||synchrotron radiation Xrays:1||microtomography:1||OIL FLYASH:1||zinc oxide:1||mammography:1||SrRuO3 film:1||Laser epitaxy:1||HOLE MOBILITY:1||Models of crystal defects:1||RABBIT LUNGS:1||NI/AU CONTACT:1||3D printing:1||Stress relaxation:1||SURFACEAREA:1||IMAGE:1||modulation transfer function (MTF):1||Pb ions:1||Insitu visualization:1||Interfacial tension:1||DISPERSION FORCES:1||SINGLECRYSTALS:1||XRAY SOURCE:1||Synchrotron Xray imaging:1||Realtime imaging:1||MEDICAL APPLICATIONS:1||wiggler bending magnet:1||undulator:1||diffractionenhanced imaging:1||ZnO film:1||CAPACITORS:1||HE3:1||NiP alloy:1||PHOTOCHEMICAL FORMATION:1||extended domain matching:1||cubetextured Ni substrates:1||RAY COMPUTEDTOMOGRAPHY:1||electrode layer:1||DOMAINSTRUCTURE:1||XRAY CT:1||SPECIMEN:1||mammographic phantom:1||Xray absorption spectroscopy:1||BLUE:1||CONTACT:1||(BA:1||synchrotron spectromicroscopy:1||thin film:1||MICROWAVE PLASMA:1||GOLD NANOPARTICLES:1||POLYMERIZATION:1||DISEASE:1||Shanghai:1||MORTALITY:1||HETEROSTRUCTURES:1||METHACRYLATE:1||prostate cancer:1||renal cell carcinoma:1||RATS:1||PULSEDLASER DEPOSITION:1||semiconducting IIVI materials:1||PATTERNS:1||sapphire:1||evaporation:1||ZINCOXIDE:1||LIGHTEMITTING DIODE:1||Synchrotron imaging:1||Dislocations:1||Cracks:1||LIVE:1||spinal cord:1||stainless steel:1||nanophotonics:1||subwavelength waveguides:1||Synchrotrons:1||High dislocation density:1||Misfit stress relaxations:1||Randomly distributed:1||Tripleaxis xray diffractions:1||FLOW:1||CRYSTALLINE ORGANIC NANORODS:1||SHAPE CHANGES:1||ZnO thin film:1||(111)SI:1||XRAY MIRRORS:1||low temperature:1||oxide cathodes:1||heterogeneity:1||Xray microscopy:1||INTERFACIAL TENSIONS:1||single crystal growth:1||CARCINOMA:1||mouse:1||ANIMALS:1||Mndoped ZnO:1||luminescence:1||solution precipitation:1||CLUSTER:1||relaxation:1||ALPHAFE2O3:1||XANES:1||epitaxy:1||LaNiO3 thin film:1||LANIO3 THINFILMS:1||ELECTRODE:1||Fe3O4 sublayer:1||EXAFS microscopy:1||FERRITE FILMS:1||SURFACE PRETREATMENTS:1||superconductors:1||CONTRAST AGENT:1||BIODISTRIBUTION:1||DEATH:1||SYNCHROTRON:1||IR:1||apo Eknockout mouse:1||plaque:1||microradiology:1||ALPHASYNUCLEIN:1||PULMONARY TOXICITY:1||XRAY TOPOGRAPHY:1||dislocation:1||metalorganic chemical vapor deposition:1||CRYSTALGROWTH:1||SELFASSEMBLED MONOLAYERS:1||MEMBRANES:1||MAGNETICANISOTROPY:1||SI1XGEX CRYSTALS:1||STRAINEDSI:1||Extended Weibull model:1||MOLYBDENUM:1||ALLOYS:1||IRON:1||Theoretical modeling:1||Threading dislocation:1||GROWTH:27||THINFILMS:16||SYNCHROTRONRADIATION:15||CONTRAST:11||RADIOLOGY:11||PARTICLES:11||FILMS:11||SILICON:10||RADIATION:10||DEPOSITION:10||RESOLUTION:9||CRYSTALS:8||SILICONCARBIDE:7||XRAYS:7||MAMMOGRAPHY:7||Xray diffraction:7||synchrotron radiation:6||XRAYSCATTERING:6||MODEL:6||microstructure:6||DYNAMICS:5||ELECTRODEPOSITION:5||LAYERS:5||CHEMICALVAPORDEPOSITION:5||TEMPERATURE:5||TOMOGRAPHY:5||COMPUTEDTOMOGRAPHY:5||SAPPHIRE:5||MEDIA:5||NANOWIRES:5||DIFFRACTION:4||TISSUES:4||pulsed laser deposition:4||phase contrast imaging:4||LAYER:4||IMAGES:4||DIODES:4||FIELDEFFECT TRANSISTORS:4||ptype GaN:4||MICROSCOPY:4||REDUCTION:4||POLYMER:4||DEFECTS:3||COHERENCE:3||MICROTOMOGRAPHY:3||NANOPARTICLES:3||synchrotron:3||LIGHT:3||TRANSISTORS:3||SURFACES:3||STRAIN:3||EPITAXIAL LAYERS:3||DRUGDELIVERY:3||REFRACTION:3||growth mechanism:3||METALS:3||MICROPIPES:3||SYSTEM:3||NUCLEATION:3||synchrotron Xray scattering:3||SURFACE:3||SCREW DISLOCATIONS:3||SIMULATION:3||HARD XRAYS:3||ELECTRICALPROPERTIES:3||EPITAXY:3||GAN:3||PM2.5:3||EVAPORATION:3||LIQUIDS:3||INPLANE:3||RAT:3||ANGIOGENESIS:3||CT:3||GaN:3||ZnO:3||NANORODS:3||strain:3||PB(ZR0.53TI0.47)O3:3||CRYSTALLIZATION:3||synchrotron Xrays:2||buffer layer:2||TRANSMISSION ELECTRONMICROSCOPY:2||EPITAXIAL COSI2 FILMS:2||MECHANISMS:2||INSITU GROWTH:2||DEVICE:2||LOCALIZED ELECTROCHEMICAL DEPOSITION:2||X ray diffraction:2||SCHOTTKY CONTACT:2||IRRADIATION:2||aqua regia treatment:2||INVIVO:2||CELLADHESION:2||MORPHOGENETIC PROTEIN2:2||RECEPTOR:2||TEM:2||broadband synchrotron light:2||nanoparticle:2||BUFFER LAYERS:2||TC:2||ENHANCED SYNCHROTRON RADIOLOGY:2||synthesis:2||POLYDIMETHYLSILOXANE:2||MICROCHANNELS:2||PRETREATMENT PROCESS:2||XRAY:2||CHEMOTAXIS:2||MECHANOSENSORY TRANSDUCTION:2||rectangular microtube:2||CONJUGATED POLYMER:2||atomic force microscopy:2||METALLIC OXIDE SRRUO3:2||LASERABLATION:2||STRESS:2||ZONE PLATES:2||FRICTION:2||THERMALSTABILITY:2||Xrays:2||RAY:2||NM:2||ENERGY:2||TOPOGRAPHY:2||synchrotron Xray:2||ACID HYDROGELS:2||CAENORHABDITISELEGANS:2||PROTEIN:2||defects:2||EVOLUTION:2||FABRICATION:2||sharp bending waveguide:2||lasing action:2||BULK CRYSTALS:2||SUPERLATTICES:2||COATED CONDUCTORS:2||SI(111):2||phase contrast:2||CORONARY ANGIOGRAPHY:2||SPECTROMICROSCOPY:2||MEPHISTO:2||OXYGEN:2||OPTICALPROPERTIES:2||RADIOGRAPHY:2||CONTACT DEFORMATIONS:2||MOLECULAR FORCES:2||SOLIDS:2||NTYPE GAN:2||deposition:2||CHEMISTRY:2||DEFORMATION:2||SUBSTRATE:2||HETEROEPITAXY:2||NANOTOPOGRAPHY:2||EPITAXIALGROWTH:2||Xray:2||CHEMICAL VAPORDEPOSITION:2||SILICON STRUCTURES:2||STEMCELLS:2||CHANNEL:2||crystal structure:2||CORONARYANGIOGRAPHY:2||SiC:2||BUFFER LAYER:2||MOLECULARBEAM EPITAXY:2||INTERFACE:2||SIZE:2||ELECTRON:2||XRAY MICROSCOPY:2||MORPHOLOGIES:2||NANOCOLLOIDS:2||FORCE MICROSCOPY:2||ablation:2||polymers:2||(NH4)(2)Sx treatment:2||CLUSTERS:2||BIOMATERIALS:2||CIRCUITS:2||rectangular ring mode:2||GUIDES:2||MICROCAVITY:2||PHOTOLUMINESCENCE:2||epitaxial growth:2||EMBRITTLEMENT:2||Xray imaging:2||BIOCOMPATIBILITY:2||BEHAVIOR:2||MICROWAVEPLASMA:2||LOWPRESSURE:2||DEGRADATION:2||TISSUE:2||LIQUID:2||SOFT LITHOGRAPHY:2||amplified spontaneous emission (ASE):2||SMALL ORGANICMOLECULES:2||PHOTONIC CRYSTAL:2||micropipes:2||radiology:2||ALLOY:2||Xray scattering:2||CRITICALCURRENT DENSITY:2||ELECTRONMICROSCOPY:2||BI(PB)SRCACUO:2||ELECTRONICSTRUCTURE:2||RECONSTRUCTION:2||MG:2||ohmic contact:2||Pd ohmic contact:2||xray scattering:2||INP:2||annealing:2||REGENERATION:2||TITANIUM:2||COLLOIDAL GOLD:2||crystallization:2||BUCKLING MECHANICS:2||LASERS:2||MODES:2||synchrotron imaging:2||lattice distortion:2||AQUEOUSELECTROLYTE:2||MOLECULARDYNAMICS:2||OXIDE:2||MICROANGIOGRAPHY:2||OXIDATION:2||MICRORADIOLOGY:2||TECHNOLOGY:2||GE:2||surface chemistry:2||RECOVERY:2||OHMIC CONTACTS:2||LASERDIODES:2||PTYPE GAN:2||MOTION:2||PHANTOM:2||PHASE:2||CALCIUMPHOSPHATE CERAMICS:2||REPAIR:2||porphyrin:2||AMPLIFIED SPONTANEOUS EMISSION:2||METALELECTRODES:2||PD:2||SUPERCONDUCTING TAPES:2||nucleation:2||COATINGS:2||Xray topography:2||MONOLAYERS:2||SURFACE MODIFICATION:2||LITHOGRAPHY:2||MECHANICAL VENTILATION:1||MICRORIBBONS:1||STIFFNESS:1||DUALPHASE STEEL:1||growth mode:1||strain evolution:1||SI(100):1||ANISOTROPY:1||WET GRANULAR PILE:1||COALESCENCE:1||INSITU POLYMERIZATION:1||GRAPHENE:1||CANCER:1||NODULES:1||RABBITS:1||phasecontrast:1||YTTRIUMOXIDE FILMS:1||BaTiO3/SrTiO3:1||dental implant:1||coincidence site density:1||ERNI2B2C:1||crystallites:1||CoCrPt films:1||tensile strain:1||gallide:1||MGO:1||Baferrite film:1||synchrotron xray scattering:1||ZNO THINFILMS:1||MORPHOLOGY:1||PHASES:1||MICE:1||EBEAM LITHOGRAPHY:1||electrorheological fluids:1||NANOFIBROUS MEMBRANES:1||NANOLITHOGRAPHY:1||refractive index radiology:1||BLOOD:1||colloidal:1||SIZE CONTROL:1||nanoradiology:1||ZnSO4:1||lung injury:1||METAL:1||PM10:1||textured grain:1||MICROSTRUCTURE:1||DIMENSIONS:1||highresolution Xray diffraction:1||low temperature buffer:1||Zinc compounds:1||SI:1||HUMAN LONGEVITY:1||Maximum human lifespan:1||LIMITS:1||MOSFETS:1||in situ XANES:1||nanowires:1||PHOTOIRRADIATION:1||FIBERS:1||WORK:1||EMISSION:1||RADIATION MICROTOMOGRAPHY:1||RAMANSCATTERING:1||gold nanoparticles:1||synchrotron Xray diffraction:1||OPTICAL WAVEGUIDES:1||CONDUCTINGPOLYMER NANOWIRE:1||Lung cancer:1||INTRAVENOUS CORONARYARTERIOGRAPHY:1||SUBLIMATION GROWTH:1||radiography:1||porous SiC:1||GIANT MAGNETORESISTANCE:1||SEMICONDUCTORS:1||Ga diffusion:1||electroless deposition:1||HEMATITE:1||FREEELECTRON LASER:1||MOCVD:1||interfaces:1||white beam:1||imaging technique:1||nucleation layer:1||interface structure:1||epitaxial Baferrite film:1||rf magnetron sputtering:1||MAGNETIC CHARACTERISTICS:1||MIXTURE:1||ACCESS MEMORY APPLICATION:1||COHERENCY STRAIN:1||DENSITY:1||nanofabrication:1||POLY(METHYL METHACRYLATE) MICROSPHERE:1||RESIST:1||unmonochromatic beam:1||MICRORADIOGRAPHY:1||INTERFEROMETER:1||EXPOSURE:1||volume variation electronic:1||PULSEDLASER ABLATION:1||Semiconducting IIVI materials:1||Light emitting diodes:1||phase contrast microscopies:1||lung:1||AUGERELECTRON SPECTROSCOPY:1||passivation:1||additive manufacturing:1||Silicon carbide:1||Synchrotron radiation:1||Synchrotron radiation imaging:1||Dislocations (crystals):1||LUNG INJURY:1||POLYMER SURFACES:1||SINGLE CELLS:1||PREFERRED ORIENTATION:1||sapphire orientation:1||TANTALUM:1||BIASENHANCED NUCLEATION:1||hexaferrite:1||stretched exponential:1||SOLIDSURFACE:1||SHEAR:1||VIDEO MICROSCOPY:1||CARBON NANOTUBES:1||realtime observation:1||Xray synchrotron:1||CARBONMONOXIDE:1||ELECTROCHEMICAL FABRICATION:1||crystal growth:1||computer simulation:1||FERROELECTRICFILMS:1||TITANIUM IMPLANTS:1||BONE INTERFACE:1||EXAFS perpendicular magnetic recording:1||Pd/Ni:1||ELECTRODES:1||internal organ:1||LIGHTEMITTINGDIODES:1||interfacial structure:1||CONSTANT:1||DIELECTRICPROPERTIES:1||AR:1||DEVICES:1||BiSrCaCuO:1||LASER ABLATION:1||MECHANISM:1||SELECTIVE DEPOSITION:1||TARGETED DRUGDELIVERY:1||PEG:1||carbon nanotubes:1||nanocharacterization:1||WALLED CARBON NANOTUBE:1||basal cell carcinoma:1||PARTICULATE AIRPOLLUTION:1||FINE:1||CITIES:1||DOPED ZNO FILMS:1||atherosclerosis:1||drug delivery:1||hard Xray:1||COMBUSTION:1||ARTIFICIAL BATIO3/SRTIO3 SUPERLATTICES:1||surface morphology:1||Direct wafer bonding:1||COLLOIDAL GOLD PARTICLES:1||DELINEATION:1||EXPECTANCY:1||DEMOGRAPHY:1||MRI:1||SIGE:1||Phase contrast microradiography:1||INJURY:1||PASSIVITY:1||VOLUME:1||CONTACTANGLE:1||ARRAYS:1||DUCTILITY:1||sputtering:1||computed microtomography (mu CT):1||unmonochromatized Xray:1||BIPOLARTRANSISTORS:1||longevity:1||Confocal microscopy:1||Colloidal wettability:1||ATOMICFORCE MICROSCOPY:1||storage ring:1||digital subtraction:1||SCATTERING:1||size effect:1||SYNTHETIC QUARTZ:1||liquid metal embrittlement:1||iron ore:1||cube textured Ni substrates:1||SrRuO3 films:1||laser ablations:1||Ti underlayer:1||RANDOMACCESS MEMORIES:1||DOMAIN CONFIGURATIONS:1||MGO(100):1||SPECTROSCOPY:1||XE:1||IONBEAM:1||GRAINBOUNDARY MIGRATION:1||SRTIO3:1||COMPOSITES:1||FOAMS:1||BREASTCANCER SPECIMENS:1||unmonochromatized:1||Xray induced nucleation:1||gold:1||ABSORPTION:1||SEPARATION:1||CZOCHRALSKI GROWTH:1||RETRIEVAL:1||GAMMARADIATION:1||AQUEOUSSOLUTION:1||NANOCOMPOSITES:1||INCREASE:1||without staining procedure:1||XPS:1||Imaging techniques:1||Interfaces (materials):1||Dislocation distributions:1||AZOBENZENE:1||STRUCTURAL EVOLUTION:1||RELAXATION:1||DROP IMPACT:1||NONLINEAR DYNAMICS:1||DISLOCATIONS:1||Colloids:1||TRANSFORMATION:1||METAL INTERCONNECTS:1||ELASTIC CONDUCTORS:1||LOGIC:1||DEFICIENT MICE:1||tomography:1||FACILITY:1||osseointegration:1||ROCKS:1||dental radiography:1||Zn coating:1||RE2O3/Ni:1||YBCO COATED CONDUCTORS:1||threedimensional islands:1||(Ba,Sr)TiO3:1||ultrahigh resolution:1||photoelectron emission:1||Pd:1||LANIO3:1||BASE ELECTRODES:1||iron oxide phase:1||ironoxide interlayer:1||COATED GLASS SUBSTRATE:1||MICROWAVE PLASMA NUCLEATION:1||ENHANCED NUCLEATION:1||phase transformation:1||ADSORPTION:1||phasecontrast xray imaging:1||lung inflammation:1||SI1XGEX SINGLECRYSTALS:1||COCONTINUITY:1||SCALE:1||OBJECT:1||synchrotron microradiography:1||FeSO4:1||INDUCTION:1||BaTiO3 and SrTiO3 thin films:1||HARDXRAYS:1||light emitting diodes:1||ACID:1||MICROSTRUCTURES:1||PHOTOLUMINESCENCE PROPERTIES:1||LASER IRRADIATION:1||Human aging:1||polychromatic synchrotron Xray:1||refraction enhanced imaging:1||CHROMOPHORES:1||ACUTE LUNG INJURY:1||spatial resolution:1||BETAFESI2:1||VLSI:1||SI1XGEX:1||COLLOIDAL SUSPENSIONS:1||ELECTRONICS:1||ENHANCEMENT:1||artificial lattice:1||sinters:1||SILVER:1||STRAIN RELAXATION:1||biaxial texture:1||synchrotron scattering:1||transmission electron microscopy:1||IRONOXIDE FILMS:1||PZT thin film:1||ferroelectric thin film:1||MISFIT RELAXATION MECHANISMS:1||PBTIO3:1||O2:1||CONDUCTING POLYMERS:1||poly(methylmethancrylate):1||microspheres:1||phase contrast Xray microscope:1||AMBIENT AIR:1||ATMOSPHERE:1||XRAY INTERFEROMETER:1||NiAu composite nanoparticles.:1||synchrotron radiation Xrays:1||microtomography:1||OIL FLYASH:1||zinc oxide:1||mammography:1||SrRuO3 film:1||Laser epitaxy:1||HOLE MOBILITY:1||Models of crystal defects:1||RABBIT LUNGS:1||NI/AU CONTACT:1||3D printing:1||Stress relaxation:1||SURFACEAREA:1||IMAGE:1||modulation transfer function (MTF):1||Pb ions:1||Insitu visualization:1||Interfacial tension:1||DISPERSION FORCES:1||SINGLECRYSTALS:1||XRAY SOURCE:1||Synchrotron Xray imaging:1||Realtime imaging:1||MEDICAL APPLICATIONS:1||wiggler bending magnet:1||undulator:1||diffractionenhanced imaging:1||ZnO film:1||CAPACITORS:1||HE3:1||NiP alloy:1||PHOTOCHEMICAL FORMATION:1||extended domain matching:1||cubetextured Ni substrates:1||RAY COMPUTEDTOMOGRAPHY:1||electrode layer:1||DOMAINSTRUCTURE:1||XRAY CT:1||SPECIMEN:1||mammographic phantom:1||Xray absorption spectroscopy:1||BLUE:1||CONTACT:1||(BA:1||synchrotron spectromicroscopy:1||thin film:1||MICROWAVE PLASMA:1||GOLD NANOPARTICLES:1||POLYMERIZATION:1||DISEASE:1||Shanghai:1||MORTALITY:1||HETEROSTRUCTURES:1||METHACRYLATE:1||prostate cancer:1||renal cell carcinoma:1||RATS:1||PULSEDLASER DEPOSITION:1||semiconducting IIVI materials:1||PATTERNS:1||sapphire:1||evaporation:1||ZINCOXIDE:1||LIGHTEMITTING DIODE:1||Synchrotron imaging:1||Dislocations:1||Cracks:1||LIVE:1||spinal cord:1||stainless steel:1||nanophotonics:1||subwavelength waveguides:1||Synchrotrons:1||High dislocation density:1||Misfit stress relaxations:1||Randomly distributed:1||Tripleaxis xray diffractions:1||FLOW:1||CRYSTALLINE ORGANIC NANORODS:1||SHAPE CHANGES:1||ZnO thin film:1||(111)SI:1||XRAY MIRRORS:1||low temperature:1||oxide cathodes:1||heterogeneity:1||Xray microscopy:1||INTERFACIAL TENSIONS:1||single crystal growth:1||CARCINOMA:1||mouse:1||ANIMALS:1||Mndoped ZnO:1||luminescence:1||solution precipitation:1||CLUSTER:1||relaxation:1||ALPHAFE2O3:1||XANES:1||epitaxy:1||LaNiO3 thin film:1||LANIO3 THINFILMS:1||ELECTRODE:1||Fe3O4 sublayer:1||EXAFS microscopy:1||FERRITE FILMS:1||SURFACE PRETREATMENTS:1||superconductors:1||CONTRAST AGENT:1||BIODISTRIBUTION:1||DEATH:1||SYNCHROTRON:1||IR:1||apo Eknockout mouse:1||plaque:1||microradiology:1||ALPHASYNUCLEIN:1||PULMONARY TOXICITY:1||XRAY TOPOGRAPHY:1||dislocation:1||metalorganic chemical vapor deposition:1||CRYSTALGROWTH:1||SELFASSEMBLED MONOLAYERS:1||MEMBRANES:1||MAGNETICANISOTROPY:1||SI1XGEX CRYSTALS:1||STRAINEDSI:1||Extended Weibull model:1||MOLYBDENUM:1||ALLOYS:1||IRON:1||Theoretical modeling:1||Threading dislocation:1||GROWTH:27||THINFILMS:16||SYNCHROTRONRADIATION:15||CONTRAST:11||RADIOLOGY:11||PARTICLES:11||FILMS:11||SILICON:10||RADIATION:10||DEPOSITION:10||RESOLUTION:9||CRYSTALS:8||SILICONCARBIDE:7||XRAYS:7||MAMMOGRAPHY:7||Xray diffraction:7||synchrotron radiation:6||XRAYSCATTERING:6||MODEL:6||microstructure:6||DYNAMICS:5||ELECTRODEPOSITION:5||LAYERS:5||CHEMICALVAPORDEPOSITION:5||TEMPERATURE:5||TOMOGRAPHY:5||COMPUTEDTOMOGRAPHY:5||SAPPHIRE:5||MEDIA:5||NANOWIRES:5||DIFFRACTION:4||TISSUES:4||pulsed laser deposition:4||phase contrast imaging:4||LAYER:4||IMAGES:4||DIODES:4||FIELDEFFECT TRANSISTORS:4||ptype GaN:4||MICROSCOPY:4||REDUCTION:4||POLYMER:4||DEFECTS:3||COHERENCE:3||MICROTOMOGRAPHY:3||NANOPARTICLES:3||synchrotron:3||LIGHT:3||TRANSISTORS:3||SURFACES:3||STRAIN:3||EPITAXIAL LAYERS:3||DRUGDELIVERY:3||REFRACTION:3||growth mechanism:3||METALS:3||MICROPIPES:3||SYSTEM:3||NUCLEATION:3||synchrotron Xray scattering:3||SURFACE:3||SCREW DISLOCATIONS:3||SIMULATION:3||HARD XRAYS:3||ELECTRICALPROPERTIES:3||EPITAXY:3||GAN:3||PM2.5:3||EVAPORATION:3||LIQUIDS:3||INPLANE:3||RAT:3||ANGIOGENESIS:3||CT:3||GaN:3||ZnO:3||NANORODS:3||strain:3||PB(ZR0.53TI0.47)O3:3||CRYSTALLIZATION:3||synchrotron Xrays:2||buffer layer:2||TRANSMISSION ELECTRONMICROSCOPY:2||EPITAXIAL COSI2 FILMS:2||MECHANISMS:2||INSITU GROWTH:2||DEVICE:2||LOCALIZED ELECTROCHEMICAL DEPOSITION:2||X ray diffraction:2||SCHOTTKY CONTACT:2||IRRADIATION:2||aqua regia treatment:2||INVIVO:2||CELLADHESION:2||MORPHOGENETIC PROTEIN2:2||RECEPTOR:2||TEM:2||broadband synchrotron light:2||nanoparticle:2||BUFFER LAYERS:2||TC:2||ENHANCED SYNCHROTRON RADIOLOGY:2||synthesis:2||POLYDIMETHYLSILOXANE:2||MICROCHANNELS:2||PRETREATMENT PROCESS:2||XRAY:2||CHEMOTAXIS:2||MECHANOSENSORY TRANSDUCTION:2||rectangular microtube:2||CONJUGATED POLYMER:2||atomic force microscopy:2||METALLIC OXIDE SRRUO3:2||LASERABLATION:2||STRESS:2||ZONE PLATES:2||FRICTION:2||THERMALSTABILITY:2||Xrays:2||RAY:2||NM:2||ENERGY:2||TOPOGRAPHY:2||synchrotron Xray:2||ACID HYDROGELS:2||CAENORHABDITISELEGANS:2||PROTEIN:2||defects:2||EVOLUTION:2||FABRICATION:2||sharp bending waveguide:2||lasing action:2||BULK CRYSTALS:2||SUPERLATTICES:2||COATED CONDUCTORS:2||SI(111):2||phase contrast:2||CORONARY ANGIOGRAPHY:2||SPECTROMICROSCOPY:2||MEPHISTO:2||OXYGEN:2||OPTICALPROPERTIES:2||RADIOGRAPHY:2||CONTACT DEFORMATIONS:2||MOLECULAR FORCES:2||SOLIDS:2||NTYPE GAN:2||deposition:2||CHEMISTRY:2||DEFORMATION:2||SUBSTRATE:2||HETEROEPITAXY:2||NANOTOPOGRAPHY:2||EPITAXIALGROWTH:2||Xray:2||CHEMICAL VAPORDEPOSITION:2||SILICON STRUCTURES:2||STEMCELLS:2||CHANNEL:2||crystal structure:2||CORONARYANGIOGRAPHY:2||SiC:2||BUFFER LAYER:2||MOLECULARBEAM EPITAXY:2||INTERFACE:2||SIZE:2||ELECTRON:2||XRAY MICROSCOPY:2||MORPHOLOGIES:2||NANOCOLLOIDS:2||FORCE MICROSCOPY:2||ablation:2||polymers:2||(NH4)(2)Sx treatment:2||CLUSTERS:2||BIOMATERIALS:2||CIRCUITS:2||rectangular ring mode:2||GUIDES:2||MICROCAVITY:2||PHOTOLUMINESCENCE:2||epitaxial growth:2||EMBRITTLEMENT:2||Xray imaging:2||BIOCOMPATIBILITY:2||BEHAVIOR:2||MICROWAVEPLASMA:2||LOWPRESSURE:2||DEGRADATION:2||TISSUE:2||LIQUID:2||SOFT LITHOGRAPHY:2||amplified spontaneous emission (ASE):2||SMALL ORGANICMOLECULES:2||PHOTONIC CRYSTAL:2||micropipes:2||radiology:2||ALLOY:2||Xray scattering:2||CRITICALCURRENT DENSITY:2||ELECTRONMICROSCOPY:2||BI(PB)SRCACUO:2||ELECTRONICSTRUCTURE:2||RECONSTRUCTION:2||MG:2||ohmic contact:2||Pd ohmic contact:2||xray scattering:2||INP:2||annealing:2||REGENERATION:2||TITANIUM:2||COLLOIDAL GOLD:2||crystallization:2||BUCKLING MECHANICS:2||LASERS:2||MODES:2||synchrotron imaging:2||lattice distortion:2||AQUEOUSELECTROLYTE:2||MOLECULARDYNAMICS:2||OXIDE:2||MICROANGIOGRAPHY:2||OXIDATION:2||MICRORADIOLOGY:2||TECHNOLOGY:2||GE:2||surface chemistry:2||RECOVERY:2||OHMIC CONTACTS:2||LASERDIODES:2||PTYPE GAN:2||MOTION:2||PHANTOM:2||PHASE:2||CALCIUMPHOSPHATE CERAMICS:2||REPAIR:2||porphyrin:2||AMPLIFIED SPONTANEOUS EMISSION:2||METALELECTRODES:2||PD:2||SUPERCONDUCTING TAPES:2||nucleation:2||COATINGS:2||Xray topography:2||MONOLAYERS:2||SURFACE MODIFICATION:2||LITHOGRAPHY:2||MECHANICAL VENTILATION:1||MICRORIBBONS:1||STIFFNESS:1||DUALPHASE STEEL:1||growth mode:1||strain evolution:1||SI(100):1||ANISOTROPY:1||WET GRANULAR PILE:1||COALESCENCE:1||INSITU POLYMERIZATION:1||GRAPHENE:1||CANCER:1||NODULES:1||RABBITS:1||phasecontrast:1||YTTRIUMOXIDE FILMS:1||BaTiO3/SrTiO3:1||dental implant:1||coincidence site density:1||ERNI2B2C:1||crystallites:1||CoCrPt films:1||tensile strain:1||gallide:1||MGO:1||Baferrite film:1||synchrotron xray scattering:1||ZNO THINFILMS:1||MORPHOLOGY:1||PHASES:1||MICE:1||EBEAM LITHOGRAPHY:1||electrorheological fluids:1||NANOFIBROUS MEMBRANES:1||NANOLITHOGRAPHY:1||refractive index radiology:1||BLOOD:1||colloidal:1||SIZE CONTROL:1||nanoradiology:1||ZnSO4:1||lung injury:1||METAL:1||PM10:1||textured grain:1||MICROSTRUCTURE:1||DIMENSIONS:1||highresolution Xray diffraction:1||low temperature buffer:1||Zinc compounds:1||SI:1||HUMAN LONGEVITY:1||Maximum human lifespan:1||LIMITS:1||MOSFETS:1||in situ XANES:1||nanowires:1||PHOTOIRRADIATION:1||FIBERS:1||WORK:1||EMISSION:1||RADIATION MICROTOMOGRAPHY:1||RAMANSCATTERING:1||gold nanoparticles:1||synchrotron Xray diffraction:1||OPTICAL WAVEGUIDES:1||CONDUCTINGPOLYMER NANOWIRE:1||Lung cancer:1||INTRAVENOUS CORONARYARTERIOGRAPHY:1||SUBLIMATION GROWTH:1||radiography:1||porous SiC:1||GIANT MAGNETORESISTANCE:1||SEMICONDUCTORS:1||Ga diffusion:1||electroless deposition:1||HEMATITE:1||FREEELECTRON LASER:1||MOCVD:1||interfaces:1||white beam:1||imaging technique:1||nucleation layer:1||interface structure:1||epitaxial Baferrite film:1||rf magnetron sputtering:1||MAGNETIC CHARACTERISTICS:1||MIXTURE:1||ACCESS MEMORY APPLICATION:1||COHERENCY STRAIN:1||DENSITY:1||nanofabrication:1||POLY(METHYL METHACRYLATE) MICROSPHERE:1||RESIST:1||unmonochromatic beam:1||MICRORADIOGRAPHY:1||INTERFEROMETER:1||EXPOSURE:1||volume variation electronic:1||PULSEDLASER ABLATION:1||Semiconducting IIVI materials:1||Light emitting diodes:1||phase contrast microscopies:1||lung:1||AUGERELECTRON SPECTROSCOPY:1||passivation:1||additive manufacturing:1||Silicon carbide:1||Synchrotron radiation:1||Synchrotron radiation imaging:1||Dislocations (crystals):1||LUNG INJURY:1||POLYMER SURFACES:1||SINGLE CELLS:1||PREFERRED ORIENTATION:1||sapphire orientation:1||TANTALUM:1||BIASENHANCED NUCLEATION:1||hexaferrite:1||stretched exponential:1||SOLIDSURFACE:1||SHEAR:1||VIDEO MICROSCOPY:1||CARBON NANOTUBES:1||realtime observation:1||Xray synchrotron:1||CARBONMONOXIDE:1||ELECTROCHEMICAL FABRICATION:1||crystal growth:1||computer simulation:1||FERROELECTRICFILMS:1||TITANIUM IMPLANTS:1||BONE INTERFACE:1||EXAFS perpendicular magnetic recording:1||Pd/Ni:1||ELECTRODES:1||internal organ:1||LIGHTEMITTINGDIODES:1||interfacial structure:1||CONSTANT:1||DIELECTRICPROPERTIES:1||AR:1||DEVICES:1||BiSrCaCuO:1||LASER ABLATION:1||MECHANISM:1||SELECTIVE DEPOSITION:1||TARGETED DRUGDELIVERY:1||PEG:1||carbon nanotubes:1||nanocharacterization:1||WALLED CARBON NANOTUBE:1||basal cell carcinoma:1||PARTICULATE AIRPOLLUTION:1||FINE:1||CITIES:1||DOPED ZNO FILMS:1||atherosclerosis:1||drug delivery:1||hard Xray:1||COMBUSTION:1||ARTIFICIAL BATIO3/SRTIO3 SUPERLATTICES:1||surface morphology:1||Direct wafer bonding:1||COLLOIDAL GOLD PARTICLES:1||DELINEATION:1||EXPECTANCY:1||DEMOGRAPHY:1||MRI:1||SIGE:1||Phase contrast microradiography:1||INJURY:1||PASSIVITY:1||VOLUME:1||CONTACTANGLE:1||ARRAYS:1||DUCTILITY:1||sputtering:1||computed microtomography (mu CT):1||unmonochromatized Xray:1||BIPOLARTRANSISTORS:1||longevity:1||Confocal microscopy:1||Colloidal wettability:1||ATOMICFORCE MICROSCOPY:1||storage ring:1||digital subtraction:1||SCATTERING:1||size effect:1||SYNTHETIC QUARTZ:1||liquid metal embrittlement:1||iron ore:1||cube textured Ni substrates:1||SrRuO3 films:1||laser ablations:1||Ti underlayer:1||RANDOMACCESS MEMORIES:1||DOMAIN CONFIGURATIONS:1||MGO(100):1||SPECTROSCOPY:1||XE:1||IONBEAM:1||GRAINBOUNDARY MIGRATION:1||SRTIO3:1||COMPOSITES:1||FOAMS:1||BREASTCANCER SPECIMENS:1||unmonochromatized:1||Xray induced nucleation:1||gold:1||ABSORPTION:1||SEPARATION:1||CZOCHRALSKI GROWTH:1||RETRIEVAL:1||GAMMARADIATION:1||AQUEOUSSOLUTION:1||NANOCOMPOSITES:1||INCREASE:1||without staining procedure:1||XPS:1||Imaging techniques:1||Interfaces (materials):1||Dislocation distributions:1||AZOBENZENE:1||STRUCTURAL EVOLUTION:1||RELAXATION:1||DROP IMPACT:1||NONLINEAR DYNAMICS:1||DISLOCATIONS:1||Colloids:1||TRANSFORMATION:1||METAL INTERCONNECTS:1||ELASTIC CONDUCTORS:1||LOGIC:1||DEFICIENT MICE:1||tomography:1||FACILITY:1||osseointegration:1||ROCKS:1||dental radiography:1||Zn coating:1||RE2O3/Ni:1||YBCO COATED CONDUCTORS:1||threedimensional islands:1||(Ba,Sr)TiO3:1||ultrahigh resolution:1||photoelectron emission:1||Pd:1||LANIO3:1||BASE ELECTRODES:1||iron oxide phase:1||ironoxide interlayer:1||COATED GLASS SUBSTRATE:1||MICROWAVE PLASMA NUCLEATION:1||ENHANCED NUCLEATION:1||phase transformation:1||ADSORPTION:1||phasecontrast xray imaging:1||lung inflammation:1||SI1XGEX SINGLECRYSTALS:1||COCONTINUITY:1||SCALE:1||OBJECT:1||synchrotron microradiography:1||FeSO4:1||INDUCTION:1||BaTiO3 and SrTiO3 thin films:1||HARDXRAYS:1||light emitting diodes:1||ACID:1||MICROSTRUCTURES:1||PHOTOLUMINESCENCE PROPERTIES:1||LASER IRRADIATION:1||Human aging:1||polychromatic synchrotron Xray:1||refraction enhanced imaging:1||CHROMOPHORES:1||ACUTE LUNG INJURY:1||spatial resolution:1||BETAFESI2:1||VLSI:1||SI1XGEX:1||COLLOIDAL SUSPENSIONS:1||ELECTRONICS:1||ENHANCEMENT:1||artificial lattice:1||sinters:1||SILVER:1||STRAIN RELAXATION:1||biaxial texture:1||synchrotron scattering:1||transmission electron microscopy:1||IRONOXIDE FILMS:1||PZT thin film:1||ferroelectric thin film:1||MISFIT RELAXATION MECHANISMS:1||PBTIO3:1||O2:1||CONDUCTING POLYMERS:1||poly(methylmethancrylate):1||microspheres:1||phase contrast Xray microscope:1||AMBIENT AIR:1||ATMOSPHERE:1||XRAY INTERFEROMETER:1||NiAu composite nanoparticles.:1||synchrotron radiation Xrays:1||microtomography:1||OIL FLYASH:1||zinc oxide:1||mammography:1||SrRuO3 film:1||Laser epitaxy:1||HOLE MOBILITY:1||Models of crystal defects:1||RABBIT LUNGS:1||NI/AU CONTACT:1||3D printing:1||Stress relaxation:1||SURFACEAREA:1||IMAGE:1||modulation transfer function (MTF):1||Pb ions:1||Insitu visualization:1||Interfacial tension:1||DISPERSION FORCES:1||SINGLECRYSTALS:1||XRAY SOURCE:1||Synchrotron Xray imaging:1||Realtime imaging:1||MEDICAL APPLICATIONS:1||wiggler bending magnet:1||undulator:1||diffractionenhanced imaging:1||ZnO film:1||CAPACITORS:1||HE3:1||NiP alloy:1||PHOTOCHEMICAL FORMATION:1||extended domain matching:1||cubetextured Ni substrates:1||RAY COMPUTEDTOMOGRAPHY:1||electrode layer:1||DOMAINSTRUCTURE:1||XRAY CT:1||SPECIMEN:1||mammographic phantom:1||Xray absorption spectroscopy:1||BLUE:1||CONTACT:1||(BA:1||synchrotron spectromicroscopy:1||thin film:1||MICROWAVE PLASMA:1||GOLD NANOPARTICLES:1||POLYMERIZATION:1||DISEASE:1||Shanghai:1||MORTALITY:1||HETEROSTRUCTURES:1||METHACRYLATE:1||prostate cancer:1||renal cell carcinoma:1||RATS:1||PULSEDLASER DEPOSITION:1||semiconducting IIVI materials:1||PATTERNS:1||sapphire:1||evaporation:1||ZINCOXIDE:1||LIGHTEMITTING DIODE:1||Synchrotron imaging:1||Dislocations:1||Cracks:1||LIVE:1||spinal cord:1||stainless steel:1||nanophotonics:1||subwavelength waveguides:1||Synchrotrons:1||High dislocation density:1||Misfit stress relaxations:1||Randomly distributed:1||Tripleaxis xray diffractions:1||FLOW:1||CRYSTALLINE ORGANIC NANORODS:1||SHAPE CHANGES:1||ZnO thin film:1||(111)SI:1||XRAY MIRRORS:1||low temperature:1||oxide cathodes:1||heterogeneity:1||Xray microscopy:1||INTERFACIAL TENSIONS:1||single crystal growth:1||CARCINOMA:1||mouse:1||ANIMALS:1||Mndoped ZnO:1||luminescence:1||solution precipitation:1||CLUSTER:1||relaxation:1||ALPHAFE2O3:1||XANES:1||epitaxy:1||LaNiO3 thin film:1||LANIO3 THINFILMS:1||ELECTRODE:1||Fe3O4 sublayer:1||EXAFS microscopy:1||FERRITE FILMS:1||SURFACE PRETREATMENTS:1||superconductors:1||CONTRAST AGENT:1||BIODISTRIBUTION:1||DEATH:1||SYNCHROTRON:1||IR:1||apo Eknockout mouse:1||plaque:1||microradiology:1||ALPHASYNUCLEIN:1||PULMONARY TOXICITY:1||XRAY TOPOGRAPHY:1||dislocation:1||metalorganic chemical vapor deposition:1||CRYSTALGROWTH:1||SELFASSEMBLED MONOLAYERS:1||MEMBRANES:1||MAGNETICANISOTROPY:1||SI1XGEX CRYSTALS:1||STRAINEDSI:1||Extended Weibull model:1||MOLYBDENUM:1||ALLOYS:1||IRON:1||Theoretical modeling:1||Threading dislocation:1||GROWTH:27||THINFILMS:16||SYNCHROTRONRADIATION:15||CONTRAST:11||RADIOLOGY:11||PARTICLES:11||FILMS:11||SILICON:10||RADIATION:10||DEPOSITION:10||RESOLUTION:9||CRYSTALS:8||SILICONCARBIDE:7||XRAYS:7||MAMMOGRAPHY:7||Xray diffraction:7||synchrotron radiation:6||XRAYSCATTERING:6||MODEL:6||microstructure:6||DYNAMICS:5||ELECTRODEPOSITION:5||LAYERS:5||CHEMICALVAPORDEPOSITION:5||TEMPERATURE:5||TOMOGRAPHY:5||COMPUTEDTOMOGRAPHY:5||SAPPHIRE:5||MEDIA:5||NANOWIRES:5||DIFFRACTION:4||TISSUES:4||pulsed laser deposition:4||phase contrast imaging:4||LAYER:4||IMAGES:4||DIODES:4||FIELDEFFECT TRANSISTORS:4||ptype GaN:4||MICROSCOPY:4||REDUCTION:4||POLYMER:4||DEFECTS:3||COHERENCE:3||MICROTOMOGRAPHY:3||NANOPARTICLES:3||synchrotron:3||LIGHT:3||TRANSISTORS:3||SURFACES:3||STRAIN:3||EPITAXIAL LAYERS:3||DRUGDELIVERY:3||REFRACTION:3||growth mechanism:3||METALS:3||MICROPIPES:3||SYSTEM:3||NUCLEATION:3||synchrotron Xray scattering:3||SURFACE:3||SCREW DISLOCATIONS:3||SIMULATION:3||HARD XRAYS:3||ELECTRICALPROPERTIES:3||EPITAXY:3||GAN:3||PM2.5:3||EVAPORATION:3||LIQUIDS:3||INPLANE:3||RAT:3||ANGIOGENESIS:3||CT:3||GaN:3||ZnO:3||NANORODS:3||strain:3||PB(ZR0.53TI0.47)O3:3||CRYSTALLIZATION:3||synchrotron Xrays:2||buffer layer:2||TRANSMISSION ELECTRONMICROSCOPY:2||EPITAXIAL COSI2 FILMS:2||MECHANISMS:2||INSITU GROWTH:2||DEVICE:2||LOCALIZED ELECTROCHEMICAL DEPOSITION:2||X ray diffraction:2||SCHOTTKY CONTACT:2||IRRADIATION:2||aqua regia treatment:2||INVIVO:2||CELLADHESION:2||MORPHOGENETIC PROTEIN2:2||RECEPTOR:2||TEM:2||broadband synchrotron light:2||nanoparticle:2||BUFFER LAYERS:2||TC:2||ENHANCED SYNCHROTRON RADIOLOGY:2||synthesis:2||POLYDIMETHYLSILOXANE:2||MICROCHANNELS:2||PRETREATMENT PROCESS:2||XRAY:2||CHEMOTAXIS:2||MECHANOSENSORY TRANSDUCTION:2||rectangular microtube:2||CONJUGATED POLYMER:2||atomic force microscopy:2||METALLIC OXIDE SRRUO3:2||LASERABLATION:2||STRESS:2||ZONE PLATES:2||FRICTION:2||THERMALSTABILITY:2||Xrays:2||RAY:2||NM:2||ENERGY:2||TOPOGRAPHY:2||synchrotron Xray:2||ACID HYDROGELS:2||CAENORHABDITISELEGANS:2||PROTEIN:2||defects:2||EVOLUTION:2||FABRICATION:2||sharp bending waveguide:2||lasing action:2||BULK CRYSTALS:2||SUPERLATTICES:2||COATED CONDUCTORS:2||SI(111):2||phase contrast:2||CORONARY ANGIOGRAPHY:2||SPECTROMICROSCOPY:2||MEPHISTO:2||OXYGEN:2||OPTICALPROPERTIES:2||RADIOGRAPHY:2||CONTACT DEFORMATIONS:2||MOLECULAR FORCES:2||SOLIDS:2||NTYPE GAN:2||deposition:2||CHEMISTRY:2||DEFORMATION:2||SUBSTRATE:2||HETEROEPITAXY:2||NANOTOPOGRAPHY:2||EPITAXIALGROWTH:2||Xray:2||CHEMICAL VAPORDEPOSITION:2||SILICON STRUCTURES:2||STEMCELLS:2||CHANNEL:2||crystal structure:2||CORONARYANGIOGRAPHY:2||SiC:2||BUFFER LAYER:2||MOLECULARBEAM EPITAXY:2||INTERFACE:2||SIZE:2||ELECTRON:2||XRAY MICROSCOPY:2||MORPHOLOGIES:2||NANOCOLLOIDS:2||FORCE MICROSCOPY:2||ablation:2||polymers:2||(NH4)(2)Sx treatment:2||CLUSTERS:2||BIOMATERIALS:2||CIRCUITS:2||rectangular ring mode:2||GUIDES:2||MICROCAVITY:2||PHOTOLUMINESCENCE:2||epitaxial growth:2||EMBRITTLEMENT:2||Xray imaging:2||BIOCOMPATIBILITY:2||BEHAVIOR:2||MICROWAVEPLASMA:2||LOWPRESSURE:2||DEGRADATION:2||TISSUE:2||LIQUID:2||SOFT LITHOGRAPHY:2||amplified spontaneous emission (ASE):2||SMALL ORGANICMOLECULES:2||PHOTONIC CRYSTAL:2||micropipes:2||radiology:2||ALLOY:2||Xray scattering:2||CRITICALCURRENT DENSITY:2||ELECTRONMICROSCOPY:2||BI(PB)SRCACUO:2||ELECTRONICSTRUCTURE:2||RECONSTRUCTION:2||MG:2||ohmic contact:2||Pd ohmic contact:2||xray scattering:2||INP:2||annealing:2||REGENERATION:2||TITANIUM:2||COLLOIDAL GOLD:2||crystallization:2||BUCKLING MECHANICS:2||LASERS:2||MODES:2||synchrotron imaging:2||lattice distortion:2||AQUEOUSELECTROLYTE:2||MOLECULARDYNAMICS:2||OXIDE:2||MICROANGIOGRAPHY:2||OXIDATION:2||MICRORADIOLOGY:2||TECHNOLOGY:2||GE:2||surface chemistry:2||RECOVERY:2||OHMIC CONTACTS:2||LASERDIODES:2||PTYPE GAN:2||MOTION:2||PHANTOM:2||PHASE:2||CALCIUMPHOSPHATE CERAMICS:2||REPAIR:2||porphyrin:2||AMPLIFIED SPONTANEOUS EMISSION:2||METALELECTRODES:2||PD:2||SUPERCONDUCTING TAPES:2||nucleation:2||COATINGS:2||Xray topography:2||MONOLAYERS:2||SURFACE MODIFICATION:2||LITHOGRAPHY:2||MECHANICAL VENTILATION:1||MICRORIBBONS:1||STIFFNESS:1||DUALPHASE STEEL:1||growth mode:1||strain evolution:1||SI(100):1||ANISOTROPY:1||WET GRANULAR PILE:1||COALESCENCE:1||INSITU POLYMERIZATION:1||GRAPHENE:1||CANCER:1||NODULES:1||RABBITS:1||phasecontrast:1||YTTRIUMOXIDE FILMS:1||BaTiO3/SrTiO3:1||dental implant:1||coincidence site density:1||ERNI2B2C:1||crystallites:1||CoCrPt films:1||tensile strain:1||gallide:1||MGO:1||Baferrite film:1||synchrotron xray scattering:1||ZNO THINFILMS:1||MORPHOLOGY:1||PHASES:1||MICE:1||EBEAM LITHOGRAPHY:1||electrorheological fluids:1||NANOFIBROUS MEMBRANES:1||NANOLITHOGRAPHY:1||refractive index radiology:1||BLOOD:1||colloidal:1||SIZE CONTROL:1||nanoradiology:1||ZnSO4:1||lung injury:1||METAL:1||PM10:1||textured grain:1||MICROSTRUCTURE:1||DIMENSIONS:1||highresolution Xray diffraction:1||low temperature buffer:1||Zinc compounds:1||SI:1||HUMAN LONGEVITY:1||Maximum human lifespan:1||LIMITS:1||MOSFETS:1||in situ XANES:1||nanowires:1||PHOTOIRRADIATION:1||FIBERS:1||WORK:1||EMISSION:1||RADIATION MICROTOMOGRAPHY:1||RAMANSCATTERING:1||gold nanoparticles:1||synchrotron Xray diffraction:1||OPTICAL WAVEGUIDES:1||CONDUCTINGPOLYMER NANOWIRE:1||Lung cancer:1||INTRAVENOUS CORONARYARTERIOGRAPHY:1||SUBLIMATION GROWTH:1||radiography:1||porous SiC:1||GIANT MAGNETORESISTANCE:1||SEMICONDUCTORS:1||Ga diffusion:1||electroless deposition:1||HEMATITE:1||FREEELECTRON LASER:1||MOCVD:1||interfaces:1||white beam:1||imaging technique:1||nucleation layer:1||interface structure:1||epitaxial Baferrite film:1||rf magnetron sputtering:1||MAGNETIC CHARACTERISTICS:1||MIXTURE:1||ACCESS MEMORY APPLICATION:1||COHERENCY STRAIN:1||DENSITY:1||nanofabrication:1||POLY(METHYL METHACRYLATE) MICROSPHERE:1||RESIST:1||unmonochromatic beam:1||MICRORADIOGRAPHY:1||INTERFEROMETER:1||EXPOSURE:1||volume variation electronic:1||PULSEDLASER ABLATION:1||Semiconducting IIVI materials:1||Light emitting diodes:1||phase contrast microscopies:1||lung:1||AUGERELECTRON SPECTROSCOPY:1||passivation:1||additive manufacturing:1||Silicon carbide:1||Synchrotron radiation:1||Synchrotron radiation imaging:1||Dislocations (crystals):1||LUNG INJURY:1||POLYMER SURFACES:1||SINGLE CELLS:1||PREFERRED ORIENTATION:1||sapphire orientation:1||TANTALUM:1||BIASENHANCED NUCLEATION:1||hexaferrite:1||stretched exponential:1||SOLIDSURFACE:1||SHEAR:1||VIDEO MICROSCOPY:1||CARBON NANOTUBES:1||realtime observation:1||Xray synchrotron:1||CARBONMONOXIDE:1||ELECTROCHEMICAL FABRICATION:1||crystal growth:1||computer simulation:1||FERROELECTRICFILMS:1||TITANIUM IMPLANTS:1||BONE INTERFACE:1||EXAFS perpendicular magnetic recording:1||Pd/Ni:1||ELECTRODES:1||internal organ:1||LIGHTEMITTINGDIODES:1||interfacial structure:1||CONSTANT:1||DIELECTRICPROPERTIES:1||AR:1||DEVICES:1||BiSrCaCuO:1||LASER ABLATION:1||MECHANISM:1||SELECTIVE DEPOSITION:1||TARGETED DRUGDELIVERY:1||PEG:1||carbon nanotubes:1||nanocharacterization:1||WALLED CARBON NANOTUBE:1||basal cell carcinoma:1||PARTICULATE AIRPOLLUTION:1||FINE:1||CITIES:1||DOPED ZNO FILMS:1||atherosclerosis:1||drug delivery:1||hard Xray:1||COMBUSTION:1||ARTIFICIAL BATIO3/SRTIO3 SUPERLATTICES:1||surface morphology:1||Direct wafer bonding:1||COLLOIDAL GOLD PARTICLES:1||DELINEATION:1||EXPECTANCY:1||DEMOGRAPHY:1||MRI:1||SIGE:1||Phase contrast microradiography:1||INJURY:1||PASSIVITY:1||VOLUME:1||CONTACTANGLE:1||ARRAYS:1||DUCTILITY:1||sputtering:1||computed microtomography (mu CT):1||unmonochromatized Xray:1||BIPOLARTRANSISTORS:1||longevity:1||Confocal microscopy:1||Colloidal wettability:1||ATOMICFORCE MICROSCOPY:1||storage ring:1||digital subtraction:1||SCATTERING:1||size effect:1||SYNTHETIC QUARTZ:1||liquid metal embrittlement:1||iron ore:1||cube textured Ni substrates:1||SrRuO3 films:1||laser ablations:1||Ti underlayer:1||RANDOMACCESS MEMORIES:1||DOMAIN CONFIGURATIONS:1||MGO(100):1||SPECTROSCOPY:1||XE:1||IONBEAM:1||GRAINBOUNDARY MIGRATION:1||SRTIO3:1||COMPOSITES:1||FOAMS:1||BREASTCANCER SPECIMENS:1||unmonochromatized:1||Xray induced nucleation:1||gold:1||ABSORPTION:1||SEPARATION:1||CZOCHRALSKI GROWTH:1||RETRIEVAL:1||GAMMARADIATION:1||AQUEOUSSOLUTION:1||NANOCOMPOSITES:1||INCREASE:1||without staining procedure:1||XPS:1||Imaging techniques:1||Interfaces (materials):1||Dislocation distributions:1||AZOBENZENE:1||STRUCTURAL EVOLUTION:1||RELAXATION:1||DROP IMPACT:1||NONLINEAR DYNAMICS:1||DISLOCATIONS:1||Colloids:1||TRANSFORMATION:1||METAL INTERCONNECTS:1||ELASTIC CONDUCTORS:1||LOGIC:1||DEFICIENT MICE:1||tomography:1||FACILITY:1||osseointegration:1||ROCKS:1||dental radiography:1||Zn coating:1||RE2O3/Ni:1||YBCO COATED CONDUCTORS:1||threedimensional islands:1||(Ba,Sr)TiO3:1||ultrahigh resolution:1||photoelectron emission:1||Pd:1||LANIO3:1||BASE ELECTRODES:1||iron oxide phase:1||ironoxide interlayer:1||COATED GLASS SUBSTRATE:1||MICROWAVE PLASMA NUCLEATION:1||ENHANCED NUCLEATION:1||phase transformation:1||ADSORPTION:1||phasecontrast xray imaging:1||lung inflammation:1||SI1XGEX SINGLECRYSTALS:1||COCONTINUITY:1||SCALE:1||OBJECT:1||synchrotron microradiography:1||FeSO4:1||INDUCTION:1||BaTiO3 and SrTiO3 thin films:1||HARDXRAYS:1||light emitting diodes:1||ACID:1||MICROSTRUCTURES:1||PHOTOLUMINESCENCE PROPERTIES:1||LASER IRRADIATION:1||Human aging:1||polychromatic synchrotron Xray:1||refraction enhanced imaging:1||CHROMOPHORES:1||ACUTE LUNG INJURY:1||spatial resolution:1||BETAFESI2:1||VLSI:1||SI1XGEX:1||COLLOIDAL SUSPENSIONS:1||ELECTRONICS:1||ENHANCEMENT:1||artificial lattice:1||sinters:1||SILVER:1||STRAIN RELAXATION:1||biaxial texture:1||synchrotron scattering:1||transmission electron microscopy:1||IRONOXIDE FILMS:1||PZT thin film:1||ferroelectric thin film:1||MISFIT RELAXATION MECHANISMS:1||PBTIO3:1||O2:1||CONDUCTING POLYMERS:1||poly(methylmethancrylate):1||microspheres:1||phase contrast Xray microscope:1||AMBIENT AIR:1||ATMOSPHERE:1||XRAY INTERFEROMETER:1||NiAu composite nanoparticles.:1||synchrotron radiation Xrays:1||microtomography:1||OIL FLYASH:1||zinc oxide:1||mammography:1||SrRuO3 film:1||Laser epitaxy:1||HOLE MOBILITY:1||Models of crystal defects:1||RABBIT LUNGS:1||NI/AU CONTACT:1||3D printing:1||Stress relaxation:1||SURFACEAREA:1||IMAGE:1||modulation transfer function (MTF):1||Pb ions:1||Insitu visualization:1||Interfacial tension:1||DISPERSION FORCES:1||SINGLECRYSTALS:1||XRAY SOURCE:1||Synchrotron Xray imaging:1||Realtime imaging:1||MEDICAL APPLICATIONS:1||wiggler bending magnet:1||undulator:1||diffractionenhanced imaging:1||ZnO film:1||CAPACITORS:1||HE3:1||NiP alloy:1||PHOTOCHEMICAL FORMATION:1||extended domain matching:1||cubetextured Ni substrates:1||RAY COMPUTEDTOMOGRAPHY:1||electrode layer:1||DOMAINSTRUCTURE:1||XRAY CT:1||SPECIMEN:1||mammographic phantom:1||Xray absorption spectroscopy:1||BLUE:1||CONTACT:1||(BA:1||synchrotron spectromicroscopy:1||thin film:1||MICROWAVE PLASMA:1||GOLD NANOPARTICLES:1||POLYMERIZATION:1||DISEASE:1||Shanghai:1||MORTALITY:1||HETEROSTRUCTURES:1||METHACRYLATE:1||prostate cancer:1||renal cell carcinoma:1||RATS:1||PULSEDLASER DEPOSITION:1||semiconducting IIVI materials:1||PATTERNS:1||sapphire:1||evaporation:1||ZINCOXIDE:1||LIGHTEMITTING DIODE:1||Synchrotron imaging:1||Dislocations:1||Cracks:1||LIVE:1||spinal cord:1||stainless steel:1||nanophotonics:1||subwavelength waveguides:1||Synchrotrons:1||High dislocation density:1||Misfit stress relaxations:1||Randomly distributed:1||Tripleaxis xray diffractions:1||FLOW:1||CRYSTALLINE ORGANIC NANORODS:1||SHAPE CHANGES:1||ZnO thin film:1||(111)SI:1||XRAY MIRRORS:1||low temperature:1||oxide cathodes:1||heterogeneity:1||Xray microscopy:1||INTERFACIAL TENSIONS:1||single crystal growth:1||CARCINOMA:1||mouse:1||ANIMALS:1||Mndoped ZnO:1||luminescence:1||solution precipitation:1||CLUSTER:1||relaxation:1||ALPHAFE2O3:1||XANES:1||epitaxy:1||LaNiO3 thin film:1||LANIO3 THINFILMS:1||ELECTRODE:1||Fe3O4 sublayer:1||EXAFS microscopy:1||FERRITE FILMS:1||SURFACE PRETREATMENTS:1||superconductors:1||CONTRAST AGENT:1||BIODISTRIBUTION:1||DEATH:1||SYNCHROTRON:1||IR:1||apo Eknockout mouse:1||plaque:1||microradiology:1||ALPHASYNUCLEIN:1||PULMONARY TOXICITY:1||XRAY