Principal Investigator

김진영 (Jin Young Kim)

한국과학기술연구원 (KIST) 연료전지연구센터

• 학위

Ÿ   2012, MIT 재료공학과, 박사 (지도교수: Francesco Stellacci, Caroline Ross 교수님)

Ÿ   2000, 한국과학기술원 재료공학과, 석사 (지도교수: 전덕영 교수님)

Ÿ   1998, 한국과학기술원 재료공학과, 학사

• 경력

Ÿ   2016. 03-현재, KIST, 연료전지연구센터, 책임연구원

Ÿ   2013-2016. 02, KIST, 연료전지연구센터, 선임연구원

Ÿ   2012-2013, University of Toronto, 전기 및 컴퓨터 공학과, 포스트닥터 (지도교수: Edward H. Sargent 교수님)

Ÿ   2002-2006, 삼성종합기술원, 전문연구원

• 주요수상실적

    제 2회 수소의 날 수소경제 활성화 분야 장관표창, 산업통상자원부 (2023, 11)

Ÿ  이달의 KIST인상 3회 수상, KIST (2015, 10), (2018, 01), (2023, 09)

    KIST Tenured Fellow, KIST (2022, 09)

    2018년 국가연구개발 성과평가 유공포상 장관표창, 과학기술정보통신부 (2018, 10)

    2018년 국가연구개발 우수성과 100선 선정, 과학기술정보통신부 (2018, 10)

Ÿ  KIST Young Fellow인상, KIST (2016, 04)

Ÿ  Banting 포스트닥터 펠로십, NSERC (2013)

Ÿ  전력산업 우수인력 해외장학금, 산업자원부 (2006)

• 주요연구분야

    에너지 및 환경 응용을 위한 새로운 나노구조 소재 합성, 구조 제어 및 전기화학, 광전기화학 기반 소자 적용

Ÿ  연료전지용 강화복합막 기술 개발, 연료전지용 박막형 MEA 소재 및 공정 기술 개발

Ÿ  양자점 태양전지 기술 개발, 양자점 광전기화학 소자 기술 개발 

• 대표실적 (연구실적 총 70여편) 

J. Y. Kim* et al., “Ultrahigh electrode performance of low-loaded iridium jagged nanotubes for water electrolysis applications”, Adv. Energy Mater., 14, 2400999 (2024)
J. Y. Kim* et al., “3D microprinting of inorganic porous materials by chemical linking-induced solidification of nanocrystals”, Nature Commun. 14, 8460 (2023).
J. Y. Kim* et al., “Efficient and sustainable water electrolysis achieved by excess electron reservoir enabling charge replenishment to catalysts”, Nature Commun. 14, 5402 (2023).
J. Y. Kim* et al., “Antioxidant technology for durability enhancement in polymer electrolyte membranes for electrochemical device applications”, Mater. Today 58, 135 (2022).
J. Y. Kim* et al., “Hierarchically assembled cobalt oxynitride nanorods and N-doped carbon nanofibers for efficient bifunctional oxygen electrocatalysis with exceptional regenerative efficiency”, ACS Nano 15, 11218 (2021).
J. Y. Kim* et al., “Conformation-modulated three-dimensional electrocatalysts for high-performance fuel cell electrodes”, Science Adv. 7, eabe9083 (2021).
J. Y. Kim* et al., “Ordered Mesoporous Carbons with Graphitic Tubular Frameworks via Dual Templating for Efficient Electrocatalysis and Energy Storage”, Angew. Chem. Int. Ed. 60, 1441 (2021).
J. Y. Kim* et al., “Highly Efficient Oxygen Evolution Reaction via Facile Bubble Transport Realized by Three-dimensionally Stack-printed Catalysts”, Nature Commun. 11, 4921 (2020).
J. Y. Kim* et al., “Highly Stable Pt-based Ternary Systems for Oxygen Reduction Reaction in Acidic Electrolytes”, Adv. Energy Mater. 10, 2002049 (2020).
J. Y. Kim* et al., “Synergetic Structural Transformation of Pt Electrocatalyst into Advanced 3D Architectures for Hydrogen Fuel Cells”, Adv. Mater. 32, 2002210 (2020).
J. Y. Kim* et al., “Suppressing Interfacial Dipoles to Minimize Open-circuit Voltage Loss in Quantum Dot Photovoltaics”, Adv. Energy Mater. 27, 1901938 (2019).
J. Y. Kim* et al., “Tuning Solute-redistribution Dynamics for Scalable Fabrication of Colloidal Quantum Dot Optoelectronics”, Adv. Mater. 31, 1805886 (2019).
J. Y. Kim* et al., “High-performance Corrosion-resistant Fluorine-doped Tin Oxide as an Alternative to Carbon Support in Electrodes for PEM Fuel Cells”, Nano Energy 65, 104008 (2019).
J. Y. Kim* et al., “Mussel-Inspired Polydopamine-Treated Reinforced Composite Membranes with Self-Supported CeOx Radical Scavengers for Highly Stable PEM Fuel Cells”, Adv. Funct. Mater. 17, 1806929 (2019).
J. Y. Kim* et al., “Two-Dimensional Nanoparticle Supracrystals: A Model System for Two-Dimensional Melting”, Nano Lett. 16, 1352 (2016).
J. Y. Kim* et al., “Highly Asymmetric n+-p Heterojunction Quantum Dot Solar Cells with Significantly Improved Charge Collection Efficiencies”, Adv. Mater. 28, 1780 (2016).
J. Y. Kim et al., “Single-Step Fabrication of Quantum Funnels via Centrifugal Colloidal Casting of Nanoparticle Films”, Nature Commun. 6:7772 (2015).
J. Y. Kim et al., “Colloidal Quantum Dot Materials and Devices: A Quarter-Century of Advances”, Adv. Mater. 25, 4986-5010 (2013).
R. P. Carney, J. Y. Kim et al., “Determination of Nanoparticle Size Distribution Together with Density or Molecular Weight by 2D Analytical Ultracentrifugation”, Nature Commun. 2:335 (2011).