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Lee, Jae Sung (이재성)

Department
School of Energy and Chemical Engineering(에너지화학공학과)
Website
http://ecocat.unist.ac.kr/
Lab
Eco-friendly Catalysis & Energy Lab. (친환경 촉매 및 에너지 연구실)
Research Keywords
광전기화학셀, 광전기화학적 수소생산, 물분해, 전기촉매반응, 연료전지, 고분자 전해질 연료전지, 불균일계 촉매, 이산화탄소 수소화 반응, Photocatalytic water splitting, artificial photosynthesis, fuel cells, Photoelectrochemical Cell, Photoelectrochemical Hydrogen Production, Electrocatalysis, Water Splitting, Fuel Cells, PEMFC, Heterogeneous Catalysis, CO2 Hydrogenation
Research Interests
ECOCAT group focuses on water splitting using photoelectrochemical reaction which converts solar energy into hydrogen energy. We also research on fuel cell and carbon dioxide hydrogenation which utilizes the hydrogen produced.
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Issue DateTitleAuthor(s)TypeViewAltmetrics
2022-07Hetero-tandem organic solar cells drive water electrolysis with a solar-to-hydrogen conversion efficiency up to 10%Kim, Young Kyeong; Lee, Tack Ho; Yeop, Jiwoo, et alARTICLE66 Hetero-tandem organic solar cells drive water electrolysis with a solar-to-hydrogen conversion efficiency up to 10%
2022-06Photoelectrochemical Nitrate Reduction to Ammonia on Ordered Silicon Nanowire Array PhotocathodesKim, Hyo Eun; Kim, Jeehye; Ra, Eun Cheol, et alARTICLE26 Photoelectrochemical Nitrate Reduction to Ammonia on Ordered Silicon Nanowire Array Photocathodes
2022-06Molecularly Engineered Carbon Platform To Anchor Edge-Hosted Single-Atomic M-N/C (M = Fe, Co, Ni, Cu) Electrocatalysts of Outstanding DurabilityNoh, Woo Yeong; Mun, Jinhong; Lee, Yeongdae, et alARTICLE24 Molecularly Engineered Carbon Platform To Anchor Edge-Hosted Single-Atomic M-N/C (M = Fe, Co, Ni, Cu) Electrocatalysts of Outstanding Durability
2022-05Healing Ion-Implanted Semiconductors by Hybrid Microwave Annealing: Activation of Nitrogen-Implanted TiO2</sub>Zhang, Hemin; Ahn, Chang Won; Park, Jin Yong, et alARTICLE26 Healing Ion-Implanted Semiconductors by Hybrid Microwave Annealing: Activation of Nitrogen-Implanted TiO<sub>2</sub>
2022-04Metal substrates activate NiFe(oxy)hydroxide catalysts for efficient oxygen evolution reaction in alkaline mediaKim, Young Kyeong; Jun, Woo Tae; Youn, Duck Hyun, et alARTICLE101 Metal substrates activate NiFe(oxy)hydroxide catalysts for efficient oxygen evolution reaction in alkaline media
2022-04Microwave-assisted metal-ion attachment for ex-situ zirconium doping into hematite for enhanced photoelectrochemical water splittingDhandole, Love Kumar; Anushkkaran, Periyasamy; Hwang, Jun Beom, et alARTICLE17 Microwave-assisted metal-ion attachment for ex-situ zirconium doping into hematite for enhanced photoelectrochemical water splitting
2022-02Self-motivated, thermally oxidized hematite nanoflake photoanodes: Effects of pre-polishing and ZrO2 passivation layerDhandole, Love Kumar; Lee, Hyun Hwi; Cha, Weon-Sik, et alARTICLE224 Self-motivated, thermally oxidized hematite nanoflake photoanodes: Effects of pre-polishing and ZrO2 passivation layer
2022-02An in situ fluorine and ex situ titanium two-step co-doping strategy for efficient solar water splitting by hematite photoanodesKang, Kyoungwoong; Zhang, Hemin; Kim, Jeong Hun, et alARTICLE71 An in situ fluorine and ex situ titanium two-step co-doping strategy for efficient solar water splitting by hematite photoanodes