TOPOGRAPHY:1||dislocation:1||metalorganic chemical vapor deposition:1||CRYSTALGROWTH:1||SELFASSEMBLED MONOLAYERS:1||MEMBRANES:1||MAGNETICANISOTROPY:1||SI1XGEX CRYSTALS:1||STRAINEDSI:1||Extended Weibull model:1||MOLYBDENUM:1||ALLOYS:1||IRON:1||Theoretical modeling:1||Threading dislocation:1||GROWTH:27||THINFILMS:16||SYNCHROTRONRADIATION:15||CONTRAST:11||RADIOLOGY:11||PARTICLES:11||FILMS:11||SILICON:10||RADIATION:10||DEPOSITION:10||RESOLUTION:9||CRYSTALS:8||SILICONCARBIDE:7||XRAYS:7||MAMMOGRAPHY:7||Xray diffraction:7||synchrotron radiation:6||XRAYSCATTERING:6||MODEL:6||microstructure:6||DYNAMICS:5||ELECTRODEPOSITION:5||LAYERS:5||CHEMICALVAPORDEPOSITION:5||TEMPERATURE:5||TOMOGRAPHY:5||COMPUTEDTOMOGRAPHY:5||SAPPHIRE:5||MEDIA:5||NANOWIRES:5||DIFFRACTION:4||TISSUES:4||pulsed laser deposition:4||phase contrast imaging:4||LAYER:4||IMAGES:4||DIODES:4||FIELDEFFECT TRANSISTORS:4||ptype GaN:4||MICROSCOPY:4||REDUCTION:4||POLYMER:4||DEFECTS:3||COHERENCE:3||MICROTOMOGRAPHY:3||NANOPARTICLES:3||synchrotron:3||LIGHT:3||TRANSISTORS:3||SURFACES:3||STRAIN:3||EPITAXIAL LAYERS:3||DRUGDELIVERY:3||REFRACTION:3||growth mechanism:3||METALS:3||MICROPIPES:3||SYSTEM:3||NUCLEATION:3||synchrotron Xray scattering:3||SURFACE:3||SCREW DISLOCATIONS:3||SIMULATION:3||HARD XRAYS:3||ELECTRICALPROPERTIES:3||EPITAXY:3||GAN:3||PM2.5:3||EVAPORATION:3||LIQUIDS:3||INPLANE:3||RAT:3||ANGIOGENESIS:3||CT:3||GaN:3||ZnO:3||NANORODS:3||strain:3||PB(ZR0.53TI0.47)O3:3||CRYSTALLIZATION:3||synchrotron Xrays:2||buffer layer:2||TRANSMISSION ELECTRONMICROSCOPY:2||EPITAXIAL COSI2 FILMS:2||MECHANISMS:2||INSITU GROWTH:2||DEVICE:2||LOCALIZED ELECTROCHEMICAL DEPOSITION:2||X ray diffraction:2||SCHOTTKY CONTACT:2||IRRADIATION:2||aqua regia treatment:2||INVIVO:2||CELLADHESION:2||MORPHOGENETIC PROTEIN2:2||RECEPTOR:2||TEM:2||broadband synchrotron light:2||nanoparticle:2||BUFFER LAYERS:2||TC:2||ENHANCED SYNCHROTRON RADIOLOGY:2||synthesis:2||POLYDIMETHYLSILOXANE:2||MICROCHANNELS:2||PRETREATMENT PROCESS:2||XRAY:2||CHEMOTAXIS:2||MECHANOSENSORY TRANSDUCTION:2||rectangular microtube:2||CONJUGATED POLYMER:2||atomic force microscopy:2||METALLIC OXIDE SRRUO3:2||LASERABLATION:2||STRESS:2||ZONE PLATES:2||FRICTION:2||THERMALSTABILITY:2||Xrays:2||RAY:2||NM:2||ENERGY:2||TOPOGRAPHY:2||synchrotron Xray:2||ACID HYDROGELS:2||CAENORHABDITISELEGANS:2||PROTEIN:2||defects:2||EVOLUTION:2||FABRICATION:2||sharp bending waveguide:2||lasing action:2||BULK CRYSTALS:2||SUPERLATTICES:2||COATED CONDUCTORS:2||SI(111):2||phase contrast:2||CORONARY ANGIOGRAPHY:2||SPECTROMICROSCOPY:2||MEPHISTO:2||OXYGEN:2||OPTICALPROPERTIES:2||RADIOGRAPHY:2||CONTACT DEFORMATIONS:2||MOLECULAR FORCES:2||SOLIDS:2||NTYPE GAN:2||deposition:2||CHEMISTRY:2||DEFORMATION:2||SUBSTRATE:2||HETEROEPITAXY:2||NANOTOPOGRAPHY:2||EPITAXIALGROWTH:2||Xray:2||CHEMICAL VAPORDEPOSITION:2||SILICON STRUCTURES:2||STEMCELLS:2||CHANNEL:2||crystal structure:2||CORONARYANGIOGRAPHY:2||SiC:2||BUFFER LAYER:2||MOLECULARBEAM EPITAXY:2||INTERFACE:2||SIZE:2||ELECTRON:2||XRAY MICROSCOPY:2||MORPHOLOGIES:2||NANOCOLLOIDS:2||FORCE MICROSCOPY:2||ablation:2||polymers:2||(NH4)(2)Sx treatment:2||CLUSTERS:2||BIOMATERIALS:2||CIRCUITS:2||rectangular ring mode:2||GUIDES:2||MICROCAVITY:2||PHOTOLUMINESCENCE:2||epitaxial growth:2||EMBRITTLEMENT:2||Xray imaging:2||BIOCOMPATIBILITY:2||BEHAVIOR:2||MICROWAVEPLASMA:2||LOWPRESSURE:2||DEGRADATION:2||TISSUE:2||LIQUID:2||SOFT LITHOGRAPHY:2||amplified spontaneous emission (ASE):2||SMALL ORGANICMOLECULES:2||PHOTONIC CRYSTAL:2||micropipes:2||radiology:2||ALLOY:2||Xray scattering:2||CRITICALCURRENT DENSITY:2||ELECTRONMICROSCOPY:2||BI(PB)SRCACUO:2||ELECTRONICSTRUCTURE:2||RECONSTRUCTION:2||MG:2||ohmic contact:2||Pd ohmic contact:2||xray scattering:2||INP:2||annealing:2||REGENERATION:2||TITANIUM:2||COLLOIDAL GOLD:2||crystallization:2||BUCKLING MECHANICS:2||LASERS:2||MODES:2||synchrotron imaging:2||lattice distortion:2||AQUEOUSELECTROLYTE:2||MOLECULARDYNAMICS:2||OXIDE:2||MICROANGIOGRAPHY:2||OXIDATION:2||MICRORADIOLOGY:2||TECHNOLOGY:2||GE:2||surface chemistry:2||RECOVERY:2||OHMIC CONTACTS:2||LASERDIODES:2||PTYPE GAN:2||MOTION:2||PHANTOM:2||PHASE:2||CALCIUMPHOSPHATE CERAMICS:2||REPAIR:2||porphyrin:2||AMPLIFIED SPONTANEOUS EMISSION:2||METALELECTRODES:2||PD:2||SUPERCONDUCTING TAPES:2||nucleation:2||COATINGS:2||Xray topography:2||MONOLAYERS:2||SURFACE MODIFICATION:2||LITHOGRAPHY:2||MECHANICAL VENTILATION:1||MICRORIBBONS:1||STIFFNESS:1||DUALPHASE STEEL:1||growth mode:1||strain evolution:1||SI(100):1||ANISOTROPY:1||WET GRANULAR PILE:1||COALESCENCE:1||INSITU POLYMERIZATION:1||GRAPHENE:1||CANCER:1||NODULES:1||RABBITS:1||phasecontrast:1||YTTRIUMOXIDE FILMS:1||BaTiO3/SrTiO3:1||dental implant:1||coincidence site density:1||ERNI2B2C:1||crystallites:1||CoCrPt films:1||tensile strain:1||gallide:1||MGO:1||Baferrite film:1||synchrotron xray scattering:1||ZNO THINFILMS:1||MORPHOLOGY:1||PHASES:1||MICE:1||EBEAM LITHOGRAPHY:1||electrorheological fluids:1||NANOFIBROUS MEMBRANES:1||NANOLITHOGRAPHY:1||refractive index radiology:1||BLOOD:1||colloidal:1||SIZE CONTROL:1||nanoradiology:1||ZnSO4:1||lung injury:1||METAL:1||PM10:1||textured grain:1||MICROSTRUCTURE:1||DIMENSIONS:1||highresolution Xray diffraction:1||low temperature buffer:1||Zinc compounds:1||SI:1||HUMAN LONGEVITY:1||Maximum human lifespan:1||LIMITS:1||MOSFETS:1||in situ XANES:1||nanowires:1||PHOTOIRRADIATION:1||FIBERS:1||WORK:1||EMISSION:1||RADIATION MICROTOMOGRAPHY:1||RAMANSCATTERING:1||gold nanoparticles:1||synchrotron Xray diffraction:1||OPTICAL WAVEGUIDES:1||CONDUCTINGPOLYMER NANOWIRE:1||Lung cancer:1||INTRAVENOUS CORONARYARTERIOGRAPHY:1||SUBLIMATION GROWTH:1||radiography:1||porous SiC:1||GIANT MAGNETORESISTANCE:1||SEMICONDUCTORS:1||Ga diffusion:1||electroless deposition:1||HEMATITE:1||FREEELECTRON LASER:1||MOCVD:1||interfaces:1||white beam:1||imaging technique:1||nucleation layer:1||interface structure:1||epitaxial Baferrite film:1||rf magnetron sputtering:1||MAGNETIC CHARACTERISTICS:1||MIXTURE:1||ACCESS MEMORY APPLICATION:1||COHERENCY STRAIN:1||DENSITY:1||nanofabrication:1||POLY(METHYL METHACRYLATE) MICROSPHERE:1||RESIST:1||unmonochromatic beam:1||MICRORADIOGRAPHY:1||INTERFEROMETER:1||EXPOSURE:1||volume variation electronic:1||PULSEDLASER ABLATION:1||Semiconducting IIVI materials:1||Light emitting diodes:1||phase contrast microscopies:1||lung:1||AUGERELECTRON SPECTROSCOPY:1||passivation:1||additive manufacturing:1||Silicon carbide:1||Synchrotron radiation:1||Synchrotron radiation imaging:1||Dislocations (crystals):1||LUNG INJURY:1||POLYMER SURFACES:1||SINGLE CELLS:1||PREFERRED ORIENTATION:1||sapphire orientation:1||TANTALUM:1||BIASENHANCED NUCLEATION:1||hexaferrite:1||stretched exponential:1||SOLIDSURFACE:1||SHEAR:1||VIDEO MICROSCOPY:1||CARBON NANOTUBES:1||realtime observation:1||Xray synchrotron:1||CARBONMONOXIDE:1||ELECTROCHEMICAL FABRICATION:1||crystal growth:1||computer simulation:1||FERROELECTRICFILMS:1||TITANIUM IMPLANTS:1||BONE INTERFACE:1||EXAFS perpendicular magnetic recording:1||Pd/Ni:1||ELECTRODES:1||internal organ:1||LIGHTEMITTINGDIODES:1||interfacial structure:1||CONSTANT:1||DIELECTRICPROPERTIES:1||AR:1||DEVICES:1||BiSrCaCuO:1||LASER ABLATION:1||MECHANISM:1||SELECTIVE DEPOSITION:1||TARGETED DRUGDELIVERY:1||PEG:1||carbon nanotubes:1||nanocharacterization:1||WALLED CARBON NANOTUBE:1||basal cell carcinoma:1||PARTICULATE AIRPOLLUTION:1||FINE:1||CITIES:1||DOPED ZNO FILMS:1||atherosclerosis:1||drug delivery:1||hard Xray:1||COMBUSTION:1||ARTIFICIAL BATIO3/SRTIO3 SUPERLATTICES:1||surface morphology:1||Direct wafer bonding:1||COLLOIDAL GOLD PARTICLES:1||DELINEATION:1||EXPECTANCY:1||DEMOGRAPHY:1||MRI:1||SIGE:1||Phase contrast microradiography:1||INJURY:1||PASSIVITY:1||VOLUME:1||CONTACTANGLE:1||ARRAYS:1||DUCTILITY:1||sputtering:1||computed microtomography (mu CT):1||unmonochromatized Xray:1||BIPOLARTRANSISTORS:1||longevity:1||Confocal microscopy:1||Colloidal wettability:1||ATOMICFORCE MICROSCOPY:1||storage ring:1||digital subtraction:1||SCATTERING:1||size effect:1||SYNTHETIC QUARTZ:1||liquid metal embrittlement:1||iron ore:1||cube textured Ni substrates:1||SrRuO3 films:1||laser ablations:1||Ti underlayer:1||RANDOMACCESS MEMORIES:1||DOMAIN CONFIGURATIONS:1||MGO(100):1||SPECTROSCOPY:1||XE:1||IONBEAM:1||GRAINBOUNDARY MIGRATION:1||SRTIO3:1||COMPOSITES:1||FOAMS:1||BREASTCANCER SPECIMENS:1||unmonochromatized:1||Xray induced nucleation:1||gold:1||ABSORPTION:1||SEPARATION:1||CZOCHRALSKI GROWTH:1||RETRIEVAL:1||GAMMARADIATION:1||AQUEOUSSOLUTION:1||NANOCOMPOSITES:1||INCREASE:1||without staining procedure:1||XPS:1||Imaging techniques:1||Interfaces (materials):1||Dislocation distributions:1||AZOBENZENE:1||STRUCTURAL EVOLUTION:1||RELAXATION:1||DROP IMPACT:1||NONLINEAR DYNAMICS:1||DISLOCATIONS:1||Colloids:1||TRANSFORMATION:1||METAL INTERCONNECTS:1||ELASTIC CONDUCTORS:1||LOGIC:1||DEFICIENT MICE:1||tomography:1||FACILITY:1||osseointegration:1||ROCKS:1||dental radiography:1||Zn coating:1||RE2O3/Ni:1||YBCO COATED CONDUCTORS:1||threedimensional islands:1||(Ba,Sr)TiO3:1||ultrahigh resolution:1||photoelectron emission:1||Pd:1||LANIO3:1||BASE ELECTRODES:1||iron oxide phase:1||ironoxide interlayer:1||COATED GLASS SUBSTRATE:1||MICROWAVE PLASMA NUCLEATION:1||ENHANCED NUCLEATION:1||phase transformation:1||ADSORPTION:1||phasecontrast xray imaging:1||lung inflammation:1||SI1XGEX SINGLECRYSTALS:1||COCONTINUITY:1||SCALE:1||OBJECT:1||synchrotron microradiography:1||FeSO4:1||INDUCTION:1||BaTiO3 and SrTiO3 thin films:1||HARDXRAYS:1||light emitting diodes:1||ACID:1||MICROSTRUCTURES:1||PHOTOLUMINESCENCE PROPERTIES:1||LASER IRRADIATION:1||Human aging:1||polychromatic synchrotron Xray:1||refraction enhanced imaging:1||CHROMOPHORES:1||ACUTE LUNG INJURY:1||spatial resolution:1||BETAFESI2:1||VLSI:1||SI1XGEX:1||COLLOIDAL SUSPENSIONS:1||ELECTRONICS:1||ENHANCEMENT:1||artificial lattice:1||sinters:1||SILVER:1||STRAIN RELAXATION:1||biaxial texture:1||synchrotron scattering:1||transmission electron microscopy:1||IRONOXIDE FILMS:1||PZT thin film:1||ferroelectric thin film:1||MISFIT RELAXATION MECHANISMS:1||PBTIO3:1||O2:1||CONDUCTING POLYMERS:1||poly(methylmethancrylate):1||microspheres:1||phase contrast Xray microscope:1||AMBIENT AIR:1||ATMOSPHERE:1||XRAY INTERFEROMETER:1||NiAu composite nanoparticles.:1||synchrotron radiation Xrays:1||microtomography:1||OIL FLYASH:1||zinc oxide:1||mammography:1||SrRuO3 film:1||Laser epitaxy:1||HOLE MOBILITY:1||Models of crystal defects:1||RABBIT LUNGS:1||NI/AU CONTACT:1||3D printing:1||Stress relaxation:1||SURFACEAREA:1||IMAGE:1||modulation transfer function (MTF):1||Pb ions:1||Insitu visualization:1||Interfacial tension:1||DISPERSION FORCES:1||SINGLECRYSTALS:1||XRAY SOURCE:1||Synchrotron Xray imaging:1||Realtime imaging:1||MEDICAL APPLICATIONS:1||wiggler bending magnet:1||undulator:1||diffractionenhanced imaging:1||ZnO film:1||CAPACITORS:1||HE3:1||NiP alloy:1||PHOTOCHEMICAL FORMATION:1||extended domain matching:1||cubetextured Ni substrates:1||RAY COMPUTEDTOMOGRAPHY:1||electrode layer:1||DOMAINSTRUCTURE:1||XRAY CT:1||SPECIMEN:1||mammographic phantom:1||Xray absorption spectroscopy:1||BLUE:1||CONTACT:1||(BA:1||synchrotron spectromicroscopy:1||thin film:1||MICROWAVE PLASMA:1||GOLD NANOPARTICLES:1||POLYMERIZATION:1||DISEASE:1||Shanghai:1||MORTALITY:1||HETEROSTRUCTURES:1||METHACRYLATE:1||prostate cancer:1||renal cell carcinoma:1||RATS:1||PULSEDLASER DEPOSITION:1||semiconducting IIVI materials:1||PATTERNS:1||sapphire:1||evaporation:1||ZINCOXIDE:1||LIGHTEMITTING DIODE:1||Synchrotron imaging:1||Dislocations:1||Cracks:1||LIVE:1||spinal cord:1||stainless steel:1||nanophotonics:1||subwavelength waveguides:1||Synchrotrons:1||High dislocation density:1||Misfit stress relaxations:1||Randomly distributed:1||Tripleaxis xray diffractions:1||FLOW:1||CRYSTALLINE ORGANIC NANORODS:1||SHAPE CHANGES:1||ZnO thin film:1||(111)SI:1||XRAY MIRRORS:1||low temperature:1||oxide cathodes:1||heterogeneity:1||Xray microscopy:1||INTERFACIAL TENSIONS:1||single crystal growth:1||CARCINOMA:1||mouse:1||ANIMALS:1||Mndoped ZnO:1||luminescence:1||solution precipitation:1||CLUSTER:1||relaxation:1||ALPHAFE2O3:1||XANES:1||epitaxy:1||LaNiO3 thin film:1||LANIO3 THINFILMS:1||ELECTRODE:1||Fe3O4 sublayer:1||EXAFS microscopy:1||FERRITE FILMS:1||SURFACE PRETREATMENTS:1||superconductors:1||CONTRAST AGENT:1||BIODISTRIBUTION:1||DEATH:1||SYNCHROTRON:1||IR:1||apo Eknockout mouse:1||plaque:1||microradiology:1||ALPHASYNUCLEIN:1||PULMONARY TOXICITY:1||XRAY TOPOGRAPHY:1||dislocation:1||metalorganic chemical vapor deposition:1||CRYSTALGROWTH:1||SELFASSEMBLED MONOLAYERS:1||MEMBRANES:1||MAGNETICANISOTROPY:1||SI1XGEX CRYSTALS:1||STRAINEDSI:1||Extended Weibull model:1||MOLYBDENUM:1||ALLOYS:1||IRON:1||Theoretical modeling:1||Threading dislocation:1||GROWTH:27||THINFILMS:16||SYNCHROTRONRADIATION:15||CONTRAST:11||RADIOLOGY:11||PARTICLES:11||FILMS:11||SILICON:10||RADIATION:10||DEPOSITION:10||RESOLUTION:9||CRYSTALS:8||SILICONCARBIDE:7||XRAYS:7||MAMMOGRAPHY:7||Xray diffraction:7||synchrotron radiation:6||XRAYSCATTERING:6||MODEL:6||microstructure:6||DYNAMICS:5||ELECTRODEPOSITION:5||LAYERS:5||CHEMICALVAPORDEPOSITION:5||TEMPERATURE:5||TOMOGRAPHY:5||COMPUTEDTOMOGRAPHY:5||SAPPHIRE:5||MEDIA:5||NANOWIRES:5||DIFFRACTION:4||TISSUES:4||pulsed laser deposition:4||phase contrast imaging:4||LAYER:4||IMAGES:4||DIODES:4||FIELDEFFECT TRANSISTORS:4||ptype GaN:4||MICROSCOPY:4||REDUCTION:4||POLYMER:4||DEFECTS:3||COHERENCE:3||MICROTOMOGRAPHY:3||NANOPARTICLES:3||synchrotron:3||LIGHT:3||TRANSISTORS:3||SURFACES:3||STRAIN:3||EPITAXIAL LAYERS:3||DRUGDELIVERY:3||REFRACTION:3||growth mechanism:3||METALS:3||MICROPIPES:3||SYSTEM:3||NUCLEATION:3||synchrotron Xray scattering:3||SURFACE:3||SCREW DISLOCATIONS:3||SIMULATION:3||HARD XRAYS:3||ELECTRICALPROPERTIES:3||EPITAXY:3||GAN:3||PM2.5:3||EVAPORATION:3||LIQUIDS:3||INPLANE:3||RAT:3||ANGIOGENESIS:3||CT:3||GaN:3||ZnO:3||NANORODS:3||strain:3||PB(ZR0.53TI0.47)O3:3||CRYSTALLIZATION:3||synchrotron Xrays:2||buffer layer:2||TRANSMISSION ELECTRONMICROSCOPY:2||EPITAXIAL COSI2 FILMS:2||MECHANISMS:2||INSITU GROWTH:2||DEVICE:2||LOCALIZED ELECTROCHEMICAL DEPOSITION:2||X ray diffraction:2||SCHOTTKY CONTACT:2||IRRADIATION:2||aqua regia treatment:2||INVIVO:2||CELLADHESION:2||MORPHOGENETIC PROTEIN2:2||RECEPTOR:2||TEM:2||broadband synchrotron light:2||nanoparticle:2||BUFFER LAYERS:2||TC:2||ENHANCED SYNCHROTRON RADIOLOGY:2||synthesis:2||POLYDIMETHYLSILOXANE:2||MICROCHANNELS:2||PRETREATMENT PROCESS:2||XRAY:2||CHEMOTAXIS:2||MECHANOSENSORY TRANSDUCTION:2||rectangular microtube:2||CONJUGATED POLYMER:2||atomic force microscopy:2||METALLIC OXIDE SRRUO3:2||LASERABLATION:2||STRESS:2||ZONE PLATES:2||FRICTION:2||THERMALSTABILITY:2||Xrays:2||RAY:2||NM:2||ENERGY:2||TOPOGRAPHY:2||synchrotron Xray:2||ACID HYDROGELS:2||CAENORHABDITISELEGANS:2||PROTEIN:2||defects:2||EVOLUTION:2||FABRICATION:2||sharp bending waveguide:2||lasing action:2||BULK CRYSTALS:2||SUPERLATTICES:2||COATED CONDUCTORS:2||SI(111):2||phase contrast:2||CORONARY ANGIOGRAPHY:2||SPECTROMICROSCOPY:2||MEPHISTO:2||OXYGEN:2||OPTICALPROPERTIES:2||RADIOGRAPHY:2||CONTACT DEFORMATIONS:2||MOLECULAR FORCES:2||SOLIDS:2||NTYPE GAN:2||deposition:2||CHEMISTRY:2||DEFORMATION:2||SUBSTRATE:2||HETEROEPITAXY:2||NANOTOPOGRAPHY:2||EPITAXIALGROWTH:2||Xray:2||CHEMICAL VAPORDEPOSITION:2||SILICON STRUCTURES:2||STEMCELLS:2||CHANNEL:2||crystal structure:2||CORONARYANGIOGRAPHY:2||SiC:2||BUFFER LAYER:2||MOLECULARBEAM EPITAXY:2||INTERFACE:2||SIZE:2||ELECTRON:2||XRAY MICROSCOPY:2||MORPHOLOGIES:2||NANOCOLLOIDS:2||FORCE MICROSCOPY:2||ablation:2||polymers:2||(NH4)(2)Sx treatment:2||CLUSTERS:2||BIOMATERIALS:2||CIRCUITS:2||rectangular ring mode:2||GUIDES:2||MICROCAVITY:2||PHOTOLUMINESCENCE:2||epitaxial growth:2||EMBRITTLEMENT:2||Xray imaging:2||BIOCOMPATIBILITY:2||BEHAVIOR:2||MICROWAVEPLASMA:2||LOWPRESSURE:2||DEGRADATION:2||TISSUE:2||LIQUID:2||SOFT LITHOGRAPHY:2||amplified spontaneous emission (ASE):2||SMALL ORGANICMOLECULES:2||PHOTONIC CRYSTAL:2||micropipes:2||radiology:2||ALLOY:2||Xray scattering:2||CRITICALCURRENT DENSITY:2||ELECTRONMICROSCOPY:2||BI(PB)SRCACUO:2||ELECTRONICSTRUCTURE:2||RECONSTRUCTION:2||MG:2||ohmic contact:2||Pd ohmic contact:2||xray scattering:2||INP:2||annealing:2||REGENERATION:2||TITANIUM:2||COLLOIDAL GOLD:2||crystallization:2||BUCKLING MECHANICS:2||LASERS:2||MODES:2||synchrotron imaging:2||lattice distortion:2||AQUEOUSELECTROLYTE:2||MOLECULARDYNAMICS:2||OXIDE:2||MICROANGIOGRAPHY:2||OXIDATION:2||MICRORADIOLOGY:2||TECHNOLOGY:2||GE:2||surface chemistry:2||RECOVERY:2||OHMIC CONTACTS:2||LASERDIODES:2||PTYPE GAN:2||MOTION:2||PHANTOM:2||PHASE:2||CALCIUMPHOSPHATE CERAMICS:2||REPAIR:2||porphyrin:2||AMPLIFIED SPONTANEOUS EMISSION:2||METALELECTRODES:2||PD:2||SUPERCONDUCTING TAPES:2||nucleation:2||COATINGS:2||Xray topography:2||MONOLAYERS:2||SURFACE MODIFICATION:2||LITHOGRAPHY:2||MECHANICAL VENTILATION:1||MICRORIBBONS:1||STIFFNESS:1||DUALPHASE STEEL:1||growth mode:1||strain evolution:1||SI(100):1||ANISOTROPY:1||WET GRANULAR PILE:1||COALESCENCE:1||INSITU POLYMERIZATION:1||GRAPHENE:1||CANCER:1||NODULES:1||RABBITS:1||phasecontrast:1||YTTRIUMOXIDE FILMS:1||BaTiO3/SrTiO3:1||dental implant:1||coincidence site density:1||ERNI2B2C:1||crystallites:1||CoCrPt films:1||tensile strain:1||gallide:1||MGO:1||Baferrite film:1||synchrotron xray scattering:1||ZNO THINFILMS:1||MORPHOLOGY:1||PHASES:1||MICE:1||EBEAM LITHOGRAPHY:1||electrorheological fluids:1||NANOFIBROUS MEMBRANES:1||NANOLITHOGRAPHY:1||refractive index radiology:1||BLOOD:1||colloidal:1||SIZE CONTROL:1||nanoradiology:1||ZnSO4:1||lung injury:1||METAL:1||PM10:1||textured grain:1||MICROSTRUCTURE:1||DIMENSIONS:1||highresolution Xray diffraction:1||low temperature buffer:1||Zinc compounds:1||SI:1||HUMAN LONGEVITY:1||Maximum human lifespan:1||LIMITS:1||MOSFETS:1||in situ XANES:1||nanowires:1||PHOTOIRRADIATION:1||FIBERS:1||WORK:1||EMISSION:1||RADIATION MICROTOMOGRAPHY:1||RAMANSCATTERING:1||gold nanoparticles:1||synchrotron Xray diffraction:1||OPTICAL WAVEGUIDES:1||CONDUCTINGPOLYMER NANOWIRE:1||Lung cancer:1||INTRAVENOUS CORONARYARTERIOGRAPHY:1||SUBLIMATION GROWTH:1||radiography:1||porous SiC:1||GIANT MAGNETORESISTANCE:1||SEMICONDUCTORS:1||Ga diffusion:1||electroless deposition:1||HEMATITE:1||FREEELECTRON LASER:1||MOCVD:1||interfaces:1||white beam:1||imaging technique:1||nucleation layer:1||interface structure:1||epitaxial Baferrite film:1||rf magnetron sputtering:1||MAGNETIC CHARACTERISTICS:1||MIXTURE:1||ACCESS MEMORY APPLICATION:1||COHERENCY STRAIN:1||DENSITY:1||nanofabrication:1||POLY(METHYL METHACRYLATE) MICROSPHERE:1||RESIST:1||unmonochromatic beam:1||MICRORADIOGRAPHY:1||INTERFEROMETER:1||EXPOSURE:1||volume variation electronic:1||PULSEDLASER ABLATION:1||Semiconducting IIVI materials:1||Light emitting diodes:1||phase contrast microscopies:1||lung:1||AUGERELECTRON SPECTROSCOPY:1||passivation:1||additive manufacturing:1||Silicon carbide:1||Synchrotron radiation:1||Synchrotron radiation imaging:1||Dislocations (crystals):1||LUNG INJURY:1||POLYMER SURFACES:1||SINGLE CELLS:1||PREFERRED ORIENTATION:1||sapphire orientation:1||TANTALUM:1||BIASENHANCED NUCLEATION:1||hexaferrite:1||stretched exponential:1||SOLIDSURFACE:1||SHEAR:1||VIDEO MICROSCOPY:1||CARBON NANOTUBES:1||realtime observation:1||Xray synchrotron:1||CARBONMONOXIDE:1||ELECTROCHEMICAL FABRICATION:1||crystal growth:1||computer simulation:1||FERROELECTRICFILMS:1||TITANIUM IMPLANTS:1||BONE INTERFACE:1||EXAFS perpendicular magnetic recording:1||Pd/Ni:1||ELECTRODES:1||internal organ:1||LIGHTEMITTINGDIODES:1||interfacial structure:1||CONSTANT:1||DIELECTRICPROPERTIES:1||AR:1||DEVICES:1||BiSrCaCuO:1||LASER ABLATION:1||MECHANISM:1||SELECTIVE DEPOSITION:1||TARGETED DRUGDELIVERY:1||PEG:1||carbon nanotubes:1||nanocharacterization:1||WALLED CARBON NANOTUBE:1||basal cell carcinoma:1||PARTICULATE AIRPOLLUTION:1||FINE:1||CITIES:1||DOPED ZNO FILMS:1||atherosclerosis:1||drug delivery:1||hard Xray:1||COMBUSTION:1||ARTIFICIAL BATIO3/SRTIO3 SUPERLATTICES:1||surface morphology:1||Direct wafer bonding:1||COLLOIDAL GOLD PARTICLES:1||DELINEATION:1||EXPECTANCY:1||DEMOGRAPHY:1||MRI:1||SIGE:1||Phase contrast microradiography:1||INJURY:1||PASSIVITY:1||VOLUME:1||CONTACTANGLE:1||ARRAYS:1||DUCTILITY:1||sputtering:1||computed microtomography (mu CT):1||unmonochromatized Xray:1||BIPOLARTRANSISTORS:1||longevity:1||Confocal microscopy:1||Colloidal wettability:1||ATOMICFORCE MICROSCOPY:1||storage ring:1||digital subtraction:1||SCATTERING:1||size effect:1||SYNTHETIC QUARTZ:1||liquid metal embrittlement:1||iron ore:1||cube textured Ni substrates:1||SrRuO3 films:1||laser ablations:1||Ti underlayer:1||RANDOMACCESS MEMORIES:1||DOMAIN CONFIGURATIONS:1||MGO(100):1||SPECTROSCOPY:1||XE:1||IONBEAM:1||GRAINBOUNDARY MIGRATION:1||SRTIO3:1||COMPOSITES:1||FOAMS:1||BREASTCANCER SPECIMENS:1||unmonochromatized:1||Xray induced nucleation:1||gold:1||ABSORPTION:1||SEPARATION:1||CZOCHRALSKI GROWTH:1||RETRIEVAL:1||GAMMARADIATION:1||AQUEOUSSOLUTION:1||NANOCOMPOSITES:1||INCREASE:1||without staining procedure:1||XPS:1||Imaging techniques:1||Interfaces (materials):1||Dislocation distributions:1||AZOBENZENE:1||STRUCTURAL EVOLUTION:1||RELAXATION:1||DROP IMPACT:1||NONLINEAR DYNAMICS:1||DISLOCATIONS:1||Colloids:1||TRANSFORMATION:1||METAL INTERCONNECTS:1||ELASTIC CONDUCTORS:1||LOGIC:1||DEFICIENT MICE:1||tomography:1||FACILITY:1||osseointegration:1||ROCKS:1||dental radiography:1||Zn coating:1||RE2O3/Ni:1||YBCO COATED CONDUCTORS:1||threedimensional islands:1||(Ba,Sr)TiO3:1||ultrahigh resolution:1||photoelectron emission:1||Pd:1||LANIO3:1||BASE ELECTRODES:1||iron oxide phase:1||ironoxide interlayer:1||COATED GLASS SUBSTRATE:1||MICROWAVE PLASMA NUCLEATION:1||ENHANCED NUCLEATION:1||phase transformation:1||ADSORPTION:1||phasecontrast xray imaging:1||lung inflammation:1||SI1XGEX SINGLECRYSTALS:1||COCONTINUITY:1||SCALE:1||OBJECT:1||synchrotron microradiography:1||FeSO4:1||INDUCTION:1||BaTiO3 and SrTiO3 thin films:1||HARDXRAYS:1||light emitting diodes:1||ACID:1||MICROSTRUCTURES:1||PHOTOLUMINESCENCE PROPERTIES:1||LASER IRRADIATION:1||Human aging:1||polychromatic synchrotron Xray:1||refraction enhanced imaging:1||CHROMOPHORES:1||ACUTE LUNG INJURY:1||spatial resolution:1||BETAFESI2:1||VLSI:1||SI1XGEX:1||COLLOIDAL SUSPENSIONS:1||ELECTRONICS:1||ENHANCEMENT:1||artificial lattice:1||sinters:1||SILVER:1||STRAIN RELAXATION:1||biaxial texture:1||synchrotron scattering:1||transmission electron microscopy:1||IRONOXIDE FILMS:1||PZT thin film:1||ferroelectric thin film:1||MISFIT RELAXATION MECHANISMS:1||PBTIO3:1||O2:1||CONDUCTING POLYMERS:1||poly(methylmethancrylate):1||microspheres:1||phase contrast Xray microscope:1||AMBIENT AIR:1||ATMOSPHERE:1||XRAY INTERFEROMETER:1||NiAu composite nanoparticles.:1||synchrotron radiation Xrays:1||microtomography:1||OIL FLYASH:1||zinc oxide:1||mammography:1||SrRuO3 film:1||Laser epitaxy:1||HOLE MOBILITY:1||Models of crystal defects:1||RABBIT LUNGS:1||NI/AU CONTACT:1||3D printing:1||Stress relaxation:1||SURFACEAREA:1||IMAGE:1||modulation transfer function (MTF):1||Pb ions:1||Insitu visualization:1||Interfacial tension:1||DISPERSION FORCES:1||SINGLECRYSTALS:1||XRAY SOURCE:1||Synchrotron Xray imaging:1||Realtime imaging:1||MEDICAL APPLICATIONS:1||wiggler bending magnet:1||undulator:1||diffractionenhanced imaging:1||ZnO film:1||CAPACITORS:1||HE3:1||NiP alloy:1||PHOTOCHEMICAL FORMATION:1||extended domain matching:1||cubetextured Ni substrates:1||RAY COMPUTEDTOMOGRAPHY:1||electrode layer:1||DOMAINSTRUCTURE:1||XRAY CT:1||SPECIMEN:1||mammographic phantom:1||Xray absorption spectroscopy:1||BLUE:1||CONTACT:1||(BA:1||synchrotron spectromicroscopy:1||thin film:1||MICROWAVE PLASMA:1||GOLD NANOPARTICLES:1||POLYMERIZATION:1||DISEASE:1||Shanghai:1||MORTALITY:1||HETEROSTRUCTURES:1||METHACRYLATE:1||prostate cancer:1||renal cell carcinoma:1||RATS:1||PULSEDLASER DEPOSITION:1||semiconducting IIVI materials:1||PATTERNS:1||sapphire:1||evaporation:1||ZINCOXIDE:1||LIGHTEMITTING DIODE:1||Synchrotron imaging:1||Dislocations:1||Cracks:1||LIVE:1||spinal cord:1||stainless steel:1||nanophotonics:1||subwavelength waveguides:1||Synchrotrons:1||High dislocation density:1||Misfit stress relaxations:1||Randomly distributed:1||Tripleaxis xray diffractions:1||FLOW:1||CRYSTALLINE ORGANIC NANORODS:1||SHAPE CHANGES:1||ZnO thin film:1||(111)SI:1||XRAY MIRRORS:1||low temperature:1||oxide cathodes:1||heterogeneity:1||Xray microscopy:1||INTERFACIAL TENSIONS:1||single crystal growth:1||CARCINOMA:1||mouse:1||ANIMALS:1||Mndoped ZnO:1||luminescence:1||solution precipitation:1||CLUSTER:1||relaxation:1||ALPHAFE2O3:1||XANES:1||epitaxy:1||LaNiO3 thin film:1||LANIO3 THINFILMS:1||ELECTRODE:1||Fe3O4 sublayer:1||EXAFS microscopy:1||FERRITE FILMS:1||SURFACE PRETREATMENTS:1||superconductors:1||CONTRAST AGENT:1||BIODISTRIBUTION:1||DEATH:1||SYNCHROTRON:1||IR:1||apo Eknockout mouse:1||plaque:1||microradiology:1||ALPHASYNUCLEIN:1||PULMONARY TOXICITY:1||XRAY TOPOGRAPHY:1||dislocation:1||metalorganic chemical vapor deposition:1||CRYSTALGROWTH:1||SELFASSEMBLED MONOLAYERS:1||MEMBRANES:1||MAGNETICANISOTROPY:1||SI1XGEX CRYSTALS:1||STRAINEDSI:1||Extended Weibull model:1||MOLYBDENUM:1||ALLOYS:1||IRON:1||Theoretical modeling:1||Threading dislocation:1||GROWTH:27||THINFILMS:16||SYNCHROTRONRADIATION:15||CONTRAST:11||RADIOLOGY:11||PARTICLES:11||FILMS:11||SILICON:10||RADIATION:10||DEPOSITION:10||RESOLUTION:9||CRYSTALS:8||SILICONCARBIDE:7||XRAYS:7||MAMMOGRAPHY:7||Xray diffraction:7||synchrotron radiation:6||XRAYSCATTERING:6||MODEL:6||microstructure:6||DYNAMICS:5||ELECTRODEPOSITION:5||LAYERS:5||CHEMICALVAPORDEPOSITION:5||TEMPERATURE:5||TOMOGRAPHY:5||COMPUTEDTOMOGRAPHY:5||SAPPHIRE:5||MEDIA:5||NANOWIRES:5||DIFFRACTION:4||TISSUES:4||pulsed laser deposition:4||phase contrast imaging:4||LAYER:4||IMAGES:4||DIODES:4||FIELDEFFECT TRANSISTORS:4||ptype GaN:4||MICROSCOPY:4||REDUCTION:4||POLYMER:4||DEFECTS:3||COHERENCE:3||MICROTOMOGRAPHY:3||NANOPARTICLES:3||synchrotron:3||LIGHT:3||TRANSISTORS:3||SURFACES:3||STRAIN:3||EPITAXIAL LAYERS:3||DRUGDELIVERY:3||REFRACTION:3||growth mechanism:3||METALS:3||MICROPIPES:3||SYSTEM:3||NUCLEATION:3||synchrotron Xray scattering:3||SURFACE:3||SCREW DISLOCATIONS:3||SIMULATION:3||HARD XRAYS:3||ELECTRICALPROPERTIES:3||EPITAXY:3||GAN:3||PM2.5:3||EVAPORATION:3||LIQUIDS:3||INPLANE:3||RAT:3||ANGIOGENESIS:3||CT:3||GaN:3||ZnO:3||NANORODS:3||strain:3||PB(ZR0.53TI0.47)O3:3||CRYSTALLIZATION:3||synchrotron Xrays:2||buffer layer:2||TRANSMISSION ELECTRONMICROSCOPY:2||EPITAXIAL COSI2 FILMS:2||MECHANISMS:2||INSITU GROWTH:2||DEVICE:2||LOCALIZED ELECTROCHEMICAL DEPOSITION:2||X ray diffraction:2||SCHOTTKY CONTACT:2||IRRADIATION:2||aqua regia treatment:2||INVIVO:2||CELLADHESION:2||MORPHOGENETIC PROTEIN2:2||RECEPTOR:2||TEM:2||broadband synchrotron light:2||nanoparticle:2||BUFFER LAYERS:2||TC:2||ENHANCED SYNCHROTRON RADIOLOGY:2||synthesis:2||POLYDIMETHYLSILOXANE:2||MICROCHANNELS:2||PRETREATMENT PROCESS:2||XRAY:2||CHEMOTAXIS:2||MECHANOSENSORY TRANSDUCTION:2||rectangular microtube:2||CONJUGATED POLYMER:2||atomic force microscopy:2||METALLIC OXIDE SRRUO3:2||LASERABLATION:2||STRESS:2||ZONE PLATES:2||FRICTION:2||THERMALSTABILITY:2||Xrays:2||RAY:2||NM:2||ENERGY:2||TOPOGRAPHY:2||synchrotron Xray:2||ACID HYDROGELS:2||CAENORHABDITISELEGANS:2||PROTEIN:2||defects:2||EVOLUTION:2||FABRICATION:2||sharp bending waveguide:2||lasing action:2||BULK CRYSTALS:2||SUPERLATTICES:2||COATED CONDUCTORS:2||SI(111):2||phase contrast:2||CORONARY ANGIOGRAPHY:2||SPECTROMICROSCOPY:2||MEPHISTO:2||OXYGEN:2||OPTICALPROPERTIES:2||RADIOGRAPHY:2||CONTACT DEFORMATIONS:2||MOLECULAR FORCES:2||SOLIDS:2||NTYPE GAN:2||deposition:2||CHEMISTRY:2||DEFORMATION:2||SUBSTRATE:2||HETEROEPITAXY:2||NANOTOPOGRAPHY:2||EPITAXIALGROWTH:2||Xray:2||CHEMICAL VAPORDEPOSITION:2||SILICON STRUCTURES:2||STEMCELLS:2||CHANNEL:2||crystal structure:2||CORONARYANGIOGRAPHY:2||SiC:2||BUFFER LAYER:2||MOLECULARBEAM EPITAXY:2||INTERFACE:2||SIZE:2||ELECTRON:2||XRAY MICROSCOPY:2||MORPHOLOGIES:2||NANOCOLLOIDS:2||FORCE MICROSCOPY:2||ablation:2||polymers:2||(NH4)(2)Sx treatment:2||CLUSTERS:2||BIOMATERIALS:2||CIRCUITS:2||rectangular ring mode:2||GUIDES:2||MICROCAVITY:2||PHOTOLUMINESCENCE:2||epitaxial growth:2||EMBRITTLEMENT:2||Xray imaging:2||BIOCOMPATIBILITY:2||BEHAVIOR:2||MICROWAVEPLASMA:2||LOWPRESSURE:2||DEGRADATION:2||TISSUE:2||LIQUID:2||SOFT LITHOGRAPHY:2||amplified spontaneous emission (ASE):2||SMALL ORGANICMOLECULES:2||PHOTONIC CRYSTAL:2||micropipes:2||radiology:2||ALLOY:2||Xray scattering:2||CRITICALCURRENT DENSITY:2||ELECTRONMICROSCOPY:2||BI(PB)SRCACUO:2||ELECTRONICSTRUCTURE:2||RECONSTRUCTION:2||MG:2||ohmic contact:2||Pd ohmic contact:2||xray scattering:2||INP:2||annealing:2||REGENERATION:2||TITANIUM:2||COLLOIDAL GOLD:2||crystallization:2||BUCKLING MECHANICS:2||LASERS:2||MODES:2||synchrotron imaging:2||lattice distortion:2||AQUEOUSELECTROLYTE:2||MOLECULARDYNAMICS:2||OXIDE:2||MICROANGIOGRAPHY:2||OXIDATION:2||MICRORADIOLOGY:2||TECHNOLOGY:2||GE:2||surface chemistry:2||RECOVERY:2||OHMIC CONTACTS:2||LASERDIODES:2||PTYPE GAN:2||MOTION:2||PHANTOM:2||PHASE:2||CALCIUMPHOSPHATE CERAMICS:2||REPAIR:2||porphyrin:2||AMPLIFIED SPONTANEOUS EMISSION:2||METALELECTRODES:2||PD:2||SUPERCONDUCTING TAPES:2||nucleation:2||COATINGS:2||Xray topography:2||MONOLAYERS:2||SURFACE MODIFICATION:2||LITHOGRAPHY:2||MECHANICAL VENTILATION:1||MICRORIBBONS:1||STIFFNESS:1||DUALPHASE STEEL:1||growth mode:1||strain evolution:1||SI(100):1||ANISOTROPY:1||WET GRANULAR PILE:1||COALESCENCE:1||INSITU POLYMERIZATION:1||GRAPHENE:1||CANCER:1||NODULES:1||RABBITS:1||phasecontrast:1||YTTRIUMOXIDE FILMS:1||BaTiO3/SrTiO3:1||dental implant:1||coincidence site density:1||ERNI2B2C:1||crystallites:1||CoCrPt films:1||tensile strain:1||gallide:1||MGO:1||Baferrite film:1||synchrotron xray scattering:1||ZNO THINFILMS:1||MORPHOLOGY:1||PHASES:1||MICE:1||EBEAM LITHOGRAPHY:1||electrorheological fluids:1||NANOFIBROUS MEMBRANES:1||NANOLITHOGRAPHY:1||refractive index radiology:1||BLOOD:1||colloidal:1||SIZE CONTROL:1||nanoradiology:1||ZnSO4:1||lung injury:1||METAL:1||PM10:1||textured grain:1||MICROSTRUCTURE:1||DIMENSIONS:1||highresolution Xray diffraction:1||low temperature buffer:1||Zinc compounds:1||SI:1||HUMAN LONGEVITY:1||Maximum human lifespan:1||LIMITS:1||MOSFETS:1||in situ XANES:1||nanowires:1||PHOTOIRRADIATION:1||FIBERS:1||WORK:1||EMISSION:1||RADIATION MICROTOMOGRAPHY:1||RAMANSCATTERING:1||gold nanoparticles:1||synchrotron Xray diffraction:1||OPTICAL WAVEGUIDES:1||CONDUCTINGPOLYMER NANOWIRE:1||Lung cancer:1||INTRAVENOUS CORONARYARTERIOGRAPHY:1||SUBLIMATION GROWTH:1||radiography:1||porous SiC:1||GIANT MAGNETORESISTANCE:1||SEMICONDUCTORS:1||Ga diffusion:1||electroless deposition:1||HEMATITE:1||FREEELECTRON LASER:1||MOCVD:1||interfaces:1||white beam:1||imaging technique:1||nucleation layer:1||interface structure:1||epitaxial Baferrite film:1||rf magnetron sputtering:1||MAGNETIC CHARACTERISTICS:1||MIXTURE:1||ACCESS MEMORY APPLICATION:1||COHERENCY STRAIN:1||DENSITY:1||nanofabrication:1||POLY(METHYL METHACRYLATE) MICROSPHERE:1||RESIST:1||unmonochromatic beam:1||MICRORADIOGRAPHY:1||INTERFEROMETER:1||EXPOSURE:1||volume variation electronic:1||PULSEDLASER ABLATION:1||Semiconducting IIVI materials:1||Light emitting diodes:1||phase contrast microscopies:1||lung:1||AUGERELECTRON SPECTROSCOPY:1||passivation:1||additive manufacturing:1||Silicon carbide:1||Synchrotron radiation:1||Synchrotron radiation imaging:1||Dislocations (crystals):1||LUNG INJURY:1||POLYMER SURFACES:1||SINGLE CELLS:1||PREFERRED ORIENTATION:1||sapphire orientation:1||TANTALUM:1||BIASENHANCED NUCLEATION:1||hexaferrite:1||stretched exponential:1||SOLIDSURFACE:1||SHEAR:1||VIDEO MICROSCOPY:1||CARBON NANOTUBES:1||realtime observation:1||Xray synchrotron:1||CARBONMONOXIDE:1||ELECTROCHEMICAL FABRICATION:1||crystal growth:1||computer simulation:1||FERROELECTRICFILMS:1||TITANIUM IMPLANTS:1||BONE INTERFACE:1||EXAFS perpendicular magnetic recording:1||Pd/Ni:1||ELECTRODES:1||internal organ:1||LIGHTEMITTINGDIODES:1||interfacial structure:1||CONSTANT:1||DIELECTRICPROPERTIES:1||AR:1||DEVICES:1||BiSrCaCuO:1||LASER ABLATION:1||MECHANISM:1||SELECTIVE DEPOSITION:1||TARGETED DRUGDELIVERY:1||PEG:1||carbon nanotubes:1||nanocharacterization:1||WALLED CARBON NANOTUBE:1||basal cell carcinoma:1||PARTICULATE AIRPOLLUTION:1||FINE:1||CITIES:1||DOPED ZNO FILMS:1||atherosclerosis:1||drug delivery:1||hard Xray:1||COMBUSTION:1||ARTIFICIAL BATIO3/SRTIO3 SUPERLATTICES:1||surface morphology:1||Direct wafer bonding:1||COLLOIDAL GOLD PARTICLES:1||DELINEATION:1||EXPECTANCY:1||DEMOGRAPHY:1||MRI:1||SIGE:1||Phase contrast microradiography:1||INJURY:1||PASSIVITY:1||VOLUME:1||CONTACTANGLE:1||ARRAYS:1||DUCTILITY:1||sputtering:1||computed microtomography (mu CT):1||unmonochromatized Xray:1||BIPOLARTRANSISTORS:1||longevity:1||Confocal microscopy:1||Colloidal wettability:1||ATOMICFORCE MICROSCOPY:1||storage ring:1||digital subtraction:1||SCATTERING:1||size effect:1||SYNTHETIC QUARTZ:1||liquid metal embrittlement:1||iron ore:1||cube textured Ni substrates:1||SrRuO3 films:1||laser ablations:1||Ti underlayer:1||RANDOMACCESS MEMORIES:1||DOMAIN CONFIGURATIONS:1||MGO(100):1||SPECTROSCOPY:1||XE:1||IONBEAM:1||GRAINBOUNDARY MIGRATION:1||SRTIO3:1||COMPOSITES:1||FOAMS:1||BREASTCANCER SPECIMENS:1||unmonochromatized:1||Xray induced nucleation:1||gold:1||ABSORPTION:1||SEPARATION:1||CZOCHRALSKI GROWTH:1||RETRIEVAL:1||GAMMARADIATION:1||AQUEOUSSOLUTION:1||NANOCOMPOSITES:1||INCREASE:1||without staining procedure:1||XPS:1||Imaging techniques:1||Interfaces (materials):1||Dislocation distributions:1||AZOBENZENE:1||STRUCTURAL EVOLUTION:1||RELAXATION:1||DROP IMPACT:1||NONLINEAR DYNAMICS:1||DISLOCATIONS:1||Colloids:1||TRANSFORMATION:1||METAL INTERCONNECTS:1||ELASTIC CONDUCTORS:1||LOGIC:1||DEFICIENT MICE:1||tomography:1||FACILITY:1||osseointegration:1||ROCKS:1||dental radiography:1||Zn coating:1||RE2O3/Ni:1||YBCO COATED CONDUCTORS:1||threedimensional islands:1||(Ba,Sr)TiO3:1||ultrahigh resolution:1||photoelectron emission:1||Pd:1||LANIO3:1||BASE ELECTRODES:1||iron oxide phase:1||ironoxide interlayer:1||COATED GLASS SUBSTRATE:1||MICROWAVE PLASMA NUCLEATION:1||ENHANCED NUCLEATION:1||phase transformation:1||ADSORPTION:1||phasecontrast xray imaging:1||lung inflammation:1||SI1XGEX SINGLECRYSTALS:1||COCONTINUITY:1||SCALE:1||OBJECT:1||synchrotron microradiography:1||FeSO4:1||INDUCTION:1||BaTiO3 and SrTiO3 thin films:1||HARDXRAYS:1||light emitting diodes:1||ACID:1||MICROSTRUCTURES:1||PHOTOLUMINESCENCE PROPERTIES:1||LASER IRRADIATION:1||Human aging:1||polychromatic synchrotron Xray:1||refraction enhanced imaging:1||CHROMOPHORES:1||ACUTE LUNG INJURY:1||spatial resolution:1||BETAFESI2:1||VLSI:1||SI1XGEX:1||COLLOIDAL SUSPENSIONS:1||ELECTRONICS:1||ENHANCEMENT:1||artificial lattice:1||sinters:1||SILVER:1||STRAIN RELAXATION:1||biaxial texture:1||synchrotron scattering:1||transmission electron microscopy:1||IRONOXIDE FILMS:1||PZT thin film:1||ferroelectric thin film:1||MISFIT RELAXATION MECHANISMS:1||PBTIO3:1||O2:1||CONDUCTING POLYMERS:1||poly(methylmethancrylate):1||microspheres:1||phase contrast Xray microscope:1||AMBIENT AIR:1||ATMOSPHERE:1||XRAY INTERFEROMETER:1||NiAu composite nanoparticles.:1||synchrotron radiation Xrays:1||microtomography:1||OIL FLYASH:1||zinc oxide:1||mammography:1||SrRuO3 film:1||Laser epitaxy:1||HOLE MOBILITY:1||Models of crystal defects:1||RABBIT LUNGS:1||NI/AU CONTACT:1||3D printing:1||Stress relaxation:1||SURFACEAREA:1||IMAGE:1||modulation transfer function (MTF):1||Pb ions:1||Insitu visualization:1||Interfacial tension:1||DISPERSION FORCES:1||SINGLECRYSTALS:1||XRAY SOURCE:1||Synchrotron Xray imaging:1||Realtime imaging:1||MEDICAL APPLICATIONS:1||wiggler bending magnet:1||undulator:1||diffractionenhanced imaging:1||ZnO film:1||CAPACITORS:1||HE3:1||NiP alloy:1||PHOTOCHEMICAL FORMATION:1||extended domain matching:1||cubetextured Ni substrates:1||RAY COMPUTEDTOMOGRAPHY:1||electrode layer:1||DOMAINSTRUCTURE:1||XRAY CT:1||SPECIMEN:1||mammographic phantom:1||Xray absorption spectroscopy:1||BLUE:1||CONTACT:1||(BA:1||synchrotron spectromicroscopy:1||thin film:1||MICROWAVE PLASMA:1||GOLD NANOPARTICLES:1||POLYMERIZATION:1||DISEASE:1||Shanghai:1||MORTALITY:1||HETEROSTRUCTURES:1||METHACRYLATE:1||prostate cancer:1||renal cell carcinoma:1||RATS:1||PULSEDLASER DEPOSITION:1||semiconducting IIVI materials:1||PATTERNS:1||sapphire:1||evaporation:1||ZINCOXIDE:1||LIGHTEMITTING DIODE:1||Synchrotron imaging:1||Dislocations:1||Cracks:1||LIVE:1||spinal cord:1||stainless steel:1||nanophotonics:1||subwavelength waveguides:1||Synchrotrons:1||High dislocation density:1||Misfit stress relaxations:1||Randomly distributed:1||Tripleaxis xray diffractions:1||FLOW:1||CRYSTALLINE ORGANIC NANORODS:1||SHAPE CHANGES:1||ZnO thin film:1||(111)SI:1||XRAY MIRRORS:1||low temperature:1||oxide cathodes:1||heterogeneity:1||Xray microscopy:1||INTERFACIAL TENSIONS:1||single crystal growth:1||CARCINOMA:1||mouse:1||ANIMALS:1||Mndoped ZnO:1||luminescence:1||solution precipitation:1||CLUSTER:1||relaxation:1||ALPHAFE2O3:1||XANES:1||epitaxy:1||LaNiO3 thin film:1||LANIO3 THINFILMS:1||ELECTRODE:1||Fe3O4 sublayer:1||EXAFS microscopy:1||FERRITE FILMS:1||SURFACE PRETREATMENTS:1||superconductors:1||CONTRAST AGENT:1||BIODISTRIBUTION:1||DEATH:1||SYNCHROTRON:1||IR:1||apo Eknockout mouse:1||plaque:1||microradiology:1||ALPHASYNUCLEIN:1||PULMONARY TOXICITY:1||XRAY TOPOGRAPHY:1||dislocation:1||metalorganic chemical vapor deposition:1||CRYSTALGROWTH:1||SELFASSEMBLED MONOLAYERS:1||MEMBRANES:1||MAGNETICANISOTROPY:1||SI1XGEX CRYSTALS:1||STRAINEDSI:1||Extended Weibull model:1||MOLYBDENUM:1||ALLOYS:1||IRON:1||Theoretical modeling:1||Threading dislocation:1||GROWTH:27||THINFILMS:16||SYNCHROTRONRADIATION:15||CONTRAST:11||RADIOLOGY:11||PARTICLES:11||FILMS:11||SILICON:10||RADIATION:10||DEPOSITION:10||RESOLUTION:9||CRYSTALS:8||SILICONCARBIDE:7||XRAYS:7||MAMMOGRAPHY:7||Xray diffraction:7||synchrotron 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ELECTRONMICROSCOPY:2||EPITAXIAL COSI2 FILMS:2||MECHANISMS:2||INSITU GROWTH:2||DEVICE:2||LOCALIZED ELECTROCHEMICAL DEPOSITION:2||X ray diffraction:2||SCHOTTKY CONTACT:2||IRRADIATION:2||aqua regia treatment:2||INVIVO:2||CELLADHESION:2||MORPHOGENETIC PROTEIN2:2||RECEPTOR:2||TEM:2||broadband synchrotron light:2||nanoparticle:2||BUFFER LAYERS:2||TC:2||ENHANCED SYNCHROTRON RADIOLOGY:2||synthesis:2||POLYDIMETHYLSILOXANE:2||MICROCHANNELS:2||PRETREATMENT PROCESS:2||XRAY:2||CHEMOTAXIS:2||MECHANOSENSORY TRANSDUCTION:2||rectangular microtube:2||CONJUGATED POLYMER:2||atomic force microscopy:2||METALLIC OXIDE SRRUO3:2||LASERABLATION:2||STRESS:2||ZONE PLATES:2||FRICTION:2||THERMALSTABILITY:2||Xrays:2||RAY:2||NM:2||ENERGY:2||TOPOGRAPHY:2||synchrotron Xray:2||ACID HYDROGELS:2||CAENORHABDITISELEGANS:2||PROTEIN:2||defects:2||EVOLUTION:2||FABRICATION:2||sharp bending waveguide:2||lasing action:2||BULK CRYSTALS:2||SUPERLATTICES:2||COATED CONDUCTORS:2||SI(111):2||phase contrast:2||CORONARY ANGIOGRAPHY:2||SPECTROMICROSCOPY:2||MEPHISTO:2||OXYGEN:2||OPTICALPROPERTIES:2||RADIOGRAPHY:2||CONTACT DEFORMATIONS:2||MOLECULAR FORCES:2||SOLIDS:2||NTYPE GAN:2||deposition:2||CHEMISTRY:2||DEFORMATION:2||SUBSTRATE:2||HETEROEPITAXY:2||NANOTOPOGRAPHY:2||EPITAXIALGROWTH:2||Xray:2||CHEMICAL VAPORDEPOSITION:2||SILICON STRUCTURES:2||STEMCELLS:2||CHANNEL:2||crystal structure:2||CORONARYANGIOGRAPHY:2||SiC:2||BUFFER LAYER:2||MOLECULARBEAM EPITAXY:2||INTERFACE:2||SIZE:2||ELECTRON:2||XRAY MICROSCOPY:2||MORPHOLOGIES:2||NANOCOLLOIDS:2||FORCE MICROSCOPY:2||ablation:2||polymers:2||(NH4)(2)Sx treatment:2||CLUSTERS:2||BIOMATERIALS:2||CIRCUITS:2||rectangular