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LEE, JIN WOO (이진우)

Dept. of Chemical Engineering(화학공학과)

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NANOPARTICLES:20||MOLECULARSIEVES:17||SILICA:14||LOWCOST:12||PERFORMANCE:12||CARBON:10||NANOTUBES:8||NANOCOMPOSITES:7||METALOXIDES:7||SBA15:7||NANOPOROUS CARBON:7||NANOCRYSTALS:7||mesoporous materials:6||NANOWIRES:6||ORDERED MESOPOROUS CARBON:6||MESOPOROUS SILICA:6||TEMPLATE:6||FABRICATION:6||THINFILMS:5||HYDROGENPEROXIDE:5||DEGRADATION:5||FILMS:5||TITANIUMDIOXIDE:5||BIOCATALYSIS:5||ELECTRODES:5||CATALYST:5||CATALYSTS:5||WATER:5||OXIDATION:5||STABILITY:4||REDUCTION:4||HIGHPOWER:4||INTERCALATION:4||CHEMICALVAPORDEPOSITION:4||MESOPOROUS CARBON:4||selfassembly:4||nanostructures:4||electrochemistry:4||CATALYTIC ACTIVITY:4||ARRAYS:4||TRANSFORMATION:4||WATERSOLUBLE SILICATES:4||PARTICLES:4||SIZE:4||SECONDARY BATTERIES:4||magnetic properties:4||Mesoporous:4||Hybrid materials:4||SOLGEL PROCESS:4||ONEPOT SYNTHESIS:3||TEMPERATURE:3||OXYGEN REDUCTION:3||ZEOLITE:3||mesoporous silica:3||MESOCELLULAR CARBON FOAM:3||THERMALDECOMPOSITION:3||nanocomposite:3||carbon:3||ELECTROCHEMICAL PROPERTIES:3||DECOMPOSITION:3||Mesocellular siliceous foam:3||PLATINUM:3||BENZALDEHYDE:3||block copolymer:3||ANATASE TIO2:3||PLATINUM NANOPARTICLES:3||PROTEINS:3||silica:3||COMPOSITES:3||DIBLOCK COPOLYMER:3||TITANIA:3||SOLARCELLS:3||Electrodes:3||ENERGYSTORAGE:3||CATALYSIS:3||CONVERSION EFFICIENCY:3||MOLECULARSIEVE:3||ADSORPTION:3||ADSORBENTS:3||FACILE SYNTHESIS:3||ATOMIC LAYER DEPOSITION:3||SHELL:3||ALUMINUMOXIDE FILM:3||DNA:3||IMMOBILIZATION:3||SURFACE:3||RECENT PROGRESS:3||DIOXIDE:3||TEMPLATE SYNTHESIS:3||ASSAY:3||TIO2 FILMS:3||AREA MICROPOROUS CARBON:3||Electrocatalysts:3||COMPOSITE:3||NEGATIVEELECTRODE:3||enzyme immobilization:3||INSERTION:3||STABILIZATION:3||SPINEL:2||GLUCOSE BIOSENSOR:2||Titania:2||Electrocatalyst:2||STATE:2||Iron compounds:2||TEMPLATES:2||OXIDATIONSTATES:2||DOUBLELAYER CAPACITORS:2||organic electrolyte:2||Nanoparticles:2||platinum:2||tungsten:2||ACTIVATED CARBON:2||PASTE ELECTRODES:2||ALPHAFE2O3:2||PSbPEO:2||THERMALSTABILITY:2||L1(0)phase FePt:2||aluminosilicate:2||SILICA STRUCTURES:2||TRANSITION:2||VISIBLELIGHT:2||Dyesensitized solar cell:2||Pt sintering:2||METHYLENEBLUE:2||DERIVATIVES:2||MESOPOROUS MOLECULARSIEVES:2||SILICA MATERIALS:2||CLEAs (crosslinked enzyme aggregates):2||Mucor javanicus lipase:2||SEPARATION:2||LI4TI5O12:2||INTERPHASE:2||CHEMISTRY:2||CARBONDIOXIDE CAPTURE:2||SORBENT:2||SORPTION:2||Photocatalysis:2||TIO2 PHOTOCATALYST:2||FOAMS:2||Anatase TiO2:2||Polymer electrolyte membrane fuel cell:2||Pt dissolution:2||LOADING ELECTRODES:2||SUPERLATTICES:2||ASYMMETRIC