李佳澄 - 北京师范大学

个人简介

李佳澄，主要从事环境催化方向纳米-单原子材料开发及污染物催化转化技术研究。通过结合多种表征技术与理论分析，探究污染物在活性位的微观转化机制，揭示结构效能关系及反应机理，促进高效修复材料和催化剂等设计开发。相关成果发表在PNAS，Appl. Catal. B-Environ.,J. Catal.等综合和环境类国际权威期刊。教育经历 2012-09至2017-09, 中国石油大学（北京），理学院，博士 2008-09至2012-06, 华东理工大学, 化工学院，学士工作经历清华大学，环境学院，土壤与地下水环境教研所，博士后北京师范大学，环境学院，讲师

研究领域

水中氮素污染的电化学治理研究有机污染物催化转化研究重金属污染治理与资源化利用

近期论文

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J. C. Li, M. Li, N. An, S. Zhang, Q.N. Song, Y. L. Yang, J. Li, X. Liu. Boosted ammonium production by singlecobalt atom catalysts with high Faradic efficiencies. Proceedings of the National Academy of the Sciences of the United States of America. 119, 2022, e2123450119. J. C. Li, M. Li, N. An, S. Zhang, Q.N. Song, Y. L. Yang, X. Liu. Atomically dispersed Fe/Cu atoms anchored on S andN co-doped carbon for efficient electrochemical denitrification. Proceedings of the National Academy of the Sciences of the United States of America. 118, 2021, e2105628118. J. C. Li, M. Li, J. Li, S. Wang, G.B. Li, X. Liu. Hydrodechlorination and deep hydrogenation onsingle-palladium-atom-based heterogeneous catalysts. Applied Catalysis B: Environmental. 282, 2021, 119518. J. C. Li, M. Li, Q. N. Song, S.Wang, F. Liu, X. Liu. Efficient recovery of Cu(II) by LTA-zeolites withhierarchical pores and their resource utilization in electrochemicaldenitrification: environmentally friendly design and reutilization of waste inwater. Journal of Hazardous Materials. 394,2020, 122554. J. C. Li, M. Li, S. Wang, X. Yang, F.Liu, X. Liu. Key role of pore size in Cr(VI) removal by the composites of3-dimentional mesoporous silica nanospheres wrapped with polyaniline. Science of The Total Environment. 729,2020, 139009. J. C. Li, M. Li, X. Yang, S. Wang, Y.Zhang, F. Liu, X. Liu. Sub-nanocatalysis for efficient aqueous nitratereduction: effect of strong metal–support interaction. ACS Applied Materials & Interfaces. 11, 2019, 33859. J. C. Li, M. Li, Xu Yang, Yu Zhang,Xiang Liu, Fang Liu and Fanbin Meng. Morphology-controlled synthesis ofboehmite with enhanced efficiency for the removal of aqueous Cr(VI) andnitrates. Nanotechnology. (IF=3.953)30, 2019, 195702. J. C. Li, J. M. Li, Z. Zhao, X. Q.Fan, J. Liu, Y. C. Wei, A. J. Duan, Z. A. Xie, Q. L. Liu. Size effect of TS-1supports on the catalytic performance of PtSn/TS-1 catalysts for propanedehydrogenation. Journal of Catalysis.352, 2017, 361. Q. N. Song, M. Li, J. C. Li, S.Zhang, L. Yang, X. Y. Chen, F. B. Meng, X. Liu. Simultaneous ElectrocatalyticRemoval of Inorganic Nitrogen Compounds in Groundwater: Modeling andMechanistic Studies. Chemical EngineeringJournal. 430, 2021, 133152. S. Zhang, M. Li, J. C. Li, Q. N.Song, Xiang Liu. High-ammonia selective metal–organic framework–derivedCo-doped Fe/Fe2O3 catalysts for electrochemical nitratereduction. Proceedings of the NationalAcademy of the Sciences of the United States of America. 119 (6), 2022,e2115504119. H. D. Li, Z. Zhao, J. C. Li, J. M. Li, L. L. Zhao, J. C. Sun, X. Q. Fan. Synthesisof Pt-SnOx/TS-1@SBA-16 Composites and Their High Catalytic Performance forPropane Dehydrogenation. Chemical Research in Chinese Universities. 35, 2019,866. Y. Zhang, M. Li, J. C. Li, Y. Y.Yang, X. Liu, Surface modified leaves with high efficiency for the removal ofaqueous Cr (VI). Applied Surface Science,484, 2019, 189. C. P. Kong, M. Li, J. C. Li,X. J. Ma, C. P. Feng, X. Liu. One-step synthesis of Fe2O3nano-rod modified reduced graphene oxide composites for effective Cr(VI)removal: removal capability and mechanism. RSC Advances, 9, 2019, 20582.