ring mode:2||GUIDES:2||MICROCAVITY:2||PHOTOLUMINESCENCE:2||epitaxial growth:2||EMBRITTLEMENT:2||Xray imaging:2||BIOCOMPATIBILITY:2||BEHAVIOR:2||MICROWAVEPLASMA:2||LOWPRESSURE:2||DEGRADATION:2||TISSUE:2||LIQUID:2||SOFT LITHOGRAPHY:2||amplified spontaneous emission (ASE):2||SMALL ORGANICMOLECULES:2||PHOTONIC 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evolution:1||SI(100):1||ANISOTROPY:1||WET GRANULAR PILE:1||COALESCENCE:1||INSITU POLYMERIZATION:1||GRAPHENE:1||CANCER:1||NODULES:1||RABBITS:1||phasecontrast:1||YTTRIUMOXIDE FILMS:1||BaTiO3/SrTiO3:1||dental implant:1||coincidence site density:1||ERNI2B2C:1||crystallites:1||CoCrPt films:1||tensile strain:1||gallide:1||MGO:1||Baferrite film:1||synchrotron xray scattering:1||ZNO THINFILMS:1||MORPHOLOGY:1||PHASES:1||MICE:1||EBEAM LITHOGRAPHY:1||electrorheological fluids:1||NANOFIBROUS MEMBRANES:1||NANOLITHOGRAPHY:1||refractive index radiology:1||BLOOD:1||colloidal:1||SIZE CONTROL:1||nanoradiology:1||ZnSO4:1||lung injury:1||METAL:1||PM10:1||textured grain:1||MICROSTRUCTURE:1||DIMENSIONS:1||highresolution Xray diffraction:1||low temperature buffer:1||Zinc compounds:1||SI:1||HUMAN LONGEVITY:1||Maximum human lifespan:1||LIMITS:1||MOSFETS:1||in situ XANES:1||nanowires:1||PHOTOIRRADIATION:1||FIBERS:1||WORK:1||EMISSION:1||RADIATION MICROTOMOGRAPHY:1||RAMANSCATTERING:1||gold 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radiation:1||Synchrotron radiation imaging:1||Dislocations (crystals):1||LUNG INJURY:1||POLYMER SURFACES:1||SINGLE CELLS:1||PREFERRED ORIENTATION:1||sapphire orientation:1||TANTALUM:1||BIASENHANCED NUCLEATION:1||hexaferrite:1||stretched exponential:1||SOLIDSURFACE:1||SHEAR:1||VIDEO MICROSCOPY:1||CARBON NANOTUBES:1||realtime observation:1||Xray synchrotron:1||CARBONMONOXIDE:1||ELECTROCHEMICAL FABRICATION:1||crystal growth:1||computer simulation:1||FERROELECTRICFILMS:1||TITANIUM IMPLANTS:1||BONE INTERFACE:1||EXAFS perpendicular magnetic recording:1||Pd/Ni:1||ELECTRODES:1||internal organ:1||LIGHTEMITTINGDIODES:1||interfacial structure:1||CONSTANT:1||DIELECTRICPROPERTIES:1||AR:1||DEVICES:1||BiSrCaCuO:1||LASER ABLATION:1||MECHANISM:1||SELECTIVE DEPOSITION:1||TARGETED DRUGDELIVERY:1||PEG:1||carbon nanotubes:1||nanocharacterization:1||WALLED CARBON NANOTUBE:1||basal cell carcinoma:1||PARTICULATE AIRPOLLUTION:1||FINE:1||CITIES:1||DOPED ZNO FILMS:1||atherosclerosis:1||drug delivery:1||hard Xray:1||COMBUSTION:1||ARTIFICIAL BATIO3/SRTIO3 SUPERLATTICES:1||surface morphology:1||Direct wafer bonding:1||COLLOIDAL GOLD PARTICLES:1||DELINEATION:1||EXPECTANCY:1||DEMOGRAPHY:1||MRI:1||SIGE:1||Phase contrast microradiography:1||INJURY:1||PASSIVITY:1||VOLUME:1||CONTACTANGLE:1||ARRAYS:1||DUCTILITY:1||sputtering:1||computed microtomography (mu CT):1||unmonochromatized Xray:1||BIPOLARTRANSISTORS:1||longevity:1||Confocal microscopy:1||Colloidal wettability:1||ATOMICFORCE MICROSCOPY:1||storage ring:1||digital subtraction:1||SCATTERING:1||size effect:1||SYNTHETIC QUARTZ:1||liquid metal embrittlement:1||iron ore:1||cube textured Ni substrates:1||SrRuO3 films:1||laser ablations:1||Ti underlayer:1||RANDOMACCESS MEMORIES:1||DOMAIN CONFIGURATIONS:1||MGO(100):1||SPECTROSCOPY:1||XE:1||IONBEAM:1||GRAINBOUNDARY MIGRATION:1||SRTIO3:1||COMPOSITES:1||FOAMS:1||BREASTCANCER SPECIMENS:1||unmonochromatized:1||Xray induced nucleation:1||gold:1||ABSORPTION:1||SEPARATION:1||CZOCHRALSKI GROWTH:1||RETRIEVAL:1||GAMMARADIATION:1||AQUEOUSSOLUTION:1||NANOCOMPOSITES:1||INCREASE:1||without staining procedure:1||XPS:1||Imaging techniques:1||Interfaces (materials):1||Dislocation distributions:1||AZOBENZENE:1||STRUCTURAL EVOLUTION:1||RELAXATION:1||DROP IMPACT:1||NONLINEAR DYNAMICS:1||DISLOCATIONS:1||Colloids:1||TRANSFORMATION:1||METAL INTERCONNECTS:1||ELASTIC CONDUCTORS:1||LOGIC:1||DEFICIENT MICE:1||tomography:1||FACILITY:1||osseointegration:1||ROCKS:1||dental radiography:1||Zn coating:1||RE2O3/Ni:1||YBCO COATED CONDUCTORS:1||threedimensional islands:1||(Ba,Sr)TiO3:1||ultrahigh resolution:1||photoelectron emission:1||Pd:1||LANIO3:1||BASE ELECTRODES:1||iron oxide phase:1||ironoxide interlayer:1||COATED GLASS SUBSTRATE:1||MICROWAVE PLASMA NUCLEATION:1||ENHANCED NUCLEATION:1||phase transformation:1||ADSORPTION:1||phasecontrast xray imaging:1||lung inflammation:1||SI1XGEX SINGLECRYSTALS:1||COCONTINUITY:1||SCALE:1||OBJECT:1||synchrotron microradiography:1||FeSO4:1||INDUCTION:1||BaTiO3 and SrTiO3 thin films:1||HARDXRAYS:1||light emitting diodes:1||ACID:1||MICROSTRUCTURES:1||PHOTOLUMINESCENCE PROPERTIES:1||LASER IRRADIATION:1||Human aging:1||polychromatic synchrotron Xray:1||refraction enhanced imaging:1||CHROMOPHORES:1||ACUTE LUNG INJURY:1||spatial resolution:1||BETAFESI2:1||VLSI:1||SI1XGEX:1||COLLOIDAL SUSPENSIONS:1||ELECTRONICS:1||ENHANCEMENT:1||artificial lattice:1||sinters:1||SILVER:1||STRAIN RELAXATION:1||biaxial texture:1||synchrotron scattering:1||transmission electron microscopy:1||IRONOXIDE FILMS:1||PZT thin film:1||ferroelectric thin film:1||MISFIT RELAXATION MECHANISMS:1||PBTIO3:1||O2:1||CONDUCTING POLYMERS:1||poly(methylmethancrylate):1||microspheres:1||phase contrast Xray microscope:1||AMBIENT AIR:1||ATMOSPHERE:1||XRAY INTERFEROMETER:1||NiAu composite nanoparticles.:1||synchrotron radiation Xrays:1||microtomography:1||OIL FLYASH:1||zinc oxide:1||mammography:1||SrRuO3 film:1||Laser epitaxy:1||HOLE MOBILITY:1||Models of crystal defects:1||RABBIT LUNGS:1||NI/AU CONTACT:1||3D printing:1||Stress relaxation:1||SURFACEAREA:1||IMAGE:1||modulation transfer function (MTF):1||Pb ions:1||Insitu visualization:1||Interfacial tension:1||DISPERSION FORCES:1||SINGLECRYSTALS:1||XRAY SOURCE:1||Synchrotron Xray imaging:1||Realtime imaging:1||MEDICAL APPLICATIONS:1||wiggler bending magnet:1||undulator:1||diffractionenhanced imaging:1||ZnO film:1||CAPACITORS:1||HE3:1||NiP alloy:1||PHOTOCHEMICAL FORMATION:1||extended domain matching:1||cubetextured Ni substrates:1||RAY COMPUTEDTOMOGRAPHY:1||electrode layer:1||DOMAINSTRUCTURE:1||XRAY CT:1||SPECIMEN:1||mammographic phantom:1||Xray absorption spectroscopy:1||BLUE:1||CONTACT:1||(BA:1||synchrotron spectromicroscopy:1||thin film:1||MICROWAVE PLASMA:1||GOLD NANOPARTICLES:1||POLYMERIZATION:1||DISEASE:1||Shanghai:1||MORTALITY:1||HETEROSTRUCTURES:1||METHACRYLATE:1||prostate cancer:1||renal cell carcinoma:1||RATS:1||PULSEDLASER DEPOSITION:1||semiconducting IIVI materials:1||PATTERNS:1||sapphire:1||evaporation:1||ZINCOXIDE:1||LIGHTEMITTING DIODE:1||Synchrotron imaging:1||Dislocations:1||Cracks:1||LIVE:1||spinal cord:1||stainless steel:1||nanophotonics:1||subwavelength waveguides:1||Synchrotrons:1||High dislocation density:1||Misfit stress relaxations:1||Randomly distributed:1||Tripleaxis xray diffractions:1||FLOW:1||CRYSTALLINE ORGANIC NANORODS:1||SHAPE CHANGES:1||ZnO thin film:1||(111)SI:1||XRAY MIRRORS:1||low temperature:1||oxide cathodes:1||heterogeneity:1||Xray microscopy:1||INTERFACIAL TENSIONS:1||single crystal growth:1||CARCINOMA:1||mouse:1||ANIMALS:1||Mndoped ZnO:1||luminescence:1||solution precipitation:1||CLUSTER:1||relaxation:1||ALPHAFE2O3:1||XANES:1||epitaxy:1||LaNiO3 thin film:1||LANIO3 THINFILMS:1||ELECTRODE:1||Fe3O4 sublayer:1||EXAFS microscopy:1||FERRITE FILMS:1||SURFACE PRETREATMENTS:1||superconductors:1||CONTRAST AGENT:1||BIODISTRIBUTION:1||DEATH:1||SYNCHROTRON:1||IR:1||apo Eknockout mouse:1||plaque:1||microradiology:1||ALPHASYNUCLEIN:1||PULMONARY TOXICITY:1||XRAY TOPOGRAPHY:1||dislocation:1||metalorganic chemical vapor deposition:1||CRYSTALGROWTH:1||SELFASSEMBLED MONOLAYERS:1||MEMBRANES:1||MAGNETICANISOTROPY:1||SI1XGEX CRYSTALS:1||STRAINEDSI:1||Extended Weibull model:1||MOLYBDENUM:1||ALLOYS:1||IRON:1||Theoretical modeling:1||Threading dislocation:1||GROWTH:27||THINFILMS:16||SYNCHROTRONRADIATION:15||CONTRAST:11||RADIOLOGY:11||PARTICLES:11||FILMS:11||SILICON:10||RADIATION:10||DEPOSITION:10||RESOLUTION:9||CRYSTALS:8||SILICONCARBIDE:7||XRAYS:7||MAMMOGRAPHY:7||Xray diffraction:7||synchrotron radiation:6||XRAYSCATTERING:6||MODEL:6||microstructure:6||DYNAMICS:5||ELECTRODEPOSITION:5||LAYERS:5||CHEMICALVAPORDEPOSITION:5||TEMPERATURE:5||TOMOGRAPHY:5||COMPUTEDTOMOGRAPHY:5||SAPPHIRE:5||MEDIA:5||NANOWIRES:5||DIFFRACTION:4||TISSUES:4||pulsed laser deposition:4||phase contrast imaging:4||LAYER:4||IMAGES:4||DIODES:4||FIELDEFFECT TRANSISTORS:4||ptype GaN:4||MICROSCOPY:4||REDUCTION:4||POLYMER:4||DEFECTS:3||COHERENCE:3||MICROTOMOGRAPHY:3||NANOPARTICLES:3||synchrotron:3||LIGHT:3||TRANSISTORS:3||SURFACES:3||STRAIN:3||EPITAXIAL LAYERS:3||DRUGDELIVERY:3||REFRACTION:3||growth mechanism:3||METALS:3||MICROPIPES:3||SYSTEM:3||NUCLEATION:3||synchrotron Xray scattering:3||SURFACE:3||SCREW DISLOCATIONS:3||SIMULATION:3||HARD XRAYS:3||ELECTRICALPROPERTIES:3||EPITAXY:3||GAN:3||PM2.5:3||EVAPORATION:3||LIQUIDS:3||INPLANE:3||RAT:3||ANGIOGENESIS:3||CT:3||GaN:3||ZnO:3||NANORODS:3||strain:3||PB(ZR0.53TI0.47)O3:3||CRYSTALLIZATION:3||synchrotron Xrays:2||buffer layer:2||TRANSMISSION ELECTRONMICROSCOPY:2||EPITAXIAL COSI2 FILMS:2||MECHANISMS:2||INSITU GROWTH:2||DEVICE:2||LOCALIZED ELECTROCHEMICAL DEPOSITION:2||X ray diffraction:2||SCHOTTKY CONTACT:2||IRRADIATION:2||aqua regia treatment:2||INVIVO:2||CELLADHESION:2||MORPHOGENETIC PROTEIN2:2||RECEPTOR:2||TEM:2||broadband synchrotron light:2||nanoparticle:2||BUFFER LAYERS:2||TC:2||ENHANCED SYNCHROTRON RADIOLOGY:2||synthesis:2||POLYDIMETHYLSILOXANE:2||MICROCHANNELS:2||PRETREATMENT PROCESS:2||XRAY:2||CHEMOTAXIS:2||MECHANOSENSORY TRANSDUCTION:2||rectangular microtube:2||CONJUGATED POLYMER:2||atomic force microscopy:2||METALLIC OXIDE SRRUO3:2||LASERABLATION:2||STRESS:2||ZONE PLATES:2||FRICTION:2||THERMALSTABILITY:2||Xrays:2||RAY:2||NM:2||ENERGY:2||TOPOGRAPHY:2||synchrotron Xray:2||ACID HYDROGELS:2||CAENORHABDITISELEGANS:2||PROTEIN:2||defects:2||EVOLUTION:2||FABRICATION:2||sharp bending waveguide:2||lasing action:2||BULK CRYSTALS:2||SUPERLATTICES:2||COATED CONDUCTORS:2||SI(111):2||phase contrast:2||CORONARY ANGIOGRAPHY:2||SPECTROMICROSCOPY:2||MEPHISTO:2||OXYGEN:2||OPTICALPROPERTIES:2||RADIOGRAPHY:2||CONTACT DEFORMATIONS:2||MOLECULAR FORCES:2||SOLIDS:2||NTYPE GAN:2||deposition:2||CHEMISTRY:2||DEFORMATION:2||SUBSTRATE:2||HETEROEPITAXY:2||NANOTOPOGRAPHY:2||EPITAXIALGROWTH:2||Xray:2||CHEMICAL VAPORDEPOSITION:2||SILICON STRUCTURES:2||STEMCELLS:2||CHANNEL:2||crystal structure:2||CORONARYANGIOGRAPHY:2||SiC:2||BUFFER LAYER:2||MOLECULARBEAM EPITAXY:2||INTERFACE:2||SIZE:2||ELECTRON:2||XRAY MICROSCOPY:2||MORPHOLOGIES:2||NANOCOLLOIDS:2||FORCE MICROSCOPY:2||ablation:2||polymers:2||(NH4)(2)Sx treatment:2||CLUSTERS:2||BIOMATERIALS:2||CIRCUITS:2||rectangular ring mode:2||GUIDES:2||MICROCAVITY:2||PHOTOLUMINESCENCE:2||epitaxial growth:2||EMBRITTLEMENT:2||Xray imaging:2||BIOCOMPATIBILITY:2||BEHAVIOR:2||MICROWAVEPLASMA:2||LOWPRESSURE:2||DEGRADATION:2||TISSUE:2||LIQUID:2||SOFT LITHOGRAPHY:2||amplified spontaneous emission (ASE):2||SMALL ORGANICMOLECULES:2||PHOTONIC CRYSTAL:2||micropipes:2||radiology:2||ALLOY:2||Xray scattering:2||CRITICALCURRENT DENSITY:2||ELECTRONMICROSCOPY:2||BI(PB)SRCACUO:2||ELECTRONICSTRUCTURE:2||RECONSTRUCTION:2||MG:2||ohmic contact:2||Pd ohmic contact:2||xray scattering:2||INP:2||annealing:2||REGENERATION:2||TITANIUM:2||COLLOIDAL GOLD:2||crystallization:2||BUCKLING MECHANICS:2||LASERS:2||MODES:2||synchrotron imaging:2||lattice distortion:2||AQUEOUSELECTROLYTE:2||MOLECULARDYNAMICS:2||OXIDE:2||MICROANGIOGRAPHY:2||OXIDATION:2||MICRORADIOLOGY:2||TECHNOLOGY:2||GE:2||surface chemistry:2||RECOVERY:2||OHMIC CONTACTS:2||LASERDIODES:2||PTYPE GAN:2||MOTION:2||PHANTOM:2||PHASE:2||CALCIUMPHOSPHATE CERAMICS:2||REPAIR:2||porphyrin:2||AMPLIFIED SPONTANEOUS EMISSION:2||METALELECTRODES:2||PD:2||SUPERCONDUCTING TAPES:2||nucleation:2||COATINGS:2||Xray topography:2||MONOLAYERS:2||SURFACE MODIFICATION:2||LITHOGRAPHY:2||MECHANICAL VENTILATION:1||MICRORIBBONS:1||STIFFNESS:1||DUALPHASE STEEL:1||growth mode:1||strain evolution:1||SI(100):1||ANISOTROPY:1||WET GRANULAR PILE:1||COALESCENCE:1||INSITU POLYMERIZATION:1||GRAPHENE:1||CANCER:1||NODULES:1||RABBITS:1||phasecontrast:1||YTTRIUMOXIDE FILMS:1||BaTiO3/SrTiO3:1||dental implant:1||coincidence site density:1||ERNI2B2C:1||crystallites:1||CoCrPt films:1||tensile strain:1||gallide:1||MGO:1||Baferrite film:1||synchrotron xray scattering:1||ZNO THINFILMS:1||MORPHOLOGY:1||PHASES:1||MICE:1||EBEAM LITHOGRAPHY:1||electrorheological fluids:1||NANOFIBROUS MEMBRANES:1||NANOLITHOGRAPHY:1||refractive index radiology:1||BLOOD:1||colloidal:1||SIZE CONTROL:1||nanoradiology:1||ZnSO4:1||lung injury:1||METAL:1||PM10:1||textured grain:1||MICROSTRUCTURE:1||DIMENSIONS:1||highresolution Xray diffraction:1||low temperature buffer:1||Zinc compounds:1||SI:1||HUMAN LONGEVITY:1||Maximum human lifespan:1||LIMITS:1||MOSFETS:1||in situ XANES:1||nanowires:1||PHOTOIRRADIATION:1||FIBERS:1||WORK:1||EMISSION:1||RADIATION MICROTOMOGRAPHY:1||RAMANSCATTERING:1||gold nanoparticles:1||synchrotron Xray diffraction:1||OPTICAL WAVEGUIDES:1||CONDUCTINGPOLYMER NANOWIRE:1||Lung cancer:1||INTRAVENOUS CORONARYARTERIOGRAPHY:1||SUBLIMATION GROWTH:1||radiography:1||porous SiC:1||GIANT MAGNETORESISTANCE:1||SEMICONDUCTORS:1||Ga diffusion:1||electroless deposition:1||HEMATITE:1||FREEELECTRON LASER:1||MOCVD:1||interfaces:1||white beam:1||imaging technique:1||nucleation layer:1||interface structure:1||epitaxial Baferrite film:1||rf magnetron sputtering:1||MAGNETIC CHARACTERISTICS:1||MIXTURE:1||ACCESS MEMORY APPLICATION:1||COHERENCY STRAIN:1||DENSITY:1||nanofabrication:1||POLY(METHYL METHACRYLATE) MICROSPHERE:1||RESIST:1||unmonochromatic beam:1||MICRORADIOGRAPHY:1||INTERFEROMETER:1||EXPOSURE:1||volume variation electronic:1||PULSEDLASER ABLATION:1||Semiconducting IIVI materials:1||Light emitting diodes:1||phase contrast microscopies:1||lung:1||AUGERELECTRON SPECTROSCOPY:1||passivation:1||additive manufacturing:1||Silicon carbide:1||Synchrotron radiation:1||Synchrotron radiation imaging:1||Dislocations (crystals):1||LUNG INJURY:1||POLYMER SURFACES:1||SINGLE CELLS:1||PREFERRED ORIENTATION:1||sapphire orientation:1||TANTALUM:1||BIASENHANCED NUCLEATION:1||hexaferrite:1||stretched exponential:1||SOLIDSURFACE:1||SHEAR:1||VIDEO MICROSCOPY:1||CARBON NANOTUBES:1||realtime observation:1||Xray synchrotron:1||CARBONMONOXIDE:1||ELECTROCHEMICAL FABRICATION:1||crystal growth:1||computer simulation:1||FERROELECTRICFILMS:1||TITANIUM IMPLANTS:1||BONE INTERFACE:1||EXAFS perpendicular magnetic recording:1||Pd/Ni:1||ELECTRODES:1||internal organ:1||LIGHTEMITTINGDIODES:1||interfacial structure:1||CONSTANT:1||DIELECTRICPROPERTIES:1||AR:1||DEVICES:1||BiSrCaCuO:1||LASER ABLATION:1||MECHANISM:1||SELECTIVE DEPOSITION:1||TARGETED DRUGDELIVERY:1||PEG:1||carbon nanotubes:1||nanocharacterization:1||WALLED CARBON NANOTUBE:1||basal cell carcinoma:1||PARTICULATE AIRPOLLUTION:1||FINE:1||CITIES:1||DOPED ZNO FILMS:1||atherosclerosis:1||drug delivery:1||hard Xray:1||COMBUSTION:1||ARTIFICIAL BATIO3/SRTIO3 SUPERLATTICES:1||surface morphology:1||Direct wafer bonding:1||COLLOIDAL GOLD PARTICLES:1||DELINEATION:1||EXPECTANCY:1||DEMOGRAPHY:1||MRI:1||SIGE:1||Phase contrast microradiography:1||INJURY:1||PASSIVITY:1||VOLUME:1||CONTACTANGLE:1||ARRAYS:1||DUCTILITY:1||sputtering:1||computed microtomography (mu CT):1||unmonochromatized Xray:1||BIPOLARTRANSISTORS:1||longevity:1||Confocal microscopy:1||Colloidal wettability:1||ATOMICFORCE MICROSCOPY:1||storage ring:1||digital subtraction:1||SCATTERING:1||size effect:1||SYNTHETIC QUARTZ:1||liquid metal embrittlement:1||iron ore:1||cube textured Ni substrates:1||SrRuO3 films:1||laser ablations:1||Ti underlayer:1||RANDOMACCESS MEMORIES:1||DOMAIN CONFIGURATIONS:1||MGO(100):1||SPECTROSCOPY:1||XE:1||IONBEAM:1||GRAINBOUNDARY MIGRATION:1||SRTIO3:1||COMPOSITES:1||FOAMS:1||BREASTCANCER SPECIMENS:1||unmonochromatized:1||Xray induced nucleation:1||gold:1||ABSORPTION:1||SEPARATION:1||CZOCHRALSKI GROWTH:1||RETRIEVAL:1||GAMMARADIATION:1||AQUEOUSSOLUTION:1||NANOCOMPOSITES:1||INCREASE:1||without staining procedure:1||XPS:1||Imaging techniques:1||Interfaces (materials):1||Dislocation distributions:1||AZOBENZENE:1||STRUCTURAL EVOLUTION:1||RELAXATION:1||DROP IMPACT:1||NONLINEAR DYNAMICS:1||DISLOCATIONS:1||Colloids:1||TRANSFORMATION:1||METAL INTERCONNECTS:1||ELASTIC CONDUCTORS:1||LOGIC:1||DEFICIENT MICE:1||tomography:1||FACILITY:1||osseointegration:1||ROCKS:1||dental radiography:1||Zn coating:1||RE2O3/Ni:1||YBCO COATED CONDUCTORS:1||threedimensional islands:1||(Ba,Sr)TiO3:1||ultrahigh resolution:1||photoelectron emission:1||Pd:1||LANIO3:1||BASE ELECTRODES:1||iron oxide phase:1||ironoxide interlayer:1||COATED GLASS SUBSTRATE:1||MICROWAVE PLASMA NUCLEATION:1||ENHANCED NUCLEATION:1||phase transformation:1||ADSORPTION:1||phasecontrast xray imaging:1||lung inflammation:1||SI1XGEX SINGLECRYSTALS:1||COCONTINUITY:1||SCALE:1||OBJECT:1||synchrotron microradiography:1||FeSO4:1||INDUCTION:1||BaTiO3 and SrTiO3 thin films:1||HARDXRAYS:1||light emitting diodes:1||ACID:1||MICROSTRUCTURES:1||PHOTOLUMINESCENCE PROPERTIES:1||LASER IRRADIATION:1||Human aging:1||polychromatic synchrotron Xray:1||refraction enhanced imaging:1||CHROMOPHORES:1||ACUTE LUNG INJURY:1||spatial resolution:1||BETAFESI2:1||VLSI:1||SI1XGEX:1||COLLOIDAL SUSPENSIONS:1||ELECTRONICS:1||ENHANCEMENT:1||artificial lattice:1||sinters:1||SILVER:1||STRAIN RELAXATION:1||biaxial texture:1||synchrotron scattering:1||transmission electron microscopy:1||IRONOXIDE FILMS:1||PZT thin film:1||ferroelectric thin film:1||MISFIT RELAXATION MECHANISMS:1||PBTIO3:1||O2:1||CONDUCTING POLYMERS:1||poly(methylmethancrylate):1||microspheres:1||phase contrast Xray microscope:1||AMBIENT AIR:1||ATMOSPHERE:1||XRAY INTERFEROMETER:1||NiAu composite nanoparticles.:1||synchrotron radiation Xrays:1||microtomography:1||OIL FLYASH:1||zinc oxide:1||mammography:1||SrRuO3 film:1||Laser epitaxy:1||HOLE MOBILITY:1||Models of crystal defects:1||RABBIT LUNGS:1||NI/AU CONTACT:1||3D printing:1||Stress relaxation:1||SURFACEAREA:1||IMAGE:1||modulation transfer function (MTF):1||Pb ions:1||Insitu visualization:1||Interfacial tension:1||DISPERSION FORCES:1||SINGLECRYSTALS:1||XRAY SOURCE:1||Synchrotron Xray imaging:1||Realtime imaging:1||MEDICAL APPLICATIONS:1||wiggler bending magnet:1||undulator:1||diffractionenhanced imaging:1||ZnO film:1||CAPACITORS:1||HE3:1||NiP alloy:1||PHOTOCHEMICAL FORMATION:1||extended domain matching:1||cubetextured Ni substrates:1||RAY COMPUTEDTOMOGRAPHY:1||electrode layer:1||DOMAINSTRUCTURE:1||XRAY CT:1||SPECIMEN:1||mammographic phantom:1||Xray absorption spectroscopy:1||BLUE:1||CONTACT:1||(BA:1||synchrotron spectromicroscopy:1||thin film:1||MICROWAVE PLASMA:1||GOLD NANOPARTICLES:1||POLYMERIZATION:1||DISEASE:1||Shanghai:1||MORTALITY:1||HETEROSTRUCTURES:1||METHACRYLATE:1||prostate cancer:1||renal cell carcinoma:1||RATS:1||PULSEDLASER DEPOSITION:1||semiconducting IIVI materials:1||PATTERNS:1||sapphire:1||evaporation:1||ZINCOXIDE:1||LIGHTEMITTING DIODE:1||Synchrotron imaging:1||Dislocations:1||Cracks:1||LIVE:1||spinal cord:1||stainless steel:1||nanophotonics:1||subwavelength waveguides:1||Synchrotrons:1||High dislocation density:1||Misfit stress relaxations:1||Randomly distributed:1||Tripleaxis xray diffractions:1||FLOW:1||CRYSTALLINE ORGANIC NANORODS:1||SHAPE CHANGES:1||ZnO thin film:1||(111)SI:1||XRAY MIRRORS:1||low temperature:1||oxide cathodes:1||heterogeneity:1||Xray microscopy:1||INTERFACIAL TENSIONS:1||single crystal growth:1||CARCINOMA:1||mouse:1||ANIMALS:1||Mndoped ZnO:1||luminescence:1||solution precipitation:1||CLUSTER:1||relaxation:1||ALPHAFE2O3:1||XANES:1||epitaxy:1||LaNiO3 thin film:1||LANIO3 THINFILMS:1||ELECTRODE:1||Fe3O4 sublayer:1||EXAFS microscopy:1||FERRITE FILMS:1||SURFACE PRETREATMENTS:1||superconductors:1||CONTRAST AGENT:1||BIODISTRIBUTION:1||DEATH:1||SYNCHROTRON:1||IR:1||apo Eknockout mouse:1||plaque:1||microradiology:1||ALPHASYNUCLEIN:1||PULMONARY TOXICITY:1||XRAY TOPOGRAPHY:1||dislocation:1||metalorganic chemical vapor deposition:1||CRYSTALGROWTH:1||SELFASSEMBLED MONOLAYERS:1||MEMBRANES:1||MAGNETICANISOTROPY:1||SI1XGEX CRYSTALS:1||STRAINEDSI:1||Extended Weibull model:1||MOLYBDENUM:1||ALLOYS:1||IRON:1||Theoretical modeling:1||Threading dislocation:1||GROWTH:27||THINFILMS:16||SYNCHROTRONRADIATION:15||CONTRAST:11||RADIOLOGY:11||PARTICLES:11||FILMS:11||SILICON:10||RADIATION:10||DEPOSITION:10||RESOLUTION:9||CRYSTALS:8||SILICONCARBIDE:7||XRAYS:7||MAMMOGRAPHY:7||Xray diffraction:7||synchrotron radiation:6||XRAYSCATTERING:6||MODEL:6||microstructure:6||DYNAMICS:5||ELECTRODEPOSITION:5||LAYERS:5||CHEMICALVAPORDEPOSITION:5||TEMPERATURE:5||TOMOGRAPHY:5||COMPUTEDTOMOGRAPHY:5||SAPPHIRE:5||MEDIA:5||NANOWIRES:5||DIFFRACTION:4||TISSUES:4||pulsed laser deposition:4||phase contrast imaging:4||LAYER:4||IMAGES:4||DIODES:4||FIELDEFFECT TRANSISTORS:4||ptype GaN:4||MICROSCOPY:4||REDUCTION:4||POLYMER:4||DEFECTS:3||COHERENCE:3||MICROTOMOGRAPHY:3||NANOPARTICLES:3||synchrotron:3||LIGHT:3||TRANSISTORS:3||SURFACES:3||STRAIN:3||EPITAXIAL LAYERS:3||DRUGDELIVERY:3||REFRACTION:3||growth mechanism:3||METALS:3||MICROPIPES:3||SYSTEM:3||NUCLEATION:3||synchrotron Xray scattering:3||SURFACE:3||SCREW DISLOCATIONS:3||SIMULATION:3||HARD 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imaging:2||BIOCOMPATIBILITY:2||BEHAVIOR:2||MICROWAVEPLASMA:2||LOWPRESSURE:2||DEGRADATION:2||TISSUE:2||LIQUID:2||SOFT LITHOGRAPHY:2||amplified spontaneous emission (ASE):2||SMALL ORGANICMOLECULES:2||PHOTONIC CRYSTAL:2||micropipes:2||radiology:2||ALLOY:2||Xray scattering:2||CRITICALCURRENT DENSITY:2||ELECTRONMICROSCOPY:2||BI(PB)SRCACUO:2||ELECTRONICSTRUCTURE:2||RECONSTRUCTION:2||MG:2||ohmic contact:2||Pd ohmic contact:2||xray scattering:2||INP:2||annealing:2||REGENERATION:2||TITANIUM:2||COLLOIDAL GOLD:2||crystallization:2||BUCKLING MECHANICS:2||LASERS:2||MODES:2||synchrotron imaging:2||lattice distortion:2||AQUEOUSELECTROLYTE:2||MOLECULARDYNAMICS:2||OXIDE:2||MICROANGIOGRAPHY:2||OXIDATION:2||MICRORADIOLOGY:2||TECHNOLOGY:2||GE:2||surface chemistry:2||RECOVERY:2||OHMIC CONTACTS:2||LASERDIODES:2||PTYPE GAN:2||MOTION:2||PHANTOM:2||PHASE:2||CALCIUMPHOSPHATE CERAMICS:2||REPAIR:2||porphyrin:2||AMPLIFIED SPONTANEOUS EMISSION:2||METALELECTRODES:2||PD:2||SUPERCONDUCTING TAPES:2||nucleation:2||COATINGS:2||Xray topography:2||MONOLAYERS:2||SURFACE MODIFICATION:2||LITHOGRAPHY:2||MECHANICAL VENTILATION:1||MICRORIBBONS:1||STIFFNESS:1||DUALPHASE STEEL:1||growth mode:1||strain evolution:1||SI(100):1||ANISOTROPY:1||WET GRANULAR PILE:1||COALESCENCE:1||INSITU POLYMERIZATION:1||GRAPHENE:1||CANCER:1||NODULES:1||RABBITS:1||phasecontrast:1||YTTRIUMOXIDE FILMS:1||BaTiO3/SrTiO3:1||dental implant:1||coincidence site density:1||ERNI2B2C:1||crystallites:1||CoCrPt films:1||tensile strain:1||gallide:1||MGO:1||Baferrite film:1||synchrotron xray scattering:1||ZNO THINFILMS:1||MORPHOLOGY:1||PHASES:1||MICE:1||EBEAM LITHOGRAPHY:1||electrorheological fluids:1||NANOFIBROUS MEMBRANES:1||NANOLITHOGRAPHY:1||refractive index radiology:1||BLOOD:1||colloidal:1||SIZE CONTROL:1||nanoradiology:1||ZnSO4:1||lung injury:1||METAL:1||PM10:1||textured grain:1||MICROSTRUCTURE:1||DIMENSIONS:1||highresolution Xray diffraction:1||low temperature buffer:1||Zinc compounds:1||SI:1||HUMAN LONGEVITY:1||Maximum human lifespan:1||LIMITS:1||MOSFETS:1||in situ XANES:1||nanowires:1||PHOTOIRRADIATION:1||FIBERS:1||WORK:1||EMISSION:1||RADIATION MICROTOMOGRAPHY:1||RAMANSCATTERING:1||gold nanoparticles:1||synchrotron Xray diffraction:1||OPTICAL WAVEGUIDES:1||CONDUCTINGPOLYMER NANOWIRE:1||Lung cancer:1||INTRAVENOUS CORONARYARTERIOGRAPHY:1||SUBLIMATION GROWTH:1||radiography:1||porous SiC:1||GIANT MAGNETORESISTANCE:1||SEMICONDUCTORS:1||Ga diffusion:1||electroless deposition:1||HEMATITE:1||FREEELECTRON LASER:1||MOCVD:1||interfaces:1||white beam:1||imaging technique:1||nucleation layer:1||interface structure:1||epitaxial Baferrite film:1||rf magnetron sputtering:1||MAGNETIC CHARACTERISTICS:1||MIXTURE:1||ACCESS MEMORY APPLICATION:1||COHERENCY STRAIN:1||DENSITY:1||nanofabrication:1||POLY(METHYL METHACRYLATE) MICROSPHERE:1||RESIST:1||unmonochromatic beam:1||MICRORADIOGRAPHY:1||INTERFEROMETER:1||EXPOSURE:1||volume variation electronic:1||PULSEDLASER ABLATION:1||Semiconducting IIVI materials:1||Light emitting diodes:1||phase contrast microscopies:1||lung:1||AUGERELECTRON SPECTROSCOPY:1||passivation:1||additive manufacturing:1||Silicon carbide:1||Synchrotron radiation:1||Synchrotron radiation imaging:1||Dislocations (crystals):1||LUNG INJURY:1||POLYMER SURFACES:1||SINGLE CELLS:1||PREFERRED ORIENTATION:1||sapphire orientation:1||TANTALUM:1||BIASENHANCED NUCLEATION:1||hexaferrite:1||stretched exponential:1||SOLIDSURFACE:1||SHEAR:1||VIDEO MICROSCOPY:1||CARBON NANOTUBES:1||realtime observation:1||Xray synchrotron:1||CARBONMONOXIDE:1||ELECTROCHEMICAL FABRICATION:1||crystal growth:1||computer simulation:1||FERROELECTRICFILMS:1||TITANIUM IMPLANTS:1||BONE INTERFACE:1||EXAFS perpendicular magnetic recording:1||Pd/Ni:1||ELECTRODES:1||internal organ:1||LIGHTEMITTINGDIODES:1||interfacial structure:1||CONSTANT:1||DIELECTRICPROPERTIES:1||AR:1||DEVICES:1||BiSrCaCuO:1||LASER ABLATION:1||MECHANISM:1||SELECTIVE DEPOSITION:1||TARGETED DRUGDELIVERY:1||PEG:1||carbon 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CONFIGURATIONS:1||MGO(100):1||SPECTROSCOPY:1||XE:1||IONBEAM:1||GRAINBOUNDARY MIGRATION:1||SRTIO3:1||COMPOSITES:1||FOAMS:1||BREASTCANCER SPECIMENS:1||unmonochromatized:1||Xray induced nucleation:1||gold:1||ABSORPTION:1||SEPARATION:1||CZOCHRALSKI GROWTH:1||RETRIEVAL:1||GAMMARADIATION:1||AQUEOUSSOLUTION:1||NANOCOMPOSITES:1||INCREASE:1||without staining procedure:1||XPS:1||Imaging techniques:1||Interfaces (materials):1||Dislocation distributions:1||AZOBENZENE:1||STRUCTURAL EVOLUTION:1||RELAXATION:1||DROP IMPACT:1||NONLINEAR DYNAMICS:1||DISLOCATIONS:1||Colloids:1||TRANSFORMATION:1||METAL INTERCONNECTS:1||ELASTIC CONDUCTORS:1||LOGIC:1||DEFICIENT MICE:1||tomography:1||FACILITY:1||osseointegration:1||ROCKS:1||dental radiography:1||Zn coating:1||RE2O3/Ni:1||YBCO COATED CONDUCTORS:1||threedimensional islands:1||(Ba,Sr)TiO3:1||ultrahigh resolution:1||photoelectron emission:1||Pd:1||LANIO3:1||BASE ELECTRODES:1||iron oxide phase:1||ironoxide interlayer:1||COATED GLASS SUBSTRATE:1||MICROWAVE PLASMA 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AIR:1||ATMOSPHERE:1||XRAY INTERFEROMETER:1||NiAu composite nanoparticles.:1||synchrotron radiation Xrays:1||microtomography:1||OIL FLYASH:1||zinc oxide:1||mammography:1||SrRuO3 film:1||Laser epitaxy:1||HOLE MOBILITY:1||Models of crystal defects:1||RABBIT LUNGS:1||NI/AU CONTACT:1||3D printing:1||Stress relaxation:1||SURFACEAREA:1||IMAGE:1||modulation transfer function (MTF):1||Pb ions:1||Insitu visualization:1||Interfacial tension:1||DISPERSION FORCES:1||SINGLECRYSTALS:1||XRAY SOURCE:1||Synchrotron Xray imaging:1||Realtime imaging:1||MEDICAL APPLICATIONS:1||wiggler bending magnet:1||undulator:1||diffractionenhanced imaging:1||ZnO film:1||CAPACITORS:1||HE3:1||NiP alloy:1||PHOTOCHEMICAL FORMATION:1||extended domain matching:1||cubetextured Ni substrates:1||RAY COMPUTEDTOMOGRAPHY:1||electrode layer:1||DOMAINSTRUCTURE:1||XRAY CT:1||SPECIMEN:1||mammographic phantom:1||Xray absorption spectroscopy:1||BLUE:1||CONTACT:1||(BA:1||synchrotron spectromicroscopy:1||thin film:1||MICROWAVE PLASMA:1||GOLD NANOPARTICLES:1||POLYMERIZATION:1||DISEASE:1||Shanghai:1||MORTALITY:1||HETEROSTRUCTURES:1||METHACRYLATE:1||prostate cancer:1||renal cell carcinoma:1||RATS:1||PULSEDLASER DEPOSITION:1||semiconducting IIVI materials:1||PATTERNS:1||sapphire:1||evaporation:1||ZINCOXIDE:1||LIGHTEMITTING DIODE:1||Synchrotron imaging:1||Dislocations:1||Cracks:1||LIVE:1||spinal cord:1||stainless steel:1||nanophotonics:1||subwavelength waveguides:1||Synchrotrons:1||High dislocation density:1||Misfit stress relaxations:1||Randomly distributed:1||Tripleaxis xray diffractions:1||FLOW:1||CRYSTALLINE ORGANIC NANORODS:1||SHAPE CHANGES:1||ZnO thin film:1||(111)SI:1||XRAY MIRRORS:1||low temperature:1||oxide cathodes:1||heterogeneity:1||Xray microscopy:1||INTERFACIAL TENSIONS:1||single crystal growth:1||CARCINOMA:1||mouse:1||ANIMALS:1||Mndoped ZnO:1||luminescence:1||solution precipitation:1||CLUSTER:1||relaxation:1||ALPHAFE2O3:1||XANES:1||epitaxy:1||LaNiO3 thin film:1||LANIO3 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ELECTRONMICROSCOPY:2||EPITAXIAL COSI2 FILMS:2||MECHANISMS:2||INSITU GROWTH:2||DEVICE:2||LOCALIZED ELECTROCHEMICAL DEPOSITION:2||X ray diffraction:2||SCHOTTKY CONTACT:2||IRRADIATION:2||aqua regia treatment:2||INVIVO:2||CELLADHESION:2||MORPHOGENETIC PROTEIN2:2||RECEPTOR:2||TEM:2||broadband synchrotron light:2||nanoparticle:2||BUFFER LAYERS:2||TC:2||ENHANCED SYNCHROTRON RADIOLOGY:2||synthesis:2||POLYDIMETHYLSILOXANE:2||MICROCHANNELS:2||PRETREATMENT PROCESS:2||XRAY:2||CHEMOTAXIS:2||MECHANOSENSORY TRANSDUCTION:2||rectangular microtube:2||CONJUGATED POLYMER:2||atomic force microscopy:2||METALLIC OXIDE SRRUO3:2||LASERABLATION:2||STRESS:2||ZONE PLATES:2||FRICTION:2||THERMALSTABILITY:2||Xrays:2||RAY:2||NM:2||ENERGY:2||TOPOGRAPHY:2||synchrotron Xray:2||ACID HYDROGELS:2||CAENORHABDITISELEGANS:2||PROTEIN:2||defects:2||EVOLUTION:2||FABRICATION:2||sharp bending waveguide:2||lasing action:2||BULK CRYSTALS:2||SUPERLATTICES:2||COATED CONDUCTORS:2||SI(111):2||phase contrast:2||CORONARY 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nanoparticles:1||synchrotron Xray diffraction:1||OPTICAL WAVEGUIDES:1||CONDUCTINGPOLYMER NANOWIRE:1||Lung cancer:1||INTRAVENOUS CORONARYARTERIOGRAPHY:1||SUBLIMATION GROWTH:1||radiography:1||porous SiC:1||GIANT MAGNETORESISTANCE:1||SEMICONDUCTORS:1||Ga diffusion:1||electroless deposition:1||HEMATITE:1||FREEELECTRON LASER:1||MOCVD:1||interfaces:1||white beam:1||imaging technique:1||nucleation layer:1||interface structure:1||epitaxial Baferrite film:1||rf magnetron sputtering:1||MAGNETIC CHARACTERISTICS:1||MIXTURE:1||ACCESS MEMORY APPLICATION:1||COHERENCY STRAIN:1||DENSITY:1||nanofabrication:1||POLY(METHYL METHACRYLATE) MICROSPHERE:1||RESIST:1||unmonochromatic beam:1||MICRORADIOGRAPHY:1||INTERFEROMETER:1||EXPOSURE:1||volume variation electronic:1||PULSEDLASER ABLATION:1||Semiconducting IIVI materials:1||Light emitting diodes:1||phase contrast microscopies:1||lung:1||AUGERELECTRON SPECTROSCOPY:1||passivation:1||additive manufacturing:1||Silicon carbide:1||Synchrotron radiation:1||Synchrotron radiation imaging:1||Dislocations (crystals):1||LUNG INJURY:1||POLYMER SURFACES:1||SINGLE CELLS:1||PREFERRED ORIENTATION:1||sapphire orientation:1||TANTALUM:1||BIASENHANCED NUCLEATION:1||hexaferrite:1||stretched exponential:1||SOLIDSURFACE:1||SHEAR:1||VIDEO MICROSCOPY:1||CARBON NANOTUBES:1||realtime observation:1||Xray synchrotron:1||CARBONMONOXIDE:1||ELECTROCHEMICAL FABRICATION:1||crystal growth:1||computer simulation:1||FERROELECTRICFILMS:1||TITANIUM IMPLANTS:1||BONE INTERFACE:1||EXAFS perpendicular magnetic recording:1||Pd/Ni:1||ELECTRODES:1||internal organ:1||LIGHTEMITTINGDIODES:1||interfacial structure:1||CONSTANT:1||DIELECTRICPROPERTIES:1||AR:1||DEVICES:1||BiSrCaCuO:1||LASER ABLATION:1||MECHANISM:1||SELECTIVE DEPOSITION:1||TARGETED DRUGDELIVERY:1||PEG:1||carbon nanotubes:1||nanocharacterization:1||WALLED CARBON NANOTUBE:1||basal cell carcinoma:1||PARTICULATE AIRPOLLUTION:1||FINE:1||CITIES:1||DOPED ZNO FILMS:1||atherosclerosis:1||drug delivery:1||hard 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microradiography:1||FeSO4:1||INDUCTION:1||BaTiO3 and SrTiO3 thin films:1||HARDXRAYS:1||light emitting diodes:1||ACID:1||MICROSTRUCTURES:1||PHOTOLUMINESCENCE PROPERTIES:1||LASER IRRADIATION:1||Human aging:1||polychromatic synchrotron Xray:1||refraction enhanced imaging:1||CHROMOPHORES:1||ACUTE LUNG INJURY:1||spatial resolution:1||BETAFESI2:1||VLSI:1||SI1XGEX:1||COLLOIDAL SUSPENSIONS:1||ELECTRONICS:1||ENHANCEMENT:1||artificial lattice:1||sinters:1||SILVER:1||STRAIN RELAXATION:1||biaxial texture:1||synchrotron scattering:1||transmission electron microscopy:1||IRONOXIDE FILMS:1||PZT thin film:1||ferroelectric thin film:1||MISFIT RELAXATION MECHANISMS:1||PBTIO3:1||O2:1||CONDUCTING POLYMERS:1||poly(methylmethancrylate):1||microspheres:1||phase contrast Xray microscope:1||AMBIENT AIR:1||ATMOSPHERE:1||XRAY INTERFEROMETER:1||NiAu composite nanoparticles.:1||synchrotron radiation Xrays:1||microtomography:1||OIL FLYASH:1||zinc oxide:1||mammography:1||SrRuO3 film:1||Laser epitaxy:1||HOLE MOBILITY:1||Models of crystal defects:1||RABBIT LUNGS:1||NI/AU CONTACT:1||3D printing:1||Stress relaxation:1||SURFACEAREA:1||IMAGE:1||modulation transfer function (MTF):1||Pb ions:1||Insitu visualization:1||Interfacial tension:1||DISPERSION FORCES:1||SINGLECRYSTALS:1||XRAY SOURCE:1||Synchrotron Xray imaging:1||Realtime imaging:1||MEDICAL APPLICATIONS:1||wiggler bending magnet:1||undulator:1||diffractionenhanced imaging:1||ZnO film:1||CAPACITORS:1||HE3:1||NiP alloy:1||PHOTOCHEMICAL FORMATION:1||extended domain matching:1||cubetextured Ni substrates:1||RAY COMPUTEDTOMOGRAPHY:1||electrode layer:1||DOMAINSTRUCTURE:1||XRAY CT:1||SPECIMEN:1||mammographic phantom:1||Xray absorption spectroscopy:1||BLUE:1||CONTACT:1||(BA:1||synchrotron spectromicroscopy:1||thin film:1||MICROWAVE PLASMA:1||GOLD NANOPARTICLES:1||POLYMERIZATION:1||DISEASE:1||Shanghai:1||MORTALITY:1||HETEROSTRUCTURES:1||METHACRYLATE:1||prostate cancer:1||renal cell carcinoma:1||RATS:1||PULSEDLASER DEPOSITION:1||semiconducting IIVI materials:1||PATTERNS:1||sapphire:1||evaporation:1||ZINCOXIDE:1||LIGHTEMITTING DIODE:1||Synchrotron imaging:1||Dislocations:1||Cracks:1||LIVE:1||spinal cord:1||stainless steel:1||nanophotonics:1||subwavelength waveguides:1||Synchrotrons:1||High dislocation density:1||Misfit stress relaxations:1||Randomly distributed:1||Tripleaxis xray diffractions:1||FLOW:1||CRYSTALLINE ORGANIC NANORODS:1||SHAPE CHANGES:1||ZnO thin film:1||(111)SI:1||XRAY MIRRORS:1||low temperature:1||oxide cathodes:1||heterogeneity:1||Xray microscopy:1||INTERFACIAL TENSIONS:1||single crystal growth:1||CARCINOMA:1||mouse:1||ANIMALS:1||Mndoped ZnO:1||luminescence:1||solution precipitation:1||CLUSTER:1||relaxation:1||ALPHAFE2O3:1||XANES:1||epitaxy:1||LaNiO3 thin film:1||LANIO3 THINFILMS:1||ELECTRODE:1||Fe3O4 sublayer:1||EXAFS microscopy:1||FERRITE FILMS:1||SURFACE PRETREATMENTS:1||superconductors:1||CONTRAST AGENT:1||BIODISTRIBUTION:1||DEATH:1||SYNCHROTRON:1||IR:1||apo Eknockout 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GaN:4||MICROSCOPY:4||REDUCTION:4||POLYMER:4||DEFECTS:3||COHERENCE:3||MICROTOMOGRAPHY:3||NANOPARTICLES:3||synchrotron:3||LIGHT:3||TRANSISTORS:3||SURFACES:3||STRAIN:3||EPITAXIAL LAYERS:3||DRUGDELIVERY:3||REFRACTION:3||growth mechanism:3||METALS:3||MICROPIPES:3||SYSTEM:3||NUCLEATION:3||synchrotron Xray scattering:3||SURFACE:3||SCREW DISLOCATIONS:3||SIMULATION:3||HARD XRAYS:3||ELECTRICALPROPERTIES:3||EPITAXY:3||GAN:3||PM2.5:3||EVAPORATION:3||LIQUIDS:3||INPLANE:3||RAT:3||ANGIOGENESIS:3||CT:3||GaN:3||ZnO:3||NANORODS:3||strain:3||PB(ZR0.53TI0.47)O3:3||CRYSTALLIZATION:3||synchrotron Xrays:2||buffer layer:2||TRANSMISSION ELECTRONMICROSCOPY:2||EPITAXIAL COSI2 FILMS:2||MECHANISMS:2||INSITU GROWTH:2||DEVICE:2||LOCALIZED ELECTROCHEMICAL DEPOSITION:2||X ray diffraction:2||SCHOTTKY CONTACT:2||IRRADIATION:2||aqua regia treatment:2||INVIVO:2||CELLADHESION:2||MORPHOGENETIC PROTEIN2:2||RECEPTOR:2||TEM:2||broadband synchrotron light:2||nanoparticle:2||BUFFER LAYERS:2||TC:2||ENHANCED SYNCHROTRON RADIOLOGY:2||synthesis:2||POLYDIMETHYLSILOXANE:2||MICROCHANNELS:2||PRETREATMENT PROCESS:2||XRAY:2||CHEMOTAXIS:2||MECHANOSENSORY TRANSDUCTION:2||rectangular microtube:2||CONJUGATED POLYMER:2||atomic force microscopy:2||METALLIC OXIDE SRRUO3:2||LASERABLATION:2||STRESS:2||ZONE PLATES:2||FRICTION:2||THERMALSTABILITY:2||Xrays:2||RAY:2||NM:2||ENERGY:2||TOPOGRAPHY:2||synchrotron Xray:2||ACID HYDROGELS:2||CAENORHABDITISELEGANS:2||PROTEIN:2||defects:2||EVOLUTION:2||FABRICATION:2||sharp bending waveguide:2||lasing action:2||BULK CRYSTALS:2||SUPERLATTICES:2||COATED CONDUCTORS:2||SI(111):2||phase contrast:2||CORONARY ANGIOGRAPHY:2||SPECTROMICROSCOPY:2||MEPHISTO:2||OXYGEN:2||OPTICALPROPERTIES:2||RADIOGRAPHY:2||CONTACT DEFORMATIONS:2||MOLECULAR FORCES:2||SOLIDS:2||NTYPE GAN:2||deposition:2||CHEMISTRY:2||DEFORMATION:2||SUBSTRATE:2||HETEROEPITAXY:2||NANOTOPOGRAPHY:2||EPITAXIALGROWTH:2||Xray:2||CHEMICAL VAPORDEPOSITION:2||SILICON STRUCTURES:2||STEMCELLS:2||CHANNEL:2||crystal 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Xray:1||BIPOLARTRANSISTORS:1||longevity:1||Confocal microscopy:1||Colloidal wettability:1||ATOMICFORCE MICROSCOPY:1||storage ring:1||digital subtraction:1||SCATTERING:1||size effect:1||SYNTHETIC QUARTZ:1||liquid metal embrittlement:1||iron ore:1||cube textured Ni substrates:1||SrRuO3 films:1||laser ablations:1||Ti underlayer:1||RANDOMACCESS MEMORIES:1||DOMAIN CONFIGURATIONS:1||MGO(100):1||SPECTROSCOPY:1||XE:1||IONBEAM:1||GRAINBOUNDARY MIGRATION:1||SRTIO3:1||COMPOSITES:1||FOAMS:1||BREASTCANCER SPECIMENS:1||unmonochromatized:1||Xray induced nucleation:1||gold:1||ABSORPTION:1||SEPARATION:1||CZOCHRALSKI GROWTH:1||RETRIEVAL:1||GAMMARADIATION:1||AQUEOUSSOLUTION:1||NANOCOMPOSITES:1||INCREASE:1||without staining procedure:1||XPS:1||Imaging techniques:1||Interfaces (materials):1||Dislocation distributions:1||AZOBENZENE:1||STRUCTURAL EVOLUTION:1||RELAXATION:1||DROP IMPACT:1||NONLINEAR DYNAMICS:1||DISLOCATIONS:1||Colloids:1||TRANSFORMATION:1||METAL INTERCONNECTS:1||ELASTIC CONDUCTORS:1||LOGIC:1||DEFICIENT MICE:1||tomography:1||FACILITY:1||osseointegration:1||ROCKS:1||dental radiography:1||Zn coating:1||RE2O3/Ni:1||YBCO COATED CONDUCTORS:1||threedimensional islands:1||(Ba,Sr)TiO3:1||ultrahigh resolution:1||photoelectron emission:1||Pd:1||LANIO3:1||BASE ELECTRODES:1||iron oxide phase:1||ironoxide interlayer:1||COATED GLASS SUBSTRATE:1||MICROWAVE PLASMA NUCLEATION:1||ENHANCED NUCLEATION:1||phase transformation:1||ADSORPTION:1||phasecontrast xray imaging:1||lung inflammation:1||SI1XGEX SINGLECRYSTALS:1||COCONTINUITY:1||SCALE:1||OBJECT:1||synchrotron microradiography:1||FeSO4:1||INDUCTION:1||BaTiO3 and SrTiO3 thin films:1||HARDXRAYS:1||light emitting diodes:1||ACID:1||MICROSTRUCTURES:1||PHOTOLUMINESCENCE PROPERTIES:1||LASER IRRADIATION:1||Human aging:1||polychromatic synchrotron Xray:1||refraction enhanced imaging:1||CHROMOPHORES:1||ACUTE LUNG INJURY:1||spatial resolution:1||BETAFESI2:1||VLSI:1||SI1XGEX:1||COLLOIDAL SUSPENSIONS:1||ELECTRONICS:1||ENHANCEMENT:1||artificial lattice:1||sinters:1||SILVER:1||STRAIN RELAXATION:1||biaxial texture:1||synchrotron scattering:1||transmission electron microscopy:1||IRONOXIDE FILMS:1||PZT thin film:1||ferroelectric thin film:1||MISFIT RELAXATION MECHANISMS:1||PBTIO3:1||O2:1||CONDUCTING POLYMERS:1||poly(methylmethancrylate):1||microspheres:1||phase contrast Xray microscope:1||AMBIENT AIR:1||ATMOSPHERE:1||XRAY INTERFEROMETER:1||NiAu composite nanoparticles.:1||synchrotron radiation Xrays:1||microtomography:1||OIL FLYASH:1||zinc oxide:1||mammography:1||SrRuO3 film:1||Laser epitaxy:1||HOLE MOBILITY:1||Models of crystal defects:1||RABBIT LUNGS:1||NI/AU CONTACT:1||3D printing:1||Stress relaxation:1||SURFACEAREA:1||IMAGE:1||modulation transfer function (MTF):1||Pb ions:1||Insitu visualization:1||Interfacial tension:1||DISPERSION FORCES:1||SINGLECRYSTALS:1||XRAY SOURCE:1||Synchrotron Xray imaging:1||Realtime imaging:1||MEDICAL APPLICATIONS:1||wiggler bending magnet:1||undulator:1||diffractionenhanced imaging:1||ZnO film:1||CAPACITORS:1||HE3:1||NiP alloy:1||PHOTOCHEMICAL