DIETHYLZINC ADDITION:2||enzyme catalysis:2||Hybrid supercapacitors:2||ANATASE:2||ELECTROCHEMICAL ENERGYSTORAGE:2||Mesoporous silica:2||LITHIUMSTORAGE PERFORMANCE:2||SANDWICHLIKE:2||FRAMEWORKS:2||BINARY REACTION SEQUENCE:2||AIR:2||ATRP:2||Phenol synthesis:2||FOAM:2||Nanocrystals:2||POLYMER ELECTROLYTE:2||FULLERENE C60:2||COBALT NANORODS:2||ultrasound:2||magnetic separation:2||TOUGHNESS:2||TIO2:2||ORDERED MESOPOROUS CARBONS:2||POROUS CARBONS:2||EXPOSED 001 FACETS:2||LI:2||QUARTZCRYSTAL MICROBALANCE:2||mesoporous structure:2||MAGNETICPROPERTIES:2||ELECTROLYTE FUELCELLS:2||IRRADIATION:2||porous carbon:2||BET surface area:2||superparamagnetism:2||sonochemistry:2||MCM41:2||MECHANICALPROPERTIES:2||GELS:2||SUPPORT:2||NANOSTRUCTURES:2||NANOFIBERS:2||ELECTROCHEMICAL DETECTION:2||GOLD NANOPARTICLES:2||ELECTROCHEMICAL CAPACITORS:2||SURFACEAREA:2||LIPASE:2||ENCAPSULATION:2||COPOLYMER:2||biosensors:2||BIOFUEL CELLS:2||STORAGE:2||AMMONIUM PARATUNGSTATE:2||ENZYMES:2||SI:2||PARTICLESIZE:2||HYDROTHERMAL SYNTHESIS:2||PBS:2||GAS SENSOR:2||PHASESTABILITY:2||Green synthesis:2||CONVERSION:2||Degradation mechanism:2||TIO2 DISPERSIONS:2||POLLUTANTS:2||INACTIVATION:2||Electrolytic reduction:2||BINDER:2||GLUCOSE DETECTION:2||PORE STRUCTURE:2||mesoporous:2||ELECTROLYTES:2||RUTILE TIO2:2||PHOTOCATALYTIC ACTIVITY:2||EXCHANGE BIAS:2||MICROPHASE:2||Selective oxidation:2||ELECTROCATALYSTS:2||PEFC:2||CORE/MESOPOROUS SHELL STRUCTURES:2||Tiincorporation:2||TITANIUM:2||ULTRASOUND:2||Electro reduction:2||SILICON ANODES:2||POLYMERIC BINDER:2||PERFORMANCE ANODE MATERIALS:2||AMORPHOUS WO3:2||immunoassays:2||electrocatalyst:2||dyesensitized solar cell:2||TRANSITIONMETAL CARBIDES:2||CATALYTICPROPERTIES:2||HALIDE APPROACH:2||ENZYME:2||Mesocellular carbon foam:2||TRANSITIONMETAL OXIDES:2||ANODE MATERIAL:2||ELECTROCHEMICALBEHAVIOR:2||ORGANICSOLVENTS:2||Photoanode:2||LIFE:2||AZODYES:2||SINGLET OXYGEN:2||MAGNETIC NANOPARTICLES:2||carbonization:2||CRYSTALLINE:2||Anodes:2||Carbon:2||HYDROGELS:2||magnetic nanoparticles:2||ELECTRODE MATERIALS:2||TEMPLATEFREE:2||CDS:2||ELECTROCHEMICAL IMMUNOASSAY:1||AMORPHOUSCARBON:1||METASTATIC BREASTCANCER:1||MESOPHASE PITCH:1||MUGILCEPHALUS:1||FUEL:1||CAPACITY:1||mesostructured onionlike silica:1||VESICLES:1||Mesocellular Silica:1||METALCATALYSTS:1||Heterogeneous catalyst:1||ELECTROOXIDATION:1||SnO2:1||METHANOL OXIDATION:1||FUELCELL APPLICATIONS:1||Adsorption:1||SUPERCAPACITORS:1||block copolymers:1||nanofibers:1||POLYMER NANOFIBERS:1||Biofuel cells:1||Biosensors:1||Mesoporous carbon:1||Nanoscale enzyme reactors:1||ZNO NANOWIRE ARRAYS:1||SENSITIZED SOLARCELLS:1||CDSE NANOWIRES:1||METAL NANOCRYSTALS:1||RE/AQUEOUS ELECTROLYTE INTERFACES:1||PLANE