陈远均 - 北京师范大学

个人简介

学习与工作经历 2025- 至今北京师范大学，化学学院，教授 2023-2025 美国西北大学，博士后（合作导师： Edward Sargent 教授） 2021-2023 加拿大多伦多大学，博士后（合作导师： Edward Sargent 教授） 2015-2020 清华大学，化学系，博士（导师：李亚栋教授） 2011-2015 北京化工大学，化学工程学院，学士奖励与荣誉 2024 国家海外高层次引进人才计划 2020 京博科技奖 - 化学化工与材料京博优秀博士论文金奖 2020 清华大学优秀博士论文 2020 清华大学优秀毕业生、北京市优秀毕业生 2019 北京地区广受关注学术论文奖 2018 清华大学未来学者奖学金

研究领域

无机功能纳米材料；单原子催化；能源催化；电化学合成本课题组围绕 “ 原子尺度材料设计与性能研究 ” 这一研究主题，面向能源电催化反应，以单原子催化剂和功能纳米催化剂为材料抓手，基于对反应机理与构效关系的深入研究，设计开发高效催化剂和催化反应体系，以实现化学品的绿色化学合成以及碳资源的高值化利用。

近期论文

查看导师新发文章（温馨提示：请注意重名现象，建议点开原文通过作者单位确认）

1. Y. Chen , † X. Wang, † X.-Y. Li, † R. K. Miao, † J. Dong, Z. Zhao, C. Liu, J. E. Huang, J. Wu, S. Chu, W. Ni, Z. Guo, Y. Xu, P. Ou, B. Xu, Y. Hou, D. Sinton and E. Sargent, Electrified synthesis of n -propanol using a dilute alloy catalyst. Nat. Catal . 2025, 8, 239-247. (Cover paper) 2. Y. Chen , † X. Li, † Z. Chen, † A. Ozden, J. Huang, P. Ou, J. Dong, J. Zhang, C. Tian, B. Lee, X. Wang, S. Liu, Q. Qu, S. Wang, Y. Xu, R. Miao, Y. Zhao, Y. Liu, C. Qiu, J. Abed, H. Liu, H. Shin, D. Wang, Y. Li, D. Sinton and E. Sargent, Efficient multicarbon formation in acidic CO 2 reduction via tandem electrocatalysis. Nat. Nanotechnol . 2024, 19, 311-318. 3. Y. Chen , † R. Zhang, † Z. Chen, † J. Liao, X. Song, X. Liang, Y. Wang, J. Dong, C. Singh, D. Wang, Y. Li, F. Toste, J. Zhao. Heterogeneous rhodium single-atom-site catalyst enables chemoselective carbene N–H bond insertion. J. Am. Chem. Soc. 2024, 146, 10847-10856 . 4. Y. Chen , R. Miao, C. Yu, K. Xie, D. Sinton, E. Sargent. Catalyst design for electrochemical CO 2 reduction to ethylene. Matter 2024, 7, 25-31. 5. X. Wang, † Y. Chen , † F. Li, † R. Miao, † J. Huang, Z. Zhao, X. Li, R. Dorakhan , S. Chu, J. Wu, S. Zheng, W. Ni, D. Kim, S. Park, Y. Liang, A. Ozden, P. Ou, Y. Hou, D. Sinton, E. Sargent. Site-selective protonation enables efficient carbon monoxide electroreduction to acetate. Nat. Commun. 2024, 15, 616. 6. Y. Chen , † B. Jiang, † H. Hao, † H. Li, C. Qiu, X. Liang, Q. Qu, Z. Zhang, R. Gao, D. Duan, S. Ji, D. Wang. Atomic-level regulation of cobalt single-atom nanozymes: engineering high-efficiency catalase mimics. Angew . Chem. Int. Ed. 2023, 62, e202301879. 7. Y. Chen , † J. Pei, † Z. Chen, † A. Li, S. Ji, H. Rong, Q. Xu, T. Wang, A. Zhang, H. Tang, J. Zhu, X. Han, Z. Zhuang, G. Zhou, and D. Wang. Pt atomic layers with tensile strain and rich defects boost ethanol electrooxidation. Nano Lett. 2022, 22, 7563-7571. 8. Y. Chen , † P. Wang, † H. Hao, † J. Hong, † H. Li, S. Ji, A. Li, R. Gao, J. Dong, X. Han, M. Liang, D Wang, Y. Li. Thermal atomization of platinum nanoparticles into single atoms: an effective strategy for engineering high-performance nanozymes. J. Am. Chem. Soc. 2021, 143, 18643-18651. 