FORMATION:1||extended domain matching:1||cubetextured Ni substrates:1||RAY COMPUTEDTOMOGRAPHY:1||electrode layer:1||DOMAINSTRUCTURE:1||XRAY CT:1||SPECIMEN:1||mammographic phantom:1||Xray absorption spectroscopy:1||BLUE:1||CONTACT:1||(BA:1||synchrotron spectromicroscopy:1||thin film:1||MICROWAVE PLASMA:1||GOLD NANOPARTICLES:1||POLYMERIZATION:1||DISEASE:1||Shanghai:1||MORTALITY:1||HETEROSTRUCTURES:1||METHACRYLATE:1||prostate cancer:1||renal cell carcinoma:1||RATS:1||PULSEDLASER DEPOSITION:1||semiconducting IIVI materials:1||PATTERNS:1||sapphire:1||evaporation:1||ZINCOXIDE:1||LIGHTEMITTING DIODE:1||Synchrotron imaging:1||Dislocations:1||Cracks:1||LIVE:1||spinal cord:1||stainless steel:1||nanophotonics:1||subwavelength waveguides:1||Synchrotrons:1||High dislocation density:1||Misfit stress relaxations:1||Randomly distributed:1||Tripleaxis xray diffractions:1||FLOW:1||CRYSTALLINE ORGANIC NANORODS:1||SHAPE CHANGES:1||ZnO thin film:1||(111)SI:1||XRAY MIRRORS:1||low temperature:1||oxide cathodes:1||heterogeneity:1||Xray microscopy:1||INTERFACIAL TENSIONS:1||single crystal growth:1||CARCINOMA:1||mouse:1||ANIMALS:1||Mndoped ZnO:1||luminescence:1||solution precipitation:1||CLUSTER:1||relaxation:1||ALPHAFE2O3:1||XANES:1||epitaxy:1||LaNiO3 thin film:1||LANIO3 THINFILMS:1||ELECTRODE:1||Fe3O4 sublayer:1||EXAFS microscopy:1||FERRITE FILMS:1||SURFACE PRETREATMENTS:1||superconductors:1||CONTRAST AGENT:1||BIODISTRIBUTION:1||DEATH:1||SYNCHROTRON:1||IR:1||apo Eknockout mouse:1||plaque:1||microradiology:1||ALPHASYNUCLEIN:1||PULMONARY TOXICITY:1||XRAY TOPOGRAPHY:1||dislocation:1||metalorganic chemical vapor deposition:1||CRYSTALGROWTH:1||SELFASSEMBLED MONOLAYERS:1||MEMBRANES:1||MAGNETICANISOTROPY:1||SI1XGEX CRYSTALS:1||STRAINEDSI:1||Extended Weibull model:1||MOLYBDENUM:1||ALLOYS:1||IRON:1||Theoretical modeling:1||Threading dislocation:1||GROWTH:27||THINFILMS:16||SYNCHROTRONRADIATION:15||CONTRAST:11||RADIOLOGY:11||PARTICLES:11||FILMS:11||SILICON:10||RADIATION:10||DEPOSITION:10||RESOLUTION:9||CRYSTALS:8||SILICONCARBIDE:7||XRAYS:7||MAMMOGRAPHY:7||Xray diffraction:7||synchrotron radiation:6||XRAYSCATTERING:6||MODEL:6||microstructure:6||DYNAMICS:5||ELECTRODEPOSITION:5||LAYERS:5||CHEMICALVAPORDEPOSITION:5||TEMPERATURE:5||TOMOGRAPHY:5||COMPUTEDTOMOGRAPHY:5||SAPPHIRE:5||MEDIA:5||NANOWIRES:5||DIFFRACTION:4||TISSUES:4||pulsed laser deposition:4||phase contrast imaging:4||LAYER:4||IMAGES:4||DIODES:4||FIELDEFFECT TRANSISTORS:4||ptype GaN:4||MICROSCOPY:4||REDUCTION:4||POLYMER:4||DEFECTS:3||COHERENCE:3||MICROTOMOGRAPHY:3||NANOPARTICLES:3||synchrotron:3||LIGHT:3||TRANSISTORS:3||SURFACES:3||STRAIN:3||EPITAXIAL LAYERS:3||DRUGDELIVERY:3||REFRACTION:3||growth mechanism:3||METALS:3||MICROPIPES:3||SYSTEM:3||NUCLEATION:3||synchrotron Xray scattering:3||SURFACE:3||SCREW DISLOCATIONS:3||SIMULATION:3||HARD XRAYS:3||ELECTRICALPROPERTIES:3||EPITAXY:3||GAN:3||PM2.5:3||EVAPORATION:3||LIQUIDS:3||INPLANE:3||RAT:3||ANGIOGENESIS:3||CT:3||GaN:3||ZnO:3||NANORODS:3||strain:3||PB(ZR0.53TI0.47)O3:3||CRYSTALLIZATION:3||synchrotron Xrays:2||buffer layer:2||TRANSMISSION ELECTRONMICROSCOPY:2||EPITAXIAL COSI2 FILMS:2||MECHANISMS:2||INSITU GROWTH:2||DEVICE:2||LOCALIZED ELECTROCHEMICAL DEPOSITION:2||X ray diffraction:2||SCHOTTKY CONTACT:2||IRRADIATION:2||aqua regia treatment:2||INVIVO:2||CELLADHESION:2||MORPHOGENETIC PROTEIN2:2||RECEPTOR:2||TEM:2||broadband synchrotron light:2||nanoparticle:2||BUFFER LAYERS:2||TC:2||ENHANCED SYNCHROTRON RADIOLOGY:2||synthesis:2||POLYDIMETHYLSILOXANE:2||MICROCHANNELS:2||PRETREATMENT PROCESS:2||XRAY:2||CHEMOTAXIS:2||MECHANOSENSORY TRANSDUCTION:2||rectangular microtube:2||CONJUGATED POLYMER:2||atomic force microscopy:2||METALLIC OXIDE SRRUO3:2||LASERABLATION:2||STRESS:2||ZONE PLATES:2||FRICTION:2||THERMALSTABILITY:2||Xrays:2||RAY:2||NM:2||ENERGY:2||TOPOGRAPHY:2||synchrotron Xray:2||ACID HYDROGELS:2||CAENORHABDITISELEGANS:2||PROTEIN:2||defects:2||EVOLUTION:2||FABRICATION:2||sharp bending waveguide:2||lasing action:2||BULK CRYSTALS:2||SUPERLATTICES:2||COATED CONDUCTORS:2||SI(111):2||phase contrast:2||CORONARY ANGIOGRAPHY:2||SPECTROMICROSCOPY:2||MEPHISTO:2||OXYGEN:2||OPTICALPROPERTIES:2||RADIOGRAPHY:2||CONTACT DEFORMATIONS:2||MOLECULAR FORCES:2||SOLIDS:2||NTYPE GAN:2||deposition:2||CHEMISTRY:2||DEFORMATION:2||SUBSTRATE:2||HETEROEPITAXY:2||NANOTOPOGRAPHY:2||EPITAXIALGROWTH:2||Xray:2||CHEMICAL VAPORDEPOSITION:2||SILICON STRUCTURES:2||STEMCELLS:2||CHANNEL:2||crystal structure:2||CORONARYANGIOGRAPHY:2||SiC:2||BUFFER LAYER:2||MOLECULARBEAM EPITAXY:2||INTERFACE:2||SIZE:2||ELECTRON:2||XRAY MICROSCOPY:2||MORPHOLOGIES:2||NANOCOLLOIDS:2||FORCE MICROSCOPY:2||ablation:2||polymers:2||(NH4)(2)Sx treatment:2||CLUSTERS:2||BIOMATERIALS:2||CIRCUITS:2||rectangular ring mode:2||GUIDES:2||MICROCAVITY:2||PHOTOLUMINESCENCE:2||epitaxial growth:2||EMBRITTLEMENT:2||Xray imaging:2||BIOCOMPATIBILITY:2||BEHAVIOR:2||MICROWAVEPLASMA:2||LOWPRESSURE:2||DEGRADATION:2||TISSUE:2||LIQUID:2||SOFT LITHOGRAPHY:2||amplified spontaneous emission (ASE):2||SMALL ORGANICMOLECULES:2||PHOTONIC CRYSTAL:2||micropipes:2||radiology:2||ALLOY:2||Xray scattering:2||CRITICALCURRENT DENSITY:2||ELECTRONMICROSCOPY:2||BI(PB)SRCACUO:2||ELECTRONICSTRUCTURE:2||RECONSTRUCTION:2||MG:2||ohmic contact:2||Pd ohmic contact:2||xray scattering:2||INP:2||annealing:2||REGENERATION:2||TITANIUM:2||COLLOIDAL GOLD:2||crystallization:2||BUCKLING MECHANICS:2||LASERS:2||MODES:2||synchrotron imaging:2||lattice distortion:2||AQUEOUSELECTROLYTE:2||MOLECULARDYNAMICS:2||OXIDE:2||MICROANGIOGRAPHY:2||OXIDATION:2||MICRORADIOLOGY:2||TECHNOLOGY:2||GE:2||surface chemistry:2||RECOVERY:2||OHMIC CONTACTS:2||LASERDIODES:2||PTYPE GAN:2||MOTION:2||PHANTOM:2||PHASE:2||CALCIUMPHOSPHATE CERAMICS:2||REPAIR:2||porphyrin:2||AMPLIFIED SPONTANEOUS EMISSION:2||METALELECTRODES:2||PD:2||SUPERCONDUCTING TAPES:2||nucleation:2||COATINGS:2||Xray topography:2||MONOLAYERS:2||SURFACE MODIFICATION:2||LITHOGRAPHY:2||MECHANICAL VENTILATION:1||MICRORIBBONS:1||STIFFNESS:1||DUALPHASE STEEL:1||growth mode:1||strain evolution:1||SI(100):1||ANISOTROPY:1||WET GRANULAR PILE:1||COALESCENCE:1||INSITU POLYMERIZATION:1||GRAPHENE:1||CANCER:1||NODULES:1||RABBITS:1||phasecontrast:1||YTTRIUMOXIDE FILMS:1||BaTiO3/SrTiO3:1||dental implant:1||coincidence site density:1||ERNI2B2C:1||crystallites:1||CoCrPt films:1||tensile strain:1||gallide:1||MGO:1||Baferrite film:1||synchrotron xray scattering:1||ZNO THINFILMS:1||MORPHOLOGY:1||PHASES:1||MICE:1||EBEAM LITHOGRAPHY:1||electrorheological fluids:1||NANOFIBROUS MEMBRANES:1||NANOLITHOGRAPHY:1||refractive index radiology:1||BLOOD:1||colloidal:1||SIZE CONTROL:1||nanoradiology:1||ZnSO4:1||lung injury:1||METAL:1||PM10:1||textured grain:1||MICROSTRUCTURE:1||DIMENSIONS:1||highresolution Xray diffraction:1||low temperature buffer:1||Zinc compounds:1||SI:1||HUMAN LONGEVITY:1||Maximum human lifespan:1||LIMITS:1||MOSFETS:1||in situ XANES:1||nanowires:1||PHOTOIRRADIATION:1||FIBERS:1||WORK:1||EMISSION:1||RADIATION MICROTOMOGRAPHY:1||RAMANSCATTERING:1||gold nanoparticles:1||synchrotron Xray diffraction:1||OPTICAL WAVEGUIDES:1||CONDUCTINGPOLYMER NANOWIRE:1||Lung cancer:1||INTRAVENOUS CORONARYARTERIOGRAPHY:1||SUBLIMATION GROWTH:1||radiography:1||porous SiC:1||GIANT MAGNETORESISTANCE:1||SEMICONDUCTORS:1||Ga diffusion:1||electroless deposition:1||HEMATITE:1||FREEELECTRON LASER:1||MOCVD:1||interfaces:1||white beam:1||imaging technique:1||nucleation layer:1||interface structure:1||epitaxial Baferrite film:1||rf magnetron sputtering:1||MAGNETIC CHARACTERISTICS:1||MIXTURE:1||ACCESS MEMORY APPLICATION:1||COHERENCY STRAIN:1||DENSITY:1||nanofabrication:1||POLY(METHYL METHACRYLATE) MICROSPHERE:1||RESIST:1||unmonochromatic beam:1||MICRORADIOGRAPHY:1||INTERFEROMETER:1||EXPOSURE:1||volume variation electronic:1||PULSEDLASER ABLATION:1||Semiconducting IIVI materials:1||Light emitting diodes:1||phase contrast microscopies:1||lung:1||AUGERELECTRON SPECTROSCOPY:1||passivation:1||additive manufacturing:1||Silicon carbide:1||Synchrotron radiation:1||Synchrotron radiation imaging:1||Dislocations (crystals):1||LUNG INJURY:1||POLYMER SURFACES:1||SINGLE CELLS:1||PREFERRED ORIENTATION:1||sapphire orientation:1||TANTALUM:1||BIASENHANCED NUCLEATION:1||hexaferrite:1||stretched exponential:1||SOLIDSURFACE:1||SHEAR:1||VIDEO MICROSCOPY:1||CARBON NANOTUBES:1||realtime observation:1||Xray synchrotron:1||CARBONMONOXIDE:1||ELECTROCHEMICAL FABRICATION:1||crystal growth:1||computer simulation:1||FERROELECTRICFILMS:1||TITANIUM IMPLANTS:1||BONE INTERFACE:1||EXAFS perpendicular magnetic recording:1||Pd/Ni:1||ELECTRODES:1||internal organ:1||LIGHTEMITTINGDIODES:1||interfacial structure:1||CONSTANT:1||DIELECTRICPROPERTIES:1||AR:1||DEVICES:1||BiSrCaCuO:1||LASER ABLATION:1||MECHANISM:1||SELECTIVE DEPOSITION:1||TARGETED DRUGDELIVERY:1||PEG:1||carbon nanotubes:1||nanocharacterization:1||WALLED CARBON NANOTUBE:1||basal cell carcinoma:1||PARTICULATE AIRPOLLUTION:1||FINE:1||CITIES:1||DOPED ZNO FILMS:1||atherosclerosis:1||drug delivery:1||hard Xray:1||COMBUSTION:1||ARTIFICIAL BATIO3/SRTIO3 SUPERLATTICES:1||surface morphology:1||Direct wafer bonding:1||COLLOIDAL GOLD PARTICLES:1||DELINEATION:1||EXPECTANCY:1||DEMOGRAPHY:1||MRI:1||SIGE:1||Phase contrast microradiography:1||INJURY:1||PASSIVITY:1||VOLUME:1||CONTACTANGLE:1||ARRAYS:1||DUCTILITY:1||sputtering:1||computed microtomography (mu CT):1||unmonochromatized Xray:1||BIPOLARTRANSISTORS:1||longevity:1||Confocal microscopy:1||Colloidal wettability:1||ATOMICFORCE MICROSCOPY:1||storage ring:1||digital subtraction:1||SCATTERING:1||size effect:1||SYNTHETIC QUARTZ:1||liquid metal embrittlement:1||iron ore:1||cube textured Ni substrates:1||SrRuO3 films:1||laser ablations:1||Ti underlayer:1||RANDOMACCESS MEMORIES:1||DOMAIN CONFIGURATIONS:1||MGO(100):1||SPECTROSCOPY:1||XE:1||IONBEAM:1||GRAINBOUNDARY MIGRATION:1||SRTIO3:1||COMPOSITES:1||FOAMS:1||BREASTCANCER SPECIMENS:1||unmonochromatized:1||Xray induced nucleation:1||gold:1||ABSORPTION:1||SEPARATION:1||CZOCHRALSKI GROWTH:1||RETRIEVAL:1||GAMMARADIATION:1||AQUEOUSSOLUTION:1||NANOCOMPOSITES:1||INCREASE:1||without staining procedure:1||XPS:1||Imaging techniques:1||Interfaces (materials):1||Dislocation distributions:1||AZOBENZENE:1||STRUCTURAL EVOLUTION:1||RELAXATION:1||DROP IMPACT:1||NONLINEAR DYNAMICS:1||DISLOCATIONS:1||Colloids:1||TRANSFORMATION:1||METAL INTERCONNECTS:1||ELASTIC CONDUCTORS:1||LOGIC:1||DEFICIENT MICE:1||tomography:1||FACILITY:1||osseointegration:1||ROCKS:1||dental radiography:1||Zn coating:1||RE2O3/Ni:1||YBCO COATED CONDUCTORS:1||threedimensional islands:1||(Ba,Sr)TiO3:1||ultrahigh resolution:1||photoelectron emission:1||Pd:1||LANIO3:1||BASE ELECTRODES:1||iron oxide phase:1||ironoxide interlayer:1||COATED GLASS SUBSTRATE:1||MICROWAVE PLASMA NUCLEATION:1||ENHANCED NUCLEATION:1||phase transformation:1||ADSORPTION:1||phasecontrast xray imaging:1||lung inflammation:1||SI1XGEX SINGLECRYSTALS:1||COCONTINUITY:1||SCALE:1||OBJECT:1||synchrotron microradiography:1||FeSO4:1||INDUCTION:1||BaTiO3 and SrTiO3 thin films:1||HARDXRAYS:1||light emitting diodes:1||ACID:1||MICROSTRUCTURES:1||PHOTOLUMINESCENCE PROPERTIES:1||LASER IRRADIATION:1||Human aging:1||polychromatic synchrotron Xray:1||refraction enhanced imaging:1||CHROMOPHORES:1||ACUTE LUNG INJURY:1||spatial resolution:1||BETAFESI2:1||VLSI:1||SI1XGEX:1||COLLOIDAL SUSPENSIONS:1||ELECTRONICS:1||ENHANCEMENT:1||artificial lattice:1||sinters:1||SILVER:1||STRAIN RELAXATION:1||biaxial texture:1||synchrotron scattering:1||transmission electron microscopy:1||IRONOXIDE FILMS:1||PZT thin film:1||ferroelectric thin film:1||MISFIT RELAXATION MECHANISMS:1||PBTIO3:1||O2:1||CONDUCTING POLYMERS:1||poly(methylmethancrylate):1||microspheres:1||phase contrast Xray microscope:1||AMBIENT AIR:1||ATMOSPHERE:1||XRAY INTERFEROMETER:1||NiAu composite nanoparticles.:1||synchrotron radiation Xrays:1||microtomography:1||OIL FLYASH:1||zinc oxide:1||mammography:1||SrRuO3 film:1||Laser epitaxy:1||HOLE MOBILITY:1||Models of crystal defects:1||RABBIT LUNGS:1||NI/AU CONTACT:1||3D printing:1||Stress relaxation:1||SURFACEAREA:1||IMAGE:1||modulation transfer function (MTF):1||Pb ions:1||Insitu visualization:1||Interfacial tension:1||DISPERSION FORCES:1||SINGLECRYSTALS:1||XRAY SOURCE:1||Synchrotron Xray imaging:1||Realtime imaging:1||MEDICAL APPLICATIONS:1||wiggler bending magnet:1||undulator:1||diffractionenhanced imaging:1||ZnO film:1||CAPACITORS:1||HE3:1||NiP alloy:1||PHOTOCHEMICAL FORMATION:1||extended domain matching:1||cubetextured Ni substrates:1||RAY COMPUTEDTOMOGRAPHY:1||electrode layer:1||DOMAINSTRUCTURE:1||XRAY CT:1||SPECIMEN:1||mammographic phantom:1||Xray absorption spectroscopy:1||BLUE:1||CONTACT:1||(BA:1||synchrotron spectromicroscopy:1||thin film:1||MICROWAVE PLASMA:1||GOLD NANOPARTICLES:1||POLYMERIZATION:1||DISEASE:1||Shanghai:1||MORTALITY:1||HETEROSTRUCTURES:1||METHACRYLATE:1||prostate cancer:1||renal cell carcinoma:1||RATS:1||PULSEDLASER DEPOSITION:1||semiconducting IIVI materials:1||PATTERNS:1||sapphire:1||evaporation:1||ZINCOXIDE:1||LIGHTEMITTING DIODE:1||Synchrotron imaging:1||Dislocations:1||Cracks:1||LIVE:1||spinal cord:1||stainless steel:1||nanophotonics:1||subwavelength waveguides:1||Synchrotrons:1||High dislocation density:1||Misfit stress relaxations:1||Randomly distributed:1||Tripleaxis xray diffractions:1||FLOW:1||CRYSTALLINE ORGANIC NANORODS:1||SHAPE CHANGES:1||ZnO thin film:1||(111)SI:1||XRAY MIRRORS:1||low temperature:1||oxide cathodes:1||heterogeneity:1||Xray microscopy:1||INTERFACIAL TENSIONS:1||single crystal growth:1||CARCINOMA:1||mouse:1||ANIMALS:1||Mndoped ZnO:1||luminescence:1||solution precipitation:1||CLUSTER:1||relaxation:1||ALPHAFE2O3:1||XANES:1||epitaxy:1||LaNiO3 thin film:1||LANIO3 THINFILMS:1||ELECTRODE:1||Fe3O4 sublayer:1||EXAFS microscopy:1||FERRITE FILMS:1||SURFACE PRETREATMENTS:1||superconductors:1||CONTRAST AGENT:1||BIODISTRIBUTION:1||DEATH:1||SYNCHROTRON:1||IR:1||apo Eknockout mouse:1||plaque:1||microradiology:1||ALPHASYNUCLEIN:1||PULMONARY TOXICITY:1||XRAY TOPOGRAPHY:1||dislocation:1||metalorganic chemical vapor deposition:1||CRYSTALGROWTH:1||SELFASSEMBLED MONOLAYERS:1||MEMBRANES:1||MAGNETICANISOTROPY:1||SI1XGEX CRYSTALS:1||STRAINEDSI:1||Extended Weibull model:1||MOLYBDENUM:1||ALLOYS:1||IRON:1||Theoretical modeling:1||Threading dislocation:1||GROWTH:27||THINFILMS:16||SYNCHROTRONRADIATION:15||CONTRAST:11||RADIOLOGY:11||PARTICLES:11||FILMS:11||SILICON:10||RADIATION:10||DEPOSITION:10||RESOLUTION:9||CRYSTALS:8||SILICONCARBIDE:7||XRAYS:7||MAMMOGRAPHY:7||Xray diffraction:7||synchrotron radiation:6||XRAYSCATTERING:6||MODEL:6||microstructure:6||DYNAMICS:5||ELECTRODEPOSITION:5||LAYERS:5||CHEMICALVAPORDEPOSITION:5||TEMPERATURE:5||TOMOGRAPHY:5||COMPUTEDTOMOGRAPHY:5||SAPPHIRE:5||MEDIA:5||NANOWIRES:5||DIFFRACTION:4||TISSUES:4||pulsed laser deposition:4||phase contrast imaging:4||LAYER:4||IMAGES:4||DIODES:4||FIELDEFFECT TRANSISTORS:4||ptype GaN:4||MICROSCOPY:4||REDUCTION:4||POLYMER:4||DEFECTS:3||COHERENCE:3||MICROTOMOGRAPHY:3||NANOPARTICLES:3||synchrotron:3||LIGHT:3||TRANSISTORS:3||SURFACES:3||STRAIN:3||EPITAXIAL LAYERS:3||DRUGDELIVERY:3||REFRACTION:3||growth mechanism:3||METALS:3||MICROPIPES:3||SYSTEM:3||NUCLEATION:3||synchrotron Xray scattering:3||SURFACE:3||SCREW DISLOCATIONS:3||SIMULATION:3||HARD XRAYS:3||ELECTRICALPROPERTIES:3||EPITAXY:3||GAN:3||PM2.5:3||EVAPORATION:3||LIQUIDS:3||INPLANE:3||RAT:3||ANGIOGENESIS:3||CT:3||GaN:3||ZnO:3||NANORODS:3||strain:3||PB(ZR0.53TI0.47)O3:3||CRYSTALLIZATION:3||synchrotron Xrays:2||buffer layer:2||TRANSMISSION ELECTRONMICROSCOPY:2||EPITAXIAL COSI2 FILMS:2||MECHANISMS:2||INSITU GROWTH:2||DEVICE:2||LOCALIZED ELECTROCHEMICAL DEPOSITION:2||X ray diffraction:2||SCHOTTKY CONTACT:2||IRRADIATION:2||aqua regia treatment:2||INVIVO:2||CELLADHESION:2||MORPHOGENETIC PROTEIN2:2||RECEPTOR:2||TEM:2||broadband synchrotron light:2||nanoparticle:2||BUFFER LAYERS:2||TC:2||ENHANCED SYNCHROTRON RADIOLOGY:2||synthesis:2||POLYDIMETHYLSILOXANE:2||MICROCHANNELS:2||PRETREATMENT PROCESS:2||XRAY:2||CHEMOTAXIS:2||MECHANOSENSORY TRANSDUCTION:2||rectangular microtube:2||CONJUGATED POLYMER:2||atomic force microscopy:2||METALLIC OXIDE SRRUO3:2||LASERABLATION:2||STRESS:2||ZONE PLATES:2||FRICTION:2||THERMALSTABILITY:2||Xrays:2||RAY:2||NM:2||ENERGY:2||TOPOGRAPHY:2||synchrotron Xray:2||ACID HYDROGELS:2||CAENORHABDITISELEGANS:2||PROTEIN:2||defects:2||EVOLUTION:2||FABRICATION:2||sharp bending waveguide:2||lasing action:2||BULK CRYSTALS:2||SUPERLATTICES:2||COATED CONDUCTORS:2||SI(111):2||phase contrast:2||CORONARY ANGIOGRAPHY:2||SPECTROMICROSCOPY:2||MEPHISTO:2||OXYGEN:2||OPTICALPROPERTIES:2||RADIOGRAPHY:2||CONTACT DEFORMATIONS:2||MOLECULAR FORCES:2||SOLIDS:2||NTYPE GAN:2||deposition:2||CHEMISTRY:2||DEFORMATION:2||SUBSTRATE:2||HETEROEPITAXY:2||NANOTOPOGRAPHY:2||EPITAXIALGROWTH:2||Xray:2||CHEMICAL VAPORDEPOSITION:2||SILICON STRUCTURES:2||STEMCELLS:2||CHANNEL:2||crystal structure:2||CORONARYANGIOGRAPHY:2||SiC:2||BUFFER LAYER:2||MOLECULARBEAM EPITAXY:2||INTERFACE:2||SIZE:2||ELECTRON:2||XRAY MICROSCOPY:2||MORPHOLOGIES:2||NANOCOLLOIDS:2||FORCE MICROSCOPY:2||ablation:2||polymers:2||(NH4)(2)Sx treatment:2||CLUSTERS:2||BIOMATERIALS:2||CIRCUITS:2||rectangular ring mode:2||GUIDES:2||MICROCAVITY:2||PHOTOLUMINESCENCE:2||epitaxial growth:2||EMBRITTLEMENT:2||Xray imaging:2||BIOCOMPATIBILITY:2||BEHAVIOR:2||MICROWAVEPLASMA:2||LOWPRESSURE:2||DEGRADATION:2||TISSUE:2||LIQUID:2||SOFT LITHOGRAPHY:2||amplified spontaneous emission (ASE):2||SMALL ORGANICMOLECULES:2||PHOTONIC CRYSTAL:2||micropipes:2||radiology:2||ALLOY:2||Xray scattering:2||CRITICALCURRENT DENSITY:2||ELECTRONMICROSCOPY:2||BI(PB)SRCACUO:2||ELECTRONICSTRUCTURE:2||RECONSTRUCTION:2||MG:2||ohmic contact:2||Pd ohmic contact:2||xray scattering:2||INP:2||annealing:2||REGENERATION:2||TITANIUM:2||COLLOIDAL GOLD:2||crystallization:2||BUCKLING MECHANICS:2||LASERS:2||MODES:2||synchrotron imaging:2||lattice distortion:2||AQUEOUSELECTROLYTE:2||MOLECULARDYNAMICS:2||OXIDE:2||MICROANGIOGRAPHY:2||OXIDATION:2||MICRORADIOLOGY:2||TECHNOLOGY:2||GE:2||surface chemistry:2||RECOVERY:2||OHMIC CONTACTS:2||LASERDIODES:2||PTYPE GAN:2||MOTION:2||PHANTOM:2||PHASE:2||CALCIUMPHOSPHATE CERAMICS:2||REPAIR:2||porphyrin:2||AMPLIFIED SPONTANEOUS EMISSION:2||METALELECTRODES:2||PD:2||SUPERCONDUCTING TAPES:2||nucleation:2||COATINGS:2||Xray topography:2||MONOLAYERS:2||SURFACE MODIFICATION:2||LITHOGRAPHY:2||MECHANICAL VENTILATION:1||MICRORIBBONS:1||STIFFNESS:1||DUALPHASE STEEL:1||growth mode:1||strain evolution:1||SI(100):1||ANISOTROPY:1||WET GRANULAR PILE:1||COALESCENCE:1||INSITU POLYMERIZATION:1||GRAPHENE:1||CANCER:1||NODULES:1||RABBITS:1||phasecontrast:1||YTTRIUMOXIDE FILMS:1||BaTiO3/SrTiO3:1||dental implant:1||coincidence site density:1||ERNI2B2C:1||crystallites:1||CoCrPt films:1||tensile strain:1||gallide:1||MGO:1||Baferrite film:1||synchrotron xray scattering:1||ZNO THINFILMS:1||MORPHOLOGY:1||PHASES:1||MICE:1||EBEAM LITHOGRAPHY:1||electrorheological fluids:1||NANOFIBROUS MEMBRANES:1||NANOLITHOGRAPHY:1||refractive index radiology:1||BLOOD:1||colloidal:1||SIZE CONTROL:1||nanoradiology:1||ZnSO4:1||lung injury:1||METAL:1||PM10:1||textured grain:1||MICROSTRUCTURE:1||DIMENSIONS:1||highresolution Xray diffraction:1||low temperature buffer:1||Zinc compounds:1||SI:1||HUMAN LONGEVITY:1||Maximum human lifespan:1||LIMITS:1||MOSFETS:1||in situ XANES:1||nanowires:1||PHOTOIRRADIATION:1||FIBERS:1||WORK:1||EMISSION:1||RADIATION MICROTOMOGRAPHY:1||RAMANSCATTERING:1||gold nanoparticles:1||synchrotron Xray diffraction:1||OPTICAL WAVEGUIDES:1||CONDUCTINGPOLYMER NANOWIRE:1||Lung cancer:1||INTRAVENOUS CORONARYARTERIOGRAPHY:1||SUBLIMATION GROWTH:1||radiography:1||porous SiC:1||GIANT MAGNETORESISTANCE:1||SEMICONDUCTORS:1||Ga diffusion:1||electroless deposition:1||HEMATITE:1||FREEELECTRON LASER:1||MOCVD:1||interfaces:1||white beam:1||imaging technique:1||nucleation layer:1||interface structure:1||epitaxial Baferrite film:1||rf magnetron sputtering:1||MAGNETIC CHARACTERISTICS:1||MIXTURE:1||ACCESS MEMORY APPLICATION:1||COHERENCY STRAIN:1||DENSITY:1||nanofabrication:1||POLY(METHYL METHACRYLATE) MICROSPHERE:1||RESIST:1||unmonochromatic beam:1||MICRORADIOGRAPHY:1||INTERFEROMETER:1||EXPOSURE:1||volume variation electronic:1||PULSEDLASER ABLATION:1||Semiconducting IIVI materials:1||Light emitting diodes:1||phase contrast microscopies:1||lung:1||AUGERELECTRON SPECTROSCOPY:1||passivation:1||additive manufacturing:1||Silicon carbide:1||Synchrotron radiation:1||Synchrotron radiation imaging:1||Dislocations (crystals):1||LUNG INJURY:1||POLYMER SURFACES:1||SINGLE CELLS:1||PREFERRED ORIENTATION:1||sapphire orientation:1||TANTALUM:1||BIASENHANCED NUCLEATION:1||hexaferrite:1||stretched exponential:1||SOLIDSURFACE:1||SHEAR:1||VIDEO MICROSCOPY:1||CARBON NANOTUBES:1||realtime observation:1||Xray synchrotron:1||CARBONMONOXIDE:1||ELECTROCHEMICAL FABRICATION:1||crystal growth:1||computer simulation:1||FERROELECTRICFILMS:1||TITANIUM IMPLANTS:1||BONE INTERFACE:1||EXAFS perpendicular magnetic recording:1||Pd/Ni:1||ELECTRODES:1||internal organ:1||LIGHTEMITTINGDIODES:1||interfacial structure:1||CONSTANT:1||DIELECTRICPROPERTIES:1||AR:1||DEVICES:1||BiSrCaCuO:1||LASER ABLATION:1||MECHANISM:1||SELECTIVE DEPOSITION:1||TARGETED DRUGDELIVERY:1||PEG:1||carbon nanotubes:1||nanocharacterization:1||WALLED CARBON NANOTUBE:1||basal cell carcinoma:1||PARTICULATE AIRPOLLUTION:1||FINE:1||CITIES:1||DOPED ZNO FILMS:1||atherosclerosis:1||drug delivery:1||hard Xray:1||COMBUSTION:1||ARTIFICIAL BATIO3/SRTIO3 SUPERLATTICES:1||surface morphology:1||Direct wafer bonding:1||COLLOIDAL GOLD PARTICLES:1||DELINEATION:1||EXPECTANCY:1||DEMOGRAPHY:1||MRI:1||SIGE:1||Phase contrast microradiography:1||INJURY:1||PASSIVITY:1||VOLUME:1||CONTACTANGLE:1||ARRAYS:1||DUCTILITY:1||sputtering:1||computed microtomography (mu CT):1||unmonochromatized Xray:1||BIPOLARTRANSISTORS:1||longevity:1||Confocal microscopy:1||Colloidal wettability:1||ATOMICFORCE MICROSCOPY:1||storage ring:1||digital subtraction:1||SCATTERING:1||size effect:1||SYNTHETIC QUARTZ:1||liquid metal embrittlement:1||iron ore:1||cube textured Ni substrates:1||SrRuO3 films:1||laser ablations:1||Ti underlayer:1||RANDOMACCESS MEMORIES:1||DOMAIN CONFIGURATIONS:1||MGO(100):1||SPECTROSCOPY:1||XE:1||IONBEAM:1||GRAINBOUNDARY MIGRATION:1||SRTIO3:1||COMPOSITES:1||FOAMS:1||BREASTCANCER SPECIMENS:1||unmonochromatized:1||Xray induced nucleation:1||gold:1||ABSORPTION:1||SEPARATION:1||CZOCHRALSKI GROWTH:1||RETRIEVAL:1||GAMMARADIATION:1||AQUEOUSSOLUTION:1||NANOCOMPOSITES:1||INCREASE:1||without staining procedure:1||XPS:1||Imaging techniques:1||Interfaces (materials):1||Dislocation distributions:1||AZOBENZENE:1||STRUCTURAL EVOLUTION:1||RELAXATION:1||DROP IMPACT:1||NONLINEAR DYNAMICS:1||DISLOCATIONS:1||Colloids:1||TRANSFORMATION:1||METAL INTERCONNECTS:1||ELASTIC CONDUCTORS:1||LOGIC:1||DEFICIENT MICE:1||tomography:1||FACILITY:1||osseointegration:1||ROCKS:1||dental radiography:1||Zn coating:1||RE2O3/Ni:1||YBCO COATED CONDUCTORS:1||threedimensional islands:1||(Ba,Sr)TiO3:1||ultrahigh resolution:1||photoelectron emission:1||Pd:1||LANIO3:1||BASE ELECTRODES:1||iron oxide phase:1||ironoxide interlayer:1||COATED GLASS SUBSTRATE:1||MICROWAVE PLASMA NUCLEATION:1||ENHANCED NUCLEATION:1||phase transformation:1||ADSORPTION:1||phasecontrast xray imaging:1||lung inflammation:1||SI1XGEX SINGLECRYSTALS:1||COCONTINUITY:1||SCALE:1||OBJECT:1||synchrotron microradiography:1||FeSO4:1||INDUCTION:1||BaTiO3 and SrTiO3 thin films:1||HARDXRAYS:1||light emitting diodes:1||ACID:1||MICROSTRUCTURES:1||PHOTOLUMINESCENCE PROPERTIES:1||LASER IRRADIATION:1||Human aging:1||polychromatic synchrotron Xray:1||refraction enhanced imaging:1||CHROMOPHORES:1||ACUTE LUNG INJURY:1||spatial resolution:1||BETAFESI2:1||VLSI:1||SI1XGEX:1||COLLOIDAL SUSPENSIONS:1||ELECTRONICS:1||ENHANCEMENT:1||artificial lattice:1||sinters:1||SILVER:1||STRAIN RELAXATION:1||biaxial texture:1||synchrotron scattering:1||transmission electron microscopy:1||IRONOXIDE FILMS:1||PZT thin film:1||ferroelectric thin film:1||MISFIT RELAXATION MECHANISMS:1||PBTIO3:1||O2:1||CONDUCTING POLYMERS:1||poly(methylmethancrylate):1||microspheres:1||phase contrast Xray microscope:1||AMBIENT AIR:1||ATMOSPHERE:1||XRAY INTERFEROMETER:1||NiAu composite nanoparticles.:1||synchrotron radiation Xrays:1||microtomography:1||OIL FLYASH:1||zinc oxide:1||mammography:1||SrRuO3 film:1||Laser epitaxy:1||HOLE MOBILITY:1||Models of crystal defects:1||RABBIT LUNGS:1||NI/AU CONTACT:1||3D printing:1||Stress relaxation:1||SURFACEAREA:1||IMAGE:1||modulation transfer function (MTF):1||Pb ions:1||Insitu visualization:1||Interfacial tension:1||DISPERSION FORCES:1||SINGLECRYSTALS:1||XRAY SOURCE:1||Synchrotron Xray imaging:1||Realtime imaging:1||MEDICAL APPLICATIONS:1||wiggler bending magnet:1||undulator:1||diffractionenhanced imaging:1||ZnO film:1||CAPACITORS:1||HE3:1||NiP alloy:1||PHOTOCHEMICAL FORMATION:1||extended domain matching:1||cubetextured Ni substrates:1||RAY COMPUTEDTOMOGRAPHY:1||electrode layer:1||DOMAINSTRUCTURE:1||XRAY CT:1||SPECIMEN:1||mammographic phantom:1||Xray absorption spectroscopy:1||BLUE:1||CONTACT:1||(BA:1||synchrotron spectromicroscopy:1||thin film:1||MICROWAVE PLASMA:1||GOLD NANOPARTICLES:1||POLYMERIZATION:1||DISEASE:1||Shanghai:1||MORTALITY:1||HETEROSTRUCTURES:1||METHACRYLATE:1||prostate cancer:1||renal cell carcinoma:1||RATS:1||PULSEDLASER DEPOSITION:1||semiconducting IIVI materials:1||PATTERNS:1||sapphire:1||evaporation:1||ZINCOXIDE:1||LIGHTEMITTING DIODE:1||Synchrotron imaging:1||Dislocations:1||Cracks:1||LIVE:1||spinal cord:1||stainless steel:1||nanophotonics:1||subwavelength waveguides:1||Synchrotrons:1||High dislocation density:1||Misfit stress relaxations:1||Randomly distributed:1||Tripleaxis xray diffractions:1||FLOW:1||CRYSTALLINE ORGANIC NANORODS:1||SHAPE CHANGES:1||ZnO thin film:1||(111)SI:1||XRAY MIRRORS:1||low temperature:1||oxide cathodes:1||heterogeneity:1||Xray microscopy:1||INTERFACIAL TENSIONS:1||single crystal growth:1||CARCINOMA:1||mouse:1||ANIMALS:1||Mndoped ZnO:1||luminescence:1||solution precipitation:1||CLUSTER:1||relaxation:1||ALPHAFE2O3:1||XANES:1||epitaxy:1||LaNiO3 thin film:1||LANIO3 THINFILMS:1||ELECTRODE:1||Fe3O4 sublayer:1||EXAFS microscopy:1||FERRITE FILMS:1||SURFACE PRETREATMENTS:1||superconductors:1||CONTRAST AGENT:1||BIODISTRIBUTION:1||DEATH:1||SYNCHROTRON:1||IR:1||apo Eknockout 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GaN:4||MICROSCOPY:4||REDUCTION:4||POLYMER:4||DEFECTS:3||COHERENCE:3||MICROTOMOGRAPHY:3||NANOPARTICLES:3||synchrotron:3||LIGHT:3||TRANSISTORS:3||SURFACES:3||STRAIN:3||EPITAXIAL LAYERS:3||DRUGDELIVERY:3||REFRACTION:3||growth mechanism:3||METALS:3||MICROPIPES:3||SYSTEM:3||NUCLEATION:3||synchrotron Xray scattering:3||SURFACE:3||SCREW DISLOCATIONS:3||SIMULATION:3||HARD XRAYS:3||ELECTRICALPROPERTIES:3||EPITAXY:3||GAN:3||PM2.5:3||EVAPORATION:3||LIQUIDS:3||INPLANE:3||RAT:3||ANGIOGENESIS:3||CT:3||GaN:3||ZnO:3||NANORODS:3||strain:3||PB(ZR0.53TI0.47)O3:3||CRYSTALLIZATION:3||synchrotron Xrays:2||buffer layer:2||TRANSMISSION ELECTRONMICROSCOPY:2||EPITAXIAL COSI2 FILMS:2||MECHANISMS:2||INSITU GROWTH:2||DEVICE:2||LOCALIZED ELECTROCHEMICAL DEPOSITION:2||X ray diffraction:2||SCHOTTKY CONTACT:2||IRRADIATION:2||aqua regia treatment:2||INVIVO:2||CELLADHESION:2||MORPHOGENETIC PROTEIN2:2||RECEPTOR:2||TEM:2||broadband synchrotron light:2||nanoparticle:2||BUFFER LAYERS:2||TC:2||ENHANCED SYNCHROTRON RADIOLOGY:2||synthesis:2||POLYDIMETHYLSILOXANE:2||MICROCHANNELS:2||PRETREATMENT PROCESS:2||XRAY:2||CHEMOTAXIS:2||MECHANOSENSORY TRANSDUCTION:2||rectangular microtube:2||CONJUGATED POLYMER:2||atomic force microscopy:2||METALLIC OXIDE SRRUO3:2||LASERABLATION:2||STRESS:2||ZONE PLATES:2||FRICTION:2||THERMALSTABILITY:2||Xrays:2||RAY:2||NM:2||ENERGY:2||TOPOGRAPHY:2||synchrotron Xray:2||ACID HYDROGELS:2||CAENORHABDITISELEGANS:2||PROTEIN:2||defects:2||EVOLUTION:2||FABRICATION:2||sharp bending waveguide:2||lasing action:2||BULK CRYSTALS:2||SUPERLATTICES:2||COATED CONDUCTORS:2||SI(111):2||phase contrast:2||CORONARY ANGIOGRAPHY:2||SPECTROMICROSCOPY:2||MEPHISTO:2||OXYGEN:2||OPTICALPROPERTIES:2||RADIOGRAPHY:2||CONTACT DEFORMATIONS:2||MOLECULAR FORCES:2||SOLIDS:2||NTYPE GAN:2||deposition:2||CHEMISTRY:2||DEFORMATION:2||SUBSTRATE:2||HETEROEPITAXY:2||NANOTOPOGRAPHY:2||EPITAXIALGROWTH:2||Xray:2||CHEMICAL VAPORDEPOSITION:2||SILICON STRUCTURES:2||STEMCELLS:2||CHANNEL:2||crystal structure:2||CORONARYANGIOGRAPHY:2||SiC:2||BUFFER LAYER:2||MOLECULARBEAM EPITAXY:2||INTERFACE:2||SIZE:2||ELECTRON:2||XRAY MICROSCOPY:2||MORPHOLOGIES:2||NANOCOLLOIDS:2||FORCE MICROSCOPY:2||ablation:2||polymers:2||(NH4)(2)Sx treatment:2||CLUSTERS:2||BIOMATERIALS:2||CIRCUITS:2||rectangular ring mode:2||GUIDES:2||MICROCAVITY:2||PHOTOLUMINESCENCE:2||epitaxial growth:2||EMBRITTLEMENT:2||Xray imaging:2||BIOCOMPATIBILITY:2||BEHAVIOR:2||MICROWAVEPLASMA:2||LOWPRESSURE:2||DEGRADATION:2||TISSUE:2||LIQUID:2||SOFT LITHOGRAPHY:2||amplified spontaneous emission (ASE):2||SMALL ORGANICMOLECULES:2||PHOTONIC CRYSTAL:2||micropipes:2||radiology:2||ALLOY:2||Xray scattering:2||CRITICALCURRENT DENSITY:2||ELECTRONMICROSCOPY:2||BI(PB)SRCACUO:2||ELECTRONICSTRUCTURE:2||RECONSTRUCTION:2||MG:2||ohmic contact:2||Pd ohmic contact:2||xray scattering:2||INP:2||annealing:2||REGENERATION:2||TITANIUM:2||COLLOIDAL GOLD:2||crystallization:2||BUCKLING MECHANICS:2||LASERS:2||MODES:2||synchrotron imaging:2||lattice distortion:2||AQUEOUSELECTROLYTE:2||MOLECULARDYNAMICS:2||OXIDE:2||MICROANGIOGRAPHY:2||OXIDATION:2||MICRORADIOLOGY:2||TECHNOLOGY:2||GE:2||surface chemistry:2||RECOVERY:2||OHMIC CONTACTS:2||LASERDIODES:2||PTYPE GAN:2||MOTION:2||PHANTOM:2||PHASE:2||CALCIUMPHOSPHATE CERAMICS:2||REPAIR:2||porphyrin:2||AMPLIFIED SPONTANEOUS EMISSION:2||METALELECTRODES:2||PD:2||SUPERCONDUCTING TAPES:2||nucleation:2||COATINGS:2||Xray topography:2||MONOLAYERS:2||SURFACE MODIFICATION:2||LITHOGRAPHY:2||MECHANICAL VENTILATION:1||MICRORIBBONS:1||STIFFNESS:1||DUALPHASE STEEL:1||growth mode:1||strain evolution:1||SI(100):1||ANISOTROPY:1||WET GRANULAR PILE:1||COALESCENCE:1||INSITU POLYMERIZATION:1||GRAPHENE:1||CANCER:1||NODULES:1||RABBITS:1||phasecontrast:1||YTTRIUMOXIDE FILMS:1||BaTiO3/SrTiO3:1||dental implant:1||coincidence site density:1||ERNI2B2C:1||crystallites:1||CoCrPt films:1||tensile strain:1||gallide:1||MGO:1||Baferrite film:1||synchrotron xray scattering:1||ZNO THINFILMS:1||MORPHOLOGY:1||PHASES:1||MICE:1||EBEAM LITHOGRAPHY:1||electrorheological fluids:1||NANOFIBROUS MEMBRANES:1||NANOLITHOGRAPHY:1||refractive index radiology:1||BLOOD:1||colloidal:1||SIZE CONTROL:1||nanoradiology:1||ZnSO4:1||lung injury:1||METAL:1||PM10:1||textured grain:1||MICROSTRUCTURE:1||DIMENSIONS:1||highresolution Xray diffraction:1||low temperature buffer:1||Zinc compounds:1||SI:1||HUMAN LONGEVITY:1||Maximum human lifespan:1||LIMITS:1||MOSFETS:1||in situ XANES:1||nanowires:1||PHOTOIRRADIATION:1||FIBERS:1||WORK:1||EMISSION:1||RADIATION MICROTOMOGRAPHY:1||RAMANSCATTERING:1||gold nanoparticles:1||synchrotron Xray diffraction:1||OPTICAL WAVEGUIDES:1||CONDUCTINGPOLYMER NANOWIRE:1||Lung cancer:1||INTRAVENOUS CORONARYARTERIOGRAPHY:1||SUBLIMATION GROWTH:1||radiography:1||porous SiC:1||GIANT MAGNETORESISTANCE:1||SEMICONDUCTORS:1||Ga diffusion:1||electroless deposition:1||HEMATITE:1||FREEELECTRON LASER:1||MOCVD:1||interfaces:1||white beam:1||imaging technique:1||nucleation 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Xray:1||BIPOLARTRANSISTORS:1||longevity:1||Confocal microscopy:1||Colloidal wettability:1||ATOMICFORCE MICROSCOPY:1||storage ring:1||digital subtraction:1||SCATTERING:1||size effect:1||SYNTHETIC QUARTZ:1||liquid metal embrittlement:1||iron ore:1||cube textured Ni substrates:1||SrRuO3 films:1||laser ablations:1||Ti underlayer:1||RANDOMACCESS MEMORIES:1||DOMAIN CONFIGURATIONS:1||MGO(100):1||SPECTROSCOPY:1||XE:1||IONBEAM:1||GRAINBOUNDARY MIGRATION:1||SRTIO3:1||COMPOSITES:1||FOAMS:1||BREASTCANCER SPECIMENS:1||unmonochromatized:1||Xray induced nucleation:1||gold:1||ABSORPTION:1||SEPARATION:1||CZOCHRALSKI GROWTH:1||RETRIEVAL:1||GAMMARADIATION:1||AQUEOUSSOLUTION:1||NANOCOMPOSITES:1||INCREASE:1||without staining procedure:1||XPS:1||Imaging techniques:1||Interfaces (materials):1||Dislocation distributions:1||AZOBENZENE:1||STRUCTURAL EVOLUTION:1||RELAXATION:1||DROP IMPACT:1||NONLINEAR DYNAMICS:1||DISLOCATIONS:1||Colloids:1||TRANSFORMATION:1||METAL INTERCONNECTS:1||ELASTIC CONDUCTORS:1||LOGIC:1||DEFICIENT MICE:1||tomography:1||FACILITY:1||osseointegration:1||ROCKS:1||dental radiography:1||Zn coating:1||RE2O3/Ni:1||YBCO COATED CONDUCTORS:1||threedimensional islands:1||(Ba,Sr)TiO3:1||ultrahigh resolution:1||photoelectron emission:1||Pd:1||LANIO3:1||BASE ELECTRODES:1||iron oxide phase:1||ironoxide interlayer:1||COATED GLASS SUBSTRATE:1||MICROWAVE PLASMA NUCLEATION:1||ENHANCED NUCLEATION:1||phase transformation:1||ADSORPTION:1||phasecontrast xray imaging:1||lung inflammation:1||SI1XGEX SINGLECRYSTALS:1||COCONTINUITY:1||SCALE:1||OBJECT:1||synchrotron microradiography:1||FeSO4:1||INDUCTION:1||BaTiO3 and SrTiO3 thin films:1||HARDXRAYS:1||light emitting diodes:1||ACID:1||MICROSTRUCTURES:1||PHOTOLUMINESCENCE PROPERTIES:1||LASER IRRADIATION:1||Human aging:1||polychromatic synchrotron Xray:1||refraction enhanced imaging:1||CHROMOPHORES:1||ACUTE LUNG INJURY:1||spatial resolution:1||BETAFESI2:1||VLSI:1||SI1XGEX:1||COLLOIDAL SUSPENSIONS:1||ELECTRONICS:1||ENHANCEMENT:1||artificial lattice:1||sinters:1||SILVER:1||STRAIN RELAXATION:1||biaxial texture:1||synchrotron scattering:1||transmission electron microscopy:1||IRONOXIDE FILMS:1||PZT thin film:1||ferroelectric thin film:1||MISFIT RELAXATION MECHANISMS:1||PBTIO3:1||O2:1||CONDUCTING POLYMERS:1||poly(methylmethancrylate):1||microspheres:1||phase contrast Xray microscope:1||AMBIENT AIR:1||ATMOSPHERE:1||XRAY INTERFEROMETER:1||NiAu composite nanoparticles.:1||synchrotron radiation Xrays:1||microtomography:1||OIL FLYASH:1||zinc oxide:1||mammography:1||SrRuO3 film:1||Laser epitaxy:1||HOLE MOBILITY:1||Models of crystal defects:1||RABBIT LUNGS:1||NI/AU CONTACT:1||3D printing:1||Stress relaxation:1||SURFACEAREA:1||IMAGE:1||modulation transfer function (MTF):1||Pb ions:1||Insitu visualization:1||Interfacial tension:1||DISPERSION FORCES:1||SINGLECRYSTALS:1||XRAY SOURCE:1||Synchrotron Xray imaging:1||Realtime imaging:1||MEDICAL APPLICATIONS:1||wiggler bending magnet:1||undulator:1||diffractionenhanced imaging:1||ZnO film:1||CAPACITORS:1||HE3:1||NiP alloy:1||PHOTOCHEMICAL FORMATION:1||extended domain matching:1||cubetextured Ni substrates:1||RAY COMPUTEDTOMOGRAPHY:1||electrode layer:1||DOMAINSTRUCTURE:1||XRAY CT:1||SPECIMEN:1||mammographic phantom:1||Xray absorption spectroscopy:1||BLUE:1||CONTACT:1||(BA:1||synchrotron spectromicroscopy:1||thin film:1||MICROWAVE PLASMA:1||GOLD NANOPARTICLES:1||POLYMERIZATION:1||DISEASE:1||Shanghai:1||MORTALITY:1||HETEROSTRUCTURES:1||METHACRYLATE:1||prostate cancer:1||renal cell carcinoma:1||RATS:1||PULSEDLASER DEPOSITION:1||semiconducting IIVI materials:1||PATTERNS:1||sapphire:1||evaporation:1||ZINCOXIDE:1||LIGHTEMITTING DIODE:1||Synchrotron imaging:1||Dislocations:1||Cracks:1||LIVE:1||spinal cord:1||stainless steel:1||nanophotonics:1||subwavelength waveguides:1||Synchrotrons:1||High dislocation density:1||Misfit stress relaxations:1||Randomly distributed:1||Tripleaxis xray diffractions:1||FLOW:1||CRYSTALLINE ORGANIC NANORODS:1||SHAPE CHANGES:1||ZnO thin film:1||(111)SI:1||XRAY MIRRORS:1||low temperature:1||oxide cathodes:1||heterogeneity:1||Xray microscopy:1||INTERFACIAL TENSIONS:1||single crystal growth:1||CARCINOMA:1||mouse:1||ANIMALS:1||Mndoped ZnO:1||luminescence:1||solution precipitation:1||CLUSTER:1||relaxation:1||ALPHAFE2O3:1||XANES:1||epitaxy:1||LaNiO3 thin film:1||LANIO3 THINFILMS:1||ELECTRODE:1||Fe3O4 sublayer:1||EXAFS microscopy:1||FERRITE FILMS:1||SURFACE PRETREATMENTS:1||superconductors:1||CONTRAST AGENT:1||BIODISTRIBUTION:1||DEATH:1||SYNCHROTRON:1||IR:1||apo Eknockout mouse:1||plaque:1||microradiology:1||ALPHASYNUCLEIN:1||PULMONARY TOXICITY:1||XRAY TOPOGRAPHY:1||dislocation:1||metalorganic chemical vapor deposition:1||CRYSTALGROWTH:1||SELFASSEMBLED MONOLAYERS:1||MEMBRANES:1||MAGNETICANISOTROPY:1||SI1XGEX CRYSTALS:1||STRAINEDSI:1||Extended Weibull model:1||MOLYBDENUM:1||ALLOYS:1||IRON:1||Theoretical modeling:1||Threading dislocation:1||GROWTH:27||THINFILMS:16||SYNCHROTRONRADIATION:15||CONTRAST:11||RADIOLOGY:11||PARTICLES:11||FILMS:11||SILICON:10||RADIATION:10||DEPOSITION:10||RESOLUTION:9||CRYSTALS:8||SILICONCARBIDE:7||XRAYS:7||MAMMOGRAPHY:7||Xray diffraction:7||synchrotron radiation:6||XRAYSCATTERING:6||MODEL:6||microstructure:6||DYNAMICS:5||ELECTRODEPOSITION:5||LAYERS:5||CHEMICALVAPORDEPOSITION:5||TEMPERATURE:5||TOMOGRAPHY:5||COMPUTEDTOMOGRAPHY:5||SAPPHIRE:5||MEDIA:5||NANOWIRES:5||DIFFRACTION:4||TISSUES:4||pulsed laser deposition:4||phase contrast imaging:4||LAYER:4||IMAGES:4||DIODES:4||FIELDEFFECT TRANSISTORS:4||ptype GaN:4||MICROSCOPY:4||REDUCTION:4||POLYMER:4||DEFECTS:3||COHERENCE:3||MICROTOMOGRAPHY:3||NANOPARTICLES:3||synchrotron:3||LIGHT:3||TRANSISTORS:3||SURFACES:3||STRAIN:3||EPITAXIAL LAYERS:3||DRUGDELIVERY:3||REFRACTION:3||growth mechanism:3||METALS:3||MICROPIPES:3||SYSTEM:3||NUCLEATION:3||synchrotron Xray scattering:3||SURFACE:3||SCREW DISLOCATIONS:3||SIMULATION:3||HARD XRAYS:3||ELECTRICALPROPERTIES:3||EPITAXY:3||GAN:3||PM2.5:3||EVAPORATION:3||LIQUIDS:3||INPLANE:3||RAT:3||ANGIOGENESIS:3||CT:3||GaN:3||ZnO:3||NANORODS:3||strain:3||PB(ZR0.53TI0.47)O3:3||CRYSTALLIZATION:3||synchrotron Xrays:2||buffer layer:2||TRANSMISSION ELECTRONMICROSCOPY:2||EPITAXIAL COSI2 FILMS:2||MECHANISMS:2||INSITU GROWTH:2||DEVICE:2||LOCALIZED ELECTROCHEMICAL DEPOSITION:2||X ray diffraction:2||SCHOTTKY CONTACT:2||IRRADIATION:2||aqua regia treatment:2||INVIVO:2||CELLADHESION:2||MORPHOGENETIC PROTEIN2:2||RECEPTOR:2||TEM:2||broadband synchrotron light:2||nanoparticle:2||BUFFER LAYERS:2||TC:2||ENHANCED SYNCHROTRON RADIOLOGY:2||synthesis:2||POLYDIMETHYLSILOXANE:2||MICROCHANNELS:2||PRETREATMENT PROCESS:2||XRAY:2||CHEMOTAXIS:2||MECHANOSENSORY TRANSDUCTION:2||rectangular microtube:2||CONJUGATED POLYMER:2||atomic force microscopy:2||METALLIC OXIDE SRRUO3:2||LASERABLATION:2||STRESS:2||ZONE PLATES:2||FRICTION:2||THERMALSTABILITY:2||Xrays:2||RAY:2||NM:2||ENERGY:2||TOPOGRAPHY:2||synchrotron Xray:2||ACID HYDROGELS:2||CAENORHABDITISELEGANS:2||PROTEIN:2||defects:2||EVOLUTION:2||FABRICATION:2||sharp bending waveguide:2||lasing action:2||BULK CRYSTALS:2||SUPERLATTICES:2||COATED CONDUCTORS:2||SI(111):2||phase contrast:2||CORONARY ANGIOGRAPHY:2||SPECTROMICROSCOPY:2||MEPHISTO:2||OXYGEN:2||OPTICALPROPERTIES:2||RADIOGRAPHY:2||CONTACT DEFORMATIONS:2||MOLECULAR FORCES:2||SOLIDS:2||NTYPE GAN:2||deposition:2||CHEMISTRY:2||DEFORMATION:2||SUBSTRATE:2||HETEROEPITAXY:2||NANOTOPOGRAPHY:2||EPITAXIALGROWTH:2||Xray:2||CHEMICAL VAPORDEPOSITION:2||SILICON STRUCTURES:2||STEMCELLS:2||CHANNEL:2||crystal structure:2||CORONARYANGIOGRAPHY:2||SiC:2||BUFFER LAYER:2||MOLECULARBEAM EPITAXY:2||INTERFACE:2||SIZE:2||ELECTRON:2||XRAY MICROSCOPY:2||MORPHOLOGIES:2||NANOCOLLOIDS:2||FORCE MICROSCOPY:2||ablation:2||polymers:2||(NH4)(2)Sx treatment:2||CLUSTERS:2||BIOMATERIALS:2||CIRCUITS:2||rectangular ring mode:2||GUIDES:2||MICROCAVITY:2||PHOTOLUMINESCENCE:2||epitaxial growth:2||EMBRITTLEMENT:2||Xray imaging:2||BIOCOMPATIBILITY:2||BEHAVIOR:2||MICROWAVEPLASMA:2||LOWPRESSURE:2||DEGRADATION:2||TISSUE:2||LIQUID:2||SOFT LITHOGRAPHY:2||amplified spontaneous emission (ASE):2||SMALL ORGANICMOLECULES:2||PHOTONIC