个人简介
1997/8 – 至今: 华侨大学,材料科学与工程学院,教师
2009/12–2011/12:日本名古屋大学,物质科学国际研究中心,GCOE项目研究员,
合作教授:IUPAC主席Prof. Kazuyuki Tatsumi
2006/9–2009/7:中国科学院福建物质结构研究所,物理化学,博士 导师:卢灿忠
2002/9–2005/7:华侨大学,高分子化学与物理,硕士 导师:吴季怀
1993/9–1997/7:闽南师范大学,化学教育,学士
邮箱:ymxie@hqu.edu.cn
论文成果
- Regulating the coordination environment of atomically dispersed Fe-N4 moieties in carbon enables efficient oxygen reduction for Zn-air batteries.Chemical Engineering Journal,2024,
- Synergistic sulfur-selenium cathodes for lithium-sulfur batteries.Journal of Power Sources,2024,
- Surface-induced strategy: Phosphorus-induced NiFe-LDH generation of strong surface bonding states for efficient photocatalytic hydrogen evolution.Applied Surface Science,2024,
- Tea-Derived Sustainable Materials.Advanced Functional Materials,2024,
- Oxygen self-doping pyrolyzed polyacrylic acid as sulfur host with physical/chemical adsorption dual function for lithium-sulfur batteries.Chinese Chemical Letters,2023,
- Efficient photocatalytic hydrogen production by space separation of photo-generated charges from S-scheme ZnIn2S4/ZnO heterojunction.Journal of Colloid and Interface Science,2023,
- Promoting photocatalytic H2 evolution through interfacial charge separation on the direct Z-scheme ZnIn2S4/ZrO2 heterojunction.International Journal of Hydrogen Energy,2023,
- NaNO3 assisted gelatin-derived multi-level porous carbon aerogel loaded Fe single-atom for high efficient oxygen reduction reaction.Applied Catalysis B: Environment and Energy,2023,
- Ganoderma Lucidum-derived erythrocyte-like sustainable materials.Carbon,2022,
- A Z-scheme Pd modified ZnIn2S4/P25 heterojunction for enhanced photocatalytic hydrogen evolution.Applied Surface Science,2022,
- Defect Passivation through Cyclohexylethylamine Post-treatment for High-Performance and Stable Perovskite Solar Cells.ACS Applied Energy Materials,2021,
- Supermolecule Cucurbituril Subnanoporous Carbon Supercapacitor (SCSCS).Nano Letters,2021,
- All‐in‐One Porous Polymer Adsorbents with Excellent Environmental Chemosensory Responsivity, Visual Detectivity, Superfast Adsorption, and Easy Regeneration.Advanced Materials,2019,
团队成员