충남대학교 화학과

에너지환경
솔루션 연구실

CO2·물·질소를 연료와 고부가가치 화학물질로 전환하는 전기화학적 경로를 설계합니다 — 탄소중립 미래를 위한 electrochemical Fischer–Tropsch 화학을 개척합니다.

Electrochemistry · Catalysis · Physical Chemistry · Spectroscopy · Nanochemistry

Publications

대표 · 최근 논문

8,414 Citations · 49 h-index · 183 i10-index | Google Scholar · 2026년 5월 기준

Exploring Direct Electrochemical Fischer–Tropsch Chemistry of C1–C7 Hydrocarbons via Perimeter Engineering of Au–SrTiO3 Catalyst

저널 표지 논문

Exploring Direct Electrochemical Fischer–Tropsch Chemistry of C1–C7 Hydrocarbons via Perimeter Engineering of Au–SrTiO3 Catalyst

Advanced Energy Materials · 2024 Link ↗

  • Laser-engineered Ag/Ag oxide interfaces for tunable CO2 reduction: Mechanistic insights from experiment and theory

    Mater. Today Energy 2026. DOI ↗

  • Switching CO2 reduction pathways: Iron drives copper toward formate selectivity

    Appl. Surf. Sci. 2026. DOI ↗

  • Synergistic ligand–photon interactions for enhanced CO2 electroreduction on Cu-based electrodes

    Surf. Sci. Technol. 2026. DOI ↗

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