RESEARCH
RESEARCH
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RESEARCH INTERESTS:
SOLAR-ASSISTED ELECTROCHEMICAL TANDEM SYSTEMS TOWARD SUSTAINABLE CLEAN ENERGY SOCIETY
My research interests are based on the design of electrocatalysts and photoelectrodes and (photo)electrochemical processes.
MATERIAL DESIGN
Synthesis of materials with required properties is a key component for (photo)electrochemical reactions.
ANALYSIS
Understanding various aspects of material's properties and ex-situ/in-situ/operando analysis techniques are necessary to understand (photo)electrochemical phenomena.
TANDEM DEVICES
Tandem system is ultimate goal for generating solar fuel spontaneously.
FUNDED PROPOSAL
FUNDED PROPOSAL
PROJECT LEADER
TITLE: TRANSITION METAL/SILICON-BASED HETEROJUNCTION ARTIFICIAL LEAF FOR SPONTANEOUS SOLAR-TO-HYDROGEN CONVERSION
Funding Source: National Research Foundation of Korea (2021). Contribution: Conceptualization and writing
TITLE: SYNERGISTIC METAL OXIDE/SI-BASED HETEROJUNCTION PHOTOELECTRODES FOR HIGHLY EFFICIENT SOLAR WATER SPLITTING
Funding Source: National Research Foundation of Korea (2017). Contribution: Conceptualization and writing
PROJECT PARTICIPANT
TITLE: KRISS-SNU DEVELOPMENT OF SUPERCATALYSTS FOR GREEN HYDROGEN PRODUCTION (WATER ELECTROLYSIS)
Funding Source: Korea Research Institute of Standards and Science (2021). Contribution: Conceptualization and writing with Prof. Jang, Ho Won, Prof. Kwon, Min Sang, and Prof. Kang, Jong Hun
TITLE: DEVELOPMENT OF HIGHLY DURABLE AMMONIA ELECTROLYSIS SYSTEM
Funding Source: Lotte Chemical, Korea (2021). Contribution: Conceptualization and writing with Prof. Jang, Ho Won
TITLE: HIGH PERFORMANCE ARTIFICIAL NANOTREES FOR SOLAR WATER SPLITTING HYDROGEN PRODUCTION
Funding Source: National Research Foundation of Korea (2021). Contribution: Conceptualization and writing with Prof. Jang, Ho Won
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