CRYSTAL:2||micropipes:2||radiology:2||ALLOY:2||Xray scattering:2||CRITICALCURRENT DENSITY:2||ELECTRONMICROSCOPY:2||BI(PB)SRCACUO:2||ELECTRONICSTRUCTURE:2||RECONSTRUCTION:2||MG:2||ohmic contact:2||Pd ohmic contact:2||xray scattering:2||INP:2||annealing:2||REGENERATION:2||TITANIUM:2||COLLOIDAL GOLD:2||crystallization:2||BUCKLING MECHANICS:2||LASERS:2||MODES:2||synchrotron imaging:2||lattice distortion:2||AQUEOUSELECTROLYTE:2||MOLECULARDYNAMICS:2||OXIDE:2||MICROANGIOGRAPHY:2||OXIDATION:2||MICRORADIOLOGY:2||TECHNOLOGY:2||GE:2||surface chemistry:2||RECOVERY:2||OHMIC CONTACTS:2||LASERDIODES:2||PTYPE GAN:2||MOTION:2||PHANTOM:2||PHASE:2||CALCIUMPHOSPHATE CERAMICS:2||REPAIR:2||porphyrin:2||AMPLIFIED SPONTANEOUS EMISSION:2||METALELECTRODES:2||PD:2||SUPERCONDUCTING TAPES:2||nucleation:2||COATINGS:2||Xray topography:2||MONOLAYERS:2||SURFACE MODIFICATION:2||LITHOGRAPHY:2||MECHANICAL VENTILATION:1||MICRORIBBONS:1||STIFFNESS:1||DUALPHASE STEEL:1||growth mode:1||strain evolution:1||SI(100):1||ANISOTROPY:1||WET GRANULAR PILE:1||COALESCENCE:1||INSITU POLYMERIZATION:1||GRAPHENE:1||CANCER:1||NODULES:1||RABBITS:1||phasecontrast:1||YTTRIUMOXIDE FILMS:1||BaTiO3/SrTiO3:1||dental implant:1||coincidence site density:1||ERNI2B2C:1||crystallites:1||CoCrPt films:1||tensile strain:1||gallide:1||MGO:1||Baferrite film:1||synchrotron xray scattering:1||ZNO THINFILMS:1||MORPHOLOGY:1||PHASES:1||MICE:1||EBEAM LITHOGRAPHY:1||electrorheological fluids:1||NANOFIBROUS MEMBRANES:1||NANOLITHOGRAPHY:1||refractive index radiology:1||BLOOD:1||colloidal:1||SIZE CONTROL:1||nanoradiology:1||ZnSO4:1||lung injury:1||METAL:1||PM10:1||textured grain:1||MICROSTRUCTURE:1||DIMENSIONS:1||highresolution Xray diffraction:1||low temperature buffer:1||Zinc compounds:1||SI:1||HUMAN LONGEVITY:1||Maximum human lifespan:1||LIMITS:1||MOSFETS:1||in situ XANES:1||nanowires:1||PHOTOIRRADIATION:1||FIBERS:1||WORK:1||EMISSION:1||RADIATION MICROTOMOGRAPHY:1||RAMANSCATTERING:1||gold nanoparticles:1||synchrotron Xray diffraction:1||OPTICAL WAVEGUIDES:1||CONDUCTINGPOLYMER NANOWIRE:1||Lung cancer:1||INTRAVENOUS CORONARYARTERIOGRAPHY:1||SUBLIMATION GROWTH:1||radiography:1||porous SiC:1||GIANT MAGNETORESISTANCE:1||SEMICONDUCTORS:1||Ga diffusion:1||electroless deposition:1||HEMATITE:1||FREEELECTRON LASER:1||MOCVD:1||interfaces:1||white beam:1||imaging technique:1||nucleation layer:1||interface structure:1||epitaxial Baferrite film:1||rf magnetron sputtering:1||MAGNETIC CHARACTERISTICS:1||MIXTURE:1||ACCESS MEMORY APPLICATION:1||COHERENCY STRAIN:1||DENSITY:1||nanofabrication:1||POLY(METHYL METHACRYLATE) MICROSPHERE:1||RESIST:1||unmonochromatic beam:1||MICRORADIOGRAPHY:1||INTERFEROMETER:1||EXPOSURE:1||volume variation electronic:1||PULSEDLASER ABLATION:1||Semiconducting IIVI materials:1||Light emitting diodes:1||phase contrast microscopies:1||lung:1||AUGERELECTRON SPECTROSCOPY:1||passivation:1||additive manufacturing:1||Silicon carbide:1||Synchrotron radiation:1||Synchrotron radiation imaging:1||Dislocations (crystals):1||LUNG INJURY:1||POLYMER SURFACES:1||SINGLE CELLS:1||PREFERRED ORIENTATION:1||sapphire orientation:1||TANTALUM:1||BIASENHANCED NUCLEATION:1||hexaferrite:1||stretched exponential:1||SOLIDSURFACE:1||SHEAR:1||VIDEO MICROSCOPY:1||CARBON NANOTUBES:1||realtime observation:1||Xray synchrotron:1||CARBONMONOXIDE:1||ELECTROCHEMICAL FABRICATION:1||crystal growth:1||computer simulation:1||FERROELECTRICFILMS:1||TITANIUM IMPLANTS:1||BONE INTERFACE:1||EXAFS perpendicular magnetic recording:1||Pd/Ni:1||ELECTRODES:1||internal organ:1||LIGHTEMITTINGDIODES:1||interfacial structure:1||CONSTANT:1||DIELECTRICPROPERTIES:1||AR:1||DEVICES:1||BiSrCaCuO:1||LASER ABLATION:1||MECHANISM:1||SELECTIVE DEPOSITION:1||TARGETED DRUGDELIVERY:1||PEG:1||carbon 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CONFIGURATIONS:1||MGO(100):1||SPECTROSCOPY:1||XE:1||IONBEAM:1||GRAINBOUNDARY MIGRATION:1||SRTIO3:1||COMPOSITES:1||FOAMS:1||BREASTCANCER SPECIMENS:1||unmonochromatized:1||Xray induced nucleation:1||gold:1||ABSORPTION:1||SEPARATION:1||CZOCHRALSKI GROWTH:1||RETRIEVAL:1||GAMMARADIATION:1||AQUEOUSSOLUTION:1||NANOCOMPOSITES:1||INCREASE:1||without staining procedure:1||XPS:1||Imaging techniques:1||Interfaces (materials):1||Dislocation distributions:1||AZOBENZENE:1||STRUCTURAL EVOLUTION:1||RELAXATION:1||DROP IMPACT:1||NONLINEAR DYNAMICS:1||DISLOCATIONS:1||Colloids:1||TRANSFORMATION:1||METAL INTERCONNECTS:1||ELASTIC CONDUCTORS:1||LOGIC:1||DEFICIENT MICE:1||tomography:1||FACILITY:1||osseointegration:1||ROCKS:1||dental radiography:1||Zn coating:1||RE2O3/Ni:1||YBCO COATED CONDUCTORS:1||threedimensional islands:1||(Ba,Sr)TiO3:1||ultrahigh resolution:1||photoelectron emission:1||Pd:1||LANIO3:1||BASE ELECTRODES:1||iron oxide phase:1||ironoxide interlayer:1||COATED GLASS SUBSTRATE:1||MICROWAVE PLASMA NUCLEATION:1||ENHANCED NUCLEATION:1||phase transformation:1||ADSORPTION:1||phasecontrast xray imaging:1||lung inflammation:1||SI1XGEX SINGLECRYSTALS:1||COCONTINUITY:1||SCALE:1||OBJECT:1||synchrotron microradiography:1||FeSO4:1||INDUCTION:1||BaTiO3 and SrTiO3 thin films:1||HARDXRAYS:1||light emitting diodes:1||ACID:1||MICROSTRUCTURES:1||PHOTOLUMINESCENCE PROPERTIES:1||LASER IRRADIATION:1||Human aging:1||polychromatic synchrotron Xray:1||refraction enhanced imaging:1||CHROMOPHORES:1||ACUTE LUNG INJURY:1||spatial resolution:1||BETAFESI2:1||VLSI:1||SI1XGEX:1||COLLOIDAL SUSPENSIONS:1||ELECTRONICS:1||ENHANCEMENT:1||artificial lattice:1||sinters:1||SILVER:1||STRAIN RELAXATION:1||biaxial texture:1||synchrotron scattering:1||transmission electron microscopy:1||IRONOXIDE FILMS:1||PZT thin film:1||ferroelectric thin film:1||MISFIT RELAXATION MECHANISMS:1||PBTIO3:1||O2:1||CONDUCTING POLYMERS:1||poly(methylmethancrylate):1||microspheres:1||phase contrast Xray microscope:1||AMBIENT AIR:1||ATMOSPHERE:1||XRAY INTERFEROMETER:1||NiAu composite nanoparticles.:1||synchrotron radiation Xrays:1||microtomography:1||OIL FLYASH:1||zinc oxide:1||mammography:1||SrRuO3 film:1||Laser epitaxy:1||HOLE MOBILITY:1||Models of crystal defects:1||RABBIT LUNGS:1||NI/AU CONTACT:1||3D printing:1||Stress relaxation:1||SURFACEAREA:1||IMAGE:1||modulation transfer function (MTF):1||Pb ions:1||Insitu visualization:1||Interfacial tension:1||DISPERSION FORCES:1||SINGLECRYSTALS:1||XRAY SOURCE:1||Synchrotron Xray imaging:1||Realtime imaging:1||MEDICAL APPLICATIONS:1||wiggler bending magnet:1||undulator:1||diffractionenhanced imaging:1||ZnO film:1||CAPACITORS:1||HE3:1||NiP alloy:1||PHOTOCHEMICAL FORMATION:1||extended domain matching:1||cubetextured Ni substrates:1||RAY COMPUTEDTOMOGRAPHY:1||electrode layer:1||DOMAINSTRUCTURE:1||XRAY CT:1||SPECIMEN:1||mammographic phantom:1||Xray absorption spectroscopy:1||BLUE:1||CONTACT:1||(BA:1||synchrotron spectromicroscopy:1||thin film:1||MICROWAVE PLASMA:1||GOLD NANOPARTICLES:1||POLYMERIZATION:1||DISEASE:1||Shanghai:1||MORTALITY:1||HETEROSTRUCTURES:1||METHACRYLATE:1||prostate cancer:1||renal cell carcinoma:1||RATS:1||PULSEDLASER DEPOSITION:1||semiconducting IIVI materials:1||PATTERNS:1||sapphire:1||evaporation:1||ZINCOXIDE:1||LIGHTEMITTING DIODE:1||Synchrotron imaging:1||Dislocations:1||Cracks:1||LIVE:1||spinal cord:1||stainless steel:1||nanophotonics:1||subwavelength waveguides:1||Synchrotrons:1||High dislocation density:1||Misfit stress relaxations:1||Randomly distributed:1||Tripleaxis xray diffractions:1||FLOW:1||CRYSTALLINE ORGANIC NANORODS:1||SHAPE CHANGES:1||ZnO thin film:1||(111)SI:1||XRAY MIRRORS:1||low temperature:1||oxide cathodes:1||heterogeneity:1||Xray microscopy:1||INTERFACIAL TENSIONS:1||single crystal growth:1||CARCINOMA:1||mouse:1||ANIMALS:1||Mndoped ZnO:1||luminescence:1||solution precipitation:1||CLUSTER:1||relaxation:1||ALPHAFE2O3:1||XANES:1||epitaxy:1||LaNiO3 thin film:1||LANIO3 THINFILMS:1||ELECTRODE:1||Fe3O4 sublayer:1||EXAFS microscopy:1||FERRITE FILMS:1||SURFACE PRETREATMENTS:1||superconductors:1||CONTRAST AGENT:1||BIODISTRIBUTION:1||DEATH:1||SYNCHROTRON:1||IR:1||apo Eknockout mouse:1||plaque:1||microradiology:1||ALPHASYNUCLEIN:1||PULMONARY TOXICITY:1||XRAY TOPOGRAPHY:1||dislocation:1||metalorganic chemical vapor deposition:1||CRYSTALGROWTH:1||SELFASSEMBLED MONOLAYERS:1||MEMBRANES:1||MAGNETICANISOTROPY:1||SI1XGEX CRYSTALS:1||STRAINEDSI:1||Extended Weibull model:1||MOLYBDENUM:1||ALLOYS:1||IRON:1||Theoretical modeling:1||Threading dislocation:1||GROWTH:27||THINFILMS:16||SYNCHROTRONRADIATION:15||CONTRAST:11||RADIOLOGY:11||PARTICLES:11||FILMS:11||SILICON:10||RADIATION:10||DEPOSITION:10||RESOLUTION:9||CRYSTALS:8||SILICONCARBIDE:7||XRAYS:7||MAMMOGRAPHY:7||Xray diffraction:7||synchrotron radiation:6||XRAYSCATTERING:6||MODEL:6||microstructure:6||DYNAMICS:5||ELECTRODEPOSITION:5||LAYERS:5||CHEMICALVAPORDEPOSITION:5||TEMPERATURE:5||TOMOGRAPHY:5||COMPUTEDTOMOGRAPHY:5||SAPPHIRE:5||MEDIA:5||NANOWIRES:5||DIFFRACTION:4||TISSUES:4||pulsed laser deposition:4||phase contrast imaging:4||LAYER:4||IMAGES:4||DIODES:4||FIELDEFFECT TRANSISTORS:4||ptype GaN:4||MICROSCOPY:4||REDUCTION:4||POLYMER:4||DEFECTS:3||COHERENCE:3||MICROTOMOGRAPHY:3||NANOPARTICLES:3||synchrotron:3||LIGHT:3||TRANSISTORS:3||SURFACES:3||STRAIN:3||EPITAXIAL LAYERS:3||DRUGDELIVERY:3||REFRACTION:3||growth mechanism:3||METALS:3||MICROPIPES:3||SYSTEM:3||NUCLEATION:3||synchrotron Xray scattering:3||SURFACE:3||SCREW DISLOCATIONS:3||SIMULATION:3||HARD XRAYS:3||ELECTRICALPROPERTIES:3||EPITAXY:3||GAN:3||PM2.5:3||EVAPORATION:3||LIQUIDS:3||INPLANE:3||RAT:3||ANGIOGENESIS:3||CT:3||GaN:3||ZnO:3||NANORODS:3||strain:3||PB(ZR0.53TI0.47)O3:3||CRYSTALLIZATION:3||synchrotron Xrays:2||buffer layer:2||TRANSMISSION ELECTRONMICROSCOPY:2||EPITAXIAL COSI2 FILMS:2||MECHANISMS:2||INSITU GROWTH:2||DEVICE:2||LOCALIZED ELECTROCHEMICAL DEPOSITION:2||X ray diffraction:2||SCHOTTKY CONTACT:2||IRRADIATION:2||aqua regia treatment:2||INVIVO:2||CELLADHESION:2||MORPHOGENETIC PROTEIN2:2||RECEPTOR:2||TEM:2||broadband synchrotron light:2||nanoparticle:2||BUFFER LAYERS:2||TC:2||ENHANCED SYNCHROTRON RADIOLOGY:2||synthesis:2||POLYDIMETHYLSILOXANE:2||MICROCHANNELS:2||PRETREATMENT PROCESS:2||XRAY:2||CHEMOTAXIS:2||MECHANOSENSORY TRANSDUCTION:2||rectangular microtube:2||CONJUGATED POLYMER:2||atomic force microscopy:2||METALLIC OXIDE SRRUO3:2||LASERABLATION:2||STRESS:2||ZONE PLATES:2||FRICTION:2||THERMALSTABILITY:2||Xrays:2||RAY:2||NM:2||ENERGY:2||TOPOGRAPHY:2||synchrotron Xray:2||ACID HYDROGELS:2||CAENORHABDITISELEGANS:2||PROTEIN:2||defects:2||EVOLUTION:2||FABRICATION:2||sharp bending waveguide:2||lasing action:2||BULK CRYSTALS:2||SUPERLATTICES:2||COATED CONDUCTORS:2||SI(111):2||phase contrast:2||CORONARY ANGIOGRAPHY:2||SPECTROMICROSCOPY:2||MEPHISTO:2||OXYGEN:2||OPTICALPROPERTIES:2||RADIOGRAPHY:2||CONTACT DEFORMATIONS:2||MOLECULAR FORCES:2||SOLIDS:2||NTYPE GAN:2||deposition:2||CHEMISTRY:2||DEFORMATION:2||SUBSTRATE:2||HETEROEPITAXY:2||NANOTOPOGRAPHY:2||EPITAXIALGROWTH:2||Xray:2||CHEMICAL VAPORDEPOSITION:2||SILICON STRUCTURES:2||STEMCELLS:2||CHANNEL:2||crystal structure:2||CORONARYANGIOGRAPHY:2||SiC:2||BUFFER LAYER:2||MOLECULARBEAM EPITAXY:2||INTERFACE:2||SIZE:2||ELECTRON:2||XRAY MICROSCOPY:2||MORPHOLOGIES:2||NANOCOLLOIDS:2||FORCE MICROSCOPY:2||ablation:2||polymers:2||(NH4)(2)Sx treatment:2||CLUSTERS:2||BIOMATERIALS:2||CIRCUITS:2||rectangular ring mode:2||GUIDES:2||MICROCAVITY:2||PHOTOLUMINESCENCE:2||epitaxial growth:2||EMBRITTLEMENT:2||Xray imaging:2||BIOCOMPATIBILITY:2||BEHAVIOR:2||MICROWAVEPLASMA:2||LOWPRESSURE:2||DEGRADATION:2||TISSUE:2||LIQUID:2||SOFT LITHOGRAPHY:2||amplified spontaneous emission (ASE):2||SMALL ORGANICMOLECULES:2||PHOTONIC CRYSTAL:2||micropipes:2||radiology:2||ALLOY:2||Xray scattering:2||CRITICALCURRENT DENSITY:2||ELECTRONMICROSCOPY:2||BI(PB)SRCACUO:2||ELECTRONICSTRUCTURE:2||RECONSTRUCTION:2||MG:2||ohmic contact:2||Pd ohmic contact:2||xray scattering:2||INP:2||annealing:2||REGENERATION:2||TITANIUM:2||COLLOIDAL GOLD:2||crystallization:2||BUCKLING MECHANICS:2||LASERS:2||MODES:2||synchrotron imaging:2||lattice distortion:2||AQUEOUSELECTROLYTE:2||MOLECULARDYNAMICS:2||OXIDE:2||MICROANGIOGRAPHY:2||OXIDATION:2||MICRORADIOLOGY:2||TECHNOLOGY:2||GE:2||surface chemistry:2||RECOVERY:2||OHMIC CONTACTS:2||LASERDIODES:2||PTYPE GAN:2||MOTION:2||PHANTOM:2||PHASE:2||CALCIUMPHOSPHATE CERAMICS:2||REPAIR:2||porphyrin:2||AMPLIFIED SPONTANEOUS EMISSION:2||METALELECTRODES:2||PD:2||SUPERCONDUCTING TAPES:2||nucleation:2||COATINGS:2||Xray topography:2||MONOLAYERS:2||SURFACE MODIFICATION:2||LITHOGRAPHY:2||MECHANICAL VENTILATION:1||MICRORIBBONS:1||STIFFNESS:1||DUALPHASE STEEL:1||growth mode:1||strain evolution:1||SI(100):1||ANISOTROPY:1||WET GRANULAR PILE:1||COALESCENCE:1||INSITU POLYMERIZATION:1||GRAPHENE:1||CANCER:1||NODULES:1||RABBITS:1||phasecontrast:1||YTTRIUMOXIDE FILMS:1||BaTiO3/SrTiO3:1||dental implant:1||coincidence site density:1||ERNI2B2C:1||crystallites:1||CoCrPt films:1||tensile strain:1||gallide:1||MGO:1||Baferrite film:1||synchrotron xray scattering:1||ZNO THINFILMS:1||MORPHOLOGY:1||PHASES:1||MICE:1||EBEAM LITHOGRAPHY:1||electrorheological fluids:1||NANOFIBROUS MEMBRANES:1||NANOLITHOGRAPHY:1||refractive index radiology:1||BLOOD:1||colloidal:1||SIZE CONTROL:1||nanoradiology:1||ZnSO4:1||lung injury:1||METAL:1||PM10:1||textured grain:1||MICROSTRUCTURE:1||DIMENSIONS:1||highresolution Xray diffraction:1||low temperature buffer:1||Zinc compounds:1||SI:1||HUMAN LONGEVITY:1||Maximum human lifespan:1||LIMITS:1||MOSFETS:1||in situ XANES:1||nanowires:1||PHOTOIRRADIATION:1||FIBERS:1||WORK:1||EMISSION:1||RADIATION MICROTOMOGRAPHY:1||RAMANSCATTERING:1||gold nanoparticles:1||synchrotron Xray diffraction:1||OPTICAL WAVEGUIDES:1||CONDUCTINGPOLYMER NANOWIRE:1||Lung cancer:1||INTRAVENOUS CORONARYARTERIOGRAPHY:1||SUBLIMATION GROWTH:1||radiography:1||porous SiC:1||GIANT MAGNETORESISTANCE:1||SEMICONDUCTORS:1||Ga diffusion:1||electroless deposition:1||HEMATITE:1||FREEELECTRON LASER:1||MOCVD:1||interfaces:1||white beam:1||imaging technique:1||nucleation layer:1||interface structure:1||epitaxial Baferrite film:1||rf magnetron sputtering:1||MAGNETIC CHARACTERISTICS:1||MIXTURE:1||ACCESS MEMORY APPLICATION:1||COHERENCY STRAIN:1||DENSITY:1||nanofabrication:1||POLY(METHYL METHACRYLATE) MICROSPHERE:1||RESIST:1||unmonochromatic beam:1||MICRORADIOGRAPHY:1||INTERFEROMETER:1||EXPOSURE:1||volume variation electronic:1||PULSEDLASER ABLATION:1||Semiconducting IIVI materials:1||Light emitting diodes:1||phase contrast microscopies:1||lung:1||AUGERELECTRON SPECTROSCOPY:1||passivation:1||additive manufacturing:1||Silicon carbide:1||Synchrotron radiation:1||Synchrotron radiation imaging:1||Dislocations (crystals):1||LUNG INJURY:1||POLYMER SURFACES:1||SINGLE CELLS:1||PREFERRED ORIENTATION:1||sapphire orientation:1||TANTALUM:1||BIASENHANCED NUCLEATION:1||hexaferrite:1||stretched exponential:1||SOLIDSURFACE:1||SHEAR:1||VIDEO MICROSCOPY:1||CARBON NANOTUBES:1||realtime observation:1||Xray synchrotron:1||CARBONMONOXIDE:1||ELECTROCHEMICAL FABRICATION:1||crystal growth:1||computer simulation:1||FERROELECTRICFILMS:1||TITANIUM IMPLANTS:1||BONE INTERFACE:1||EXAFS perpendicular magnetic recording:1||Pd/Ni:1||ELECTRODES:1||internal organ:1||LIGHTEMITTINGDIODES:1||interfacial structure:1||CONSTANT:1||DIELECTRICPROPERTIES:1||AR:1||DEVICES:1||BiSrCaCuO:1||LASER ABLATION:1||MECHANISM:1||SELECTIVE DEPOSITION:1||TARGETED DRUGDELIVERY:1||PEG:1||carbon nanotubes:1||nanocharacterization:1||WALLED CARBON NANOTUBE:1||basal cell carcinoma:1||PARTICULATE AIRPOLLUTION:1||FINE:1||CITIES:1||DOPED ZNO FILMS:1||atherosclerosis:1||drug delivery:1||hard Xray:1||COMBUSTION:1||ARTIFICIAL BATIO3/SRTIO3 SUPERLATTICES:1||surface morphology:1||Direct wafer bonding:1||COLLOIDAL GOLD PARTICLES:1||DELINEATION:1||EXPECTANCY:1||DEMOGRAPHY:1||MRI:1||SIGE:1||Phase contrast microradiography:1||INJURY:1||PASSIVITY:1||VOLUME:1||CONTACTANGLE:1||ARRAYS:1||DUCTILITY:1||sputtering:1||computed microtomography (mu CT):1||unmonochromatized Xray:1||BIPOLARTRANSISTORS:1||longevity:1||Confocal microscopy:1||Colloidal wettability:1||ATOMICFORCE MICROSCOPY:1||storage ring:1||digital subtraction:1||SCATTERING:1||size effect:1||SYNTHETIC QUARTZ:1||liquid metal embrittlement:1||iron ore:1||cube textured Ni substrates:1||SrRuO3 films:1||laser ablations:1||Ti underlayer:1||RANDOMACCESS MEMORIES:1||DOMAIN CONFIGURATIONS:1||MGO(100):1||SPECTROSCOPY:1||XE:1||IONBEAM:1||GRAINBOUNDARY MIGRATION:1||SRTIO3:1||COMPOSITES:1||FOAMS:1||BREASTCANCER SPECIMENS:1||unmonochromatized:1||Xray induced nucleation:1||gold:1||ABSORPTION:1||SEPARATION:1||CZOCHRALSKI GROWTH:1||RETRIEVAL:1||GAMMARADIATION:1||AQUEOUSSOLUTION:1||NANOCOMPOSITES:1||INCREASE:1||without staining procedure:1||XPS:1||Imaging techniques:1||Interfaces (materials):1||Dislocation distributions:1||AZOBENZENE:1||STRUCTURAL EVOLUTION:1||RELAXATION:1||DROP IMPACT:1||NONLINEAR DYNAMICS:1||DISLOCATIONS:1||Colloids:1||TRANSFORMATION:1||METAL INTERCONNECTS:1||ELASTIC CONDUCTORS:1||LOGIC:1||DEFICIENT MICE:1||tomography:1||FACILITY:1||osseointegration:1||ROCKS:1||dental radiography:1||Zn coating:1||RE2O3/Ni:1||YBCO COATED CONDUCTORS:1||threedimensional islands:1||(Ba,Sr)TiO3:1||ultrahigh resolution:1||photoelectron emission:1||Pd:1||LANIO3:1||BASE ELECTRODES:1||iron oxide phase:1||ironoxide interlayer:1||COATED GLASS SUBSTRATE:1||MICROWAVE PLASMA NUCLEATION:1||ENHANCED NUCLEATION:1||phase transformation:1||ADSORPTION:1||phasecontrast xray imaging:1||lung inflammation:1||SI1XGEX SINGLECRYSTALS:1||COCONTINUITY:1||SCALE:1||OBJECT:1||synchrotron microradiography:1||FeSO4:1||INDUCTION:1||BaTiO3 and SrTiO3 thin films:1||HARDXRAYS:1||light emitting diodes:1||ACID:1||MICROSTRUCTURES:1||PHOTOLUMINESCENCE PROPERTIES:1||LASER IRRADIATION:1||Human aging:1||polychromatic synchrotron Xray:1||refraction enhanced imaging:1||CHROMOPHORES:1||ACUTE LUNG INJURY:1||spatial resolution:1||BETAFESI2:1||VLSI:1||SI1XGEX:1||COLLOIDAL SUSPENSIONS:1||ELECTRONICS:1||ENHANCEMENT:1||artificial lattice:1||sinters:1||SILVER:1||STRAIN RELAXATION:1||biaxial texture:1||synchrotron scattering:1||transmission electron microscopy:1||IRONOXIDE FILMS:1||PZT thin film:1||ferroelectric thin film:1||MISFIT RELAXATION MECHANISMS:1||PBTIO3:1||O2:1||CONDUCTING POLYMERS:1||poly(methylmethancrylate):1||microspheres:1||phase contrast Xray microscope:1||AMBIENT AIR:1||ATMOSPHERE:1||XRAY INTERFEROMETER:1||NiAu composite nanoparticles.:1||synchrotron radiation Xrays:1||microtomography:1||OIL FLYASH:1||zinc oxide:1||mammography:1||SrRuO3 film:1||Laser epitaxy:1||HOLE MOBILITY:1||Models of crystal defects:1||RABBIT LUNGS:1||NI/AU CONTACT:1||3D printing:1||Stress relaxation:1||SURFACEAREA:1||IMAGE:1||modulation transfer function (MTF):1||Pb ions:1||Insitu visualization:1||Interfacial tension:1||DISPERSION FORCES:1||SINGLECRYSTALS:1||XRAY SOURCE:1||Synchrotron Xray imaging:1||Realtime imaging:1||MEDICAL APPLICATIONS:1||wiggler bending magnet:1||undulator:1||diffractionenhanced imaging:1||ZnO film:1||CAPACITORS:1||HE3:1||NiP alloy:1||PHOTOCHEMICAL FORMATION:1||extended domain matching:1||cubetextured Ni substrates:1||RAY COMPUTEDTOMOGRAPHY:1||electrode layer:1||DOMAINSTRUCTURE:1||XRAY CT:1||SPECIMEN:1||mammographic phantom:1||Xray absorption spectroscopy:1||BLUE:1||CONTACT:1||(BA:1||synchrotron spectromicroscopy:1||thin film:1||MICROWAVE PLASMA:1||GOLD NANOPARTICLES:1||POLYMERIZATION:1||DISEASE:1||Shanghai:1||MORTALITY:1||HETEROSTRUCTURES:1||METHACRYLATE:1||prostate cancer:1||renal cell carcinoma:1||RATS:1||PULSEDLASER DEPOSITION:1||semiconducting IIVI materials:1||PATTERNS:1||sapphire:1||evaporation:1||ZINCOXIDE:1||LIGHTEMITTING DIODE:1||Synchrotron imaging:1||Dislocations:1||Cracks:1||LIVE:1||spinal cord:1||stainless steel:1||nanophotonics:1||subwavelength waveguides:1||Synchrotrons:1||High dislocation density:1||Misfit stress relaxations:1||Randomly distributed:1||Tripleaxis xray diffractions:1||FLOW:1||CRYSTALLINE ORGANIC NANORODS:1||SHAPE CHANGES:1||ZnO thin film:1||(111)SI:1||XRAY MIRRORS:1||low temperature:1||oxide cathodes:1||heterogeneity:1||Xray microscopy:1||INTERFACIAL TENSIONS:1||single crystal growth:1||CARCINOMA:1||mouse:1||ANIMALS:1||Mndoped ZnO:1||luminescence:1||solution precipitation:1||CLUSTER:1||relaxation:1||ALPHAFE2O3:1||XANES:1||epitaxy:1||LaNiO3 thin film:1||LANIO3 THINFILMS:1||ELECTRODE:1||Fe3O4 sublayer:1||EXAFS microscopy:1||FERRITE FILMS:1||SURFACE PRETREATMENTS:1||superconductors:1||CONTRAST AGENT:1||BIODISTRIBUTION:1||DEATH:1||SYNCHROTRON:1||IR:1||apo Eknockout mouse:1||plaque:1||microradiology:1||ALPHASYNUCLEIN:1||PULMONARY TOXICITY:1||XRAY TOPOGRAPHY:1||dislocation:1||metalorganic chemical vapor deposition:1||CRYSTALGROWTH:1||SELFASSEMBLED MONOLAYERS:1||MEMBRANES:1||MAGNETICANISOTROPY:1||SI1XGEX CRYSTALS:1||STRAINEDSI:1||Extended Weibull model:1||MOLYBDENUM:1||ALLOYS:1||IRON:1||Theoretical modeling:1||Threading dislocation:1||GROWTH:27||THINFILMS:16||SYNCHROTRONRADIATION:15||CONTRAST:11||RADIOLOGY:11||PARTICLES:11||FILMS:11||SILICON:10||RADIATION:10||DEPOSITION:10||RESOLUTION:9||CRYSTALS:8||SILICONCARBIDE:7||XRAYS:7||MAMMOGRAPHY:7||Xray diffraction:7||synchrotron radiation:6||XRAYSCATTERING:6||MODEL:6||microstructure:6||DYNAMICS:5||ELECTRODEPOSITION:5||LAYERS:5||CHEMICALVAPORDEPOSITION:5||TEMPERATURE:5||TOMOGRAPHY:5||COMPUTEDTOMOGRAPHY:5||SAPPHIRE:5||MEDIA:5||NANOWIRES:5||DIFFRACTION:4||TISSUES:4||pulsed laser deposition:4||phase contrast imaging:4||LAYER:4||IMAGES:4||DIODES:4||FIELDEFFECT TRANSISTORS:4||ptype GaN:4||MICROSCOPY:4||REDUCTION:4||POLYMER:4||DEFECTS:3||COHERENCE:3||MICROTOMOGRAPHY:3||NANOPARTICLES:3||synchrotron:3||LIGHT:3||TRANSISTORS:3||SURFACES:3||STRAIN:3||EPITAXIAL LAYERS:3||DRUGDELIVERY:3||REFRACTION:3||growth mechanism:3||METALS:3||MICROPIPES:3||SYSTEM:3||NUCLEATION:3||synchrotron Xray scattering:3||SURFACE:3||SCREW DISLOCATIONS:3||SIMULATION:3||HARD XRAYS:3||ELECTRICALPROPERTIES:3||EPITAXY:3||GAN:3||PM2.5:3||EVAPORATION:3||LIQUIDS:3||INPLANE:3||RAT:3||ANGIOGENESIS:3||CT:3||GaN:3||ZnO:3||NANORODS:3||strain:3||PB(ZR0.53TI0.47)O3:3||CRYSTALLIZATION:3||synchrotron Xrays:2||buffer layer:2||TRANSMISSION ELECTRONMICROSCOPY:2||EPITAXIAL COSI2 FILMS:2||MECHANISMS:2||INSITU GROWTH:2||DEVICE:2||LOCALIZED ELECTROCHEMICAL DEPOSITION:2||X ray diffraction:2||SCHOTTKY CONTACT:2||IRRADIATION:2||aqua regia treatment:2||INVIVO:2||CELLADHESION:2||MORPHOGENETIC PROTEIN2:2||RECEPTOR:2||TEM:2||broadband synchrotron light:2||nanoparticle:2||BUFFER LAYERS:2||TC:2||ENHANCED SYNCHROTRON RADIOLOGY:2||synthesis:2||POLYDIMETHYLSILOXANE:2||MICROCHANNELS:2||PRETREATMENT PROCESS:2||XRAY:2||CHEMOTAXIS:2||MECHANOSENSORY TRANSDUCTION:2||rectangular microtube:2||CONJUGATED POLYMER:2||atomic force microscopy:2||METALLIC OXIDE SRRUO3:2||LASERABLATION:2||STRESS:2||ZONE PLATES:2||FRICTION:2||THERMALSTABILITY:2||Xrays:2||RAY:2||NM:2||ENERGY:2||TOPOGRAPHY:2||synchrotron Xray:2||ACID HYDROGELS:2||CAENORHABDITISELEGANS:2||PROTEIN:2||defects:2||EVOLUTION:2||FABRICATION:2||sharp bending waveguide:2||lasing action:2||BULK CRYSTALS:2||SUPERLATTICES:2||COATED CONDUCTORS:2||SI(111):2||phase contrast:2||CORONARY ANGIOGRAPHY:2||SPECTROMICROSCOPY:2||MEPHISTO:2||OXYGEN:2||OPTICALPROPERTIES:2||RADIOGRAPHY:2||CONTACT DEFORMATIONS:2||MOLECULAR FORCES:2||SOLIDS:2||NTYPE GAN:2||deposition:2||CHEMISTRY:2||DEFORMATION:2||SUBSTRATE:2||HETEROEPITAXY:2||NANOTOPOGRAPHY:2||EPITAXIALGROWTH:2||Xray:2||CHEMICAL VAPORDEPOSITION:2||SILICON STRUCTURES:2||STEMCELLS:2||CHANNEL:2||crystal structure:2||CORONARYANGIOGRAPHY:2||SiC:2||BUFFER LAYER:2||MOLECULARBEAM EPITAXY:2||INTERFACE:2||SIZE:2||ELECTRON:2||XRAY MICROSCOPY:2||MORPHOLOGIES:2||NANOCOLLOIDS:2||FORCE MICROSCOPY:2||ablation:2||polymers:2||(NH4)(2)Sx treatment:2||CLUSTERS:2||BIOMATERIALS:2||CIRCUITS:2||rectangular ring mode:2||GUIDES:2||MICROCAVITY:2||PHOTOLUMINESCENCE:2||epitaxial growth:2||EMBRITTLEMENT:2||Xray imaging:2||BIOCOMPATIBILITY:2||BEHAVIOR:2||MICROWAVEPLASMA:2||LOWPRESSURE:2||DEGRADATION:2||TISSUE:2||LIQUID:2||SOFT LITHOGRAPHY:2||amplified spontaneous emission (ASE):2||SMALL ORGANICMOLECULES:2||PHOTONIC CRYSTAL:2||micropipes:2||radiology:2||ALLOY:2||Xray scattering:2||CRITICALCURRENT DENSITY:2||ELECTRONMICROSCOPY:2||BI(PB)SRCACUO:2||ELECTRONICSTRUCTURE:2||RECONSTRUCTION:2||MG:2||ohmic contact:2||Pd ohmic contact:2||xray scattering:2||INP:2||annealing:2||REGENERATION:2||TITANIUM:2||COLLOIDAL GOLD:2||crystallization:2||BUCKLING MECHANICS:2||LASERS:2||MODES:2||synchrotron imaging:2||lattice distortion:2||AQUEOUSELECTROLYTE:2||MOLECULARDYNAMICS:2||OXIDE:2||MICROANGIOGRAPHY:2||OXIDATION:2||MICRORADIOLOGY:2||TECHNOLOGY:2||GE:2||surface chemistry:2||RECOVERY:2||OHMIC CONTACTS:2||LASERDIODES:2||PTYPE GAN:2||MOTION:2||PHANTOM:2||PHASE:2||CALCIUMPHOSPHATE CERAMICS:2||REPAIR:2||porphyrin:2||AMPLIFIED SPONTANEOUS EMISSION:2||METALELECTRODES:2||PD:2||SUPERCONDUCTING TAPES:2||nucleation:2||COATINGS:2||Xray topography:2||MONOLAYERS:2||SURFACE MODIFICATION:2||LITHOGRAPHY:2||MECHANICAL VENTILATION:1||MICRORIBBONS:1||STIFFNESS:1||DUALPHASE STEEL:1||growth mode:1||strain evolution:1||SI(100):1||ANISOTROPY:1||WET GRANULAR PILE:1||COALESCENCE:1||INSITU POLYMERIZATION:1||GRAPHENE:1||CANCER:1||NODULES:1||RABBITS:1||phasecontrast:1||YTTRIUMOXIDE FILMS:1||BaTiO3/SrTiO3:1||dental implant:1||coincidence site density:1||ERNI2B2C:1||crystallites:1||CoCrPt films:1||tensile strain:1||gallide:1||MGO:1||Baferrite film:1||synchrotron xray scattering:1||ZNO THINFILMS:1||MORPHOLOGY:1||PHASES:1||MICE:1||EBEAM LITHOGRAPHY:1||electrorheological fluids:1||NANOFIBROUS MEMBRANES:1||NANOLITHOGRAPHY:1||refractive index radiology:1||BLOOD:1||colloidal:1||SIZE CONTROL:1||nanoradiology:1||ZnSO4:1||lung injury:1||METAL:1||PM10:1||textured grain:1||MICROSTRUCTURE:1||DIMENSIONS:1||highresolution Xray diffraction:1||low temperature buffer:1||Zinc compounds:1||SI:1||HUMAN LONGEVITY:1||Maximum human lifespan:1||LIMITS:1||MOSFETS:1||in situ XANES:1||nanowires:1||PHOTOIRRADIATION:1||FIBERS:1||WORK:1||EMISSION:1||RADIATION MICROTOMOGRAPHY:1||RAMANSCATTERING:1||gold nanoparticles:1||synchrotron Xray diffraction:1||OPTICAL WAVEGUIDES:1||CONDUCTINGPOLYMER NANOWIRE:1||Lung cancer:1||INTRAVENOUS CORONARYARTERIOGRAPHY:1||SUBLIMATION GROWTH:1||radiography:1||porous SiC:1||GIANT MAGNETORESISTANCE:1||SEMICONDUCTORS:1||Ga diffusion:1||electroless deposition:1||HEMATITE:1||FREEELECTRON LASER:1||MOCVD:1||interfaces:1||white beam:1||imaging technique:1||nucleation layer:1||interface structure:1||epitaxial Baferrite film:1||rf magnetron sputtering:1||MAGNETIC CHARACTERISTICS:1||MIXTURE:1||ACCESS MEMORY APPLICATION:1||COHERENCY STRAIN:1||DENSITY:1||nanofabrication:1||POLY(METHYL METHACRYLATE) MICROSPHERE:1||RESIST:1||unmonochromatic beam:1||MICRORADIOGRAPHY:1||INTERFEROMETER:1||EXPOSURE:1||volume variation electronic:1||PULSEDLASER ABLATION:1||Semiconducting IIVI materials:1||Light emitting diodes:1||phase contrast microscopies:1||lung:1||AUGERELECTRON SPECTROSCOPY:1||passivation:1||additive manufacturing:1||Silicon carbide:1||Synchrotron radiation:1||Synchrotron radiation imaging:1||Dislocations (crystals):1||LUNG INJURY:1||POLYMER SURFACES:1||SINGLE CELLS:1||PREFERRED ORIENTATION:1||sapphire orientation:1||TANTALUM:1||BIASENHANCED NUCLEATION:1||hexaferrite:1||stretched exponential:1||SOLIDSURFACE:1||SHEAR:1||VIDEO MICROSCOPY:1||CARBON NANOTUBES:1||realtime observation:1||Xray synchrotron:1||CARBONMONOXIDE:1||ELECTROCHEMICAL FABRICATION:1||crystal growth:1||computer simulation:1||FERROELECTRICFILMS:1||TITANIUM IMPLANTS:1||BONE INTERFACE:1||EXAFS perpendicular magnetic recording:1||Pd/Ni:1||ELECTRODES:1||internal organ:1||LIGHTEMITTINGDIODES:1||interfacial structure:1||CONSTANT:1||DIELECTRICPROPERTIES:1||AR:1||DEVICES:1||BiSrCaCuO:1||LASER ABLATION:1||MECHANISM:1||SELECTIVE DEPOSITION:1||TARGETED DRUGDELIVERY:1||PEG:1||carbon nanotubes:1||nanocharacterization:1||WALLED CARBON NANOTUBE:1||basal cell carcinoma:1||PARTICULATE AIRPOLLUTION:1||FINE:1||CITIES:1||DOPED ZNO FILMS:1||atherosclerosis:1||drug delivery:1||hard Xray:1||COMBUSTION:1||ARTIFICIAL BATIO3/SRTIO3 SUPERLATTICES:1||surface morphology:1||Direct wafer bonding:1||COLLOIDAL GOLD PARTICLES:1||DELINEATION:1||EXPECTANCY:1||DEMOGRAPHY:1||MRI:1||SIGE:1||Phase contrast microradiography:1||INJURY:1||PASSIVITY:1||VOLUME:1||CONTACTANGLE:1||ARRAYS:1||DUCTILITY:1||sputtering:1||computed microtomography (mu CT):1||unmonochromatized Xray:1||BIPOLARTRANSISTORS:1||longevity:1||Confocal microscopy:1||Colloidal wettability:1||ATOMICFORCE MICROSCOPY:1||storage ring:1||digital subtraction:1||SCATTERING:1||size effect:1||SYNTHETIC QUARTZ:1||liquid metal embrittlement:1||iron ore:1||cube textured Ni substrates:1||SrRuO3 films:1||laser ablations:1||Ti underlayer:1||RANDOMACCESS MEMORIES:1||DOMAIN CONFIGURATIONS:1||MGO(100):1||SPECTROSCOPY:1||XE:1||IONBEAM:1||GRAINBOUNDARY MIGRATION:1||SRTIO3:1||COMPOSITES:1||FOAMS:1||BREASTCANCER SPECIMENS:1||unmonochromatized:1||Xray induced nucleation:1||gold:1||ABSORPTION:1||SEPARATION:1||CZOCHRALSKI GROWTH:1||RETRIEVAL:1||GAMMARADIATION:1||AQUEOUSSOLUTION:1||NANOCOMPOSITES:1||INCREASE:1||without staining procedure:1||XPS:1||Imaging techniques:1||Interfaces (materials):1||Dislocation distributions:1||AZOBENZENE:1||STRUCTURAL EVOLUTION:1||RELAXATION:1||DROP IMPACT:1||NONLINEAR DYNAMICS:1||DISLOCATIONS:1||Colloids:1||TRANSFORMATION:1||METAL INTERCONNECTS:1||ELASTIC CONDUCTORS:1||LOGIC:1||DEFICIENT MICE:1||tomography:1||FACILITY:1||osseointegration:1||ROCKS:1||dental radiography:1||Zn coating:1||RE2O3/Ni:1||YBCO COATED CONDUCTORS:1||threedimensional islands:1||(Ba,Sr)TiO3:1||ultrahigh resolution:1||photoelectron emission:1||Pd:1||LANIO3:1||BASE ELECTRODES:1||iron oxide phase:1||ironoxide interlayer:1||COATED GLASS SUBSTRATE:1||MICROWAVE PLASMA NUCLEATION:1||ENHANCED NUCLEATION:1||phase transformation:1||ADSORPTION:1||phasecontrast xray imaging:1||lung inflammation:1||SI1XGEX SINGLECRYSTALS:1||COCONTINUITY:1||SCALE:1||OBJECT:1||synchrotron microradiography:1||FeSO4:1||INDUCTION:1||BaTiO3 and SrTiO3 thin films:1||HARDXRAYS:1||light emitting diodes:1||ACID:1||MICROSTRUCTURES:1||PHOTOLUMINESCENCE PROPERTIES:1||LASER IRRADIATION:1||Human aging:1||polychromatic synchrotron Xray:1||refraction enhanced imaging:1||CHROMOPHORES:1||ACUTE LUNG INJURY:1||spatial resolution:1||BETAFESI2:1||VLSI:1||SI1XGEX:1||COLLOIDAL SUSPENSIONS:1||ELECTRONICS:1||ENHANCEMENT:1||artificial lattice:1||sinters:1||SILVER:1||STRAIN RELAXATION:1||biaxial texture:1||synchrotron scattering:1||transmission electron microscopy:1||IRONOXIDE FILMS:1||PZT thin film:1||ferroelectric thin film:1||MISFIT RELAXATION MECHANISMS:1||PBTIO3:1||O2:1||CONDUCTING POLYMERS:1||poly(methylmethancrylate):1||microspheres:1||phase contrast Xray microscope:1||AMBIENT AIR:1||ATMOSPHERE:1||XRAY INTERFEROMETER:1||NiAu composite nanoparticles.:1||synchrotron radiation Xrays:1||microtomography:1||OIL FLYASH:1||zinc oxide:1||mammography:1||SrRuO3 film:1||Laser epitaxy:1||HOLE MOBILITY:1||Models of crystal defects:1||RABBIT LUNGS:1||NI/AU CONTACT:1||3D printing:1||Stress relaxation:1||SURFACEAREA:1||IMAGE:1||modulation transfer function (MTF):1||Pb ions:1||Insitu visualization:1||Interfacial tension:1||DISPERSION FORCES:1||SINGLECRYSTALS:1||XRAY SOURCE:1||Synchrotron Xray imaging:1||Realtime imaging:1||MEDICAL APPLICATIONS:1||wiggler bending magnet:1||undulator:1||diffractionenhanced imaging:1||ZnO film:1||CAPACITORS:1||HE3:1||NiP alloy:1||PHOTOCHEMICAL FORMATION:1||extended domain matching:1||cubetextured Ni substrates:1||RAY COMPUTEDTOMOGRAPHY:1||electrode layer:1||DOMAINSTRUCTURE:1||XRAY CT:1||SPECIMEN:1||mammographic phantom:1||Xray absorption spectroscopy:1||BLUE:1||CONTACT:1||(BA:1||synchrotron spectromicroscopy:1||thin film:1||MICROWAVE PLASMA:1||GOLD NANOPARTICLES:1||POLYMERIZATION:1||DISEASE:1||Shanghai:1||MORTALITY:1||HETEROSTRUCTURES:1||METHACRYLATE:1||prostate cancer:1||renal cell carcinoma:1||RATS:1||PULSEDLASER DEPOSITION:1||semiconducting IIVI materials:1||PATTERNS:1||sapphire:1||evaporation:1||ZINCOXIDE:1||LIGHTEMITTING DIODE:1||Synchrotron imaging:1||Dislocations:1||Cracks:1||LIVE:1||spinal cord:1||stainless steel:1||nanophotonics:1||subwavelength waveguides:1||Synchrotrons:1||High dislocation density:1||Misfit stress relaxations:1||Randomly distributed:1||Tripleaxis xray diffractions:1||FLOW:1||CRYSTALLINE ORGANIC NANORODS:1||SHAPE CHANGES:1||ZnO thin film:1||(111)SI:1||XRAY MIRRORS:1||low temperature:1||oxide cathodes:1||heterogeneity:1||Xray microscopy:1||INTERFACIAL TENSIONS:1||single crystal growth:1||CARCINOMA:1||mouse:1||ANIMALS:1||Mndoped ZnO:1||luminescence:1||solution precipitation:1||CLUSTER:1||relaxation:1||ALPHAFE2O3:1||XANES:1||epitaxy:1||LaNiO3 thin film:1||LANIO3 THINFILMS:1||ELECTRODE:1||Fe3O4 sublayer:1||EXAFS microscopy:1||FERRITE FILMS:1||SURFACE PRETREATMENTS:1||superconductors:1||CONTRAST AGENT:1||BIODISTRIBUTION:1||DEATH:1||SYNCHROTRON:1||IR:1||apo Eknockout mouse:1||plaque:1||microradiology:1||ALPHASYNUCLEIN:1||PULMONARY TOXICITY:1||XRAY TOPOGRAPHY:1||dislocation:1||metalorganic chemical vapor deposition:1||CRYSTALGROWTH:1||SELFASSEMBLED MONOLAYERS:1||MEMBRANES:1||MAGNETICANISOTROPY:1||SI1XGEX CRYSTALS:1||STRAINEDSI:1||Extended Weibull model:1||MOLYBDENUM:1||ALLOYS:1||IRON:1||Theoretical modeling:1||Threading dislocation:1||GROWTH:27||THINFILMS:16||SYNCHROTRONRADIATION:15||CONTRAST:11||RADIOLOGY:11||PARTICLES:11||FILMS:11||SILICON:10||RADIATION:10||DEPOSITION:10||RESOLUTION:9||CRYSTALS:8||SILICONCARBIDE:7||XRAYS:7||MAMMOGRAPHY:7||Xray diffraction:7||synchrotron radiation:6||XRAYSCATTERING:6||MODEL:6||microstructure:6||DYNAMICS:5||ELECTRODEPOSITION:5||LAYERS:5||CHEMICALVAPORDEPOSITION:5||TEMPERATURE:5||TOMOGRAPHY:5||COMPUTEDTOMOGRAPHY:5||SAPPHIRE:5||MEDIA:5||NANOWIRES:5||DIFFRACTION:4||TISSUES:4||pulsed laser deposition:4||phase contrast imaging:4||LAYER:4||IMAGES:4||DIODES:4||FIELDEFFECT TRANSISTORS:4||ptype GaN:4||MICROSCOPY:4||REDUCTION:4||POLYMER:4||DEFECTS:3||COHERENCE:3||MICROTOMOGRAPHY:3||NANOPARTICLES:3||synchrotron:3||LIGHT:3||TRANSISTORS:3||SURFACES:3||STRAIN:3||EPITAXIAL LAYERS:3||DRUGDELIVERY:3||REFRACTION:3||growth mechanism:3||METALS:3||MICROPIPES:3||SYSTEM:3||NUCLEATION:3||synchrotron Xray scattering:3||SURFACE:3||SCREW DISLOCATIONS:3||SIMULATION:3||HARD XRAYS:3||ELECTRICALPROPERTIES:3||EPITAXY:3||GAN:3||PM2.5:3||EVAPORATION:3||LIQUIDS:3||INPLANE:3||RAT:3||ANGIOGENESIS:3||CT:3||GaN:3||ZnO:3||NANORODS:3||strain:3||PB(ZR0.53TI0.47)O3:3||CRYSTALLIZATION:3||synchrotron Xrays:2||buffer layer:2||TRANSMISSION ELECTRONMICROSCOPY:2||EPITAXIAL COSI2 FILMS:2||MECHANISMS:2||INSITU GROWTH:2||DEVICE:2||LOCALIZED ELECTROCHEMICAL DEPOSITION:2||X ray diffraction:2||SCHOTTKY CONTACT:2||IRRADIATION:2||aqua regia treatment:2||INVIVO:2||CELLADHESION:2||MORPHOGENETIC PROTEIN2:2||RECEPTOR:2||TEM:2||broadband synchrotron light:2||nanoparticle:2||BUFFER LAYERS:2||TC:2||ENHANCED SYNCHROTRON RADIOLOGY:2||synthesis:2||POLYDIMETHYLSILOXANE:2||MICROCHANNELS:2||PRETREATMENT PROCESS:2||XRAY:2||CHEMOTAXIS:2||MECHANOSENSORY TRANSDUCTION:2||rectangular microtube:2||CONJUGATED POLYMER:2||atomic force microscopy:2||METALLIC OXIDE SRRUO3:2||LASERABLATION:2||STRESS:2||ZONE PLATES:2||FRICTION:2||THERMALSTABILITY:2||Xrays:2||RAY:2||NM:2||ENERGY:2||TOPOGRAPHY:2||synchrotron Xray:2||ACID HYDROGELS:2||CAENORHABDITISELEGANS:2||PROTEIN:2||defects:2||EVOLUTION:2||FABRICATION:2||sharp bending waveguide:2||lasing action:2||BULK CRYSTALS:2||SUPERLATTICES:2||COATED CONDUCTORS:2||SI(111):2||phase contrast:2||CORONARY ANGIOGRAPHY:2||SPECTROMICROSCOPY:2||MEPHISTO:2||OXYGEN:2||OPTICALPROPERTIES:2||RADIOGRAPHY:2||CONTACT DEFORMATIONS:2||MOLECULAR FORCES:2||SOLIDS:2||NTYPE GAN:2||deposition:2||CHEMISTRY:2||DEFORMATION:2||SUBSTRATE:2||HETEROEPITAXY:2||NANOTOPOGRAPHY:2||EPITAXIALGROWTH:2||Xray:2||CHEMICAL VAPORDEPOSITION:2||SILICON STRUCTURES:2||STEMCELLS:2||CHANNEL:2||crystal structure:2||CORONARYANGIOGRAPHY:2||SiC:2||BUFFER LAYER:2||MOLECULARBEAM EPITAXY:2||INTERFACE:2||SIZE:2||ELECTRON:2||XRAY MICROSCOPY:2||MORPHOLOGIES:2||NANOCOLLOIDS:2||FORCE MICROSCOPY:2||ablation:2||polymers:2||(NH4)(2)Sx treatment:2||CLUSTERS:2||BIOMATERIALS:2||CIRCUITS:2||rectangular ring mode:2||GUIDES:2||MICROCAVITY:2||PHOTOLUMINESCENCE:2||epitaxial growth:2||EMBRITTLEMENT:2||Xray imaging:2||BIOCOMPATIBILITY:2||BEHAVIOR:2||MICROWAVEPLASMA:2||LOWPRESSURE:2||DEGRADATION:2||TISSUE:2||LIQUID:2||SOFT LITHOGRAPHY:2||amplified spontaneous emission (ASE):2||SMALL ORGANICMOLECULES:2||PHOTONIC CRYSTAL:2||micropipes:2||radiology:2||ALLOY:2||Xray scattering:2||CRITICALCURRENT DENSITY:2||ELECTRONMICROSCOPY:2||BI(PB)SRCACUO:2||ELECTRONICSTRUCTURE:2||RECONSTRUCTION:2||MG:2||ohmic contact:2||Pd ohmic contact:2||xray scattering:2||INP:2||annealing:2||REGENERATION:2||TITANIUM:2||COLLOIDAL GOLD:2||crystallization:2||BUCKLING MECHANICS:2||LASERS:2||MODES:2||synchrotron imaging:2||lattice distortion:2||AQUEOUSELECTROLYTE:2||MOLECULARDYNAMICS:2||OXIDE:2||MICROANGIOGRAPHY:2||OXIDATION:2||MICRORADIOLOGY:2||TECHNOLOGY:2||GE:2||surface chemistry:2||RECOVERY:2||OHMIC CONTACTS:2||LASERDIODES:2||PTYPE GAN:2||MOTION:2||PHANTOM:2||PHASE:2||CALCIUMPHOSPHATE CERAMICS:2||REPAIR:2||porphyrin:2||AMPLIFIED SPONTANEOUS EMISSION:2||METALELECTRODES:2||PD:2||SUPERCONDUCTING TAPES:2||nucleation:2||COATINGS:2||Xray topography:2||MONOLAYERS:2||SURFACE MODIFICATION:2||LITHOGRAPHY:2||MECHANICAL VENTILATION:1||MICRORIBBONS:1||STIFFNESS:1||DUALPHASE STEEL:1||growth mode:1||strain evolution:1||SI(100):1||ANISOTROPY:1||WET GRANULAR PILE:1||COALESCENCE:1||INSITU POLYMERIZATION:1||GRAPHENE:1||CANCER:1||NODULES:1||RABBITS:1||phasecontrast:1||YTTRIUMOXIDE FILMS:1||BaTiO3/SrTiO3:1||dental implant:1||coincidence site density:1||ERNI2B2C:1||crystallites:1||CoCrPt films:1||tensile strain:1||gallide:1||MGO:1||Baferrite film:1||synchrotron xray scattering:1||ZNO THINFILMS:1||MORPHOLOGY:1||PHASES:1||MICE:1||EBEAM LITHOGRAPHY:1||electrorheological fluids:1||NANOFIBROUS MEMBRANES:1||NANOLITHOGRAPHY:1||refractive index radiology:1||BLOOD:1||colloidal:1||SIZE CONTROL:1||nanoradiology:1||ZnSO4:1||lung injury:1||METAL:1||PM10:1||textured grain:1||MICROSTRUCTURE:1||DIMENSIONS:1||highresolution Xray diffraction:1||low temperature buffer:1||Zinc compounds:1||SI:1||HUMAN LONGEVITY:1||Maximum human lifespan:1||LIMITS:1||MOSFETS:1||in situ XANES:1||nanowires:1||PHOTOIRRADIATION:1||FIBERS:1||WORK:1||EMISSION:1||RADIATION MICROTOMOGRAPHY:1||RAMANSCATTERING:1||gold nanoparticles:1||synchrotron Xray diffraction:1||OPTICAL WAVEGUIDES:1||CONDUCTINGPOLYMER NANOWIRE:1||Lung cancer:1||INTRAVENOUS CORONARYARTERIOGRAPHY:1||SUBLIMATION GROWTH:1||radiography:1||porous SiC:1||GIANT MAGNETORESISTANCE:1||SEMICONDUCTORS:1||Ga diffusion:1||electroless deposition:1||HEMATITE:1||FREEELECTRON LASER:1||MOCVD:1||interfaces:1||white beam:1||imaging technique:1||nucleation layer:1||interface structure:1||epitaxial Baferrite film:1||rf magnetron sputtering:1||MAGNETIC CHARACTERISTICS:1||MIXTURE:1||ACCESS MEMORY APPLICATION:1||COHERENCY STRAIN:1||DENSITY:1||nanofabrication:1||POLY(METHYL METHACRYLATE) MICROSPHERE:1||RESIST:1||unmonochromatic beam:1||MICRORADIOGRAPHY:1||INTERFEROMETER:1||EXPOSURE:1||volume variation electronic:1||PULSEDLASER ABLATION:1||Semiconducting IIVI materials:1||Light emitting diodes:1||phase contrast microscopies:1||lung:1||AUGERELECTRON SPECTROSCOPY:1||passivation:1||additive manufacturing:1||Silicon carbide:1||Synchrotron radiation:1||Synchrotron radiation imaging:1||Dislocations (crystals):1||LUNG INJURY:1||POLYMER SURFACES:1||SINGLE