9. Y. Chen , † R. Gao, † S. Ji, H. Li, K. Tang, P. Jiang, H. Hu, Z. Zhang, H. Hao, Q. Qu, X. Liang, W. Chen, J. Dong, D. Wang, Y. Li. Atomic-level modulation of electronic density at cobalt single-atom sites derived from metal-organic frameworks: enhanced oxygen reduction performance. Angew . Chem. Int. Ed. 2021, 60, 3212-3221. 10. S. Ji, † B. Jiang, † H. Hao, † Y. Chen , † J. Dong, Y. Mao, Z. Zhang, R. Gao, W. Chen, R. Zhang, Q. Liang, H. Li, S. Liu, Y. Wang, Q. Zhang, L. Gu, D. Duan, M. Liang, D. Wang, X. Yan, Y. Li Matching the kinetics of natural enzymes with a single-atom iron nanozyme. Nat. Catal . 2021, 4, 407-417. 11. Z. Li, † Y. Chen , † S. Ji, † Y. Tang, W. Chen, A. Li, J. Zhao, Y. Xiong, Y. Wu, Y. Gong, T. Yao, W. Liu, L. Zheng, J. Dong, Y. Wang, Z. Zhuang, W. Xing, C. He, C. Peng, W. Cheon, Q. Li, M. Zhang, Z. Chen, N. Fu, X. Gao, W. Zhu, J. Wan, J. Zhang, L. Gu, S. Wei, P. Hu, J. Luo, J. Li, C. Chen, Q. Peng, X. Duan, Y. Huang, X. Chen, D. Wang, Y. Li. Iridium single-atom catalyst on nitrogen-doped carbon for formic acid oxidation synthesized using a general host-guest strategy. Nat. Chem. 2020, 12, 764-772. 12. Y. Chen , † S. Ji, † W. Sun, † Y. Lei, Q. Wang, A. Li. W. Chen, G. Zhou, Z. Zhang, Y. Wang, L. Zheng, A. Q, Zhang, L. Gu, X. Han, D. Wang, Y. Li. Engineering the atomic interface with single Pt atoms for enhanced photocatalytic hydrogen production. Angew . Chem. Int. Ed. 2020, 59, 1295-1301. 13. Y. Chen , † S. Ji, † S. Zhao, † W. Chen, J. Dong, W. C. Cheong, R. Shen, X. Wen, L. Zheng, A. I. Rykov, S. Cai, H. Tang, Z. Zhuang, C. Chen, Q. Peng, D. Wang, Y. Li. Enhanced oxygen reduction with single-atomic-site iron catalysts for a zinc-air battery and hydrogen-air fuel cell. Nat. Commun. 2018, 9, 5422. 14. Y. Chen , † S. Ji, † W. Sun, † W. Chen, J. Dong, J. Wen, J. Zhang, Z. Li, L. Zheng, C. Chen, Q. Peng, D. Wang, Y. Li. Discovering partially charged single-atom Pt for enhanced anti-Markovnikov alkene hydrosilylation . J. Am. Chem. Soc. 2018 , 140 , 7407-7410. 15. Y. Chen , S. Ji, C. Chen, Q. Peng, D. Wang, Y. Li. Single-atom catalysts: synthetic strategies and electrochemical applications. Joule 2018, 2, 1242-1264. 16. Y. Chen , † S. Ji, † Y. Wang, † J. Dong, W. Chen, Z. Li, R. Shen, L. Zheng, Z. Zhuang, D. Wang, Y. Li. Isolated single iron atoms anchored on N-doped porous carbon as an efficient electrocatalyst for the oxygen reduction reaction. Angew . Chem. Int. Ed. 2017, 56, 6937-6941. (Cover paper)