李欣
雷速体育
姓名:李欣
职称:讲师
研究方向:从事化学工程与工艺专业的教学和科研工作,主要的研究方向是新能源催化转化技术比如CO2/N2电化学还原催化材料的设计、催化性能及反应机理研究,精细调控催化材料的结构、催化活性中心及其演变和表界面构效关系、调控机制方面开展研究。
主讲课程:煤化学、能源化学
学术论文
1. Xin Li, et al. Selective electroreduction of CO2 and CO to C2H4 by synergistically tuning nanocavities and surface charge of copper oxide [J]. ACS Sustain. Chem. Eng., 2022, 1(19): 6466-6475. (一作)
2. Xin Li, et al. Engineering the CuO–HfO2 interface toward enhanced CO2 electroreduction to C2H4 [J]. Chem. Commun., 2022, 58(53): 7412-7415. (一作)
3. Xin Li, et al. Cadmium-based metal-organic frameworks for high-performance electrochemical CO2 reduction to CO over wide potential range [J]. Chinese J Chem. Eng., 2022, 43: 143-151. (一作)
4. Xin Li, et al. Honeycomb-like CuO@C for electroreduction of carbon dioxide to ethylene [J]. J colloid interf. SCI., 2023, 640, 783–790. (共一)
5. Xin Li, et al. Strategies for enhancing electrochemical CO2 reduction to multi-carbon fuels on copper [J]. The Innov. Mater., 2023, 1(1): 100014. (一作)
6. Xin Li, et al. Enhanced electrochemical CO2 reduction for high ethylene selectivity using iodine-doped copper oxide catalysts [J]. J. Alloys Compounds. 2024, 980: 173550.(通讯作者)
7. Xin Li, et al. Engineering vacancy and hydrophobicity of spherical coral-like CuO catalyst for effective electrochemical CO2 reduction to ethylene [J]. Surf. Interfaces. 2023, 38, 102841. (通讯作者)
8. Xin. Li, et al. Recent advances in electrode materials for electrochemical CO2 reduction. Book chapter for an ACS Symposium Series entitled "Clean Energy Materials" 2020. (一作)
9. Xin. Li, et al. Application of two-dimensional materials for electrochemical carbon dioxide reduction. Book chapter in "2D Nanomaterials for Energy Applications" Elsevier Publishers 2019. (一作)
10. Xin Li, et al. lignin-polyurea microcapsules with anti-photolysis and sustained-release performances synthesized via Pickering emulsion template [J]. React. Funct. Polym. 2018. (一作)