CELLS:1||PREFERRED ORIENTATION:1||sapphire orientation:1||TANTALUM:1||BIASENHANCED NUCLEATION:1||hexaferrite:1||stretched exponential:1||SOLIDSURFACE:1||SHEAR:1||VIDEO MICROSCOPY:1||CARBON NANOTUBES:1||realtime observation:1||Xray synchrotron:1||CARBONMONOXIDE:1||ELECTROCHEMICAL FABRICATION:1||crystal growth:1||computer simulation:1||FERROELECTRICFILMS:1||TITANIUM IMPLANTS:1||BONE INTERFACE:1||EXAFS perpendicular magnetic recording:1||Pd/Ni:1||ELECTRODES:1||internal organ:1||LIGHTEMITTINGDIODES:1||interfacial structure:1||CONSTANT:1||DIELECTRICPROPERTIES:1||AR:1||DEVICES:1||BiSrCaCuO:1||LASER ABLATION:1||MECHANISM:1||SELECTIVE DEPOSITION:1||TARGETED DRUGDELIVERY:1||PEG:1||carbon nanotubes:1||nanocharacterization:1||WALLED CARBON NANOTUBE:1||basal cell carcinoma:1||PARTICULATE AIRPOLLUTION:1||FINE:1||CITIES:1||DOPED ZNO FILMS:1||atherosclerosis:1||drug delivery:1||hard Xray:1||COMBUSTION:1||ARTIFICIAL BATIO3/SRTIO3 SUPERLATTICES:1||surface morphology:1||Direct wafer bonding:1||COLLOIDAL GOLD PARTICLES:1||DELINEATION:1||EXPECTANCY:1||DEMOGRAPHY:1||MRI:1||SIGE:1||Phase contrast microradiography:1||INJURY:1||PASSIVITY:1||VOLUME:1||CONTACTANGLE:1||ARRAYS:1||DUCTILITY:1||sputtering:1||computed microtomography (mu CT):1||unmonochromatized Xray:1||BIPOLARTRANSISTORS:1||longevity:1||Confocal microscopy:1||Colloidal wettability:1||ATOMICFORCE MICROSCOPY:1||storage ring:1||digital subtraction:1||SCATTERING:1||size effect:1||SYNTHETIC QUARTZ:1||liquid metal embrittlement:1||iron ore:1||cube textured Ni substrates:1||SrRuO3 films:1||laser ablations:1||Ti underlayer:1||RANDOMACCESS MEMORIES:1||DOMAIN CONFIGURATIONS:1||MGO(100):1||SPECTROSCOPY:1||XE:1||IONBEAM:1||GRAINBOUNDARY MIGRATION:1||SRTIO3:1||COMPOSITES:1||FOAMS:1||BREASTCANCER SPECIMENS:1||unmonochromatized:1||Xray induced nucleation:1||gold:1||ABSORPTION:1||SEPARATION:1||CZOCHRALSKI GROWTH:1||RETRIEVAL:1||GAMMARADIATION:1||AQUEOUSSOLUTION:1||NANOCOMPOSITES:1||INCREASE:1||without staining procedure:1||XPS:1||Imaging techniques:1||Interfaces (materials):1||Dislocation distributions:1||AZOBENZENE:1||STRUCTURAL EVOLUTION:1||RELAXATION:1||DROP IMPACT:1||NONLINEAR DYNAMICS:1||DISLOCATIONS:1||Colloids:1||TRANSFORMATION:1||METAL INTERCONNECTS:1||ELASTIC CONDUCTORS:1||LOGIC:1||DEFICIENT MICE:1||tomography:1||FACILITY:1||osseointegration:1||ROCKS:1||dental radiography:1||Zn coating:1||RE2O3/Ni:1||YBCO COATED CONDUCTORS:1||threedimensional islands:1||(Ba,Sr)TiO3:1||ultrahigh resolution:1||photoelectron emission:1||Pd:1||LANIO3:1||BASE ELECTRODES:1||iron oxide phase:1||ironoxide interlayer:1||COATED GLASS SUBSTRATE:1||MICROWAVE PLASMA NUCLEATION:1||ENHANCED NUCLEATION:1||phase transformation:1||ADSORPTION:1||phasecontrast xray imaging:1||lung inflammation:1||SI1XGEX SINGLECRYSTALS:1||COCONTINUITY:1||SCALE:1||OBJECT:1||synchrotron microradiography:1||FeSO4:1||INDUCTION:1||BaTiO3 and SrTiO3 thin films:1||HARDXRAYS:1||light emitting diodes:1||ACID:1||MICROSTRUCTURES:1||PHOTOLUMINESCENCE PROPERTIES:1||LASER IRRADIATION:1||Human aging:1||polychromatic synchrotron Xray:1||refraction enhanced imaging:1||CHROMOPHORES:1||ACUTE LUNG INJURY:1||spatial resolution:1||BETAFESI2:1||VLSI:1||SI1XGEX:1||COLLOIDAL SUSPENSIONS:1||ELECTRONICS:1||ENHANCEMENT:1||artificial lattice:1||sinters:1||SILVER:1||STRAIN RELAXATION:1||biaxial texture:1||synchrotron scattering:1||transmission electron microscopy:1||IRONOXIDE FILMS:1||PZT thin film:1||ferroelectric thin film:1||MISFIT RELAXATION MECHANISMS:1||PBTIO3:1||O2:1||CONDUCTING POLYMERS:1||poly(methylmethancrylate):1||microspheres:1||phase contrast Xray microscope:1||AMBIENT AIR:1||ATMOSPHERE:1||XRAY INTERFEROMETER:1||NiAu composite nanoparticles.:1||synchrotron radiation Xrays:1||microtomography:1||OIL FLYASH:1||zinc oxide:1||mammography:1||SrRuO3 film:1||Laser epitaxy:1||HOLE MOBILITY:1||Models of crystal defects:1||RABBIT LUNGS:1||NI/AU CONTACT:1||3D printing:1||Stress relaxation:1||SURFACEAREA:1||IMAGE:1||modulation transfer function (MTF):1||Pb ions:1||Insitu visualization:1||Interfacial tension:1||DISPERSION FORCES:1||SINGLECRYSTALS:1||XRAY SOURCE:1||Synchrotron Xray imaging:1||Realtime imaging:1||MEDICAL APPLICATIONS:1||wiggler bending magnet:1||undulator:1||diffractionenhanced imaging:1||ZnO film:1||CAPACITORS:1||HE3:1||NiP alloy:1||PHOTOCHEMICAL FORMATION:1||extended domain matching:1||cubetextured Ni substrates:1||RAY COMPUTEDTOMOGRAPHY:1||electrode layer:1||DOMAINSTRUCTURE:1||XRAY CT:1||SPECIMEN:1||mammographic phantom:1||Xray absorption spectroscopy:1||BLUE:1||CONTACT:1||(BA:1||synchrotron spectromicroscopy:1||thin film:1||MICROWAVE PLASMA:1||GOLD NANOPARTICLES:1||POLYMERIZATION:1||DISEASE:1||Shanghai:1||MORTALITY:1||HETEROSTRUCTURES:1||METHACRYLATE:1||prostate cancer:1||renal cell carcinoma:1||RATS:1||PULSEDLASER DEPOSITION:1||semiconducting IIVI materials:1||PATTERNS:1||sapphire:1||evaporation:1||ZINCOXIDE:1||LIGHTEMITTING DIODE:1||Synchrotron imaging:1||Dislocations:1||Cracks:1||LIVE:1||spinal cord:1||stainless steel:1||nanophotonics:1||subwavelength waveguides:1||Synchrotrons:1||High dislocation density:1||Misfit stress relaxations:1||Randomly distributed:1||Tripleaxis xray diffractions:1||FLOW:1||CRYSTALLINE ORGANIC NANORODS:1||SHAPE CHANGES:1||ZnO thin film:1||(111)SI:1||XRAY MIRRORS:1||low temperature:1||oxide cathodes:1||heterogeneity:1||Xray microscopy:1||INTERFACIAL TENSIONS:1||single crystal growth:1||CARCINOMA:1||mouse:1||ANIMALS:1||Mndoped ZnO:1||luminescence:1||solution precipitation:1||CLUSTER:1||relaxation:1||ALPHAFE2O3:1||XANES:1||epitaxy:1||LaNiO3 thin film:1||LANIO3 THINFILMS:1||ELECTRODE:1||Fe3O4 sublayer:1||EXAFS microscopy:1||FERRITE FILMS:1||SURFACE PRETREATMENTS:1||superconductors:1||CONTRAST AGENT:1||BIODISTRIBUTION:1||DEATH:1||SYNCHROTRON:1||IR:1||apo Eknockout mouse:1||plaque:1||microradiology:1||ALPHASYNUCLEIN:1||PULMONARY TOXICITY:1||XRAY TOPOGRAPHY:1||dislocation:1||metalorganic chemical vapor deposition:1||CRYSTALGROWTH:1||SELFASSEMBLED MONOLAYERS:1||MEMBRANES:1||MAGNETICANISOTROPY:1||SI1XGEX CRYSTALS:1||STRAINEDSI:1||Extended Weibull model:1||MOLYBDENUM:1||ALLOYS:1||IRON:1||Theoretical modeling:1||Threading dislocation:1||GROWTH:27||THINFILMS:16||SYNCHROTRONRADIATION:15||CONTRAST:11||RADIOLOGY:11||PARTICLES:11||FILMS:11||SILICON:10||RADIATION:10||DEPOSITION:10||RESOLUTION:9||CRYSTALS:8||SILICONCARBIDE:7||XRAYS:7||MAMMOGRAPHY:7||Xray diffraction:7||synchrotron radiation:6||XRAYSCATTERING:6||MODEL:6||microstructure:6||DYNAMICS:5||ELECTRODEPOSITION:5||LAYERS:5||CHEMICALVAPORDEPOSITION:5||TEMPERATURE:5||TOMOGRAPHY:5||COMPUTEDTOMOGRAPHY:5||SAPPHIRE:5||MEDIA:5||NANOWIRES:5||DIFFRACTION:4||TISSUES:4||pulsed laser deposition:4||phase contrast imaging:4||LAYER:4||IMAGES:4||DIODES:4||FIELDEFFECT TRANSISTORS:4||ptype GaN:4||MICROSCOPY:4||REDUCTION:4||POLYMER:4||DEFECTS:3||COHERENCE:3||MICROTOMOGRAPHY:3||NANOPARTICLES:3||synchrotron:3||LIGHT:3||TRANSISTORS:3||SURFACES:3||STRAIN:3||EPITAXIAL LAYERS:3||DRUGDELIVERY:3||REFRACTION:3||growth mechanism:3||METALS:3||MICROPIPES:3||SYSTEM:3||NUCLEATION:3||synchrotron Xray scattering:3||SURFACE:3||SCREW DISLOCATIONS:3||SIMULATION:3||HARD XRAYS:3||ELECTRICALPROPERTIES:3||EPITAXY:3||GAN:3||PM2.5:3||EVAPORATION:3||LIQUIDS:3||INPLANE:3||RAT:3||ANGIOGENESIS:3||CT:3||GaN:3||ZnO:3||NANORODS:3||strain:3||PB(ZR0.53TI0.47)O3:3||CRYSTALLIZATION:3||synchrotron Xrays:2||buffer layer:2||TRANSMISSION ELECTRONMICROSCOPY:2||EPITAXIAL COSI2 FILMS:2||MECHANISMS:2||INSITU GROWTH:2||DEVICE:2||LOCALIZED ELECTROCHEMICAL DEPOSITION:2||X ray diffraction:2||SCHOTTKY CONTACT:2||IRRADIATION:2||aqua regia treatment:2||INVIVO:2||CELLADHESION:2||MORPHOGENETIC PROTEIN2:2||RECEPTOR:2||TEM:2||broadband synchrotron light:2||nanoparticle:2||BUFFER LAYERS:2||TC:2||ENHANCED SYNCHROTRON RADIOLOGY:2||synthesis:2||POLYDIMETHYLSILOXANE:2||MICROCHANNELS:2||PRETREATMENT PROCESS:2||XRAY:2||CHEMOTAXIS:2||MECHANOSENSORY TRANSDUCTION:2||rectangular microtube:2||CONJUGATED POLYMER:2||atomic force microscopy:2||METALLIC OXIDE SRRUO3:2||LASERABLATION:2||STRESS:2||ZONE PLATES:2||FRICTION:2||THERMALSTABILITY:2||Xrays:2||RAY:2||NM:2||ENERGY:2||TOPOGRAPHY:2||synchrotron Xray:2||ACID HYDROGELS:2||CAENORHABDITISELEGANS:2||PROTEIN:2||defects:2||EVOLUTION:2||FABRICATION:2||sharp bending waveguide:2||lasing action:2||BULK CRYSTALS:2||SUPERLATTICES:2||COATED CONDUCTORS:2||SI(111):2||phase contrast:2||CORONARY ANGIOGRAPHY:2||SPECTROMICROSCOPY:2||MEPHISTO:2||OXYGEN:2||OPTICALPROPERTIES:2||RADIOGRAPHY:2||CONTACT DEFORMATIONS:2||MOLECULAR FORCES:2||SOLIDS:2||NTYPE GAN:2||deposition:2||CHEMISTRY:2||DEFORMATION:2||SUBSTRATE:2||HETEROEPITAXY:2||NANOTOPOGRAPHY:2||EPITAXIALGROWTH:2||Xray:2||CHEMICAL VAPORDEPOSITION:2||SILICON STRUCTURES:2||STEMCELLS:2||CHANNEL:2||crystal structure:2||CORONARYANGIOGRAPHY:2||SiC:2||BUFFER LAYER:2||MOLECULARBEAM EPITAXY:2||INTERFACE:2||SIZE:2||ELECTRON:2||XRAY MICROSCOPY:2||MORPHOLOGIES:2||NANOCOLLOIDS:2||FORCE MICROSCOPY:2||ablation:2||polymers:2||(NH4)(2)Sx treatment:2||CLUSTERS:2||BIOMATERIALS:2||CIRCUITS:2||rectangular ring mode:2||GUIDES:2||MICROCAVITY:2||PHOTOLUMINESCENCE:2||epitaxial growth:2||EMBRITTLEMENT:2||Xray imaging:2||BIOCOMPATIBILITY:2||BEHAVIOR:2||MICROWAVEPLASMA:2||LOWPRESSURE:2||DEGRADATION:2||TISSUE:2||LIQUID:2||SOFT LITHOGRAPHY:2||amplified spontaneous emission (ASE):2||SMALL ORGANICMOLECULES:2||PHOTONIC CRYSTAL:2||micropipes:2||radiology:2||ALLOY:2||Xray scattering:2||CRITICALCURRENT DENSITY:2||ELECTRONMICROSCOPY:2||BI(PB)SRCACUO:2||ELECTRONICSTRUCTURE:2||RECONSTRUCTION:2||MG:2||ohmic contact:2||Pd ohmic contact:2||xray scattering:2||INP:2||annealing:2||REGENERATION:2||TITANIUM:2||COLLOIDAL GOLD:2||crystallization:2||BUCKLING MECHANICS:2||LASERS:2||MODES:2||synchrotron imaging:2||lattice distortion:2||AQUEOUSELECTROLYTE:2||MOLECULARDYNAMICS:2||OXIDE:2||MICROANGIOGRAPHY:2||OXIDATION:2||MICRORADIOLOGY:2||TECHNOLOGY:2||GE:2||surface chemistry:2||RECOVERY:2||OHMIC CONTACTS:2||LASERDIODES:2||PTYPE GAN:2||MOTION:2||PHANTOM:2||PHASE:2||CALCIUMPHOSPHATE CERAMICS:2||REPAIR:2||porphyrin:2||AMPLIFIED SPONTANEOUS EMISSION:2||METALELECTRODES:2||PD:2||SUPERCONDUCTING TAPES:2||nucleation:2||COATINGS:2||Xray topography:2||MONOLAYERS:2||SURFACE MODIFICATION:2||LITHOGRAPHY:2||MECHANICAL VENTILATION:1||MICRORIBBONS:1||STIFFNESS:1||DUALPHASE STEEL:1||growth mode:1||strain evolution:1||SI(100):1||ANISOTROPY:1||WET GRANULAR PILE:1||COALESCENCE:1||INSITU POLYMERIZATION:1||GRAPHENE:1||CANCER:1||NODULES:1||RABBITS:1||phasecontrast:1||YTTRIUMOXIDE FILMS:1||BaTiO3/SrTiO3:1||dental implant:1||coincidence site density:1||ERNI2B2C:1||crystallites:1||CoCrPt films:1||tensile strain:1||gallide:1||MGO:1||Baferrite film:1||synchrotron xray scattering:1||ZNO THINFILMS:1||MORPHOLOGY:1||PHASES:1||MICE:1||EBEAM LITHOGRAPHY:1||electrorheological fluids:1||NANOFIBROUS MEMBRANES:1||NANOLITHOGRAPHY:1||refractive index radiology:1||BLOOD:1||colloidal:1||SIZE CONTROL:1||nanoradiology:1||ZnSO4:1||lung injury:1||METAL:1||PM10:1||textured grain:1||MICROSTRUCTURE:1||DIMENSIONS:1||highresolution Xray diffraction:1||low temperature buffer:1||Zinc compounds:1||SI:1||HUMAN LONGEVITY:1||Maximum human lifespan:1||LIMITS:1||MOSFETS:1||in situ XANES:1||nanowires:1||PHOTOIRRADIATION:1||FIBERS:1||WORK:1||EMISSION:1||RADIATION MICROTOMOGRAPHY:1||RAMANSCATTERING:1||gold nanoparticles:1||synchrotron Xray diffraction:1||OPTICAL WAVEGUIDES:1||CONDUCTINGPOLYMER NANOWIRE:1||Lung cancer:1||INTRAVENOUS CORONARYARTERIOGRAPHY:1||SUBLIMATION GROWTH:1||radiography:1||porous SiC:1||GIANT MAGNETORESISTANCE:1||SEMICONDUCTORS:1||Ga diffusion:1||electroless deposition:1||HEMATITE:1||FREEELECTRON LASER:1||MOCVD:1||interfaces:1||white beam:1||imaging technique:1||nucleation layer:1||interface structure:1||epitaxial Baferrite film:1||rf magnetron sputtering:1||MAGNETIC CHARACTERISTICS:1||MIXTURE:1||ACCESS MEMORY APPLICATION:1||COHERENCY STRAIN:1||DENSITY:1||nanofabrication:1||POLY(METHYL METHACRYLATE) MICROSPHERE:1||RESIST:1||unmonochromatic beam:1||MICRORADIOGRAPHY:1||INTERFEROMETER:1||EXPOSURE:1||volume variation electronic:1||PULSEDLASER ABLATION:1||Semiconducting IIVI materials:1||Light emitting diodes:1||phase contrast microscopies:1||lung:1||AUGERELECTRON SPECTROSCOPY:1||passivation:1||additive manufacturing:1||Silicon carbide:1||Synchrotron radiation:1||Synchrotron radiation imaging:1||Dislocations (crystals):1||LUNG INJURY:1||POLYMER SURFACES:1||SINGLE CELLS:1||PREFERRED ORIENTATION:1||sapphire orientation:1||TANTALUM:1||BIASENHANCED NUCLEATION:1||hexaferrite:1||stretched exponential:1||SOLIDSURFACE:1||SHEAR:1||VIDEO MICROSCOPY:1||CARBON NANOTUBES:1||realtime observation:1||Xray synchrotron:1||CARBONMONOXIDE:1||ELECTROCHEMICAL FABRICATION:1||crystal growth:1||computer simulation:1||FERROELECTRICFILMS:1||TITANIUM IMPLANTS:1||BONE INTERFACE:1||EXAFS perpendicular magnetic recording:1||Pd/Ni:1||ELECTRODES:1||internal organ:1||LIGHTEMITTINGDIODES:1||interfacial structure:1||CONSTANT:1||DIELECTRICPROPERTIES:1||AR:1||DEVICES:1||BiSrCaCuO:1||LASER ABLATION:1||MECHANISM:1||SELECTIVE DEPOSITION:1||TARGETED DRUGDELIVERY:1||PEG:1||carbon nanotubes:1||nanocharacterization:1||WALLED CARBON NANOTUBE:1||basal cell carcinoma:1||PARTICULATE AIRPOLLUTION:1||FINE:1||CITIES:1||DOPED ZNO FILMS:1||atherosclerosis:1||drug delivery:1||hard Xray:1||COMBUSTION:1||ARTIFICIAL BATIO3/SRTIO3 SUPERLATTICES:1||surface morphology:1||Direct wafer bonding:1||COLLOIDAL GOLD PARTICLES:1||DELINEATION:1||EXPECTANCY:1||DEMOGRAPHY:1||MRI:1||SIGE:1||Phase contrast microradiography:1||INJURY:1||PASSIVITY:1||VOLUME:1||CONTACTANGLE:1||ARRAYS:1||DUCTILITY:1||sputtering:1||computed microtomography (mu CT):1||unmonochromatized Xray:1||BIPOLARTRANSISTORS:1||longevity:1||Confocal microscopy:1||Colloidal wettability:1||ATOMICFORCE MICROSCOPY:1||storage ring:1||digital subtraction:1||SCATTERING:1||size effect:1||SYNTHETIC QUARTZ:1||liquid metal embrittlement:1||iron ore:1||cube textured Ni substrates:1||SrRuO3 films:1||laser ablations:1||Ti underlayer:1||RANDOMACCESS MEMORIES:1||DOMAIN CONFIGURATIONS:1||MGO(100):1||SPECTROSCOPY:1||XE:1||IONBEAM:1||GRAINBOUNDARY MIGRATION:1||SRTIO3:1||COMPOSITES:1||FOAMS:1||BREASTCANCER SPECIMENS:1||unmonochromatized:1||Xray induced nucleation:1||gold:1||ABSORPTION:1||SEPARATION:1||CZOCHRALSKI GROWTH:1||RETRIEVAL:1||GAMMARADIATION:1||AQUEOUSSOLUTION:1||NANOCOMPOSITES:1||INCREASE:1||without staining procedure:1||XPS:1||Imaging techniques:1||Interfaces (materials):1||Dislocation distributions:1||AZOBENZENE:1||STRUCTURAL EVOLUTION:1||RELAXATION:1||DROP IMPACT:1||NONLINEAR DYNAMICS:1||DISLOCATIONS:1||Colloids:1||TRANSFORMATION:1||METAL INTERCONNECTS:1||ELASTIC CONDUCTORS:1||LOGIC:1||DEFICIENT MICE:1||tomography:1||FACILITY:1||osseointegration:1||ROCKS:1||dental radiography:1||Zn coating:1||RE2O3/Ni:1||YBCO COATED CONDUCTORS:1||threedimensional islands:1||(Ba,Sr)TiO3:1||ultrahigh resolution:1||photoelectron emission:1||Pd:1||LANIO3:1||BASE ELECTRODES:1||iron oxide phase:1||ironoxide interlayer:1||COATED GLASS SUBSTRATE:1||MICROWAVE PLASMA NUCLEATION:1||ENHANCED NUCLEATION:1||phase transformation:1||ADSORPTION:1||phasecontrast xray imaging:1||lung inflammation:1||SI1XGEX SINGLECRYSTALS:1||COCONTINUITY:1||SCALE:1||OBJECT:1||synchrotron microradiography:1||FeSO4:1||INDUCTION:1||BaTiO3 and SrTiO3 thin films:1||HARDXRAYS:1||light emitting diodes:1||ACID:1||MICROSTRUCTURES:1||PHOTOLUMINESCENCE PROPERTIES:1||LASER IRRADIATION:1||Human aging:1||polychromatic synchrotron Xray:1||refraction enhanced imaging:1||CHROMOPHORES:1||ACUTE LUNG INJURY:1||spatial resolution:1||BETAFESI2:1||VLSI:1||SI1XGEX:1||COLLOIDAL SUSPENSIONS:1||ELECTRONICS:1||ENHANCEMENT:1||artificial lattice:1||sinters:1||SILVER:1||STRAIN RELAXATION:1||biaxial texture:1||synchrotron scattering:1||transmission electron microscopy:1||IRONOXIDE FILMS:1||PZT thin film:1||ferroelectric thin film:1||MISFIT RELAXATION MECHANISMS:1||PBTIO3:1||O2:1||CONDUCTING POLYMERS:1||poly(methylmethancrylate):1||microspheres:1||phase contrast Xray microscope:1||AMBIENT AIR:1||ATMOSPHERE:1||XRAY INTERFEROMETER:1||NiAu composite nanoparticles.:1||synchrotron radiation Xrays:1||microtomography:1||OIL FLYASH:1||zinc oxide:1||mammography:1||SrRuO3 film:1||Laser epitaxy:1||HOLE MOBILITY:1||Models of crystal defects:1||RABBIT LUNGS:1||NI/AU CONTACT:1||3D printing:1||Stress relaxation:1||SURFACEAREA:1||IMAGE:1||modulation transfer function (MTF):1||Pb ions:1||Insitu visualization:1||Interfacial tension:1||DISPERSION FORCES:1||SINGLECRYSTALS:1||XRAY SOURCE:1||Synchrotron Xray imaging:1||Realtime imaging:1||MEDICAL APPLICATIONS:1||wiggler bending magnet:1||undulator:1||diffractionenhanced imaging:1||ZnO film:1||CAPACITORS:1||HE3:1||NiP alloy:1||PHOTOCHEMICAL FORMATION:1||extended domain matching:1||cubetextured Ni substrates:1||RAY COMPUTEDTOMOGRAPHY:1||electrode layer:1||DOMAINSTRUCTURE:1||XRAY CT:1||SPECIMEN:1||mammographic phantom:1||Xray absorption spectroscopy:1||BLUE:1||CONTACT:1||(BA:1||synchrotron spectromicroscopy:1||thin film:1||MICROWAVE PLASMA:1||GOLD NANOPARTICLES:1||POLYMERIZATION:1||DISEASE:1||Shanghai:1||MORTALITY:1||HETEROSTRUCTURES:1||METHACRYLATE:1||prostate cancer:1||renal cell carcinoma:1||RATS:1||PULSEDLASER DEPOSITION:1||semiconducting IIVI materials:1||PATTERNS:1||sapphire:1||evaporation:1||ZINCOXIDE:1||LIGHTEMITTING DIODE:1||Synchrotron imaging:1||Dislocations:1||Cracks:1||LIVE:1||spinal cord:1||stainless steel:1||nanophotonics:1||subwavelength waveguides:1||Synchrotrons:1||High dislocation density:1||Misfit stress relaxations:1||Randomly distributed:1||Tripleaxis xray diffractions:1||FLOW:1||CRYSTALLINE ORGANIC NANORODS:1||SHAPE CHANGES:1||ZnO thin film:1||(111)SI:1||XRAY MIRRORS:1||low temperature:1||oxide cathodes:1||heterogeneity:1||Xray microscopy:1||INTERFACIAL TENSIONS:1||single crystal growth:1||CARCINOMA:1||mouse:1||ANIMALS:1||Mndoped ZnO:1||luminescence:1||solution precipitation:1||CLUSTER:1||relaxation:1||ALPHAFE2O3:1||XANES:1||epitaxy:1||LaNiO3 thin film:1||LANIO3 THINFILMS:1||ELECTRODE:1||Fe3O4 sublayer:1||EXAFS microscopy:1||FERRITE FILMS:1||SURFACE PRETREATMENTS:1||superconductors:1||CONTRAST AGENT:1||BIODISTRIBUTION:1||DEATH:1||SYNCHROTRON:1||IR:1||apo Eknockout mouse:1||plaque:1||microradiology:1||ALPHASYNUCLEIN:1||PULMONARY TOXICITY:1||XRAY TOPOGRAPHY:1||dislocation:1||metalorganic chemical vapor deposition:1||CRYSTALGROWTH:1||SELFASSEMBLED MONOLAYERS:1||MEMBRANES:1||MAGNETICANISOTROPY:1||SI1XGEX CRYSTALS:1||STRAINEDSI:1||Extended Weibull model:1||MOLYBDENUM:1||ALLOYS:1||IRON:1||Theoretical modeling:1||Threading dislocation:1||GROWTH:27||THINFILMS:16||SYNCHROTRONRADIATION:15||CONTRAST:11||RADIOLOGY:11||PARTICLES:11||FILMS:11||SILICON:10||RADIATION:10||DEPOSITION:10||RESOLUTION:9||CRYSTALS:8||SILICONCARBIDE:7||XRAYS:7||MAMMOGRAPHY:7||Xray diffraction:7||synchrotron radiation:6||XRAYSCATTERING:6||MODEL:6||microstructure:6||DYNAMICS:5||ELECTRODEPOSITION:5||LAYERS:5||CHEMICALVAPORDEPOSITION:5||TEMPERATURE:5||TOMOGRAPHY:5||COMPUTEDTOMOGRAPHY:5||SAPPHIRE:5||MEDIA:5||NANOWIRES:5||DIFFRACTION:4||TISSUES:4||pulsed laser deposition:4||phase contrast imaging:4||LAYER:4||IMAGES:4||DIODES:4||FIELDEFFECT TRANSISTORS:4||ptype GaN:4||MICROSCOPY:4||REDUCTION:4||POLYMER:4||DEFECTS:3||COHERENCE:3||MICROTOMOGRAPHY:3||NANOPARTICLES:3||synchrotron:3||LIGHT:3||TRANSISTORS:3||SURFACES:3||STRAIN:3||EPITAXIAL LAYERS:3||DRUGDELIVERY:3||REFRACTION:3||growth mechanism:3||METALS:3||MICROPIPES:3||SYSTEM:3||NUCLEATION:3||synchrotron Xray scattering:3||SURFACE:3||SCREW DISLOCATIONS:3||SIMULATION:3||HARD XRAYS:3||ELECTRICALPROPERTIES:3||EPITAXY:3||GAN:3||PM2.5:3||EVAPORATION:3||LIQUIDS:3||INPLANE:3||RAT:3||ANGIOGENESIS:3||CT:3||GaN:3||ZnO:3||NANORODS:3||strain:3||PB(ZR0.53TI0.47)O3:3||CRYSTALLIZATION:3||synchrotron Xrays:2||buffer layer:2||TRANSMISSION ELECTRONMICROSCOPY:2||EPITAXIAL COSI2 FILMS:2||MECHANISMS:2||INSITU GROWTH:2||DEVICE:2||LOCALIZED ELECTROCHEMICAL DEPOSITION:2||X ray diffraction:2||SCHOTTKY CONTACT:2||IRRADIATION:2||aqua regia treatment:2||INVIVO:2||CELLADHESION:2||MORPHOGENETIC PROTEIN2:2||RECEPTOR:2||TEM:2||broadband synchrotron light:2||nanoparticle:2||BUFFER LAYERS:2||TC:2||ENHANCED SYNCHROTRON RADIOLOGY:2||synthesis:2||POLYDIMETHYLSILOXANE:2||MICROCHANNELS:2||PRETREATMENT PROCESS:2||XRAY:2||CHEMOTAXIS:2||MECHANOSENSORY TRANSDUCTION:2||rectangular microtube:2||CONJUGATED POLYMER:2||atomic force microscopy:2||METALLIC OXIDE SRRUO3:2||LASERABLATION:2||STRESS:2||ZONE PLATES:2||FRICTION:2||THERMALSTABILITY:2||Xrays:2||RAY:2||NM:2||ENERGY:2||TOPOGRAPHY:2||synchrotron Xray:2||ACID HYDROGELS:2||CAENORHABDITISELEGANS:2||PROTEIN:2||defects:2||EVOLUTION:2||FABRICATION:2||sharp bending waveguide:2||lasing action:2||BULK CRYSTALS:2||SUPERLATTICES:2||COATED CONDUCTORS:2||SI(111):2||phase contrast:2||CORONARY ANGIOGRAPHY:2||SPECTROMICROSCOPY:2||MEPHISTO:2||OXYGEN:2||OPTICALPROPERTIES:2||RADIOGRAPHY:2||CONTACT DEFORMATIONS:2||MOLECULAR FORCES:2||SOLIDS:2||NTYPE GAN:2||deposition:2||CHEMISTRY:2||DEFORMATION:2||SUBSTRATE:2||HETEROEPITAXY:2||NANOTOPOGRAPHY:2||EPITAXIALGROWTH:2||Xray:2||CHEMICAL VAPORDEPOSITION:2||SILICON STRUCTURES:2||STEMCELLS:2||CHANNEL:2||crystal structure:2||CORONARYANGIOGRAPHY:2||SiC:2||BUFFER LAYER:2||MOLECULARBEAM EPITAXY:2||INTERFACE:2||SIZE:2||ELECTRON:2||XRAY MICROSCOPY:2||MORPHOLOGIES:2||NANOCOLLOIDS:2||FORCE MICROSCOPY:2||ablation:2||polymers:2||(NH4)(2)Sx treatment:2||CLUSTERS:2||BIOMATERIALS:2||CIRCUITS:2||rectangular ring mode:2||GUIDES:2||MICROCAVITY:2||PHOTOLUMINESCENCE:2||epitaxial growth:2||EMBRITTLEMENT:2||Xray imaging:2||BIOCOMPATIBILITY:2||BEHAVIOR:2||MICROWAVEPLASMA:2||LOWPRESSURE:2||DEGRADATION:2||TISSUE:2||LIQUID:2||SOFT LITHOGRAPHY:2||amplified spontaneous emission (ASE):2||SMALL ORGANICMOLECULES:2||PHOTONIC CRYSTAL:2||micropipes:2||radiology:2||ALLOY:2||Xray scattering:2||CRITICALCURRENT DENSITY:2||ELECTRONMICROSCOPY:2||BI(PB)SRCACUO:2||ELECTRONICSTRUCTURE:2||RECONSTRUCTION:2||MG:2||ohmic contact:2||Pd ohmic contact:2||xray scattering:2||INP:2||annealing:2||REGENERATION:2||TITANIUM:2||COLLOIDAL GOLD:2||crystallization:2||BUCKLING MECHANICS:2||LASERS:2||MODES:2||synchrotron imaging:2||lattice distortion:2||AQUEOUSELECTROLYTE:2||MOLECULARDYNAMICS:2||OXIDE:2||MICROANGIOGRAPHY:2||OXIDATION:2||MICRORADIOLOGY:2||TECHNOLOGY:2||GE:2||surface chemistry:2||RECOVERY:2||OHMIC CONTACTS:2||LASERDIODES:2||PTYPE GAN:2||MOTION:2||PHANTOM:2||PHASE:2||CALCIUMPHOSPHATE CERAMICS:2||REPAIR:2||porphyrin:2||AMPLIFIED SPONTANEOUS EMISSION:2||METALELECTRODES:2||PD:2||SUPERCONDUCTING TAPES:2||nucleation:2||COATINGS:2||Xray topography:2||MONOLAYERS:2||SURFACE MODIFICATION:2||LITHOGRAPHY:2||MECHANICAL VENTILATION:1||MICRORIBBONS:1||STIFFNESS:1||DUALPHASE STEEL:1||growth mode:1||strain evolution:1||SI(100):1||ANISOTROPY:1||WET GRANULAR PILE:1||COALESCENCE:1||INSITU POLYMERIZATION:1||GRAPHENE:1||CANCER:1||NODULES:1||RABBITS:1||phasecontrast:1||YTTRIUMOXIDE FILMS:1||BaTiO3/SrTiO3:1||dental implant:1||coincidence site density:1||ERNI2B2C:1||crystallites:1||CoCrPt films:1||tensile strain:1||gallide:1||MGO:1||Baferrite film:1||synchrotron xray scattering:1||ZNO THINFILMS:1||MORPHOLOGY:1||PHASES:1||MICE:1||EBEAM LITHOGRAPHY:1||electrorheological fluids:1||NANOFIBROUS MEMBRANES:1||NANOLITHOGRAPHY:1||refractive index radiology:1||BLOOD:1||colloidal:1||SIZE CONTROL:1||nanoradiology:1||ZnSO4:1||lung injury:1||METAL:1||PM10:1||textured grain:1||MICROSTRUCTURE:1||DIMENSIONS:1||highresolution Xray diffraction:1||low temperature buffer:1||Zinc compounds:1||SI:1||HUMAN LONGEVITY:1||Maximum human lifespan:1||LIMITS:1||MOSFETS:1||in situ XANES:1||nanowires:1||PHOTOIRRADIATION:1||FIBERS:1||WORK:1||EMISSION:1||RADIATION MICROTOMOGRAPHY:1||RAMANSCATTERING:1||gold nanoparticles:1||synchrotron Xray diffraction:1||OPTICAL WAVEGUIDES:1||CONDUCTINGPOLYMER NANOWIRE:1||Lung cancer:1||INTRAVENOUS CORONARYARTERIOGRAPHY:1||SUBLIMATION GROWTH:1||radiography:1||porous SiC:1||GIANT MAGNETORESISTANCE:1||SEMICONDUCTORS:1||Ga diffusion:1||electroless deposition:1||HEMATITE:1||FREEELECTRON LASER:1||MOCVD:1||interfaces:1||white beam:1||imaging technique:1||nucleation layer:1||interface structure:1||epitaxial Baferrite film:1||rf magnetron sputtering:1||MAGNETIC CHARACTERISTICS:1||MIXTURE:1||ACCESS MEMORY APPLICATION:1||COHERENCY STRAIN:1||DENSITY:1||nanofabrication:1||POLY(METHYL METHACRYLATE) MICROSPHERE:1||RESIST:1||unmonochromatic beam:1||MICRORADIOGRAPHY:1||INTERFEROMETER:1||EXPOSURE:1||volume variation electronic:1||PULSEDLASER ABLATION:1||Semiconducting IIVI materials:1||Light emitting diodes:1||phase contrast microscopies:1||lung:1||AUGERELECTRON SPECTROSCOPY:1||passivation:1||additive manufacturing:1||Silicon carbide:1||Synchrotron radiation:1||Synchrotron radiation imaging:1||Dislocations (crystals):1||LUNG INJURY:1||POLYMER SURFACES:1||SINGLE CELLS:1||PREFERRED ORIENTATION:1||sapphire orientation:1||TANTALUM:1||BIASENHANCED NUCLEATION:1||hexaferrite:1||stretched exponential:1||SOLIDSURFACE:1||SHEAR:1||VIDEO MICROSCOPY:1||CARBON NANOTUBES:1||realtime observation:1||Xray synchrotron:1||CARBONMONOXIDE:1||ELECTROCHEMICAL FABRICATION:1||crystal growth:1||computer simulation:1||FERROELECTRICFILMS:1||TITANIUM IMPLANTS:1||BONE INTERFACE:1||EXAFS perpendicular magnetic recording:1||Pd/Ni:1||ELECTRODES:1||internal organ:1||LIGHTEMITTINGDIODES:1||interfacial structure:1||CONSTANT:1||DIELECTRICPROPERTIES:1||AR:1||DEVICES:1||BiSrCaCuO:1||LASER ABLATION:1||MECHANISM:1||SELECTIVE DEPOSITION:1||TARGETED DRUGDELIVERY:1||PEG:1||carbon nanotubes:1||nanocharacterization:1||WALLED CARBON NANOTUBE:1||basal cell carcinoma:1||PARTICULATE AIRPOLLUTION:1||FINE:1||CITIES:1||DOPED ZNO FILMS:1||atherosclerosis:1||drug delivery:1||hard Xray:1||COMBUSTION:1||ARTIFICIAL BATIO3/SRTIO3 SUPERLATTICES:1||surface morphology:1||Direct wafer bonding:1||COLLOIDAL GOLD PARTICLES:1||DELINEATION:1||EXPECTANCY:1||DEMOGRAPHY:1||MRI:1||SIGE:1||Phase contrast microradiography:1||INJURY:1||PASSIVITY:1||VOLUME:1||CONTACTANGLE:1||ARRAYS:1||DUCTILITY:1||sputtering:1||computed microtomography (mu CT):1||unmonochromatized Xray:1||BIPOLARTRANSISTORS:1||longevity:1||Confocal microscopy:1||Colloidal wettability:1||ATOMICFORCE MICROSCOPY:1||storage ring:1||digital subtraction:1||SCATTERING:1||size effect:1||SYNTHETIC QUARTZ:1||liquid metal embrittlement:1||iron ore:1||cube textured Ni substrates:1||SrRuO3 films:1||laser ablations:1||Ti underlayer:1||RANDOMACCESS MEMORIES:1||DOMAIN CONFIGURATIONS:1||MGO(100):1||SPECTROSCOPY:1||XE:1||IONBEAM:1||GRAINBOUNDARY MIGRATION:1||SRTIO3:1||COMPOSITES:1||FOAMS:1||BREASTCANCER SPECIMENS:1||unmonochromatized:1||Xray induced nucleation:1||gold:1||ABSORPTION:1||SEPARATION:1||CZOCHRALSKI GROWTH:1||RETRIEVAL:1||GAMMARADIATION:1||AQUEOUSSOLUTION:1||NANOCOMPOSITES:1||INCREASE:1||without staining procedure:1||XPS:1||Imaging techniques:1||Interfaces (materials):1||Dislocation distributions:1||AZOBENZENE:1||STRUCTURAL EVOLUTION:1||RELAXATION:1||DROP IMPACT:1||NONLINEAR DYNAMICS:1||DISLOCATIONS:1||Colloids:1||TRANSFORMATION:1||METAL INTERCONNECTS:1||ELASTIC CONDUCTORS:1||LOGIC:1||DEFICIENT MICE:1||tomography:1||FACILITY:1||osseointegration:1||ROCKS:1||dental radiography:1||Zn coating:1||RE2O3/Ni:1||YBCO COATED CONDUCTORS:1||threedimensional islands:1||(Ba,Sr)TiO3:1||ultrahigh resolution:1||photoelectron emission:1||Pd:1||LANIO3:1||BASE ELECTRODES:1||iron oxide phase:1||ironoxide interlayer:1||COATED GLASS SUBSTRATE:1||MICROWAVE PLASMA NUCLEATION:1||ENHANCED NUCLEATION:1||phase transformation:1||ADSORPTION:1||phasecontrast xray imaging:1||lung inflammation:1||SI1XGEX SINGLECRYSTALS:1||COCONTINUITY:1||SCALE:1||OBJECT:1||synchrotron microradiography:1||FeSO4:1||INDUCTION:1||BaTiO3 and SrTiO3 thin films:1||HARDXRAYS:1||light emitting diodes:1||ACID:1||MICROSTRUCTURES:1||PHOTOLUMINESCENCE PROPERTIES:1||LASER IRRADIATION:1||Human aging:1||polychromatic synchrotron Xray:1||refraction enhanced imaging:1||CHROMOPHORES:1||ACUTE LUNG INJURY:1||spatial resolution:1||BETAFESI2:1||VLSI:1||SI1XGEX:1||COLLOIDAL SUSPENSIONS:1||ELECTRONICS:1||ENHANCEMENT:1||artificial lattice:1||sinters:1||SILVER:1||STRAIN RELAXATION:1||biaxial texture:1||synchrotron scattering:1||transmission electron microscopy:1||IRONOXIDE FILMS:1||PZT thin film:1||ferroelectric thin film:1||MISFIT RELAXATION MECHANISMS:1||PBTIO3:1||O2:1||CONDUCTING POLYMERS:1||poly(methylmethancrylate):1||microspheres:1||phase contrast Xray microscope:1||AMBIENT AIR:1||ATMOSPHERE:1||XRAY INTERFEROMETER:1||NiAu composite nanoparticles.:1||synchrotron radiation Xrays:1||microtomography:1||OIL FLYASH:1||zinc oxide:1||mammography:1||SrRuO3 film:1||Laser epitaxy:1||HOLE MOBILITY:1||Models of crystal defects:1||RABBIT LUNGS:1||NI/AU CONTACT:1||3D printing:1||Stress relaxation:1||SURFACEAREA:1||IMAGE:1||modulation transfer function (MTF):1||Pb ions:1||Insitu visualization:1||Interfacial tension:1||DISPERSION FORCES:1||SINGLECRYSTALS:1||XRAY SOURCE:1||Synchrotron Xray imaging:1||Realtime imaging:1||MEDICAL APPLICATIONS:1||wiggler bending magnet:1||undulator:1||diffractionenhanced imaging:1||ZnO film:1||CAPACITORS:1||HE3:1||NiP alloy:1||PHOTOCHEMICAL FORMATION:1||extended domain matching:1||cubetextured Ni substrates:1||RAY COMPUTEDTOMOGRAPHY:1||electrode layer:1||DOMAINSTRUCTURE:1||XRAY CT:1||SPECIMEN:1||mammographic phantom:1||Xray absorption spectroscopy:1||BLUE:1||CONTACT:1||(BA:1||synchrotron spectromicroscopy:1||thin film:1||MICROWAVE PLASMA:1||GOLD NANOPARTICLES:1||POLYMERIZATION:1||DISEASE:1||Shanghai:1||MORTALITY:1||HETEROSTRUCTURES:1||METHACRYLATE:1||prostate cancer:1||renal cell carcinoma:1||RATS:1||PULSEDLASER DEPOSITION:1||semiconducting IIVI materials:1||PATTERNS:1||sapphire:1||evaporation:1||ZINCOXIDE:1||LIGHTEMITTING DIODE:1||Synchrotron imaging:1||Dislocations:1||Cracks:1||LIVE:1||spinal cord:1||stainless steel:1||nanophotonics:1||subwavelength waveguides:1||Synchrotrons:1||High dislocation density:1||Misfit stress relaxations:1||Randomly distributed:1||Tripleaxis xray diffractions:1||FLOW:1||CRYSTALLINE ORGANIC NANORODS:1||SHAPE CHANGES:1||ZnO thin film:1||(111)SI:1||XRAY MIRRORS:1||low temperature:1||oxide cathodes:1||heterogeneity:1||Xray microscopy:1||INTERFACIAL TENSIONS:1||single crystal growth:1||CARCINOMA:1||mouse:1||ANIMALS:1||Mndoped ZnO:1||luminescence:1||solution precipitation:1||CLUSTER:1||relaxation:1||ALPHAFE2O3:1||XANES:1||epitaxy:1||LaNiO3 thin film:1||LANIO3 THINFILMS:1||ELECTRODE:1||Fe3O4 sublayer:1||EXAFS microscopy:1||FERRITE FILMS:1||SURFACE PRETREATMENTS:1||superconductors:1||CONTRAST AGENT:1||BIODISTRIBUTION:1||DEATH:1||SYNCHROTRON:1||IR:1||apo Eknockout mouse:1||plaque:1||microradiology:1||ALPHASYNUCLEIN:1||PULMONARY TOXICITY:1||XRAY TOPOGRAPHY:1||dislocation:1||metalorganic chemical vapor deposition:1||CRYSTALGROWTH:1||SELFASSEMBLED MONOLAYERS:1||MEMBRANES:1||MAGNETICANISOTROPY:1||SI1XGEX CRYSTALS:1||STRAINEDSI:1||Extended Weibull model:1||MOLYBDENUM:1||ALLOYS:1||IRON:1||Theoretical modeling:1||Threading dislocation:1||GROWTH:27||THINFILMS:16||SYNCHROTRONRADIATION:15||CONTRAST:11||RADIOLOGY:11||PARTICLES:11||FILMS:11||SILICON:10||RADIATION:10||DEPOSITION:10||RESOLUTION:9||CRYSTALS:8||SILICONCARBIDE:7||XRAYS:7||MAMMOGRAPHY:7||Xray diffraction:7||synchrotron radiation:6||XRAYSCATTERING:6||MODEL:6||microstructure:6||DYNAMICS:5||ELECTRODEPOSITION:5||LAYERS:5||CHEMICALVAPORDEPOSITION:5||TEMPERATURE:5||TOMOGRAPHY:5||COMPUTEDTOMOGRAPHY:5||SAPPHIRE:5||MEDIA:5||NANOWIRES:5||DIFFRACTION:4||TISSUES:4||pulsed laser deposition:4||phase contrast imaging:4||LAYER:4||IMAGES:4||DIODES:4||FIELDEFFECT TRANSISTORS:4||ptype GaN:4||MICROSCOPY:4||REDUCTION:4||POLYMER:4||DEFECTS:3||COHERENCE:3||MICROTOMOGRAPHY:3||NANOPARTICLES:3||synchrotron:3||LIGHT:3||TRANSISTORS:3||SURFACES:3||STRAIN:3||EPITAXIAL LAYERS:3||DRUGDELIVERY:3||REFRACTION:3||growth mechanism:3||METALS:3||MICROPIPES:3||SYSTEM:3||NUCLEATION:3||synchrotron Xray scattering:3||SURFACE:3||SCREW DISLOCATIONS:3||SIMULATION:3||HARD XRAYS:3||ELECTRICALPROPERTIES:3||EPITAXY:3||GAN:3||PM2.5:3||EVAPORATION:3||LIQUIDS:3||INPLANE:3||RAT:3||ANGIOGENESIS:3||CT:3||GaN:3||ZnO:3||NANORODS:3||strain:3||PB(ZR0.53TI0.47)O3:3||CRYSTALLIZATION:3||synchrotron Xrays:2||buffer layer:2||TRANSMISSION ELECTRONMICROSCOPY:2||EPITAXIAL COSI2 FILMS:2||MECHANISMS:2||INSITU GROWTH:2||DEVICE:2||LOCALIZED ELECTROCHEMICAL DEPOSITION:2||X ray diffraction:2||SCHOTTKY CONTACT:2||IRRADIATION:2||aqua regia treatment:2||INVIVO:2||CELLADHESION:2||MORPHOGENETIC PROTEIN2:2||RECEPTOR:2||TEM:2||broadband synchrotron light:2||nanoparticle:2||BUFFER LAYERS:2||TC:2||ENHANCED SYNCHROTRON RADIOLOGY:2||synthesis:2||POLYDIMETHYLSILOXANE:2||MICROCHANNELS:2||PRETREATMENT PROCESS:2||XRAY:2||CHEMOTAXIS:2||MECHANOSENSORY TRANSDUCTION:2||rectangular microtube:2||CONJUGATED POLYMER:2||atomic force microscopy:2||METALLIC OXIDE SRRUO3:2||LASERABLATION:2||STRESS:2||ZONE PLATES:2||FRICTION:2||THERMALSTABILITY:2||Xrays:2||RAY:2||NM:2||ENERGY:2||TOPOGRAPHY:2||synchrotron Xray:2||ACID HYDROGELS:2||CAENORHABDITISELEGANS:2||PROTEIN:2||defects:2||EVOLUTION:2||FABRICATION:2||sharp bending waveguide:2||lasing action:2||BULK CRYSTALS:2||SUPERLATTICES:2||COATED CONDUCTORS:2||SI(111):2||phase contrast:2||CORONARY ANGIOGRAPHY:2||SPECTROMICROSCOPY:2||MEPHISTO:2||OXYGEN:2||OPTICALPROPERTIES:2||RADIOGRAPHY:2||CONTACT DEFORMATIONS:2||MOLECULAR FORCES:2||SOLIDS:2||NTYPE GAN:2||deposition:2||CHEMISTRY:2||DEFORMATION:2||SUBSTRATE:2||HETEROEPITAXY:2||NANOTOPOGRAPHY:2||EPITAXIALGROWTH:2||Xray:2||CHEMICAL VAPORDEPOSITION:2||SILICON STRUCTURES:2||STEMCELLS:2||CHANNEL:2||crystal structure:2||CORONARYANGIOGRAPHY:2||SiC:2||BUFFER LAYER:2||MOLECULARBEAM EPITAXY:2||INTERFACE:2||SIZE:2||ELECTRON:2||XRAY MICROSCOPY:2||MORPHOLOGIES:2||NANOCOLLOIDS:2||FORCE MICROSCOPY:2||ablation:2||polymers:2||(NH4)(2)Sx treatment:2||CLUSTERS:2||BIOMATERIALS:2||CIRCUITS:2||rectangular ring mode:2||GUIDES:2||MICROCAVITY:2||PHOTOLUMINESCENCE:2||epitaxial growth:2||EMBRITTLEMENT:2||Xray imaging:2||BIOCOMPATIBILITY:2||BEHAVIOR:2||MICROWAVEPLASMA:2||LOWPRESSURE:2||DEGRADATION:2||TISSUE:2||LIQUID:2||SOFT LITHOGRAPHY:2||amplified spontaneous emission (ASE):2||SMALL ORGANICMOLECULES:2||PHOTONIC CRYSTAL:2||micropipes:2||radiology:2||ALLOY:2||Xray scattering:2||CRITICALCURRENT DENSITY:2||ELECTRONMICROSCOPY:2||BI(PB)SRCACUO:2||ELECTRONICSTRUCTURE:2||RECONSTRUCTION:2||MG:2||ohmic contact:2||Pd ohmic contact:2||xray scattering:2||INP:2||annealing:2||REGENERATION:2||TITANIUM:2||COLLOIDAL GOLD:2||crystallization:2||BUCKLING MECHANICS:2||LASERS:2||MODES:2||synchrotron imaging:2||lattice distortion:2||AQUEOUSELECTROLYTE:2||MOLECULARDYNAMICS:2||OXIDE:2||MICROANGIOGRAPHY:2||OXIDATION:2||MICRORADIOLOGY:2||TECHNOLOGY:2||GE:2||surface chemistry:2||RECOVERY:2||OHMIC CONTACTS:2||LASERDIODES:2||PTYPE GAN:2||MOTION:2||PHANTOM:2||PHASE:2||CALCIUMPHOSPHATE CERAMICS:2||REPAIR:2||porphyrin:2||AMPLIFIED SPONTANEOUS EMISSION:2||METALELECTRODES:2||PD:2||SUPERCONDUCTING TAPES:2||nucleation:2||COATINGS:2||Xray topography:2||MONOLAYERS:2||SURFACE MODIFICATION:2||LITHOGRAPHY:2||MECHANICAL VENTILATION:1||MICRORIBBONS:1||STIFFNESS:1||DUALPHASE STEEL:1||growth mode:1||strain evolution:1||SI(100):1||ANISOTROPY:1||WET GRANULAR PILE:1||COALESCENCE:1||INSITU POLYMERIZATION:1||GRAPHENE:1||CANCER:1||NODULES:1||RABBITS:1||phasecontrast:1||YTTRIUMOXIDE FILMS:1||BaTiO3/SrTiO3:1||dental implant:1||coincidence site density:1||ERNI2B2C:1||crystallites:1||CoCrPt films:1||tensile strain:1||gallide:1||MGO:1||Baferrite film:1||synchrotron xray scattering:1||ZNO THINFILMS:1||MORPHOLOGY:1||PHASES:1||MICE:1||EBEAM LITHOGRAPHY:1||electrorheological fluids:1||NANOFIBROUS MEMBRANES:1||NANOLITHOGRAPHY:1||refractive index radiology:1||BLOOD:1||colloidal:1||SIZE CONTROL:1||nanoradiology:1||ZnSO4:1||lung injury:1||METAL:1||PM10:1||textured grain:1||MICROSTRUCTURE:1||DIMENSIONS:1||highresolution Xray diffraction:1||low temperature buffer:1||Zinc compounds:1||SI:1||HUMAN LONGEVITY:1||Maximum human lifespan:1||LIMITS:1||MOSFETS:1||in situ XANES:1||nanowires:1||PHOTOIRRADIATION:1||FIBERS:1||WORK:1||EMISSION:1||RADIATION MICROTOMOGRAPHY:1||RAMANSCATTERING:1||gold nanoparticles:1||synchrotron Xray diffraction:1||OPTICAL WAVEGUIDES:1||CONDUCTINGPOLYMER NANOWIRE:1||Lung cancer:1||INTRAVENOUS CORONARYARTERIOGRAPHY:1||SUBLIMATION GROWTH:1||radiography:1||porous SiC:1||GIANT MAGNETORESISTANCE:1||SEMICONDUCTORS:1||Ga diffusion:1||electroless deposition:1||HEMATITE:1||FREEELECTRON LASER:1||MOCVD:1||interfaces:1||white beam:1||imaging technique:1||nucleation layer:1||interface structure:1||epitaxial Baferrite film:1||rf magnetron sputtering:1||MAGNETIC CHARACTERISTICS:1||MIXTURE:1||ACCESS MEMORY APPLICATION:1||COHERENCY STRAIN:1||DENSITY:1||nanofabrication:1||POLY(METHYL METHACRYLATE) MICROSPHERE:1||RESIST:1||unmonochromatic beam:1||MICRORADIOGRAPHY:1||INTERFEROMETER:1||EXPOSURE:1||volume variation electronic:1||PULSEDLASER ABLATION:1||Semiconducting IIVI materials:1||Light emitting diodes:1||phase contrast microscopies:1||lung:1||AUGERELECTRON SPECTROSCOPY:1||passivation:1||additive manufacturing:1||Silicon carbide:1||Synchrotron radiation:1||Synchrotron radiation imaging:1||Dislocations (crystals):1||LUNG INJURY:1||POLYMER SURFACES:1||SINGLE CELLS:1||PREFERRED ORIENTATION:1||sapphire orientation:1||TANTALUM:1||BIASENHANCED NUCLEATION:1||hexaferrite:1||stretched exponential:1||SOLIDSURFACE:1||SHEAR:1||VIDEO MICROSCOPY:1||CARBON NANOTUBES:1||realtime observation:1||Xray synchrotron:1||CARBONMONOXIDE:1||ELECTROCHEMICAL FABRICATION:1||crystal growth:1||computer simulation:1||FERROELECTRICFILMS:1||TITANIUM IMPLANTS:1||BONE INTERFACE:1||EXAFS perpendicular magnetic recording:1||Pd/Ni:1||ELECTRODES:1||internal organ:1||LIGHTEMITTINGDIODES:1||interfacial structure:1||CONSTANT:1||DIELECTRICPROPERTIES:1||AR:1||DEVICES:1||BiSrCaCuO:1||LASER ABLATION:1||MECHANISM:1||SELECTIVE DEPOSITION:1||TARGETED DRUGDELIVERY:1||PEG:1||carbon nanotubes:1||nanocharacterization:1||WALLED CARBON NANOTUBE:1||basal cell carcinoma:1||PARTICULATE AIRPOLLUTION:1||FINE:1||CITIES:1||DOPED ZNO FILMS:1||atherosclerosis:1||drug delivery:1||hard Xray:1||COMBUSTION:1||ARTIFICIAL BATIO3/SRTIO3 SUPERLATTICES:1||surface morphology:1||Direct wafer bonding:1||COLLOIDAL GOLD PARTICLES:1||DELINEATION:1||EXPECTANCY:1||DEMOGRAPHY:1||MRI:1||SIGE:1||Phase contrast microradiography:1||INJURY:1||PASSIVITY:1||VOLUME:1||CONTACTANGLE:1||ARRAYS:1||DUCTILITY:1||sputtering:1||computed microtomography (mu CT):1||unmonochromatized Xray:1||BIPOLARTRANSISTORS:1||longevity:1||Confocal microscopy:1||Colloidal wettability:1||ATOMICFORCE MICROSCOPY:1||storage ring:1||digital subtraction:1||SCATTERING:1||size effect:1||SYNTHETIC QUARTZ:1||liquid metal embrittlement:1||iron ore:1||cube textured Ni substrates:1||SrRuO3 films:1||laser ablations:1||Ti underlayer:1||RANDOMACCESS MEMORIES:1||DOMAIN CONFIGURATIONS:1||MGO(100):1||SPECTROSCOPY:1||XE:1||IONBEAM:1||GRAINBOUNDARY MIGRATION:1||SRTIO3:1||COMPOSITES:1||FOAMS:1||BREASTCANCER SPECIMENS:1||unmonochromatized:1||Xray induced nucleation:1||gold:1||ABSORPTION:1||SEPARATION:1||CZOCHRALSKI GROWTH:1||RETRIEVAL:1||GAMMARADIATION:1||AQUEOUSSOLUTION:1||NANOCOMPOSITES:1||INCREASE:1||without staining procedure:1||XPS:1||Imaging techniques:1||Interfaces (materials):1||Dislocation distributions:1||AZOBENZENE:1||STRUCTURAL EVOLUTION:1||RELAXATION:1||DROP IMPACT:1||NONLINEAR DYNAMICS:1||DISLOCATIONS:1||Colloids:1||TRANSFORMATION:1||METAL