PYROLYTICGRAPHITE:1||Multiplexed immunoassay:1||FEPT NANOPARTICLES:1||template:1||particle size:1||ALUMINUM INCORPORATION:1||CYTOCHROMEC:1||nanowires:1||ORDERED MESOPOROUS SILICA:1||SHAPE CONTROL:1||NANOSIZE RUTILE:1||interparticle interaction:1||NANOCHANNELS:1||ALUMINOSILICATES:1||HMMS (hierarchicallyordered mesocellular mesoporous silica):1||CRYSTALS:1||GRAPHENE:1||C5C11 ISOPARAFFINS:1||CARBON/SILICA:1||GROWTHMECHANISM:1||MUSCLES:1||Density functional theory:1||ELECTROCHEMICAL PERFORMANCE:1||NANOSHEETS:1||Coreshell nanoparticles:1||Perovskite solar cells:1||Silica:1||Microspheres:1||Sound insulating materials:1||Conversion reactions:1||Nickel compounds:1||Onset potential:1||RELEASE:1||nanocomposites:1||OXIDE NANOPARTICLES:1||OXIDE:1||enzyme stabilization:1||biodiesel production:1||Nanocomposite:1||Magnetic Nanoparticles:1||Palladium:1||HETEROGENEOUS PHOTODEGRADATION:1||Multiamine grafted MSUFS/Fe3O4:1||HEAVYMETAL IONS:1||Lithium ion batteries:1||SUPPORTS:1||IMPACT:1||DIAGNOSIS:1||AMPEROMETRIC BIOSENSORS:1||ENZYMEINHIBITION:1||DOUBLELAYER CAPACITOR:1||electrodes:1||FIBERS:1||Counter electrode:1||Enzyme crosslinking:1||LIQUIDSOLID GROWTH:1||NERLISA (nanoscale enzyme reactor linked immunosorbent assay):1||DIGESTION:1||COPT3 NANOCRYSTALS:1||nanostructured carbon:1||PORE SYSTEM:1||crosslinking:1||POROUSSILICA:1||DOUBLE COAXIAL STRUCTURE:1||MATRIX:1||ASPECTRATIO:1||ESCHERICHIACOLI:1||SUPPORTED RUTHENIUM NANOPARTICLES:1||STEEL SLAG:1||Carbon dioxide:1||Catalyst activity:1||organicinorganic materials:1||Faradaic efficiencies:1||Nonprecious metal catalysts:1||Organicinorganic hybrid materials:1||Cobalt:1||SPRAYPYROLYSIS:1||Positive ions:1||Graphene composites:1||Mesoporous metal oxides:1||Ndoped:1||Mesoporous materials:1||ORAL DELIVERY:1||HIGHYIELD:1||RECHARGEABLE LITHIUM BATTERIES:1||HOLLOW CARBON:1||Enzyme immobilization:1||NEGATIVEELECTRODE MATERIALS:1||Hydrogen Peroxide:1||Water treatment:1||TIO2B NANOWIRES:1||Fuel cell:1||ELECTROCATALYST:1||Catehcol degradation:1||MESOSTRUCTURED SILICA:1||SURFACES:1||RECOGNITION:1||DIRECT ELECTRONTRANSFER:1||SENSORS:1||batteries:1||CARBON NANOTUBES:1||BIOFUEL CELL:1||DETERMINING LANGMUIR:1||POLYAU:1||COUPLING REACTIONS:1||HIGHLY CRYSTALLINE:1||enzymes:1||TRIBLOCK COPOLYMER:1||POLYMER FOAMS:1||BOTTLE SYNTHESIS:1||nanotechnology:1||NANOCOMPOSITE:1||MICELLES:1||QUANTUM RODS:1||filtrationfree:1||EFFICIENT:1||POROUS CARBON:1||BLOCKCOPOLYMERS:1||ACYLASE:1||CHYMOTRYPSIN:1||METALELECTRODES:1||MECHANISM:1||Visible light photocatalysts:1||Metalorganic hybrids:1||Utilization systems:1||SHEETS:1||High specific capacity:1||Convergence of numerical methods:1||Moisture:1||Fluorescence lifetimes:1||Partial