Faculty Research Profile
Sung-Yeon Jang
학력
• 2004 : Ph.D. Institute of Materials Science, University of Connecticut, US
• 2000 : M.S. Kyungpook National University, Korea
• 1998 : B.S. Kyungpook National University, Korea
주요 경력
• 2019 - Present : Professor School of Energy and Chemical Engineering, UNIST
• 2017 - 2018 : Visiting Professor Department of Mechanical Engineering, University of Michigan
• 2011 - 2019 : Associate Professor School of Applied Chemistry, Kookmin University
• 2006 - 2011 : Senior Research Scientist Center for Energy Materials, KIST
• 2004 - 2006 : Post-doctor Researcher Chemical Engineering, University of California at Berkeley
수상/학회/외부활동
• 2022: Scientist of year, Korea Polymer Society
• 2019 : Scientist of Year, Ministry of Science and ICT
• Member of Korean Polymer Society
• Member of Korean Photovoltaic Society
• Member of Korean Society of Photoscience
• Member of Korean Chemical Society
• Editorial board member of Scientific Reports
탄소중립에너지연구실
Carbon Neutral Energy Research Group
탄소중립 실현을 위한 차세대 에너지는 친환경적 발전을 실현시키며 에너지 및 환경문제에 큰 기여를 할 수 있는 에너지임. 이러한 에너지를 생산하는 디바이스을 구현하기 위해서는 친환경적 고성능 에너지 소재의 개발, 광전/열전현상에 대한 이해를 통한 소자의 고효율화 등이 중요한 해결과제들로 여겨지고 있다. 본 연구실은 탄소중립 실현을 위한 차세대 에너지 소자에 필요한 원천소재 개발부터 소자의 고성능화를 위한 연구까지 모두를 수행하고 있다.
Next-generation energy technologies for achieving carbon neutrality represent environmentally friendly solutions that can make significant contributions to addressing global energy and environmental challenges. To realize devices that produce such energy, the development of eco-friendly, high-performance materials and the advancement of device efficiency through a deeper understanding of photoelectric and thermoelectric phenomena are considered key challenges. Our laboratory conducts comprehensive research, ranging from the development of fundamental materials to the optimization of device performance, all aimed at enabling next-generation energy devices for a carbon-neutral future.
Next-generation energy technologies for achieving carbon neutrality represent environmentally friendly solutions that can make significant contributions to addressing global energy and environmental challenges. To realize devices that produce such energy, the development of eco-friendly, high-performance materials and the advancement of device efficiency through a deeper understanding of photoelectric and thermoelectric phenomena are considered key challenges. Our laboratory conducts comprehensive research, ranging from the development of fundamental materials to the optimization of device performance, all aimed at enabling next-generation energy devices for a carbon-neutral future.
연구분야
양자점 태양전지, 페로브스카이트 태양전지, 수소생산, 유기태양전지, 열전소자
Colloidal Quantum Dot Solar Cells, Perovskite Solar Cells, Hydrogen production, Organic Solar Cells, Thermoelectrics
국가연구개발사업 기술 분류체계
국가과학기술표준분류
EC. 화공 > EC02. 나노화학공정기술 > EC0204. 나노복합재 제조기술
논문
• Solid-state n-type Thermodiffusion-assisted Thermogalvanic Cells with Unprecedented Thermal Energy Conversion/Jeong-Ye Baek, Hae Jin Seog, and Sung-Yeon Jang*/Energy & Environ. Sci. 2025, 18, 6714-6721.
• Alkyl ammonium iodide-based ligand exchange strategy for high-efficiency organic-cation perovskite quantum dot solar cells/Havid Aqoma†, Sang-Hak Lee†, Imil Fadli Imran, Jin-Ha Hwang, Su-Ho Lee, and Sung-Yeon Jang/Nature Energy, 2024, 9, 324–332.
• Bias-free solar NH3 production by perovskite-based photocathode coupled to valorization of glycerol/Ahmad Tayyebi†, Rashmi Mehrotra†, Muhibullah Al Mubarok†, Jieun Kim†, Tae Joo Shin, Geunsik Lee, Thomas F. Jaramillo*, Sung-Yeon Jang*, and Ji-Wook Jang*/Nature Catalysis, 2024, 7, 510–521.
특허
• 양자점 태양전지 및 이의 제조 방법 / 장성연, 정인환, 하피드 아코아 / 2021-01
• 양자점잉크조성물,이의제조방법및양자점잉크조성물로부터제조된양자점층을포함하는양자점 태양전지 / 장성연, 하피드 아코마 / 2019-11