INTERCONNECTS:1||ELASTIC CONDUCTORS:1||LOGIC:1||DEFICIENT MICE:1||tomography:1||FACILITY:1||osseointegration:1||ROCKS:1||dental radiography:1||Zn coating:1||RE2O3/Ni:1||YBCO COATED CONDUCTORS:1||threedimensional islands:1||(Ba,Sr)TiO3:1||ultrahigh resolution:1||photoelectron emission:1||Pd:1||LANIO3:1||BASE ELECTRODES:1||iron oxide phase:1||ironoxide interlayer:1||COATED GLASS SUBSTRATE:1||MICROWAVE PLASMA NUCLEATION:1||ENHANCED NUCLEATION:1||phase transformation:1||ADSORPTION:1||phasecontrast xray imaging:1||lung inflammation:1||SI1XGEX SINGLECRYSTALS:1||COCONTINUITY:1||SCALE:1||OBJECT:1||synchrotron microradiography:1||FeSO4:1||INDUCTION:1||BaTiO3 and SrTiO3 thin films:1||HARDXRAYS:1||light emitting diodes:1||ACID:1||MICROSTRUCTURES:1||PHOTOLUMINESCENCE PROPERTIES:1||LASER IRRADIATION:1||Human aging:1||polychromatic synchrotron Xray:1||refraction enhanced imaging:1||CHROMOPHORES:1||ACUTE LUNG INJURY:1||spatial resolution:1||BETAFESI2:1||VLSI:1||SI1XGEX:1||COLLOIDAL SUSPENSIONS:1||ELECTRONICS:1||ENHANCEMENT:1||artificial lattice:1||sinters:1||SILVER:1||STRAIN RELAXATION:1||biaxial texture:1||synchrotron scattering:1||transmission electron microscopy:1||IRONOXIDE FILMS:1||PZT thin film:1||ferroelectric thin film:1||MISFIT RELAXATION MECHANISMS:1||PBTIO3:1||O2:1||CONDUCTING POLYMERS:1||poly(methylmethancrylate):1||microspheres:1||phase contrast Xray microscope:1||AMBIENT AIR:1||ATMOSPHERE:1||XRAY INTERFEROMETER:1||NiAu composite nanoparticles.:1||synchrotron radiation Xrays:1||microtomography:1||OIL FLYASH:1||zinc oxide:1||mammography:1||SrRuO3 film:1||Laser epitaxy:1||HOLE MOBILITY:1||Models of crystal defects:1||RABBIT LUNGS:1||NI/AU CONTACT:1||3D printing:1||Stress relaxation:1||SURFACEAREA:1||IMAGE:1||modulation transfer function (MTF):1||Pb ions:1||Insitu visualization:1||Interfacial tension:1||DISPERSION FORCES:1||SINGLECRYSTALS:1||XRAY SOURCE:1||Synchrotron Xray imaging:1||Realtime imaging:1||MEDICAL APPLICATIONS:1||wiggler bending magnet:1||undulator:1||diffractionenhanced imaging:1||ZnO film:1||CAPACITORS:1||HE3:1||NiP alloy:1||PHOTOCHEMICAL FORMATION:1||extended domain matching:1||cubetextured Ni substrates:1||RAY COMPUTEDTOMOGRAPHY:1||electrode layer:1||DOMAINSTRUCTURE:1||XRAY CT:1||SPECIMEN:1||mammographic phantom:1||Xray absorption spectroscopy:1||BLUE:1||CONTACT:1||(BA:1||synchrotron spectromicroscopy:1||thin film:1||MICROWAVE PLASMA:1||GOLD NANOPARTICLES:1||POLYMERIZATION:1||DISEASE:1||Shanghai:1||MORTALITY:1||HETEROSTRUCTURES:1||METHACRYLATE:1||prostate cancer:1||renal cell carcinoma:1||RATS:1||PULSEDLASER DEPOSITION:1||semiconducting IIVI materials:1||PATTERNS:1||sapphire:1||evaporation:1||ZINCOXIDE:1||LIGHTEMITTING DIODE:1||Synchrotron imaging:1||Dislocations:1||Cracks:1||LIVE:1||spinal cord:1||stainless steel:1||nanophotonics:1||subwavelength waveguides:1||Synchrotrons:1||High dislocation density:1||Misfit stress relaxations:1||Randomly distributed:1||Tripleaxis xray diffractions:1||FLOW:1||CRYSTALLINE ORGANIC NANORODS:1||SHAPE CHANGES:1||ZnO thin film:1||(111)SI:1||XRAY MIRRORS:1||low temperature:1||oxide cathodes:1||heterogeneity:1||Xray microscopy:1||INTERFACIAL TENSIONS:1||single crystal growth:1||CARCINOMA:1||mouse:1||ANIMALS:1||Mndoped ZnO:1||luminescence:1||solution precipitation:1||CLUSTER:1||relaxation:1||ALPHAFE2O3:1||XANES:1||epitaxy:1||LaNiO3 thin film:1||LANIO3 THINFILMS:1||ELECTRODE:1||Fe3O4 sublayer:1||EXAFS microscopy:1||FERRITE FILMS:1||SURFACE PRETREATMENTS:1||superconductors:1||CONTRAST AGENT:1||BIODISTRIBUTION:1||DEATH:1||SYNCHROTRON:1||IR:1||apo Eknockout mouse:1||plaque:1||microradiology:1||ALPHASYNUCLEIN:1||PULMONARY TOXICITY:1||XRAY TOPOGRAPHY:1||dislocation:1||metalorganic chemical vapor deposition:1||CRYSTALGROWTH:1||SELFASSEMBLED MONOLAYERS:1||MEMBRANES:1||MAGNETICANISOTROPY:1||SI1XGEX CRYSTALS:1||STRAINEDSI:1||Extended Weibull model:1||MOLYBDENUM:1||ALLOYS:1||IRON:1||Theoretical modeling:1||Threading dislocation:1||GROWTH:27||THINFILMS:16||SYNCHROTRONRADIATION:15||CONTRAST:11||RADIOLOGY:11||PARTICLES:11||FILMS:11||SILICON:10||RADIATION:10||DEPOSITION:10||RESOLUTION:9||CRYSTALS:8||SILICONCARBIDE:7||XRAYS:7||MAMMOGRAPHY:7||Xray diffraction:7||synchrotron 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ELECTRONMICROSCOPY:2||EPITAXIAL COSI2 FILMS:2||MECHANISMS:2||INSITU GROWTH:2||DEVICE:2||LOCALIZED ELECTROCHEMICAL DEPOSITION:2||X ray diffraction:2||SCHOTTKY CONTACT:2||IRRADIATION:2||aqua regia treatment:2||INVIVO:2||CELLADHESION:2||MORPHOGENETIC PROTEIN2:2||RECEPTOR:2||TEM:2||broadband synchrotron light:2||nanoparticle:2||BUFFER LAYERS:2||TC:2||ENHANCED SYNCHROTRON RADIOLOGY:2||synthesis:2||POLYDIMETHYLSILOXANE:2||MICROCHANNELS:2||PRETREATMENT PROCESS:2||XRAY:2||CHEMOTAXIS:2||MECHANOSENSORY TRANSDUCTION:2||rectangular microtube:2||CONJUGATED POLYMER:2||atomic force microscopy:2||METALLIC OXIDE SRRUO3:2||LASERABLATION:2||STRESS:2||ZONE PLATES:2||FRICTION:2||THERMALSTABILITY:2||Xrays:2||RAY:2||NM:2||ENERGY:2||TOPOGRAPHY:2||synchrotron Xray:2||ACID HYDROGELS:2||CAENORHABDITISELEGANS:2||PROTEIN:2||defects:2||EVOLUTION:2||FABRICATION:2||sharp bending waveguide:2||lasing action:2||BULK CRYSTALS:2||SUPERLATTICES:2||COATED CONDUCTORS:2||SI(111):2||phase contrast:2||CORONARY ANGIOGRAPHY:2||SPECTROMICROSCOPY:2||MEPHISTO:2||OXYGEN:2||OPTICALPROPERTIES:2||RADIOGRAPHY:2||CONTACT DEFORMATIONS:2||MOLECULAR FORCES:2||SOLIDS:2||NTYPE GAN:2||deposition:2||CHEMISTRY:2||DEFORMATION:2||SUBSTRATE:2||HETEROEPITAXY:2||NANOTOPOGRAPHY:2||EPITAXIALGROWTH:2||Xray:2||CHEMICAL VAPORDEPOSITION:2||SILICON STRUCTURES:2||STEMCELLS:2||CHANNEL:2||crystal structure:2||CORONARYANGIOGRAPHY:2||SiC:2||BUFFER LAYER:2||MOLECULARBEAM EPITAXY:2||INTERFACE:2||SIZE:2||ELECTRON:2||XRAY MICROSCOPY:2||MORPHOLOGIES:2||NANOCOLLOIDS:2||FORCE MICROSCOPY:2||ablation:2||polymers:2||(NH4)(2)Sx treatment:2||CLUSTERS:2||BIOMATERIALS:2||CIRCUITS:2||rectangular ring mode:2||GUIDES:2||MICROCAVITY:2||PHOTOLUMINESCENCE:2||epitaxial growth:2||EMBRITTLEMENT:2||Xray imaging:2||BIOCOMPATIBILITY:2||BEHAVIOR:2||MICROWAVEPLASMA:2||LOWPRESSURE:2||DEGRADATION:2||TISSUE:2||LIQUID:2||SOFT LITHOGRAPHY:2||amplified spontaneous emission (ASE):2||SMALL ORGANICMOLECULES:2||PHOTONIC 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evolution:1||SI(100):1||ANISOTROPY:1||WET GRANULAR PILE:1||COALESCENCE:1||INSITU POLYMERIZATION:1||GRAPHENE:1||CANCER:1||NODULES:1||RABBITS:1||phasecontrast:1||YTTRIUMOXIDE FILMS:1||BaTiO3/SrTiO3:1||dental implant:1||coincidence site density:1||ERNI2B2C:1||crystallites:1||CoCrPt films:1||tensile strain:1||gallide:1||MGO:1||Baferrite film:1||synchrotron xray scattering:1||ZNO THINFILMS:1||MORPHOLOGY:1||PHASES:1||MICE:1||EBEAM LITHOGRAPHY:1||electrorheological fluids:1||NANOFIBROUS MEMBRANES:1||NANOLITHOGRAPHY:1||refractive index radiology:1||BLOOD:1||colloidal:1||SIZE CONTROL:1||nanoradiology:1||ZnSO4:1||lung injury:1||METAL:1||PM10:1||textured grain:1||MICROSTRUCTURE:1||DIMENSIONS:1||highresolution Xray diffraction:1||low temperature buffer:1||Zinc compounds:1||SI:1||HUMAN LONGEVITY:1||Maximum human lifespan:1||LIMITS:1||MOSFETS:1||in situ XANES:1||nanowires:1||PHOTOIRRADIATION:1||FIBERS:1||WORK:1||EMISSION:1||RADIATION MICROTOMOGRAPHY:1||RAMANSCATTERING:1||gold 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radiation:1||Synchrotron radiation imaging:1||Dislocations (crystals):1||LUNG INJURY:1||POLYMER SURFACES:1||SINGLE CELLS:1||PREFERRED ORIENTATION:1||sapphire orientation:1||TANTALUM:1||BIASENHANCED NUCLEATION:1||hexaferrite:1||stretched exponential:1||SOLIDSURFACE:1||SHEAR:1||VIDEO MICROSCOPY:1||CARBON NANOTUBES:1||realtime observation:1||Xray synchrotron:1||CARBONMONOXIDE:1||ELECTROCHEMICAL FABRICATION:1||crystal growth:1||computer simulation:1||FERROELECTRICFILMS:1||TITANIUM IMPLANTS:1||BONE INTERFACE:1||EXAFS perpendicular magnetic recording:1||Pd/Ni:1||ELECTRODES:1||internal organ:1||LIGHTEMITTINGDIODES:1||interfacial structure:1||CONSTANT:1||DIELECTRICPROPERTIES:1||AR:1||DEVICES:1||BiSrCaCuO:1||LASER ABLATION:1||MECHANISM:1||SELECTIVE DEPOSITION:1||TARGETED DRUGDELIVERY:1||PEG:1||carbon nanotubes:1||nanocharacterization:1||WALLED CARBON NANOTUBE:1||basal cell carcinoma:1||PARTICULATE AIRPOLLUTION:1||FINE:1||CITIES:1||DOPED ZNO FILMS:1||atherosclerosis:1||drug delivery:1||hard Xray:1||COMBUSTION:1||ARTIFICIAL BATIO3/SRTIO3 SUPERLATTICES:1||surface morphology:1||Direct wafer bonding:1||COLLOIDAL GOLD PARTICLES:1||DELINEATION:1||EXPECTANCY:1||DEMOGRAPHY:1||MRI:1||SIGE:1||Phase contrast microradiography:1||INJURY:1||PASSIVITY:1||VOLUME:1||CONTACTANGLE:1||ARRAYS:1||DUCTILITY:1||sputtering:1||computed microtomography (mu CT):1||unmonochromatized Xray:1||BIPOLARTRANSISTORS:1||longevity:1||Confocal microscopy:1||Colloidal wettability:1||ATOMICFORCE MICROSCOPY:1||storage ring:1||digital subtraction:1||SCATTERING:1||size effect:1||SYNTHETIC QUARTZ:1||liquid metal embrittlement:1||iron ore:1||cube textured Ni substrates:1||SrRuO3 films:1||laser ablations:1||Ti underlayer:1||RANDOMACCESS MEMORIES:1||DOMAIN CONFIGURATIONS:1||MGO(100):1||SPECTROSCOPY:1||XE:1||IONBEAM:1||GRAINBOUNDARY MIGRATION:1||SRTIO3:1||COMPOSITES:1||FOAMS:1||BREASTCANCER SPECIMENS:1||unmonochromatized:1||Xray induced nucleation:1||gold:1||ABSORPTION:1||SEPARATION:1||CZOCHRALSKI GROWTH:1||RETRIEVAL:1||GAMMARADIATION:1||AQUEOUSSOLUTION:1||NANOCOMPOSITES:1||INCREASE:1||without staining procedure:1||XPS:1||Imaging techniques:1||Interfaces (materials):1||Dislocation distributions:1||AZOBENZENE:1||STRUCTURAL EVOLUTION:1||RELAXATION:1||DROP IMPACT:1||NONLINEAR DYNAMICS:1||DISLOCATIONS:1||Colloids:1||TRANSFORMATION:1||METAL INTERCONNECTS:1||ELASTIC CONDUCTORS:1||LOGIC:1||DEFICIENT MICE:1||tomography:1||FACILITY:1||osseointegration:1||ROCKS:1||dental radiography:1||Zn coating:1||RE2O3/Ni:1||YBCO COATED CONDUCTORS:1||threedimensional islands:1||(Ba,Sr)TiO3:1||ultrahigh resolution:1||photoelectron emission:1||Pd:1||LANIO3:1||BASE ELECTRODES:1||iron oxide phase:1||ironoxide interlayer:1||COATED GLASS SUBSTRATE:1||MICROWAVE PLASMA NUCLEATION:1||ENHANCED NUCLEATION:1||phase transformation:1||ADSORPTION:1||phasecontrast xray imaging:1||lung inflammation:1||SI1XGEX SINGLECRYSTALS:1||COCONTINUITY:1||SCALE:1||OBJECT:1||synchrotron microradiography:1||FeSO4:1||INDUCTION:1||BaTiO3 and SrTiO3 thin films:1||HARDXRAYS:1||light emitting diodes:1||ACID:1||MICROSTRUCTURES:1||PHOTOLUMINESCENCE PROPERTIES:1||LASER IRRADIATION:1||Human aging:1||polychromatic synchrotron Xray:1||refraction enhanced imaging:1||CHROMOPHORES:1||ACUTE LUNG INJURY:1||spatial resolution:1||BETAFESI2:1||VLSI:1||SI1XGEX:1||COLLOIDAL SUSPENSIONS:1||ELECTRONICS:1||ENHANCEMENT:1||artificial lattice:1||sinters:1||SILVER:1||STRAIN RELAXATION:1||biaxial texture:1||synchrotron scattering:1||transmission electron microscopy:1||IRONOXIDE FILMS:1||PZT thin film:1||ferroelectric thin film:1||MISFIT RELAXATION MECHANISMS:1||PBTIO3:1||O2:1||CONDUCTING POLYMERS:1||poly(methylmethancrylate):1||microspheres:1||phase contrast Xray microscope:1||AMBIENT AIR:1||ATMOSPHERE:1||XRAY INTERFEROMETER:1||NiAu composite nanoparticles.:1||synchrotron radiation Xrays:1||microtomography:1||OIL FLYASH:1||zinc oxide:1||mammography:1||SrRuO3 film:1||Laser epitaxy:1||HOLE MOBILITY:1||Models of crystal defects:1||RABBIT LUNGS:1||NI/AU CONTACT:1||3D printing:1||Stress relaxation:1||SURFACEAREA:1||IMAGE:1||modulation transfer function (MTF):1||Pb ions:1||Insitu visualization:1||Interfacial tension:1||DISPERSION FORCES:1||SINGLECRYSTALS:1||XRAY SOURCE:1||Synchrotron Xray imaging:1||Realtime imaging:1||MEDICAL APPLICATIONS:1||wiggler bending magnet:1||undulator:1||diffractionenhanced imaging:1||ZnO film:1||CAPACITORS:1||HE3:1||NiP alloy:1||PHOTOCHEMICAL FORMATION:1||extended domain matching:1||cubetextured Ni substrates:1||RAY COMPUTEDTOMOGRAPHY:1||electrode layer:1||DOMAINSTRUCTURE:1||XRAY CT:1||SPECIMEN:1||mammographic phantom:1||Xray absorption spectroscopy:1||BLUE:1||CONTACT:1||(BA:1||synchrotron spectromicroscopy:1||thin film:1||MICROWAVE PLASMA:1||GOLD NANOPARTICLES:1||POLYMERIZATION:1||DISEASE:1||Shanghai:1||MORTALITY:1||HETEROSTRUCTURES:1||METHACRYLATE:1||prostate cancer:1||renal cell carcinoma:1||RATS:1||PULSEDLASER DEPOSITION:1||semiconducting IIVI materials:1||PATTERNS:1||sapphire:1||evaporation:1||ZINCOXIDE:1||LIGHTEMITTING DIODE:1||Synchrotron imaging:1||Dislocations:1||Cracks:1||LIVE:1||spinal cord:1||stainless steel:1||nanophotonics:1||subwavelength waveguides:1||Synchrotrons:1||High dislocation density:1||Misfit stress relaxations:1||Randomly distributed:1||Tripleaxis xray diffractions:1||FLOW:1||CRYSTALLINE ORGANIC NANORODS:1||SHAPE CHANGES:1||ZnO thin film:1||(111)SI:1||XRAY MIRRORS:1||low temperature:1||oxide cathodes:1||heterogeneity:1||Xray microscopy:1||INTERFACIAL TENSIONS:1||single crystal growth:1||CARCINOMA:1||mouse:1||ANIMALS:1||Mndoped ZnO:1||luminescence:1||solution precipitation:1||CLUSTER:1||relaxation:1||ALPHAFE2O3:1||XANES:1||epitaxy:1||LaNiO3 thin film:1||LANIO3 THINFILMS:1||ELECTRODE:1||Fe3O4 sublayer:1||EXAFS microscopy:1||FERRITE FILMS:1||SURFACE PRETREATMENTS:1||superconductors:1||CONTRAST AGENT:1||BIODISTRIBUTION:1||DEATH:1||SYNCHROTRON:1||IR:1||apo Eknockout mouse:1||plaque:1||microradiology:1||ALPHASYNUCLEIN:1||PULMONARY TOXICITY:1||XRAY TOPOGRAPHY:1||dislocation:1||metalorganic chemical vapor deposition:1||CRYSTALGROWTH:1||SELFASSEMBLED MONOLAYERS:1||MEMBRANES:1||MAGNETICANISOTROPY:1||SI1XGEX CRYSTALS:1||STRAINEDSI:1||Extended Weibull model:1||MOLYBDENUM:1||ALLOYS:1||IRON:1||Theoretical modeling:1||Threading dislocation:1||GROWTH:27||THINFILMS:16||SYNCHROTRONRADIATION:15||CONTRAST:11||RADIOLOGY:11||PARTICLES:11||FILMS:11||SILICON:10||RADIATION:10||DEPOSITION:10||RESOLUTION:9||CRYSTALS:8||SILICONCARBIDE:7||XRAYS:7||MAMMOGRAPHY:7||Xray diffraction:7||synchrotron radiation:6||XRAYSCATTERING:6||MODEL:6||microstructure:6||DYNAMICS:5||ELECTRODEPOSITION:5||LAYERS:5||CHEMICALVAPORDEPOSITION:5||TEMPERATURE:5||TOMOGRAPHY:5||COMPUTEDTOMOGRAPHY:5||SAPPHIRE:5||MEDIA:5||NANOWIRES:5||DIFFRACTION:4||TISSUES:4||pulsed laser deposition:4||phase contrast imaging:4||LAYER:4||IMAGES:4||DIODES:4||FIELDEFFECT TRANSISTORS:4||ptype GaN:4||MICROSCOPY:4||REDUCTION:4||POLYMER:4||DEFECTS:3||COHERENCE:3||MICROTOMOGRAPHY:3||NANOPARTICLES:3||synchrotron:3||LIGHT:3||TRANSISTORS:3||SURFACES:3||STRAIN:3||EPITAXIAL LAYERS:3||DRUGDELIVERY:3||REFRACTION:3||growth mechanism:3||METALS:3||MICROPIPES:3||SYSTEM:3||NUCLEATION:3||synchrotron Xray scattering:3||SURFACE:3||SCREW DISLOCATIONS:3||SIMULATION:3||HARD XRAYS:3||ELECTRICALPROPERTIES:3||EPITAXY:3||GAN:3||PM2.5:3||EVAPORATION:3||LIQUIDS:3||INPLANE:3||RAT:3||ANGIOGENESIS:3||CT:3||GaN:3||ZnO:3||NANORODS:3||strain:3||PB(ZR0.53TI0.47)O3:3||CRYSTALLIZATION:3||synchrotron Xrays:2||buffer layer:2||TRANSMISSION ELECTRONMICROSCOPY:2||EPITAXIAL COSI2 FILMS:2||MECHANISMS:2||INSITU GROWTH:2||DEVICE:2||LOCALIZED ELECTROCHEMICAL DEPOSITION:2||X ray diffraction:2||SCHOTTKY CONTACT:2||IRRADIATION:2||aqua regia treatment:2||INVIVO:2||CELLADHESION:2||MORPHOGENETIC PROTEIN2:2||RECEPTOR:2||TEM:2||broadband synchrotron light:2||nanoparticle:2||BUFFER LAYERS:2||TC:2||ENHANCED SYNCHROTRON RADIOLOGY:2||synthesis:2||POLYDIMETHYLSILOXANE:2||MICROCHANNELS:2||PRETREATMENT PROCESS:2||XRAY:2||CHEMOTAXIS:2||MECHANOSENSORY TRANSDUCTION:2||rectangular microtube:2||CONJUGATED POLYMER:2||atomic force microscopy:2||METALLIC OXIDE SRRUO3:2||LASERABLATION:2||STRESS:2||ZONE PLATES:2||FRICTION:2||THERMALSTABILITY:2||Xrays:2||RAY:2||NM:2||ENERGY:2||TOPOGRAPHY:2||synchrotron Xray:2||ACID HYDROGELS:2||CAENORHABDITISELEGANS:2||PROTEIN:2||defects:2||EVOLUTION:2||FABRICATION:2||sharp bending waveguide:2||lasing action:2||BULK CRYSTALS:2||SUPERLATTICES:2||COATED CONDUCTORS:2||SI(111):2||phase contrast:2||CORONARY ANGIOGRAPHY:2||SPECTROMICROSCOPY:2||MEPHISTO:2||OXYGEN:2||OPTICALPROPERTIES:2||RADIOGRAPHY:2||CONTACT DEFORMATIONS:2||MOLECULAR FORCES:2||SOLIDS:2||NTYPE GAN:2||deposition:2||CHEMISTRY:2||DEFORMATION:2||SUBSTRATE:2||HETEROEPITAXY:2||NANOTOPOGRAPHY:2||EPITAXIALGROWTH:2||Xray:2||CHEMICAL VAPORDEPOSITION:2||SILICON STRUCTURES:2||STEMCELLS:2||CHANNEL:2||crystal structure:2||CORONARYANGIOGRAPHY:2||SiC:2||BUFFER LAYER:2||MOLECULARBEAM EPITAXY:2||INTERFACE:2||SIZE:2||ELECTRON:2||XRAY MICROSCOPY:2||MORPHOLOGIES:2||NANOCOLLOIDS:2||FORCE MICROSCOPY:2||ablation:2||polymers:2||(NH4)(2)Sx treatment:2||CLUSTERS:2||BIOMATERIALS:2||CIRCUITS:2||rectangular ring mode:2||GUIDES:2||MICROCAVITY:2||PHOTOLUMINESCENCE:2||epitaxial growth:2||EMBRITTLEMENT:2||Xray imaging:2||BIOCOMPATIBILITY:2||BEHAVIOR:2||MICROWAVEPLASMA:2||LOWPRESSURE:2||DEGRADATION:2||TISSUE:2||LIQUID:2||SOFT LITHOGRAPHY:2||amplified spontaneous emission (ASE):2||SMALL ORGANICMOLECULES:2||PHOTONIC CRYSTAL:2||micropipes:2||radiology:2||ALLOY:2||Xray scattering:2||CRITICALCURRENT DENSITY:2||ELECTRONMICROSCOPY:2||BI(PB)SRCACUO:2||ELECTRONICSTRUCTURE:2||RECONSTRUCTION:2||MG:2||ohmic contact:2||Pd ohmic contact:2||xray scattering:2||INP:2||annealing:2||REGENERATION:2||TITANIUM:2||COLLOIDAL GOLD:2||crystallization:2||BUCKLING MECHANICS:2||LASERS:2||MODES:2||synchrotron imaging:2||lattice distortion:2||AQUEOUSELECTROLYTE:2||MOLECULARDYNAMICS:2||OXIDE:2||MICROANGIOGRAPHY:2||OXIDATION:2||MICRORADIOLOGY:2||TECHNOLOGY:2||GE:2||surface chemistry:2||RECOVERY:2||OHMIC CONTACTS:2||LASERDIODES:2||PTYPE GAN:2||MOTION:2||PHANTOM:2||PHASE:2||CALCIUMPHOSPHATE CERAMICS:2||REPAIR:2||porphyrin:2||AMPLIFIED SPONTANEOUS EMISSION:2||METALELECTRODES:2||PD:2||SUPERCONDUCTING TAPES:2||nucleation:2||COATINGS:2||Xray topography:2||MONOLAYERS:2||SURFACE MODIFICATION:2||LITHOGRAPHY:2||MECHANICAL VENTILATION:1||MICRORIBBONS:1||STIFFNESS:1||DUALPHASE STEEL:1||growth mode:1||strain evolution:1||SI(100):1||ANISOTROPY:1||WET GRANULAR PILE:1||COALESCENCE:1||INSITU POLYMERIZATION:1||GRAPHENE:1||CANCER:1||NODULES:1||RABBITS:1||phasecontrast:1||YTTRIUMOXIDE FILMS:1||BaTiO3/SrTiO3:1||dental implant:1||coincidence site density:1||ERNI2B2C:1||crystallites:1||CoCrPt films:1||tensile strain:1||gallide:1||MGO:1||Baferrite film:1||synchrotron xray scattering:1||ZNO THINFILMS:1||MORPHOLOGY:1||PHASES:1||MICE:1||EBEAM LITHOGRAPHY:1||electrorheological fluids:1||NANOFIBROUS MEMBRANES:1||NANOLITHOGRAPHY:1||refractive index radiology:1||BLOOD:1||colloidal:1||SIZE CONTROL:1||nanoradiology:1||ZnSO4:1||lung injury:1||METAL:1||PM10:1||textured grain:1||MICROSTRUCTURE:1||DIMENSIONS:1||highresolution Xray diffraction:1||low temperature buffer:1||Zinc compounds:1||SI:1||HUMAN LONGEVITY:1||Maximum human lifespan:1||LIMITS:1||MOSFETS:1||in situ XANES:1||nanowires:1||PHOTOIRRADIATION:1||FIBERS:1||WORK:1||EMISSION:1||RADIATION MICROTOMOGRAPHY:1||RAMANSCATTERING:1||gold nanoparticles:1||synchrotron Xray diffraction:1||OPTICAL WAVEGUIDES:1||CONDUCTINGPOLYMER NANOWIRE:1||Lung cancer:1||INTRAVENOUS CORONARYARTERIOGRAPHY:1||SUBLIMATION GROWTH:1||radiography:1||porous SiC:1||GIANT MAGNETORESISTANCE:1||SEMICONDUCTORS:1||Ga diffusion:1||electroless deposition:1||HEMATITE:1||FREEELECTRON LASER:1||MOCVD:1||interfaces:1||white beam:1||imaging technique:1||nucleation layer:1||interface structure:1||epitaxial Baferrite film:1||rf magnetron sputtering:1||MAGNETIC CHARACTERISTICS:1||MIXTURE:1||ACCESS MEMORY APPLICATION:1||COHERENCY STRAIN:1||DENSITY:1||nanofabrication:1||POLY(METHYL METHACRYLATE) MICROSPHERE:1||RESIST:1||unmonochromatic beam:1||MICRORADIOGRAPHY:1||INTERFEROMETER:1||EXPOSURE:1||volume variation electronic:1||PULSEDLASER ABLATION:1||Semiconducting IIVI materials:1||Light emitting diodes:1||phase contrast microscopies:1||lung:1||AUGERELECTRON SPECTROSCOPY:1||passivation:1||additive manufacturing:1||Silicon carbide:1||Synchrotron radiation:1||Synchrotron radiation imaging:1||Dislocations (crystals):1||LUNG INJURY:1||POLYMER SURFACES:1||SINGLE CELLS:1||PREFERRED ORIENTATION:1||sapphire orientation:1||TANTALUM:1||BIASENHANCED NUCLEATION:1||hexaferrite:1||stretched exponential:1||SOLIDSURFACE:1||SHEAR:1||VIDEO MICROSCOPY:1||CARBON NANOTUBES:1||realtime observation:1||Xray synchrotron:1||CARBONMONOXIDE:1||ELECTROCHEMICAL FABRICATION:1||crystal growth:1||computer simulation:1||FERROELECTRICFILMS:1||TITANIUM IMPLANTS:1||BONE INTERFACE:1||EXAFS perpendicular magnetic recording:1||Pd/Ni:1||ELECTRODES:1||internal organ:1||LIGHTEMITTINGDIODES:1||interfacial structure:1||CONSTANT:1||DIELECTRICPROPERTIES:1||AR:1||DEVICES:1||BiSrCaCuO:1||LASER ABLATION:1||MECHANISM:1||SELECTIVE DEPOSITION:1||TARGETED DRUGDELIVERY:1||PEG:1||carbon nanotubes:1||nanocharacterization:1||WALLED CARBON NANOTUBE:1||basal cell carcinoma:1||PARTICULATE AIRPOLLUTION:1||FINE:1||CITIES:1||DOPED ZNO FILMS:1||atherosclerosis:1||drug delivery:1||hard Xray:1||COMBUSTION:1||ARTIFICIAL BATIO3/SRTIO3 SUPERLATTICES:1||surface morphology:1||Direct wafer bonding:1||COLLOIDAL GOLD PARTICLES:1||DELINEATION:1||EXPECTANCY:1||DEMOGRAPHY:1||MRI:1||SIGE:1||Phase contrast microradiography:1||INJURY:1||PASSIVITY:1||VOLUME:1||CONTACTANGLE:1||ARRAYS:1||DUCTILITY:1||sputtering:1||computed microtomography (mu CT):1||unmonochromatized Xray:1||BIPOLARTRANSISTORS:1||longevity:1||Confocal microscopy:1||Colloidal wettability:1||ATOMICFORCE MICROSCOPY:1||storage ring:1||digital subtraction:1||SCATTERING:1||size effect:1||SYNTHETIC QUARTZ:1||liquid metal embrittlement:1||iron ore:1||cube textured Ni substrates:1||SrRuO3 films:1||laser ablations:1||Ti underlayer:1||RANDOMACCESS MEMORIES:1||DOMAIN CONFIGURATIONS:1||MGO(100):1||SPECTROSCOPY:1||XE:1||IONBEAM:1||GRAINBOUNDARY MIGRATION:1||SRTIO3:1||COMPOSITES:1||FOAMS:1||BREASTCANCER SPECIMENS:1||unmonochromatized:1||Xray induced nucleation:1||gold:1||ABSORPTION:1||SEPARATION:1||CZOCHRALSKI GROWTH:1||RETRIEVAL:1||GAMMARADIATION:1||AQUEOUSSOLUTION:1||NANOCOMPOSITES:1||INCREASE:1||without staining procedure:1||XPS:1||Imaging techniques:1||Interfaces (materials):1||Dislocation distributions:1||AZOBENZENE:1||STRUCTURAL EVOLUTION:1||RELAXATION:1||DROP IMPACT:1||NONLINEAR DYNAMICS:1||DISLOCATIONS:1||Colloids:1||TRANSFORMATION:1||METAL INTERCONNECTS:1||ELASTIC CONDUCTORS:1||LOGIC:1||DEFICIENT MICE:1||tomography:1||FACILITY:1||osseointegration:1||ROCKS:1||dental radiography:1||Zn coating:1||RE2O3/Ni:1||YBCO COATED CONDUCTORS:1||threedimensional islands:1||(Ba,Sr)TiO3:1||ultrahigh resolution:1||photoelectron emission:1||Pd:1||LANIO3:1||BASE ELECTRODES:1||iron oxide phase:1||ironoxide interlayer:1||COATED GLASS SUBSTRATE:1||MICROWAVE PLASMA NUCLEATION:1||ENHANCED NUCLEATION:1||phase transformation:1||ADSORPTION:1||phasecontrast xray imaging:1||lung inflammation:1||SI1XGEX SINGLECRYSTALS:1||COCONTINUITY:1||SCALE:1||OBJECT:1||synchrotron microradiography:1||FeSO4:1||INDUCTION:1||BaTiO3 and SrTiO3 thin films:1||HARDXRAYS:1||light emitting diodes:1||ACID:1||MICROSTRUCTURES:1||PHOTOLUMINESCENCE PROPERTIES:1||LASER IRRADIATION:1||Human aging:1||polychromatic synchrotron Xray:1||refraction enhanced imaging:1||CHROMOPHORES:1||ACUTE LUNG INJURY:1||spatial resolution:1||BETAFESI2:1||VLSI:1||SI1XGEX:1||COLLOIDAL SUSPENSIONS:1||ELECTRONICS:1||ENHANCEMENT:1||artificial lattice:1||sinters:1||SILVER:1||STRAIN RELAXATION:1||biaxial texture:1||synchrotron scattering:1||transmission electron microscopy:1||IRONOXIDE FILMS:1||PZT thin film:1||ferroelectric thin film:1||MISFIT RELAXATION MECHANISMS:1||PBTIO3:1||O2:1||CONDUCTING POLYMERS:1||poly(methylmethancrylate):1||microspheres:1||phase contrast Xray microscope:1||AMBIENT AIR:1||ATMOSPHERE:1||XRAY INTERFEROMETER:1||NiAu composite nanoparticles.:1||synchrotron radiation Xrays:1||microtomography:1||OIL FLYASH:1||zinc oxide:1||mammography:1||SrRuO3 film:1||Laser epitaxy:1||HOLE MOBILITY:1||Models of crystal defects:1||RABBIT LUNGS:1||NI/AU CONTACT:1||3D printing:1||Stress relaxation:1||SURFACEAREA:1||IMAGE:1||modulation transfer function (MTF):1||Pb ions:1||Insitu visualization:1||Interfacial tension:1||DISPERSION FORCES:1||SINGLECRYSTALS:1||XRAY SOURCE:1||Synchrotron Xray imaging:1||Realtime imaging:1||MEDICAL APPLICATIONS:1||wiggler bending magnet:1||undulator:1||diffractionenhanced imaging:1||ZnO film:1||CAPACITORS:1||HE3:1||NiP alloy:1||PHOTOCHEMICAL FORMATION:1||extended domain matching:1||cubetextured Ni substrates:1||RAY COMPUTEDTOMOGRAPHY:1||electrode layer:1||DOMAINSTRUCTURE:1||XRAY CT:1||SPECIMEN:1||mammographic phantom:1||Xray absorption spectroscopy:1||BLUE:1||CONTACT:1||(BA:1||synchrotron spectromicroscopy:1||thin film:1||MICROWAVE PLASMA:1||GOLD NANOPARTICLES:1||POLYMERIZATION:1||DISEASE:1||Shanghai:1||MORTALITY:1||HETEROSTRUCTURES:1||METHACRYLATE:1||prostate cancer:1||renal cell carcinoma:1||RATS:1||PULSEDLASER DEPOSITION:1||semiconducting IIVI materials:1||PATTERNS:1||sapphire:1||evaporation:1||ZINCOXIDE:1||LIGHTEMITTING DIODE:1||Synchrotron imaging:1||Dislocations:1||Cracks:1||LIVE:1||spinal cord:1||stainless steel:1||nanophotonics:1||subwavelength waveguides:1||Synchrotrons:1||High dislocation density:1||Misfit stress relaxations:1||Randomly distributed:1||Tripleaxis xray diffractions:1||FLOW:1||CRYSTALLINE ORGANIC NANORODS:1||SHAPE CHANGES:1||ZnO thin film:1||(111)SI:1||XRAY MIRRORS:1||low temperature:1||oxide cathodes:1||heterogeneity:1||Xray microscopy:1||INTERFACIAL TENSIONS:1||single crystal growth:1||CARCINOMA:1||mouse:1||ANIMALS:1||Mndoped ZnO:1||luminescence:1||solution precipitation:1||CLUSTER:1||relaxation:1||ALPHAFE2O3:1||XANES:1||epitaxy:1||LaNiO3 thin film:1||LANIO3 THINFILMS:1||ELECTRODE:1||Fe3O4 sublayer:1||EXAFS microscopy:1||FERRITE FILMS:1||SURFACE PRETREATMENTS:1||superconductors:1||CONTRAST AGENT:1||BIODISTRIBUTION:1||DEATH:1||SYNCHROTRON:1||IR:1||apo Eknockout mouse:1||plaque:1||microradiology:1||ALPHASYNUCLEIN:1||PULMONARY TOXICITY:1||XRAY TOPOGRAPHY:1||dislocation:1||metalorganic chemical vapor deposition:1||CRYSTALGROWTH:1||SELFASSEMBLED MONOLAYERS:1||MEMBRANES:1||MAGNETICANISOTROPY:1||SI1XGEX CRYSTALS:1||STRAINEDSI:1||Extended Weibull model:1||MOLYBDENUM:1||ALLOYS:1||IRON:1||Theoretical modeling:1||Threading dislocation:1||GROWTH:27||THINFILMS:16||SYNCHROTRONRADIATION:15||CONTRAST:11||RADIOLOGY:11||PARTICLES:11||FILMS:11||SILICON:10||RADIATION:10||DEPOSITION:10||RESOLUTION:9||CRYSTALS:8||SILICONCARBIDE:7||XRAYS:7||MAMMOGRAPHY:7||Xray diffraction:7||synchrotron radiation:6||XRAYSCATTERING:6||MODEL:6||microstructure:6||DYNAMICS:5||ELECTRODEPOSITION:5||LAYERS:5||CHEMICALVAPORDEPOSITION:5||TEMPERATURE:5||TOMOGRAPHY:5||COMPUTEDTOMOGRAPHY:5||SAPPHIRE:5||MEDIA:5||NANOWIRES:5||DIFFRACTION:4||TISSUES:4||pulsed laser deposition:4||phase contrast imaging:4||LAYER:4||IMAGES:4||DIODES:4||FIELDEFFECT TRANSISTORS:4||ptype GaN:4||MICROSCOPY:4||REDUCTION:4||POLYMER:4||DEFECTS:3||COHERENCE:3||MICROTOMOGRAPHY:3||NANOPARTICLES:3||synchrotron:3||LIGHT:3||TRANSISTORS:3||SURFACES:3||STRAIN:3||EPITAXIAL LAYERS:3||DRUGDELIVERY:3||REFRACTION:3||growth mechanism:3||METALS:3||MICROPIPES:3||SYSTEM:3||NUCLEATION:3||synchrotron Xray scattering:3||SURFACE:3||SCREW DISLOCATIONS:3||SIMULATION:3||HARD 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imaging:2||BIOCOMPATIBILITY:2||BEHAVIOR:2||MICROWAVEPLASMA:2||LOWPRESSURE:2||DEGRADATION:2||TISSUE:2||LIQUID:2||SOFT LITHOGRAPHY:2||amplified spontaneous emission (ASE):2||SMALL ORGANICMOLECULES:2||PHOTONIC CRYSTAL:2||micropipes:2||radiology:2||ALLOY:2||Xray scattering:2||CRITICALCURRENT DENSITY:2||ELECTRONMICROSCOPY:2||BI(PB)SRCACUO:2||ELECTRONICSTRUCTURE:2||RECONSTRUCTION:2||MG:2||ohmic contact:2||Pd ohmic contact:2||xray scattering:2||INP:2||annealing:2||REGENERATION:2||TITANIUM:2||COLLOIDAL GOLD:2||crystallization:2||BUCKLING MECHANICS:2||LASERS:2||MODES:2||synchrotron imaging:2||lattice distortion:2||AQUEOUSELECTROLYTE:2||MOLECULARDYNAMICS:2||OXIDE:2||MICROANGIOGRAPHY:2||OXIDATION:2||MICRORADIOLOGY:2||TECHNOLOGY:2||GE:2||surface chemistry:2||RECOVERY:2||OHMIC CONTACTS:2||LASERDIODES:2||PTYPE GAN:2||MOTION:2||PHANTOM:2||PHASE:2||CALCIUMPHOSPHATE CERAMICS:2||REPAIR:2||porphyrin:2||AMPLIFIED SPONTANEOUS EMISSION:2||METALELECTRODES:2||PD:2||SUPERCONDUCTING TAPES:2||nucleation:2||COATINGS:2||Xray topography:2||MONOLAYERS:2||SURFACE MODIFICATION:2||LITHOGRAPHY:2||MECHANICAL VENTILATION:1||MICRORIBBONS:1||STIFFNESS:1||DUALPHASE STEEL:1||growth mode:1||strain evolution:1||SI(100):1||ANISOTROPY:1||WET GRANULAR PILE:1||COALESCENCE:1||INSITU POLYMERIZATION:1||GRAPHENE:1||CANCER:1||NODULES:1||RABBITS:1||phasecontrast:1||YTTRIUMOXIDE FILMS:1||BaTiO3/SrTiO3:1||dental implant:1||coincidence site density:1||ERNI2B2C:1||crystallites:1||CoCrPt films:1||tensile strain:1||gallide:1||MGO:1||Baferrite film:1||synchrotron xray scattering:1||ZNO THINFILMS:1||MORPHOLOGY:1||PHASES:1||MICE:1||EBEAM LITHOGRAPHY:1||electrorheological fluids:1||NANOFIBROUS MEMBRANES:1||NANOLITHOGRAPHY:1||refractive index radiology:1||BLOOD:1||colloidal:1||SIZE CONTROL:1||nanoradiology:1||ZnSO4:1||lung injury:1||METAL:1||PM10:1||textured grain:1||MICROSTRUCTURE:1||DIMENSIONS:1||highresolution Xray diffraction:1||low temperature buffer:1||Zinc compounds:1||SI:1||HUMAN LONGEVITY:1||Maximum human lifespan:1||LIMITS:1||MOSFETS:1||in situ XANES:1||nanowires:1||PHOTOIRRADIATION:1||FIBERS:1||WORK:1||EMISSION:1||RADIATION MICROTOMOGRAPHY:1||RAMANSCATTERING:1||gold nanoparticles:1||synchrotron Xray diffraction:1||OPTICAL WAVEGUIDES:1||CONDUCTINGPOLYMER NANOWIRE:1||Lung cancer:1||INTRAVENOUS CORONARYARTERIOGRAPHY:1||SUBLIMATION GROWTH:1||radiography:1||porous SiC:1||GIANT MAGNETORESISTANCE:1||SEMICONDUCTORS:1||Ga diffusion:1||electroless deposition:1||HEMATITE:1||FREEELECTRON LASER:1||MOCVD:1||interfaces:1||white beam:1||imaging technique:1||nucleation layer:1||interface structure:1||epitaxial Baferrite film:1||rf magnetron sputtering:1||MAGNETIC CHARACTERISTICS:1||MIXTURE:1||ACCESS MEMORY APPLICATION:1||COHERENCY STRAIN:1||DENSITY:1||nanofabrication:1||POLY(METHYL METHACRYLATE) MICROSPHERE:1||RESIST:1||unmonochromatic beam:1||MICRORADIOGRAPHY:1||INTERFEROMETER:1||EXPOSURE:1||volume variation electronic:1||PULSEDLASER ABLATION:1||Semiconducting IIVI materials:1||Light emitting diodes:1||phase contrast microscopies:1||lung:1||AUGERELECTRON SPECTROSCOPY:1||passivation:1||additive manufacturing:1||Silicon carbide:1||Synchrotron radiation:1||Synchrotron radiation imaging:1||Dislocations (crystals):1||LUNG INJURY:1||POLYMER SURFACES:1||SINGLE CELLS:1||PREFERRED ORIENTATION:1||sapphire orientation:1||TANTALUM:1||BIASENHANCED NUCLEATION:1||hexaferrite:1||stretched exponential:1||SOLIDSURFACE:1||SHEAR:1||VIDEO MICROSCOPY:1||CARBON NANOTUBES:1||realtime observation:1||Xray synchrotron:1||CARBONMONOXIDE:1||ELECTROCHEMICAL FABRICATION:1||crystal growth:1||computer simulation:1||FERROELECTRICFILMS:1||TITANIUM IMPLANTS:1||BONE INTERFACE:1||EXAFS perpendicular magnetic recording:1||Pd/Ni:1||ELECTRODES:1||internal organ:1||LIGHTEMITTINGDIODES:1||interfacial structure:1||CONSTANT:1||DIELECTRICPROPERTIES:1||AR:1||DEVICES:1||BiSrCaCuO:1||LASER ABLATION:1||MECHANISM:1||SELECTIVE DEPOSITION:1||TARGETED DRUGDELIVERY:1||PEG:1||carbon 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CONFIGURATIONS:1||MGO(100):1||SPECTROSCOPY:1||XE:1||IONBEAM:1||GRAINBOUNDARY MIGRATION:1||SRTIO3:1||COMPOSITES:1||FOAMS:1||BREASTCANCER SPECIMENS:1||unmonochromatized:1||Xray induced nucleation:1||gold:1||ABSORPTION:1||SEPARATION:1||CZOCHRALSKI GROWTH:1||RETRIEVAL:1||GAMMARADIATION:1||AQUEOUSSOLUTION:1||NANOCOMPOSITES:1||INCREASE:1||without staining procedure:1||XPS:1||Imaging techniques:1||Interfaces (materials):1||Dislocation distributions:1||AZOBENZENE:1||STRUCTURAL EVOLUTION:1||RELAXATION:1||DROP IMPACT:1||NONLINEAR DYNAMICS:1||DISLOCATIONS:1||Colloids:1||TRANSFORMATION:1||METAL INTERCONNECTS:1||ELASTIC CONDUCTORS:1||LOGIC:1||DEFICIENT MICE:1||tomography:1||FACILITY:1||osseointegration:1||ROCKS:1||dental radiography:1||Zn coating:1||RE2O3/Ni:1||YBCO COATED CONDUCTORS:1||threedimensional islands:1||(Ba,Sr)TiO3:1||ultrahigh resolution:1||photoelectron emission:1||Pd:1||LANIO3:1||BASE ELECTRODES:1||iron oxide phase:1||ironoxide interlayer:1||COATED GLASS SUBSTRATE:1||MICROWAVE PLASMA 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AIR:1||ATMOSPHERE:1||XRAY INTERFEROMETER:1||NiAu composite nanoparticles.:1||synchrotron radiation Xrays:1||microtomography:1||OIL FLYASH:1||zinc oxide:1||mammography:1||SrRuO3 film:1||Laser epitaxy:1||HOLE MOBILITY:1||Models of crystal defects:1||RABBIT LUNGS:1||NI/AU CONTACT:1||3D printing:1||Stress relaxation:1||SURFACEAREA:1||IMAGE:1||modulation transfer function (MTF):1||Pb ions:1||Insitu visualization:1||Interfacial tension:1||DISPERSION FORCES:1||SINGLECRYSTALS:1||XRAY SOURCE:1||Synchrotron Xray imaging:1||Realtime imaging:1||MEDICAL APPLICATIONS:1||wiggler bending magnet:1||undulator:1||diffractionenhanced imaging:1||ZnO film:1||CAPACITORS:1||HE3:1||NiP alloy:1||PHOTOCHEMICAL FORMATION:1||extended domain matching:1||cubetextured Ni substrates:1||RAY COMPUTEDTOMOGRAPHY:1||electrode layer:1||DOMAINSTRUCTURE:1||XRAY CT:1||SPECIMEN:1||mammographic phantom:1||Xray absorption spectroscopy:1||BLUE:1||CONTACT:1||(BA:1||synchrotron spectromicroscopy:1||thin film:1||MICROWAVE PLASMA:1||GOLD NANOPARTICLES:1||POLYMERIZATION:1||DISEASE:1||Shanghai:1||MORTALITY:1||HETEROSTRUCTURES:1||METHACRYLATE:1||prostate cancer:1||renal cell carcinoma:1||RATS:1||PULSEDLASER DEPOSITION:1||semiconducting IIVI materials:1||PATTERNS:1||sapphire:1||evaporation:1||ZINCOXIDE:1||LIGHTEMITTING DIODE:1||Synchrotron imaging:1||Dislocations:1||Cracks:1||LIVE:1||spinal cord:1||stainless steel:1||nanophotonics:1||subwavelength waveguides:1||Synchrotrons:1||High dislocation density:1||Misfit stress relaxations:1||Randomly distributed:1||Tripleaxis xray diffractions:1||FLOW:1||CRYSTALLINE ORGANIC NANORODS:1||SHAPE CHANGES:1||ZnO thin film:1||(111)SI:1||XRAY MIRRORS:1||low temperature:1||oxide cathodes:1||heterogeneity:1||Xray microscopy:1||INTERFACIAL TENSIONS:1||single crystal growth:1||CARCINOMA:1||mouse:1||ANIMALS:1||Mndoped ZnO:1||luminescence:1||solution precipitation:1||CLUSTER:1||relaxation:1||ALPHAFE2O3:1||XANES:1||epitaxy:1||LaNiO3 thin film:1||LANIO3 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ELECTRONMICROSCOPY:2||EPITAXIAL COSI2 FILMS:2||MECHANISMS:2||INSITU GROWTH:2||DEVICE:2||LOCALIZED ELECTROCHEMICAL DEPOSITION:2||X ray diffraction:2||SCHOTTKY CONTACT:2||IRRADIATION:2||aqua regia treatment:2||INVIVO:2||CELLADHESION:2||MORPHOGENETIC PROTEIN2:2||RECEPTOR:2||TEM:2||broadband synchrotron light:2||nanoparticle:2||BUFFER LAYERS:2||TC:2||ENHANCED SYNCHROTRON RADIOLOGY:2||synthesis:2||POLYDIMETHYLSILOXANE:2||MICROCHANNELS:2||PRETREATMENT PROCESS:2||XRAY:2||CHEMOTAXIS:2||MECHANOSENSORY TRANSDUCTION:2||rectangular microtube:2||CONJUGATED POLYMER:2||atomic force microscopy:2||METALLIC OXIDE SRRUO3:2||LASERABLATION:2||STRESS:2||ZONE PLATES:2||FRICTION:2||THERMALSTABILITY:2||Xrays:2||RAY:2||NM:2||ENERGY:2||TOPOGRAPHY:2||synchrotron Xray:2||ACID HYDROGELS:2||CAENORHABDITISELEGANS:2||PROTEIN:2||defects:2||EVOLUTION:2||FABRICATION:2||sharp bending waveguide:2||lasing action:2||BULK CRYSTALS:2||SUPERLATTICES:2||COATED CONDUCTORS:2||SI(111):2||phase contrast:2||CORONARY 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nanoparticles:1||synchrotron Xray diffraction:1||OPTICAL WAVEGUIDES:1||CONDUCTINGPOLYMER NANOWIRE:1||Lung cancer:1||INTRAVENOUS CORONARYARTERIOGRAPHY:1||SUBLIMATION GROWTH:1||radiography:1||porous SiC:1||GIANT MAGNETORESISTANCE:1||SEMICONDUCTORS:1||Ga diffusion:1||electroless deposition:1||HEMATITE:1||FREEELECTRON LASER:1||MOCVD:1||interfaces:1||white beam:1||imaging technique:1||nucleation layer:1||interface structure:1||epitaxial Baferrite film:1||rf magnetron sputtering:1||MAGNETIC CHARACTERISTICS:1||MIXTURE:1||ACCESS MEMORY APPLICATION:1||COHERENCY STRAIN:1||DENSITY:1||nanofabrication:1||POLY(METHYL METHACRYLATE) MICROSPHERE:1||RESIST:1||unmonochromatic beam:1||MICRORADIOGRAPHY:1||INTERFEROMETER:1||EXPOSURE:1||volume variation electronic:1||PULSEDLASER ABLATION:1||Semiconducting IIVI materials:1||Light emitting diodes:1||phase contrast microscopies:1||lung:1||AUGERELECTRON SPECTROSCOPY:1||passivation:1||additive manufacturing:1||Silicon carbide:1||Synchrotron radiation:1||Synchrotron radiation imaging:1||Dislocations (crystals):1||LUNG INJURY:1||POLYMER SURFACES:1||SINGLE CELLS:1||PREFERRED ORIENTATION:1||sapphire orientation:1||TANTALUM:1||BIASENHANCED NUCLEATION:1||hexaferrite:1||stretched exponential:1||SOLIDSURFACE:1||SHEAR:1||VIDEO MICROSCOPY:1||CARBON NANOTUBES:1||realtime observation:1||Xray synchrotron:1||CARBONMONOXIDE:1||ELECTROCHEMICAL FABRICATION:1||crystal growth:1||computer simulation:1||FERROELECTRICFILMS:1||TITANIUM IMPLANTS:1||BONE INTERFACE:1||EXAFS perpendicular magnetic recording:1||Pd/Ni:1||ELECTRODES:1||internal organ:1||LIGHTEMITTINGDIODES:1||interfacial structure:1||CONSTANT:1||DIELECTRICPROPERTIES:1||AR:1||DEVICES:1||BiSrCaCuO:1||LASER ABLATION:1||MECHANISM:1||SELECTIVE DEPOSITION:1||TARGETED DRUGDELIVERY:1||PEG:1||carbon nanotubes:1||nanocharacterization:1||WALLED CARBON NANOTUBE:1||basal cell carcinoma:1||PARTICULATE AIRPOLLUTION:1||FINE:1||CITIES:1||DOPED ZNO FILMS:1||atherosclerosis:1||drug delivery:1||hard 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microradiography:1||FeSO4:1||INDUCTION:1||BaTiO3 and SrTiO3 thin films:1||HARDXRAYS:1||light emitting diodes:1||ACID:1||MICROSTRUCTURES:1||PHOTOLUMINESCENCE PROPERTIES:1||LASER IRRADIATION:1||Human aging:1||polychromatic synchrotron Xray:1||refraction enhanced imaging:1||CHROMOPHORES:1||ACUTE LUNG INJURY:1||spatial resolution:1||BETAFESI2:1||VLSI:1||SI1XGEX:1||COLLOIDAL SUSPENSIONS:1||ELECTRONICS:1||ENHANCEMENT:1||artificial lattice:1||sinters:1||SILVER:1||STRAIN RELAXATION:1||biaxial texture:1||synchrotron scattering:1||transmission electron microscopy:1||IRONOXIDE FILMS:1||PZT thin film:1||ferroelectric thin film:1||MISFIT RELAXATION MECHANISMS:1||PBTIO3:1||O2:1||CONDUCTING POLYMERS:1||poly(methylmethancrylate):1||microspheres:1||phase contrast Xray microscope:1||AMBIENT AIR:1||ATMOSPHERE:1||XRAY INTERFEROMETER:1||NiAu composite nanoparticles.:1||synchrotron radiation Xrays:1||microtomography:1||OIL FLYASH:1||zinc oxide:1||mammography:1||SrRuO3 film:1||Laser epitaxy:1||HOLE MOBILITY:1||Models of crystal defects:1||RABBIT LUNGS:1||NI/AU CONTACT:1||3D printing:1||Stress relaxation:1||SURFACEAREA:1||IMAGE:1||modulation transfer function (MTF):1||Pb ions:1||Insitu visualization:1||Interfacial tension:1||DISPERSION FORCES:1||SINGLECRYSTALS:1||XRAY SOURCE:1||Synchrotron Xray imaging:1||Realtime imaging:1||MEDICAL APPLICATIONS:1||wiggler bending magnet:1||undulator:1||diffractionenhanced imaging:1||ZnO film:1||CAPACITORS:1||HE3:1||NiP alloy:1||PHOTOCHEMICAL FORMATION:1||extended domain matching:1||cubetextured Ni substrates:1||RAY COMPUTEDTOMOGRAPHY:1||electrode layer:1||DOMAINSTRUCTURE:1||XRAY CT:1||SPECIMEN:1||mammographic phantom:1||Xray absorption spectroscopy:1||BLUE:1||CONTACT:1||(BA:1||synchrotron spectromicroscopy:1||thin film:1||MICROWAVE PLASMA:1||GOLD NANOPARTICLES:1||POLYMERIZATION:1||DISEASE:1||Shanghai:1||MORTALITY:1||HETEROSTRUCTURES:1||METHACRYLATE:1||prostate cancer:1||renal cell carcinoma:1||RATS:1||PULSEDLASER DEPOSITION:1||semiconducting IIVI materials:1||PATTERNS:1||sapphire:1||evaporation:1||ZINCOXIDE:1||LIGHTEMITTING DIODE:1||Synchrotron imaging:1||Dislocations:1||Cracks:1||LIVE:1||spinal cord:1||stainless steel:1||nanophotonics:1||subwavelength