incorporation:1||Manganese:1||Particle size:1||Reaction kinetics:1||Molecular catalysts:1||Nitrogen:1||Quaternary nitrogens:1||DRUGDELIVERY:1||PROTEIN:1||lithiumion batteries:1||STORAGE PROPERTIES:1||Nanoscale enzyme reactor:1||crystallinity:1||Alcohol Oxidase:1||Fenton reaction:1||Steric hindrance:1||FUNCTIONALIZED MCM41:1||CO2:1||WASTEWATERS:1||SINGLECRYSTAL:1||Anode:1||NEGATIVEELECTRODE MATERIAL:1||XPS:1||UNIFORM:1||Magnetic mesoporous materials:1||NUCLEICACID ENZYMES:1||INFECTIONS:1||magnetite nanoparticles:1||SCATTERING:1||ROOMTEMPERATURE:1||QUANTUM WIRES:1||colloids:1||silica colloid:1||nanoporous carbon:1||GRAPHITIC PORE WALLS:1||interfacial interaction:1||DIETHYLZINC ADDITION:1||asymmetric dihydroxylation:1||AQUEOUS CARBONDIOXIDE:1||METHANOL:1||H2O2 production:1||Heteroatom incorporation:1||diagnostics:1||ACETYLENE:1||ETHYLENE:1||Charge transfer:1||Organic polymers:1||Polypyrroles:1||Shells (structures):1||Supercapacitor:1||Pseudocapacitive behavior:1||Perovskite:1||Perovskite structures:1||Power conversion efficiencies:1||Ions:1||Electrochemical performance:1||Lithium sulfur batteries:1||Nitrogen species:1||Oxygen reduction reaction:1||anodes:1||SNC COMPOSITE:1||BIOMOLECULES:1||SYSTEM:1||electrospinning:1||polymers:1||lithium:1||titanium:1||ACID:1||MORPHOLOGIES:1||Peroxidase Mimetics:1||FLOWINJECTION ANALYSIS:1||DEHYDROGENASE:1||H2O2:1||Mesoporous material:1||Heavy metals sorption:1||Ordered mesoporous materials:1||NANOMATERIALS:1||COMPLEX:1||RUO2:1||composites:1||ELECTRODE MATERIAL:1||Colloids:1||materials science:1||hierarchical structure:1||POLYMER BLEND:1||MESOPOROUS CARBONS:1||alphaChymotrypsin:1||recycling:1||STRUCTURAL TRANSFORMATION:1||MAGNESIUMOXIDE:1||CO METHANATION:1||RECHARGEABLE BATTERIES:1||RICE HUSKS:1||Solar fuel:1||FLOW REACTOR:1||Metalorganic polymers:1||Efficiency:1||Rubidium:1||Silicon solar cells:1||Optoelectronic properties:1||Metals:1||Sodium ions:1||Spherical morphologies:1||Uniform distribution:1||Ethylene diamine:1||MATRICES:1||GROWTH:1||HYBRIDIZATION:1||ACTIVATED CARBONS:1||ION BATTERIES:1||TIO2 NANOTUBES:1||CHROMATOGRAPHY:1||O2:1||DYE ORANGEII:1||FERROMAGNETIC NANOPARTICLES:1||AQUEOUSSOLUTIONS:1||Pore blockage:1||synthetic methods:1||THINFILM:1||Tyrosinase:1||nanoparticles:1||PHENOLICCOMPOUNDS:1||CELLS:1||etectrospinning:1||ELECTRICALPROPERTIES:1||Template synthesis:1||H2 EVOLUTION REACTION:1||E207 (2003):1||EFFICIENCY:1||mesoporous carbon:1||CARBON MOLECULARSIEVES:1||surface functionalization:1||SHAPE:1||ULTRALARGE MESOPORES:1||nanotubes:1||POLYMERS:1||EPOXIDATION:1||TUBES:1||ELECTROCHEMICAL REDUCTION:1||COBALT:1||NANOSTRUCTURED SILICON:1||BATTERIES:1||Carbon nitride:1||nanozymes:1||FLOATING CATALYST