2022-01Highly Efficient Photoelectrochemical Hydrogen Production Using Nontoxic CuIn1.5Se3 Quantum Dots with ZnS/SiO2 Double OverlayersKim, Jeehye; Jang, Youn Jeong; Baek, Woonhyuk, et alARTICLE65 Highly Efficient Photoelectrochemical Hydrogen Production Using Nontoxic CuIn1.5Se3 Quantum Dots with ZnS/SiO2 Double Overlayers
2021-12Metal carbides as alternative electrocatalysts for energy conversion reactionsJoo, Sang Hoon; Lee, Jae SungARTICLE107 Metal carbides as alternative electrocatalysts for energy conversion reactions
2021-11ZnFe2O4 Dendrite/SnO2 Helix 3D Hetero-Structure Photoanodes for Enhanced Photoelectrochemical Water Splitting: Triple Functions of SnO2 NanohelixKim, Jeong Hun; Choi, Il Yong; Kim, Jin Hyun, et alARTICLE109 ZnFe2O4 Dendrite/SnO2 Helix 3D Hetero-Structure Photoanodes for Enhanced Photoelectrochemical Water Splitting: Triple Functions of SnO2 Nanohelix
2021-09Innovative strategies toward challenges in PV-powered electrochemical CO2 reductionSultan, Siraj; Kim, Jin Hyun; Kim, SeungHyeon, et alARTICLE193 Innovative strategies toward challenges in PV-powered electrochemical CO2 reduction
2021-09Layered Double Hydroxide-Derived Intermetallic Ni3GaC0.25 Catalysts for Dry Reforming of MethaneKim, Kwang Young; Lee, Jin Ho; Lee, Hojeong, et alARTICLE103 Layered Double Hydroxide-Derived Intermetallic Ni3GaC0.25 Catalysts for Dry Reforming of Methane
2021-08Rational design of photocatalysts for ammonia production from water and nitrogen gasChoe, Seokwoo; Kim, Sung Min; Lee, Yeji, et alARTICLE74 Rational design of photocatalysts for ammonia production from water and nitrogen gas
2021-05Nanostructured Iron Sulfide/N, S Dual-Doped Carbon Nanotube-Graphene Composites as Efficient Electrocatalysts for Oxygen Reduction ReactionChae, Gyu Sik; Youn, Duck Hyun; Lee, Jae SungARTICLE149 Nanostructured Iron Sulfide/N, S Dual-Doped Carbon Nanotube-Graphene Composites as Efficient Electrocatalysts for Oxygen Reduction Reaction
2021-04Base-free CO2 hydrogenation to formic acid over Pd supported on defective carbon nitride modified by microwave and acid treatmentsKim, Eun Hyup; Choi, Yo Han; Lee, Min Hee, et alARTICLE116 Base-free CO2 hydrogenation to formic acid over Pd supported on defective carbon nitride modified by microwave and acid treatments
2021-02Design of 2D Layered Catalyst by Coherent Heteroepitaxial Conversion for Robust Hydrogen GenerationSim, Yeoseon; Yoon, Aram; Kang, Hee Seong, et alARTICLE255 Design of 2D Layered Catalyst by Coherent Heteroepitaxial Conversion for Robust Hydrogen Generation
2020-10Covalent 0D-2D Heterostructuring of Co9S8-MoS(2)for Enhanced Hydrogen Evolution in All pH ElectrolytesKim, Minkyung; Anjum, Mohsin Ali Raza; Choi, Min, et alARTICLE295 Covalent 0D-2D Heterostructuring of Co9S8-MoS(2)for Enhanced Hydrogen Evolution in All pH Electrolytes
2020-10Recycling Carbon Dioxide through Catalytic Hydrogenation: Recent Key Developments and PerspectivesRa, Eun Cheol; Kim, Kwang Young; Kim, Eun Hyup, et alARTICLE319 Recycling Carbon Dioxide through Catalytic Hydrogenation: Recent Key Developments and Perspectives
2020-09Immobilizing single atom catalytic sites onto highly reduced carbon hosts: Fe-N-4/CNT as a durable oxygen reduction catalyst for Na-air batteriesNoh, Woo Yeong; Kim, Eun Mi; Kim, Kwang Young, et alARTICLE244 Immobilizing single atom catalytic sites onto highly reduced carbon hosts: Fe-N-4/CNT as a durable oxygen reduction catalyst for Na-air batteries

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