waveguides:1||Synchrotrons:1||High dislocation density:1||Misfit stress relaxations:1||Randomly distributed:1||Tripleaxis xray diffractions:1||FLOW:1||CRYSTALLINE ORGANIC NANORODS:1||SHAPE CHANGES:1||ZnO thin film:1||(111)SI:1||XRAY MIRRORS:1||low temperature:1||oxide cathodes:1||heterogeneity:1||Xray microscopy:1||INTERFACIAL TENSIONS:1||single crystal growth:1||CARCINOMA:1||mouse:1||ANIMALS:1||Mndoped ZnO:1||luminescence:1||solution precipitation:1||CLUSTER:1||relaxation:1||ALPHAFE2O3:1||XANES:1||epitaxy:1||LaNiO3 thin film:1||LANIO3 THINFILMS:1||ELECTRODE:1||Fe3O4 sublayer:1||EXAFS microscopy:1||FERRITE FILMS:1||SURFACE PRETREATMENTS:1||superconductors:1||CONTRAST AGENT:1||BIODISTRIBUTION:1||DEATH:1||SYNCHROTRON:1||IR:1||apo Eknockout 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GaN:4||MICROSCOPY:4||REDUCTION:4||POLYMER:4||DEFECTS:3||COHERENCE:3||MICROTOMOGRAPHY:3||NANOPARTICLES:3||synchrotron:3||LIGHT:3||TRANSISTORS:3||SURFACES:3||STRAIN:3||EPITAXIAL LAYERS:3||DRUGDELIVERY:3||REFRACTION:3||growth mechanism:3||METALS:3||MICROPIPES:3||SYSTEM:3||NUCLEATION:3||synchrotron Xray scattering:3||SURFACE:3||SCREW DISLOCATIONS:3||SIMULATION:3||HARD XRAYS:3||ELECTRICALPROPERTIES:3||EPITAXY:3||GAN:3||PM2.5:3||EVAPORATION:3||LIQUIDS:3||INPLANE:3||RAT:3||ANGIOGENESIS:3||CT:3||GaN:3||ZnO:3||NANORODS:3||strain:3||PB(ZR0.53TI0.47)O3:3||CRYSTALLIZATION:3||synchrotron Xrays:2||buffer layer:2||TRANSMISSION ELECTRONMICROSCOPY:2||EPITAXIAL COSI2 FILMS:2||MECHANISMS:2||INSITU GROWTH:2||DEVICE:2||LOCALIZED ELECTROCHEMICAL DEPOSITION:2||X ray diffraction:2||SCHOTTKY CONTACT:2||IRRADIATION:2||aqua regia treatment:2||INVIVO:2||CELLADHESION:2||MORPHOGENETIC PROTEIN2:2||RECEPTOR:2||TEM:2||broadband synchrotron light:2||nanoparticle:2||BUFFER LAYERS:2||TC:2||ENHANCED SYNCHROTRON RADIOLOGY:2||synthesis:2||POLYDIMETHYLSILOXANE:2||MICROCHANNELS:2||PRETREATMENT PROCESS:2||XRAY:2||CHEMOTAXIS:2||MECHANOSENSORY TRANSDUCTION:2||rectangular microtube:2||CONJUGATED POLYMER:2||atomic force microscopy:2||METALLIC OXIDE SRRUO3:2||LASERABLATION:2||STRESS:2||ZONE PLATES:2||FRICTION:2||THERMALSTABILITY:2||Xrays:2||RAY:2||NM:2||ENERGY:2||TOPOGRAPHY:2||synchrotron Xray:2||ACID HYDROGELS:2||CAENORHABDITISELEGANS:2||PROTEIN:2||defects:2||EVOLUTION:2||FABRICATION:2||sharp bending waveguide:2||lasing action:2||BULK CRYSTALS:2||SUPERLATTICES:2||COATED CONDUCTORS:2||SI(111):2||phase contrast:2||CORONARY ANGIOGRAPHY:2||SPECTROMICROSCOPY:2||MEPHISTO:2||OXYGEN:2||OPTICALPROPERTIES:2||RADIOGRAPHY:2||CONTACT DEFORMATIONS:2||MOLECULAR FORCES:2||SOLIDS:2||NTYPE GAN:2||deposition:2||CHEMISTRY:2||DEFORMATION:2||SUBSTRATE:2||HETEROEPITAXY:2||NANOTOPOGRAPHY:2||EPITAXIALGROWTH:2||Xray:2||CHEMICAL VAPORDEPOSITION:2||SILICON STRUCTURES:2||STEMCELLS:2||CHANNEL:2||crystal 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Xray:1||BIPOLARTRANSISTORS:1||longevity:1||Confocal microscopy:1||Colloidal wettability:1||ATOMICFORCE MICROSCOPY:1||storage ring:1||digital subtraction:1||SCATTERING:1||size effect:1||SYNTHETIC QUARTZ:1||liquid metal embrittlement:1||iron ore:1||cube textured Ni substrates:1||SrRuO3 films:1||laser ablations:1||Ti underlayer:1||RANDOMACCESS MEMORIES:1||DOMAIN CONFIGURATIONS:1||MGO(100):1||SPECTROSCOPY:1||XE:1||IONBEAM:1||GRAINBOUNDARY MIGRATION:1||SRTIO3:1||COMPOSITES:1||FOAMS:1||BREASTCANCER SPECIMENS:1||unmonochromatized:1||Xray induced nucleation:1||gold:1||ABSORPTION:1||SEPARATION:1||CZOCHRALSKI GROWTH:1||RETRIEVAL:1||GAMMARADIATION:1||AQUEOUSSOLUTION:1||NANOCOMPOSITES:1||INCREASE:1||without staining procedure:1||XPS:1||Imaging techniques:1||Interfaces (materials):1||Dislocation distributions:1||AZOBENZENE:1||STRUCTURAL EVOLUTION:1||RELAXATION:1||DROP IMPACT:1||NONLINEAR DYNAMICS:1||DISLOCATIONS:1||Colloids:1||TRANSFORMATION:1||METAL INTERCONNECTS:1||ELASTIC CONDUCTORS:1||LOGIC:1||DEFICIENT MICE:1||tomography:1||FACILITY:1||osseointegration:1||ROCKS:1||dental radiography:1||Zn coating:1||RE2O3/Ni:1||YBCO COATED CONDUCTORS:1||threedimensional islands:1||(Ba,Sr)TiO3:1||ultrahigh resolution:1||photoelectron emission:1||Pd:1||LANIO3:1||BASE ELECTRODES:1||iron oxide phase:1||ironoxide interlayer:1||COATED GLASS SUBSTRATE:1||MICROWAVE PLASMA NUCLEATION:1||ENHANCED NUCLEATION:1||phase transformation:1||ADSORPTION:1||phasecontrast xray imaging:1||lung inflammation:1||SI1XGEX SINGLECRYSTALS:1||COCONTINUITY:1||SCALE:1||OBJECT:1||synchrotron microradiography:1||FeSO4:1||INDUCTION:1||BaTiO3 and SrTiO3 thin films:1||HARDXRAYS:1||light emitting diodes:1||ACID:1||MICROSTRUCTURES:1||PHOTOLUMINESCENCE PROPERTIES:1||LASER IRRADIATION:1||Human aging:1||polychromatic synchrotron Xray:1||refraction enhanced imaging:1||CHROMOPHORES:1||ACUTE LUNG INJURY:1||spatial resolution:1||BETAFESI2:1||VLSI:1||SI1XGEX:1||COLLOIDAL SUSPENSIONS:1||ELECTRONICS:1||ENHANCEMENT:1||artificial lattice:1||sinters:1||SILVER:1||STRAIN RELAXATION:1||biaxial texture:1||synchrotron scattering:1||transmission electron microscopy:1||IRONOXIDE FILMS:1||PZT thin film:1||ferroelectric thin film:1||MISFIT RELAXATION MECHANISMS:1||PBTIO3:1||O2:1||CONDUCTING POLYMERS:1||poly(methylmethancrylate):1||microspheres:1||phase contrast Xray microscope:1||AMBIENT AIR:1||ATMOSPHERE:1||XRAY INTERFEROMETER:1||NiAu composite nanoparticles.:1||synchrotron radiation Xrays:1||microtomography:1||OIL FLYASH:1||zinc oxide:1||mammography:1||SrRuO3 film:1||Laser epitaxy:1||HOLE MOBILITY:1||Models of crystal defects:1||RABBIT LUNGS:1||NI/AU CONTACT:1||3D printing:1||Stress relaxation:1||SURFACEAREA:1||IMAGE:1||modulation transfer function (MTF):1||Pb ions:1||Insitu visualization:1||Interfacial tension:1||DISPERSION FORCES:1||SINGLECRYSTALS:1||XRAY SOURCE:1||Synchrotron Xray imaging:1||Realtime imaging:1||MEDICAL APPLICATIONS:1||wiggler bending magnet:1||undulator:1||diffractionenhanced imaging:1||ZnO film:1||CAPACITORS:1||HE3:1||NiP alloy:1||PHOTOCHEMICAL FORMATION:1||extended domain matching:1||cubetextured Ni substrates:1||RAY COMPUTEDTOMOGRAPHY:1||electrode layer:1||DOMAINSTRUCTURE:1||XRAY CT:1||SPECIMEN:1||mammographic phantom:1||Xray absorption spectroscopy:1||BLUE:1||CONTACT:1||(BA:1||synchrotron spectromicroscopy:1||thin film:1||MICROWAVE PLASMA:1||GOLD NANOPARTICLES:1||POLYMERIZATION:1||DISEASE:1||Shanghai:1||MORTALITY:1||HETEROSTRUCTURES:1||METHACRYLATE:1||prostate cancer:1||renal cell carcinoma:1||RATS:1||PULSEDLASER DEPOSITION:1||semiconducting IIVI materials:1||PATTERNS:1||sapphire:1||evaporation:1||ZINCOXIDE:1||LIGHTEMITTING DIODE:1||Synchrotron imaging:1||Dislocations:1||Cracks:1||LIVE:1||spinal cord:1||stainless steel:1||nanophotonics:1||subwavelength waveguides:1||Synchrotrons:1||High dislocation density:1||Misfit stress relaxations:1||Randomly distributed:1||Tripleaxis xray diffractions:1||FLOW:1||CRYSTALLINE ORGANIC NANORODS:1||SHAPE CHANGES:1||ZnO thin film:1||(111)SI:1||XRAY MIRRORS:1||low temperature:1||oxide cathodes:1||heterogeneity:1||Xray microscopy:1||INTERFACIAL TENSIONS:1||single crystal growth:1||CARCINOMA:1||mouse:1||ANIMALS:1||Mndoped ZnO:1||luminescence:1||solution precipitation:1||CLUSTER:1||relaxation:1||ALPHAFE2O3:1||XANES:1||epitaxy:1||LaNiO3 thin film:1||LANIO3 THINFILMS:1||ELECTRODE:1||Fe3O4 sublayer:1||EXAFS microscopy:1||FERRITE FILMS:1||SURFACE PRETREATMENTS:1||superconductors:1||CONTRAST AGENT:1||BIODISTRIBUTION:1||DEATH:1||SYNCHROTRON:1||IR:1||apo Eknockout mouse:1||plaque:1||microradiology:1||ALPHASYNUCLEIN:1||PULMONARY TOXICITY:1||XRAY TOPOGRAPHY:1||dislocation:1||metalorganic chemical vapor deposition:1||CRYSTALGROWTH:1||SELFASSEMBLED MONOLAYERS:1||MEMBRANES:1||MAGNETICANISOTROPY:1||SI1XGEX CRYSTALS:1||STRAINEDSI:1||Extended Weibull model:1||MOLYBDENUM:1||ALLOYS:1||IRON:1||Theoretical modeling:1||Threading dislocation:1||GROWTH:27||THINFILMS:16||SYNCHROTRONRADIATION:15||CONTRAST:11||RADIOLOGY:11||PARTICLES:11||FILMS:11||SILICON:10||RADIATION:10||DEPOSITION:10||RESOLUTION:9||CRYSTALS:8||SILICONCARBIDE:7||XRAYS:7||MAMMOGRAPHY:7||Xray diffraction:7||synchrotron radiation:6||XRAYSCATTERING:6||MODEL:6||microstructure:6||DYNAMICS:5||ELECTRODEPOSITION:5||LAYERS:5||CHEMICALVAPORDEPOSITION:5||TEMPERATURE:5||TOMOGRAPHY:5||COMPUTEDTOMOGRAPHY:5||SAPPHIRE:5||MEDIA:5||NANOWIRES:5||DIFFRACTION:4||TISSUES:4||pulsed laser deposition:4||phase contrast imaging:4||LAYER:4||IMAGES:4||DIODES:4||FIELDEFFECT TRANSISTORS:4||ptype GaN:4||MICROSCOPY:4||REDUCTION:4||POLYMER:4||DEFECTS:3||COHERENCE:3||MICROTOMOGRAPHY:3||NANOPARTICLES:3||synchrotron:3||LIGHT:3||TRANSISTORS:3||SURFACES:3||STRAIN:3||EPITAXIAL LAYERS:3||DRUGDELIVERY:3||REFRACTION:3||growth mechanism:3||METALS:3||MICROPIPES:3||SYSTEM:3||NUCLEATION:3||synchrotron Xray scattering:3||SURFACE:3||SCREW DISLOCATIONS:3||SIMULATION:3||HARD XRAYS:3||ELECTRICALPROPERTIES:3||EPITAXY:3||GAN:3||PM2.5:3||EVAPORATION:3||LIQUIDS:3||INPLANE:3||RAT:3||ANGIOGENESIS:3||CT:3||GaN:3||ZnO:3||NANORODS:3||strain:3||PB(ZR0.53TI0.47)O3:3||CRYSTALLIZATION:3||synchrotron Xrays:2||buffer layer:2||TRANSMISSION ELECTRONMICROSCOPY:2||EPITAXIAL COSI2 FILMS:2||MECHANISMS:2||INSITU GROWTH:2||DEVICE:2||LOCALIZED ELECTROCHEMICAL DEPOSITION:2||X ray diffraction:2||SCHOTTKY CONTACT:2||IRRADIATION:2||aqua regia treatment:2||INVIVO:2||CELLADHESION:2||MORPHOGENETIC PROTEIN2:2||RECEPTOR:2||TEM:2||broadband synchrotron light:2||nanoparticle:2||BUFFER LAYERS:2||TC:2||ENHANCED SYNCHROTRON RADIOLOGY:2||synthesis:2||POLYDIMETHYLSILOXANE:2||MICROCHANNELS:2||PRETREATMENT PROCESS:2||XRAY:2||CHEMOTAXIS:2||MECHANOSENSORY TRANSDUCTION:2||rectangular microtube:2||CONJUGATED POLYMER:2||atomic force microscopy:2||METALLIC OXIDE SRRUO3:2||LASERABLATION:2||STRESS:2||ZONE PLATES:2||FRICTION:2||THERMALSTABILITY:2||Xrays:2||RAY:2||NM:2||ENERGY:2||TOPOGRAPHY:2||synchrotron Xray:2||ACID HYDROGELS:2||CAENORHABDITISELEGANS:2||PROTEIN:2||defects:2||EVOLUTION:2||FABRICATION:2||sharp bending waveguide:2||lasing action:2||BULK CRYSTALS:2||SUPERLATTICES:2||COATED CONDUCTORS:2||SI(111):2||phase contrast:2||CORONARY ANGIOGRAPHY:2||SPECTROMICROSCOPY:2||MEPHISTO:2||OXYGEN:2||OPTICALPROPERTIES:2||RADIOGRAPHY:2||CONTACT DEFORMATIONS:2||MOLECULAR FORCES:2||SOLIDS:2||NTYPE GAN:2||deposition:2||CHEMISTRY:2||DEFORMATION:2||SUBSTRATE:2||HETEROEPITAXY:2||NANOTOPOGRAPHY:2||EPITAXIALGROWTH:2||Xray:2||CHEMICAL VAPORDEPOSITION:2||SILICON STRUCTURES:2||STEMCELLS:2||CHANNEL:2||crystal structure:2||CORONARYANGIOGRAPHY:2||SiC:2||BUFFER LAYER:2||MOLECULARBEAM EPITAXY:2||INTERFACE:2||SIZE:2||ELECTRON:2||XRAY MICROSCOPY:2||MORPHOLOGIES:2||NANOCOLLOIDS:2||FORCE MICROSCOPY:2||ablation:2||polymers:2||(NH4)(2)Sx treatment:2||CLUSTERS:2||BIOMATERIALS:2||CIRCUITS:2||rectangular ring mode:2||GUIDES:2||MICROCAVITY:2||PHOTOLUMINESCENCE:2||epitaxial growth:2||EMBRITTLEMENT:2||Xray imaging:2||BIOCOMPATIBILITY:2||BEHAVIOR:2||MICROWAVEPLASMA:2||LOWPRESSURE:2||DEGRADATION:2||TISSUE:2||LIQUID:2||SOFT LITHOGRAPHY:2||amplified spontaneous emission (ASE):2||SMALL ORGANICMOLECULES:2||PHOTONIC CRYSTAL:2||micropipes:2||radiology:2||ALLOY:2||Xray scattering:2||CRITICALCURRENT DENSITY:2||ELECTRONMICROSCOPY:2||BI(PB)SRCACUO:2||ELECTRONICSTRUCTURE:2||RECONSTRUCTION:2||MG:2||ohmic contact:2||Pd ohmic contact:2||xray scattering:2||INP:2||annealing:2||REGENERATION:2||TITANIUM:2||COLLOIDAL GOLD:2||crystallization:2||BUCKLING MECHANICS:2||LASERS:2||MODES:2||synchrotron imaging:2||lattice distortion:2||AQUEOUSELECTROLYTE:2||MOLECULARDYNAMICS:2||OXIDE:2||MICROANGIOGRAPHY:2||OXIDATION:2||MICRORADIOLOGY:2||TECHNOLOGY:2||GE:2||surface chemistry:2||RECOVERY:2||OHMIC CONTACTS:2||LASERDIODES:2||PTYPE GAN:2||MOTION:2||PHANTOM:2||PHASE:2||CALCIUMPHOSPHATE CERAMICS:2||REPAIR:2||porphyrin:2||AMPLIFIED SPONTANEOUS EMISSION:2||METALELECTRODES:2||PD:2||SUPERCONDUCTING TAPES:2||nucleation:2||COATINGS:2||Xray topography:2||MONOLAYERS:2||SURFACE MODIFICATION:2||LITHOGRAPHY:2||MECHANICAL VENTILATION:1||MICRORIBBONS:1||STIFFNESS:1||DUALPHASE STEEL:1||growth mode:1||strain evolution:1||SI(100):1||ANISOTROPY:1||WET GRANULAR PILE:1||COALESCENCE:1||INSITU POLYMERIZATION:1||GRAPHENE:1||CANCER:1||NODULES:1||RABBITS:1||phasecontrast:1||YTTRIUMOXIDE FILMS:1||BaTiO3/SrTiO3:1||dental implant:1||coincidence site density:1||ERNI2B2C:1||crystallites:1||CoCrPt films:1||tensile strain:1||gallide:1||MGO:1||Baferrite film:1||synchrotron xray scattering:1||ZNO THINFILMS:1||MORPHOLOGY:1||PHASES:1||MICE:1||EBEAM LITHOGRAPHY:1||electrorheological fluids:1||NANOFIBROUS MEMBRANES:1||NANOLITHOGRAPHY:1||refractive index radiology:1||BLOOD:1||colloidal:1||SIZE CONTROL:1||nanoradiology:1||ZnSO4:1||lung injury:1||METAL:1||PM10:1||textured grain:1||MICROSTRUCTURE:1||DIMENSIONS:1||highresolution Xray diffraction:1||low temperature buffer:1||Zinc compounds:1||SI:1||HUMAN LONGEVITY:1||Maximum human lifespan:1||LIMITS:1||MOSFETS:1||in situ XANES:1||nanowires:1||PHOTOIRRADIATION:1||FIBERS:1||WORK:1||EMISSION:1||RADIATION MICROTOMOGRAPHY:1||RAMANSCATTERING:1||gold nanoparticles:1||synchrotron Xray diffraction:1||OPTICAL WAVEGUIDES:1||CONDUCTINGPOLYMER NANOWIRE:1||Lung cancer:1||INTRAVENOUS CORONARYARTERIOGRAPHY:1||SUBLIMATION GROWTH:1||radiography:1||porous SiC:1||GIANT MAGNETORESISTANCE:1||SEMICONDUCTORS:1||Ga diffusion:1||electroless deposition:1||HEMATITE:1||FREEELECTRON LASER:1||MOCVD:1||interfaces:1||white beam:1||imaging technique:1||nucleation layer:1||interface structure:1||epitaxial Baferrite film:1||rf magnetron sputtering:1||MAGNETIC CHARACTERISTICS:1||MIXTURE:1||ACCESS MEMORY APPLICATION:1||COHERENCY STRAIN:1||DENSITY:1||nanofabrication:1||POLY(METHYL METHACRYLATE) MICROSPHERE:1||RESIST:1||unmonochromatic beam:1||MICRORADIOGRAPHY:1||INTERFEROMETER:1||EXPOSURE:1||volume variation electronic:1||PULSEDLASER ABLATION:1||Semiconducting IIVI materials:1||Light emitting diodes:1||phase contrast microscopies:1||lung:1||AUGERELECTRON SPECTROSCOPY:1||passivation:1||additive manufacturing:1||Silicon carbide:1||Synchrotron radiation:1||Synchrotron radiation imaging:1||Dislocations (crystals):1||LUNG INJURY:1||POLYMER SURFACES:1||SINGLE CELLS:1||PREFERRED ORIENTATION:1||sapphire orientation:1||TANTALUM:1||BIASENHANCED NUCLEATION:1||hexaferrite:1||stretched exponential:1||SOLIDSURFACE:1||SHEAR:1||VIDEO MICROSCOPY:1||CARBON NANOTUBES:1||realtime observation:1||Xray synchrotron:1||CARBONMONOXIDE:1||ELECTROCHEMICAL FABRICATION:1||crystal growth:1||computer simulation:1||FERROELECTRICFILMS:1||TITANIUM IMPLANTS:1||BONE INTERFACE:1||EXAFS perpendicular magnetic recording:1||Pd/Ni:1||ELECTRODES:1||internal organ:1||LIGHTEMITTINGDIODES:1||interfacial structure:1||CONSTANT:1||DIELECTRICPROPERTIES:1||AR:1||DEVICES:1||BiSrCaCuO:1||LASER ABLATION:1||MECHANISM:1||SELECTIVE DEPOSITION:1||TARGETED DRUGDELIVERY:1||PEG:1||carbon nanotubes:1||nanocharacterization:1||WALLED CARBON NANOTUBE:1||basal cell carcinoma:1||PARTICULATE AIRPOLLUTION:1||FINE:1||CITIES:1||DOPED ZNO FILMS:1||atherosclerosis:1||drug delivery:1||hard Xray:1||COMBUSTION:1||ARTIFICIAL BATIO3/SRTIO3 SUPERLATTICES:1||surface morphology:1||Direct wafer bonding:1||COLLOIDAL GOLD PARTICLES:1||DELINEATION:1||EXPECTANCY:1||DEMOGRAPHY:1||MRI:1||SIGE:1||Phase contrast microradiography:1||INJURY:1||PASSIVITY:1||VOLUME:1||CONTACTANGLE:1||ARRAYS:1||DUCTILITY:1||sputtering:1||computed microtomography (mu CT):1||unmonochromatized Xray:1||BIPOLARTRANSISTORS:1||longevity:1||Confocal microscopy:1||Colloidal wettability:1||ATOMICFORCE MICROSCOPY:1||storage ring:1||digital subtraction:1||SCATTERING:1||size effect:1||SYNTHETIC QUARTZ:1||liquid metal embrittlement:1||iron ore:1||cube textured Ni substrates:1||SrRuO3 films:1||laser ablations:1||Ti underlayer:1||RANDOMACCESS MEMORIES:1||DOMAIN CONFIGURATIONS:1||MGO(100):1||SPECTROSCOPY:1||XE:1||IONBEAM:1||GRAINBOUNDARY MIGRATION:1||SRTIO3:1||COMPOSITES:1||FOAMS:1||BREASTCANCER SPECIMENS:1||unmonochromatized:1||Xray induced nucleation:1||gold:1||ABSORPTION:1||SEPARATION:1||CZOCHRALSKI GROWTH:1||RETRIEVAL:1||GAMMARADIATION:1||AQUEOUSSOLUTION:1||NANOCOMPOSITES:1||INCREASE:1||without staining procedure:1||XPS:1||Imaging techniques:1||Interfaces (materials):1||Dislocation distributions:1||AZOBENZENE:1||STRUCTURAL EVOLUTION:1||RELAXATION:1||DROP IMPACT:1||NONLINEAR DYNAMICS:1||DISLOCATIONS:1||Colloids:1||TRANSFORMATION:1||METAL INTERCONNECTS:1||ELASTIC CONDUCTORS:1||LOGIC:1||DEFICIENT MICE:1||tomography:1||FACILITY:1||osseointegration:1||ROCKS:1||dental radiography:1||Zn coating:1||RE2O3/Ni:1||YBCO COATED CONDUCTORS:1||threedimensional islands:1||(Ba,Sr)TiO3:1||ultrahigh resolution:1||photoelectron emission:1||Pd:1||LANIO3:1||BASE ELECTRODES:1||iron oxide phase:1||ironoxide interlayer:1||COATED GLASS SUBSTRATE:1||MICROWAVE PLASMA NUCLEATION:1||ENHANCED NUCLEATION:1||phase transformation:1||ADSORPTION:1||phasecontrast xray imaging:1||lung inflammation:1||SI1XGEX SINGLECRYSTALS:1||COCONTINUITY:1||SCALE:1||OBJECT:1||synchrotron microradiography:1||FeSO4:1||INDUCTION:1||BaTiO3 and SrTiO3 thin films:1||HARDXRAYS:1||light emitting diodes:1||ACID:1||MICROSTRUCTURES:1||PHOTOLUMINESCENCE PROPERTIES:1||LASER IRRADIATION:1||Human aging:1||polychromatic synchrotron Xray:1||refraction enhanced imaging:1||CHROMOPHORES:1||ACUTE LUNG INJURY:1||spatial resolution:1||BETAFESI2:1||VLSI:1||SI1XGEX:1||COLLOIDAL SUSPENSIONS:1||ELECTRONICS:1||ENHANCEMENT:1||artificial lattice:1||sinters:1||SILVER:1||STRAIN RELAXATION:1||biaxial texture:1||synchrotron scattering:1||transmission electron microscopy:1||IRONOXIDE FILMS:1||PZT thin film:1||ferroelectric thin film:1||MISFIT RELAXATION MECHANISMS:1||PBTIO3:1||O2:1||CONDUCTING POLYMERS:1||poly(methylmethancrylate):1||microspheres:1||phase contrast Xray microscope:1||AMBIENT AIR:1||ATMOSPHERE:1||XRAY INTERFEROMETER:1||NiAu composite nanoparticles.:1||synchrotron radiation Xrays:1||microtomography:1||OIL FLYASH:1||zinc oxide:1||mammography:1||SrRuO3 film:1||Laser epitaxy:1||HOLE MOBILITY:1||Models of crystal defects:1||RABBIT LUNGS:1||NI/AU CONTACT:1||3D printing:1||Stress relaxation:1||SURFACEAREA:1||IMAGE:1||modulation transfer function (MTF):1||Pb ions:1||Insitu visualization:1||Interfacial tension:1||DISPERSION FORCES:1||SINGLECRYSTALS:1||XRAY SOURCE:1||Synchrotron Xray imaging:1||Realtime imaging:1||MEDICAL APPLICATIONS:1||wiggler bending magnet:1||undulator:1||diffractionenhanced imaging:1||ZnO film:1||CAPACITORS:1||HE3:1||NiP alloy:1||PHOTOCHEMICAL FORMATION:1||extended domain matching:1||cubetextured Ni substrates:1||RAY COMPUTEDTOMOGRAPHY:1||electrode layer:1||DOMAINSTRUCTURE:1||XRAY CT:1||SPECIMEN:1||mammographic phantom:1||Xray absorption spectroscopy:1||BLUE:1||CONTACT:1||(BA:1||synchrotron spectromicroscopy:1||thin film:1||MICROWAVE PLASMA:1||GOLD NANOPARTICLES:1||POLYMERIZATION:1||DISEASE:1||Shanghai:1||MORTALITY:1||HETEROSTRUCTURES:1||METHACRYLATE:1||prostate cancer:1||renal cell carcinoma:1||RATS:1||PULSEDLASER DEPOSITION:1||semiconducting IIVI materials:1||PATTERNS:1||sapphire:1||evaporation:1||ZINCOXIDE:1||LIGHTEMITTING DIODE:1||Synchrotron imaging:1||Dislocations:1||Cracks:1||LIVE:1||spinal cord:1||stainless steel:1||nanophotonics:1||subwavelength waveguides:1||Synchrotrons:1||High dislocation density:1||Misfit stress relaxations:1||Randomly distributed:1||Tripleaxis xray diffractions:1||FLOW:1||CRYSTALLINE ORGANIC NANORODS:1||SHAPE CHANGES:1||ZnO thin film:1||(111)SI:1||XRAY MIRRORS:1||low temperature:1||oxide cathodes:1||heterogeneity:1||Xray microscopy:1||INTERFACIAL TENSIONS:1||single crystal growth:1||CARCINOMA:1||mouse:1||ANIMALS:1||Mndoped ZnO:1||luminescence:1||solution precipitation:1||CLUSTER:1||relaxation:1||ALPHAFE2O3:1||XANES:1||epitaxy:1||LaNiO3 thin film:1||LANIO3 THINFILMS:1||ELECTRODE:1||Fe3O4 sublayer:1||EXAFS microscopy:1||FERRITE FILMS:1||SURFACE PRETREATMENTS:1||superconductors:1||CONTRAST AGENT:1||BIODISTRIBUTION:1||DEATH:1||SYNCHROTRON:1||IR:1||apo Eknockout mouse:1||plaque:1||microradiology:1||ALPHASYNUCLEIN:1||PULMONARY TOXICITY:1||XRAY TOPOGRAPHY:1||dislocation:1||metalorganic chemical vapor deposition:1||CRYSTALGROWTH:1||SELFASSEMBLED MONOLAYERS:1||MEMBRANES:1||MAGNETICANISOTROPY:1||SI1XGEX CRYSTALS:1||STRAINEDSI:1||Extended Weibull model:1||MOLYBDENUM:1||ALLOYS:1||IRON:1||Theoretical modeling:1||Threading dislocation:1||GROWTH:27||THINFILMS:16||SYNCHROTRONRADIATION:15||CONTRAST:11||RADIOLOGY:11||PARTICLES:11||FILMS:11||SILICON:10||RADIATION:10||DEPOSITION:10||RESOLUTION:9||CRYSTALS:8||SILICONCARBIDE:7||XRAYS:7||MAMMOGRAPHY:7||Xray diffraction:7||synchrotron radiation:6||XRAYSCATTERING:6||MODEL:6||microstructure:6||DYNAMICS:5||ELECTRODEPOSITION:5||LAYERS:5||CHEMICALVAPORDEPOSITION:5||TEMPERATURE:5||TOMOGRAPHY:5||COMPUTEDTOMOGRAPHY:5||SAPPHIRE:5||MEDIA:5||NANOWIRES:5||DIFFRACTION:4||TISSUES:4||pulsed laser deposition:4||phase contrast imaging:4||LAYER:4||IMAGES:4||DIODES:4||FIELDEFFECT TRANSISTORS:4||ptype GaN:4||MICROSCOPY:4||REDUCTION:4||POLYMER:4||DEFECTS:3||COHERENCE:3||MICROTOMOGRAPHY:3||NANOPARTICLES:3||synchrotron:3||LIGHT:3||TRANSISTORS:3||SURFACES:3||STRAIN:3||EPITAXIAL LAYERS:3||DRUGDELIVERY:3||REFRACTION:3||growth mechanism:3||METALS:3||MICROPIPES:3||SYSTEM:3||NUCLEATION:3||synchrotron Xray scattering:3||SURFACE:3||SCREW DISLOCATIONS:3||SIMULATION:3||HARD XRAYS:3||ELECTRICALPROPERTIES:3||EPITAXY:3||GAN:3||PM2.5:3||EVAPORATION:3||LIQUIDS:3||INPLANE:3||RAT:3||ANGIOGENESIS:3||CT:3||GaN:3||ZnO:3||NANORODS:3||strain:3||PB(ZR0.53TI0.47)O3:3||CRYSTALLIZATION:3||synchrotron Xrays:2||buffer layer:2||TRANSMISSION ELECTRONMICROSCOPY:2||EPITAXIAL COSI2 FILMS:2||MECHANISMS:2||INSITU GROWTH:2||DEVICE:2||LOCALIZED ELECTROCHEMICAL DEPOSITION:2||X ray diffraction:2||SCHOTTKY CONTACT:2||IRRADIATION:2||aqua regia treatment:2||INVIVO:2||CELLADHESION:2||MORPHOGENETIC PROTEIN2:2||RECEPTOR:2||TEM:2||broadband synchrotron light:2||nanoparticle:2||BUFFER LAYERS:2||TC:2||ENHANCED SYNCHROTRON RADIOLOGY:2||synthesis:2||POLYDIMETHYLSILOXANE:2||MICROCHANNELS:2||PRETREATMENT PROCESS:2||XRAY:2||CHEMOTAXIS:2||MECHANOSENSORY TRANSDUCTION:2||rectangular microtube:2||CONJUGATED POLYMER:2||atomic force microscopy:2||METALLIC OXIDE SRRUO3:2||LASERABLATION:2||STRESS:2||ZONE PLATES:2||FRICTION:2||THERMALSTABILITY:2||Xrays:2||RAY:2||NM:2||ENERGY:2||TOPOGRAPHY:2||synchrotron Xray:2||ACID HYDROGELS:2||CAENORHABDITISELEGANS:2||PROTEIN:2||defects:2||EVOLUTION:2||FABRICATION:2||sharp bending waveguide:2||lasing action:2||BULK CRYSTALS:2||SUPERLATTICES:2||COATED CONDUCTORS:2||SI(111):2||phase contrast:2||CORONARY ANGIOGRAPHY:2||SPECTROMICROSCOPY:2||MEPHISTO:2||OXYGEN:2||OPTICALPROPERTIES:2||RADIOGRAPHY:2||CONTACT DEFORMATIONS:2||MOLECULAR FORCES:2||SOLIDS:2||NTYPE GAN:2||deposition:2||CHEMISTRY:2||DEFORMATION:2||SUBSTRATE:2||HETEROEPITAXY:2||NANOTOPOGRAPHY:2||EPITAXIALGROWTH:2||Xray:2||CHEMICAL VAPORDEPOSITION:2||SILICON STRUCTURES:2||STEMCELLS:2||CHANNEL:2||crystal structure:2||CORONARYANGIOGRAPHY:2||SiC:2||BUFFER LAYER:2||MOLECULARBEAM EPITAXY:2||INTERFACE:2||SIZE:2||ELECTRON:2||XRAY MICROSCOPY:2||MORPHOLOGIES:2||NANOCOLLOIDS:2||FORCE MICROSCOPY:2||ablation:2||polymers:2||(NH4)(2)Sx treatment:2||CLUSTERS:2||BIOMATERIALS:2||CIRCUITS:2||rectangular ring mode:2||GUIDES:2||MICROCAVITY:2||PHOTOLUMINESCENCE:2||epitaxial growth:2||EMBRITTLEMENT:2||Xray imaging:2||BIOCOMPATIBILITY:2||BEHAVIOR:2||MICROWAVEPLASMA:2||LOWPRESSURE:2||DEGRADATION:2||TISSUE:2||LIQUID:2||SOFT LITHOGRAPHY:2||amplified spontaneous emission (ASE):2||SMALL ORGANICMOLECULES:2||PHOTONIC CRYSTAL:2||micropipes:2||radiology:2||ALLOY:2||Xray scattering:2||CRITICALCURRENT DENSITY:2||ELECTRONMICROSCOPY:2||BI(PB)SRCACUO:2||ELECTRONICSTRUCTURE:2||RECONSTRUCTION:2||MG:2||ohmic contact:2||Pd ohmic contact:2||xray scattering:2||INP:2||annealing:2||REGENERATION:2||TITANIUM:2||COLLOIDAL GOLD:2||crystallization:2||BUCKLING MECHANICS:2||LASERS:2||MODES:2||synchrotron imaging:2||lattice distortion:2||AQUEOUSELECTROLYTE:2||MOLECULARDYNAMICS:2||OXIDE:2||MICROANGIOGRAPHY:2||OXIDATION:2||MICRORADIOLOGY:2||TECHNOLOGY:2||GE:2||surface chemistry:2||RECOVERY:2||OHMIC CONTACTS:2||LASERDIODES:2||PTYPE GAN:2||MOTION:2||PHANTOM:2||PHASE:2||CALCIUMPHOSPHATE CERAMICS:2||REPAIR:2||porphyrin:2||AMPLIFIED SPONTANEOUS EMISSION:2||METALELECTRODES:2||PD:2||SUPERCONDUCTING TAPES:2||nucleation:2||COATINGS:2||Xray topography:2||MONOLAYERS:2||SURFACE MODIFICATION:2||LITHOGRAPHY:2||MECHANICAL VENTILATION:1||MICRORIBBONS:1||STIFFNESS:1||DUALPHASE STEEL:1||growth mode:1||strain evolution:1||SI(100):1||ANISOTROPY:1||WET GRANULAR PILE:1||COALESCENCE:1||INSITU POLYMERIZATION:1||GRAPHENE:1||CANCER:1||NODULES:1||RABBITS:1||phasecontrast:1||YTTRIUMOXIDE FILMS:1||BaTiO3/SrTiO3:1||dental implant:1||coincidence site density:1||ERNI2B2C:1||crystallites:1||CoCrPt films:1||tensile strain:1||gallide:1||MGO:1||Baferrite film:1||synchrotron xray scattering:1||ZNO THINFILMS:1||MORPHOLOGY:1||PHASES:1||MICE:1||EBEAM LITHOGRAPHY:1||electrorheological fluids:1||NANOFIBROUS MEMBRANES:1||NANOLITHOGRAPHY:1||refractive index radiology:1||BLOOD:1||colloidal:1||SIZE CONTROL:1||nanoradiology:1||ZnSO4:1||lung injury:1||METAL:1||PM10:1||textured grain:1||MICROSTRUCTURE:1||DIMENSIONS:1||highresolution Xray diffraction:1||low temperature buffer:1||Zinc compounds:1||SI:1||HUMAN LONGEVITY:1||Maximum human lifespan:1||LIMITS:1||MOSFETS:1||in situ XANES:1||nanowires:1||PHOTOIRRADIATION:1||FIBERS:1||WORK:1||EMISSION:1||RADIATION MICROTOMOGRAPHY:1||RAMANSCATTERING:1||gold nanoparticles:1||synchrotron Xray diffraction:1||OPTICAL WAVEGUIDES:1||CONDUCTINGPOLYMER NANOWIRE:1||Lung cancer:1||INTRAVENOUS CORONARYARTERIOGRAPHY:1||SUBLIMATION GROWTH:1||radiography:1||porous SiC:1||GIANT MAGNETORESISTANCE:1||SEMICONDUCTORS:1||Ga diffusion:1||electroless deposition:1||HEMATITE:1||FREEELECTRON LASER:1||MOCVD:1||interfaces:1||white beam:1||imaging technique:1||nucleation layer:1||interface structure:1||epitaxial Baferrite film:1||rf magnetron sputtering:1||MAGNETIC CHARACTERISTICS:1||MIXTURE:1||ACCESS MEMORY APPLICATION:1||COHERENCY STRAIN:1||DENSITY:1||nanofabrication:1||POLY(METHYL METHACRYLATE) MICROSPHERE:1||RESIST:1||unmonochromatic beam:1||MICRORADIOGRAPHY:1||INTERFEROMETER:1||EXPOSURE:1||volume variation electronic:1||PULSEDLASER ABLATION:1||Semiconducting IIVI materials:1||Light emitting diodes:1||phase contrast microscopies:1||lung:1||AUGERELECTRON SPECTROSCOPY:1||passivation:1||additive manufacturing:1||Silicon carbide:1||Synchrotron radiation:1||Synchrotron radiation imaging:1||Dislocations (crystals):1||LUNG INJURY:1||POLYMER SURFACES:1||SINGLE CELLS:1||PREFERRED ORIENTATION:1||sapphire orientation:1||TANTALUM:1||BIASENHANCED NUCLEATION:1||hexaferrite:1||stretched exponential:1||SOLIDSURFACE:1||SHEAR:1||VIDEO MICROSCOPY:1||CARBON NANOTUBES:1||realtime observation:1||Xray synchrotron:1||CARBONMONOXIDE:1||ELECTROCHEMICAL FABRICATION:1||crystal growth:1||computer simulation:1||FERROELECTRICFILMS:1||TITANIUM IMPLANTS:1||BONE INTERFACE:1||EXAFS perpendicular magnetic recording:1||Pd/Ni:1||ELECTRODES:1||internal organ:1||LIGHTEMITTINGDIODES:1||interfacial structure:1||CONSTANT:1||DIELECTRICPROPERTIES:1||AR:1||DEVICES:1||BiSrCaCuO:1||LASER ABLATION:1||MECHANISM:1||SELECTIVE DEPOSITION:1||TARGETED DRUGDELIVERY:1||PEG:1||carbon nanotubes:1||nanocharacterization:1||WALLED CARBON NANOTUBE:1||basal cell carcinoma:1||PARTICULATE AIRPOLLUTION:1||FINE:1||CITIES:1||DOPED ZNO FILMS:1||atherosclerosis:1||drug delivery:1||hard Xray:1||COMBUSTION:1||ARTIFICIAL BATIO3/SRTIO3 SUPERLATTICES:1||surface morphology:1||Direct wafer bonding:1||COLLOIDAL GOLD PARTICLES:1||DELINEATION:1||EXPECTANCY:1||DEMOGRAPHY:1||MRI:1||SIGE:1||Phase contrast microradiography:1||INJURY:1||PASSIVITY:1||VOLUME:1||CONTACTANGLE:1||ARRAYS:1||DUCTILITY:1||sputtering:1||computed microtomography (mu CT):1||unmonochromatized Xray:1||BIPOLARTRANSISTORS:1||longevity:1||Confocal microscopy:1||Colloidal wettability:1||ATOMICFORCE MICROSCOPY:1||storage ring:1||digital subtraction:1||SCATTERING:1||size effect:1||SYNTHETIC QUARTZ:1||liquid metal embrittlement:1||iron ore:1||cube textured Ni substrates:1||SrRuO3 films:1||laser ablations:1||Ti underlayer:1||RANDOMACCESS MEMORIES:1||DOMAIN CONFIGURATIONS:1||MGO(100):1||SPECTROSCOPY:1||XE:1||IONBEAM:1||GRAINBOUNDARY MIGRATION:1||SRTIO3:1||COMPOSITES:1||FOAMS:1||BREASTCANCER SPECIMENS:1||unmonochromatized:1||Xray induced nucleation:1||gold:1||ABSORPTION:1||SEPARATION:1||CZOCHRALSKI GROWTH:1||RETRIEVAL:1||GAMMARADIATION:1||AQUEOUSSOLUTION:1||NANOCOMPOSITES:1||INCREASE:1||without staining procedure:1||XPS:1||Imaging techniques:1||Interfaces (materials):1||Dislocation distributions:1||AZOBENZENE:1||STRUCTURAL EVOLUTION:1||RELAXATION:1||DROP IMPACT:1||NONLINEAR DYNAMICS:1||DISLOCATIONS:1||Colloids:1||TRANSFORMATION:1||METAL INTERCONNECTS:1||ELASTIC CONDUCTORS:1||LOGIC:1||DEFICIENT MICE:1||tomography:1||FACILITY:1||osseointegration:1||ROCKS:1||dental radiography:1||Zn coating:1||RE2O3/Ni:1||YBCO COATED CONDUCTORS:1||threedimensional islands:1||(Ba,Sr)TiO3:1||ultrahigh resolution:1||photoelectron emission:1||Pd:1||LANIO3:1||BASE ELECTRODES:1||iron oxide phase:1||ironoxide interlayer:1||COATED GLASS SUBSTRATE:1||MICROWAVE PLASMA NUCLEATION:1||ENHANCED NUCLEATION:1||phase transformation:1||ADSORPTION:1||phasecontrast xray imaging:1||lung inflammation:1||SI1XGEX SINGLECRYSTALS:1||COCONTINUITY:1||SCALE:1||OBJECT:1||synchrotron microradiography:1||FeSO4:1||INDUCTION:1||BaTiO3 and SrTiO3 thin films:1||HARDXRAYS:1||light emitting diodes:1||ACID:1||MICROSTRUCTURES:1||PHOTOLUMINESCENCE PROPERTIES:1||LASER IRRADIATION:1||Human aging:1||polychromatic synchrotron Xray:1||refraction enhanced imaging:1||CHROMOPHORES:1||ACUTE LUNG INJURY:1||spatial resolution:1||BETAFESI2:1||VLSI:1||SI1XGEX:1||COLLOIDAL SUSPENSIONS:1||ELECTRONICS:1||ENHANCEMENT:1||artificial lattice:1||sinters:1||SILVER:1||STRAIN RELAXATION:1||biaxial texture:1||synchrotron scattering:1||transmission electron microscopy:1||IRONOXIDE FILMS:1||PZT thin film:1||ferroelectric thin film:1||MISFIT RELAXATION MECHANISMS:1||PBTIO3:1||O2:1||CONDUCTING POLYMERS:1||poly(methylmethancrylate):1||microspheres:1||phase contrast Xray microscope:1||AMBIENT AIR:1||ATMOSPHERE:1||XRAY INTERFEROMETER:1||NiAu composite nanoparticles.:1||synchrotron radiation Xrays:1||microtomography:1||OIL FLYASH:1||zinc oxide:1||mammography:1||SrRuO3 film:1||Laser epitaxy:1||HOLE MOBILITY:1||Models of crystal defects:1||RABBIT LUNGS:1||NI/AU CONTACT:1||3D printing:1||Stress relaxation:1||SURFACEAREA:1||IMAGE:1||modulation transfer function (MTF):1||Pb ions:1||Insitu visualization:1||Interfacial tension:1||DISPERSION FORCES:1||SINGLECRYSTALS:1||XRAY SOURCE:1||Synchrotron Xray imaging:1||Realtime imaging:1||MEDICAL APPLICATIONS:1||wiggler bending magnet:1||undulator:1||diffractionenhanced imaging:1||ZnO film:1||CAPACITORS:1||HE3:1||NiP alloy:1||PHOTOCHEMICAL FORMATION:1||extended domain matching:1||cubetextured Ni substrates:1||RAY COMPUTEDTOMOGRAPHY:1||electrode layer:1||DOMAINSTRUCTURE:1||XRAY CT:1||SPECIMEN:1||mammographic phantom:1||Xray absorption spectroscopy:1||BLUE:1||CONTACT:1||(BA:1||synchrotron spectromicroscopy:1||thin film:1||MICROWAVE PLASMA:1||GOLD NANOPARTICLES:1||POLYMERIZATION:1||DISEASE:1||Shanghai:1||MORTALITY:1||HETEROSTRUCTURES:1||METHACRYLATE:1||prostate cancer:1||renal cell carcinoma:1||RATS:1||PULSEDLASER DEPOSITION:1||semiconducting IIVI materials:1||PATTERNS:1||sapphire:1||evaporation:1||ZINCOXIDE:1||LIGHTEMITTING DIODE:1||Synchrotron imaging:1||Dislocations:1||Cracks:1||LIVE:1||spinal cord:1||stainless steel:1||nanophotonics:1||subwavelength waveguides:1||Synchrotrons:1||High dislocation density:1||Misfit stress relaxations:1||Randomly distributed:1||Tripleaxis xray diffractions:1||FLOW:1||CRYSTALLINE ORGANIC NANORODS:1||SHAPE CHANGES:1||ZnO thin film:1||(111)SI:1||XRAY MIRRORS:1||low temperature:1||oxide cathodes:1||heterogeneity:1||Xray microscopy:1||INTERFACIAL TENSIONS:1||single crystal growth:1||CARCINOMA:1||mouse:1||ANIMALS:1||Mndoped ZnO:1||luminescence:1||solution precipitation:1||CLUSTER:1||relaxation:1||ALPHAFE2O3:1||XANES:1||epitaxy:1||LaNiO3 thin film:1||LANIO3 THINFILMS:1||ELECTRODE:1||Fe3O4 sublayer:1||EXAFS microscopy:1||FERRITE FILMS:1||SURFACE PRETREATMENTS:1||superconductors:1||CONTRAST AGENT:1||BIODISTRIBUTION:1||DEATH:1||SYNCHROTRON:1||IR:1||apo Eknockout 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GaN:4||MICROSCOPY:4||REDUCTION:4||POLYMER:4||DEFECTS:3||COHERENCE:3||MICROTOMOGRAPHY:3||NANOPARTICLES:3||synchrotron:3||LIGHT:3||TRANSISTORS:3||SURFACES:3||STRAIN:3||EPITAXIAL LAYERS:3||DRUGDELIVERY:3||REFRACTION:3||growth mechanism:3||METALS:3||MICROPIPES:3||SYSTEM:3||NUCLEATION:3||synchrotron Xray scattering:3||SURFACE:3||SCREW DISLOCATIONS:3||SIMULATION:3||HARD XRAYS:3||ELECTRICALPROPERTIES:3||EPITAXY:3||GAN:3||PM2.5:3||EVAPORATION:3||LIQUIDS:3||INPLANE:3||RAT:3||ANGIOGENESIS:3||CT:3||GaN:3||ZnO:3||NANORODS:3||strain:3||PB(ZR0.53TI0.47)O3:3||CRYSTALLIZATION:3||synchrotron Xrays:2||buffer layer:2||TRANSMISSION ELECTRONMICROSCOPY:2||EPITAXIAL COSI2 FILMS:2||MECHANISMS:2||INSITU GROWTH:2||DEVICE:2||LOCALIZED ELECTROCHEMICAL DEPOSITION:2||X ray diffraction:2||SCHOTTKY CONTACT:2||IRRADIATION:2||aqua regia treatment:2||INVIVO:2||CELLADHESION:2||MORPHOGENETIC PROTEIN2:2||RECEPTOR:2||TEM:2||broadband synchrotron light:2||nanoparticle:2||BUFFER LAYERS:2||TC:2||ENHANCED SYNCHROTRON RADIOLOGY:2||synthesis:2||POLYDIMETHYLSILOXANE:2||MICROCHANNELS:2||PRETREATMENT PROCESS:2||XRAY:2||CHEMOTAXIS:2||MECHANOSENSORY TRANSDUCTION:2||rectangular microtube:2||CONJUGATED POLYMER:2||atomic force microscopy:2||METALLIC OXIDE SRRUO3:2||LASERABLATION:2||STRESS:2||ZONE PLATES:2||FRICTION:2||THERMALSTABILITY:2||Xrays:2||RAY:2||NM:2||ENERGY:2||TOPOGRAPHY:2||synchrotron Xray:2||ACID HYDROGELS:2||CAENORHABDITISELEGANS:2||PROTEIN:2||defects:2||EVOLUTION:2||FABRICATION:2||sharp bending waveguide:2||lasing action:2||BULK CRYSTALS:2||SUPERLATTICES:2||COATED CONDUCTORS:2||SI(111):2||phase contrast:2||CORONARY ANGIOGRAPHY:2||SPECTROMICROSCOPY:2||MEPHISTO:2||OXYGEN:2||OPTICALPROPERTIES:2||RADIOGRAPHY:2||CONTACT DEFORMATIONS:2||MOLECULAR FORCES:2||SOLIDS:2||NTYPE GAN:2||deposition:2||CHEMISTRY:2||DEFORMATION:2||SUBSTRATE:2||HETEROEPITAXY:2||NANOTOPOGRAPHY:2||EPITAXIALGROWTH:2||Xray:2||CHEMICAL VAPORDEPOSITION:2||SILICON STRUCTURES:2||STEMCELLS:2||CHANNEL:2||crystal structure:2||CORONARYANGIOGRAPHY:2||SiC:2||BUFFER LAYER:2||MOLECULARBEAM EPITAXY:2||INTERFACE:2||SIZE:2||ELECTRON:2||XRAY MICROSCOPY:2||MORPHOLOGIES:2||NANOCOLLOIDS:2||FORCE MICROSCOPY:2||ablation:2||polymers:2||(NH4)(2)Sx treatment:2||CLUSTERS:2||BIOMATERIALS:2||CIRCUITS:2||rectangular ring mode:2||GUIDES:2||MICROCAVITY:2||PHOTOLUMINESCENCE:2||epitaxial growth:2||EMBRITTLEMENT:2||Xray imaging:2||BIOCOMPATIBILITY:2||BEHAVIOR:2||MICROWAVEPLASMA:2||LOWPRESSURE:2||DEGRADATION:2||TISSUE:2||LIQUID:2||SOFT LITHOGRAPHY:2||amplified spontaneous emission (ASE):2||SMALL ORGANICMOLECULES:2||PHOTONIC CRYSTAL:2||micropipes:2||radiology:2||ALLOY:2||Xray scattering:2||CRITICALCURRENT DENSITY:2||ELECTRONMICROSCOPY:2||BI(PB)SRCACUO:2||ELECTRONICSTRUCTURE:2||RECONSTRUCTION:2||MG:2||ohmic contact:2||Pd ohmic contact:2||xray scattering:2||INP:2||annealing:2||REGENERATION:2||TITANIUM:2||COLLOIDAL GOLD:2||crystallization:2||BUCKLING MECHANICS:2||LASERS:2||MODES:2||synchrotron imaging:2||lattice distortion:2||AQUEOUSELECTROLYTE:2||MOLECULARDYNAMICS:2||OXIDE:2||MICROANGIOGRAPHY:2||OXIDATION:2||MICRORADIOLOGY:2||TECHNOLOGY:2||GE:2||surface chemistry:2||RECOVERY:2||OHMIC CONTACTS:2||LASERDIODES:2||PTYPE GAN:2||MOTION:2||PHANTOM:2||PHASE:2||CALCIUMPHOSPHATE CERAMICS:2||REPAIR:2||porphyrin:2||AMPLIFIED SPONTANEOUS EMISSION:2||METALELECTRODES:2||PD:2||SUPERCONDUCTING TAPES:2||nucleation:2||COATINGS:2||Xray topography:2||MONOLAYERS:2||SURFACE MODIFICATION:2||LITHOGRAPHY:2||MECHANICAL VENTILATION:1||MICRORIBBONS:1||STIFFNESS:1||DUALPHASE STEEL:1||growth mode:1||strain evolution:1||SI(100):1||ANISOTROPY:1||WET GRANULAR PILE:1||COALESCENCE:1||INSITU POLYMERIZATION:1||GRAPHENE:1||CANCER:1||NODULES:1||RABBITS:1||phasecontrast:1||YTTRIUMOXIDE FILMS:1||BaTiO3/SrTiO3:1||dental implant:1||coincidence site density:1||ERNI2B2C:1||crystallites:1||CoCrPt films:1||tensile strain:1||gallide:1||MGO:1||Baferrite film:1||synchrotron xray scattering:1||ZNO THINFILMS:1||MORPHOLOGY:1||PHASES:1||MICE:1||EBEAM LITHOGRAPHY:1||electrorheological fluids:1||NANOFIBROUS MEMBRANES:1||NANOLITHOGRAPHY:1||refractive index radiology:1||BLOOD:1||colloidal:1||SIZE CONTROL:1||nanoradiology:1||ZnSO4:1||lung injury:1||METAL:1||PM10:1||textured grain:1||MICROSTRUCTURE:1||DIMENSIONS:1||highresolution Xray diffraction:1||low temperature buffer:1||Zinc compounds:1||SI:1||HUMAN LONGEVITY:1||Maximum human lifespan:1||LIMITS:1||MOSFETS:1||in situ XANES:1||nanowires:1||PHOTOIRRADIATION:1||FIBERS:1||WORK:1||EMISSION:1||RADIATION MICROTOMOGRAPHY:1||RAMANSCATTERING:1||gold nanoparticles:1||synchrotron Xray diffraction:1||OPTICAL WAVEGUIDES:1||CONDUCTINGPOLYMER NANOWIRE:1||Lung cancer:1||INTRAVENOUS CORONARYARTERIOGRAPHY:1||SUBLIMATION GROWTH:1||radiography:1||porous SiC:1||GIANT MAGNETORESISTANCE:1||SEMICONDUCTORS:1||Ga diffusion:1||electroless deposition:1||HEMATITE:1||FREEELECTRON LASER:1||MOCVD:1||interfaces:1||white beam:1||imaging technique:1||nucleation layer:1||interface structure:1||epitaxial Baferrite film:1||rf magnetron sputtering:1||MAGNETIC CHARACTERISTICS:1||MIXTURE:1||ACCESS MEMORY APPLICATION:1||COHERENCY STRAIN:1||DENSITY:1||nanofabrication:1||POLY(METHYL METHACRYLATE) MICROSPHERE:1||RESIST:1||unmonochromatic beam:1||MICRORADIOGRAPHY:1||INTERFEROMETER:1||EXPOSURE:1||volume variation electronic:1||PULSEDLASER ABLATION:1||Semiconducting IIVI materials:1||Light emitting diodes:1||phase contrast microscopies:1||lung:1||AUGERELECTRON SPECTROSCOPY:1||passivation:1||additive manufacturing:1||Silicon carbide:1||Synchrotron radiation:1||Synchrotron radiation imaging:1||Dislocations (crystals):1||LUNG INJURY:1||POLYMER SURFACES:1||SINGLE CELLS:1||PREFERRED ORIENTATION:1||sapphire orientation:1||TANTALUM:1||BIASENHANCED NUCLEATION:1||hexaferrite:1||stretched exponential:1||SOLIDSURFACE:1||SHEAR:1||VIDEO MICROSCOPY:1||CARBON NANOTUBES:1||realtime observation:1||Xray synchrotron:1||CARBONMONOXIDE:1||ELECTROCHEMICAL FABRICATION:1||crystal growth:1||computer simulation:1||FERROELECTRICFILMS:1||TITANIUM IMPLANTS:1||BONE INTERFACE:1||EXAFS perpendicular magnetic recording:1||Pd/Ni:1||ELECTRODES:1||internal organ:1||LIGHTEMITTINGDIODES:1||interfacial structure:1||CONSTANT:1||DIELECTRICPROPERTIES:1||AR:1||DEVICES:1||BiSrCaCuO:1||LASER ABLATION:1||MECHANISM:1||SELECTIVE DEPOSITION:1||TARGETED DRUGDELIVERY:1||PEG:1||carbon nanotubes:1||nanocharacterization:1||WALLED CARBON NANOTUBE:1||basal cell carcinoma:1||PARTICULATE AIRPOLLUTION:1||FINE:1||CITIES:1||DOPED ZNO FILMS:1||atherosclerosis:1||drug delivery:1||hard Xray:1||COMBUSTION:1||ARTIFICIAL BATIO3/SRTIO3 SUPERLATTICES:1||surface morphology:1||Direct wafer bonding:1||COLLOIDAL GOLD PARTICLES:1||DELINEATION:1||EXPECTANCY:1||DEMOGRAPHY:1||MRI:1||SIGE:1||Phase contrast microradiography:1||INJURY:1||PASSIVITY:1||VOLUME:1||CONTACTANGLE:1||ARRAYS:1||DUCTILITY:1||sputtering:1||computed microtomography (mu CT):1||unmonochromatized Xray:1||BIPOLARTRANSISTORS:1||longevity:1||Confocal microscopy:1||Colloidal wettability:1||ATOMICFORCE MICROSCOPY:1||storage ring:1||digital subtraction:1||SCATTERING:1||size effect:1||SYNTHETIC QUARTZ:1||liquid metal embrittlement:1||iron ore:1||cube textured Ni substrates:1||S