METHOD:1||Precious metals:1||Electrochemical analysis:1||Inorganicorganic hybrid:1||Long term stability:1||Aminefunctionalized mesoporous silica:1||Carbon catalysts:1||Electrochemical measurements:1||NANOBIOCATALYSIS:1||INVITRO:1||CHALLENGES:1||SYSTEMS:1||NANOWIRE ARRAYS:1||AMMONIA BORANE:1||DEHYDROGENATION:1||STORAGE CAPABILITY:1||UNIFORM PORES:1||PURIFICATION:1||BLOCKCOPOLYMER:1||enzyme mimetics:1||PEROXIDASELIKE ACTIVITY:1||EXPRESSION:1||Epoxide hydrolase:1||Mugil cephalus:1||IMPROVEMENT:1||silicon:1||TRIBLOCK:1||Direct Synthesis of Hydrogen Peroxide:1||IRONOXIDES:1||REMOVAL:1||FUELCELLS:1||TiO2:1||peroxidase mimetics:1||synthesis:1||CATHODE MATERIALS:1||TIN OXIDE:1||Semiconductors:1||Synthetic methods:1||Nanostructures:1||LARGESCALE SYNTHESIS:1||ZINCOXIDE:1||QUALITATIVEANALYSIS:1||MONODISPERSE NANOCRYSTALS:1||mesoporous materals:1||core/shell materials:1||HISTIDINETAGGED PROTEINS:1||PHOTONIC CRYSTALS:1||SPHERES:1||CATALYTIC ENANTIOSELECTIVE ADDITION:1||IMINES:1||ESTERS:1||mesoporous silca:1||OLEFINS:1||NIOBIUM OXIDE:1||WALLS:1||CHEMICALSYNTHESIS:1||cyclic voltammetry:1||PTFREE:1||FREE CATALYSTS:1||WORK FUNCTION:1||EVAPORATION:1||CATALYTICACTIVITY:1||Organometallics:1||Nonnoble metal catalysts:1||DIRECT ACCESS:1||Activated carbon:1||Synergistic effect:1||Lithium:1||Fluorescence:1||Stability:1||Photovoltaic performance:1||Doping (additives):1||Graphene:1||Metal ions:1||New anode material:1||Lithium batteries:1||Carbon microspheres:1||Highenergy storage devices:1||Oxygen:1||HYDROGEN STORAGE:1||COASSEMBLY APPROACH:1||HIGHRATEPERFORMANCE:1||DOPED LI4TI5O12:1||PRECURSORS:1||ELECTRODE:1||LITHIUMION BATTERIES:1||ANODE MATERIALS:1||AMPEROMETRIC BIOSENSOR:1||COLORIMETRIC METHOD:1||ETHANOL:1||H2:1||MEMBRANES:1||Conformational change:1||Blastfurnace slag:1||Mercury:1||SELFASSEMBLED MONOLAYERS:1||MNO2:1||confined selfassembly:1||Quantumdot solar cell:1||TRANSPORT:1||SILICON NANOWIRES:1||IR:1||TRANSPARENT:1||Glucose oxidase:1||Trypsin:1||AMPLIFICATION:1||HOLLOW SPHERES:1||template synthesis:1||CAGELIKE PORES:1||iron oxides:1||COLLOIDIMPRINTED CARBONS:1||ORIENTED ATTACHMENT MECHANISM:1||METAL NANOPARTICLES:1||magnetic nanoparticle:1||LIQUIDPHASE DEPOSITION:1||ION:1||MAGTRIEVE(TM):1||ALKALOIDS:1||electron microscopy:1||alphachymotrypsin:1||ORGANIC REDOX COUPLES:1||NANORODS:1||MAGNESIOTHERMIC REACTION:1||ASSEMBLIES:1||enzymemimetics:1||SULFUR:1||HIGHCAPACITY:1||NETWORKS:1||Electrode morphology:1||Internal resistance:1||Solar cells:1||Metallic compounds:1||Electrochemical reactions:1||Lithium compounds:1||Reaction intermediates:1||Sulfur compounds:1||Electrical conductivity:1||Transition metals:1||

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