郵箱:chenjiej@ustc.edu.cn
個人簡介
2020年12月-至今,特任教授,中國科學技術(shù)大學
2017年4月-2020年11月,副研究員,中國科學技術(shù)大學
2016年7月-2017年3月,特任副研究員,中國科學技術(shù)大學
2015年6月-2016年6月,訪問學者,加州大學伯克利分校
2014年7月-2016年6月,博士后,中國科學技術(shù)大學
2010年9月-2014年6月,博士,中國科學技術(shù)大學
2007年9月-2010年6月,碩士,合肥工業(yè)大學
2003年9月-2007年6月,本科,合肥工業(yè)大學
主要研究方向
1. 污染物催化轉(zhuǎn)化的界面調(diào)控與機理解析
2. 生物電子耦合化學催化系統(tǒng)促進污染物轉(zhuǎn)化
論文發(fā)表
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Y. Min#, X. Zhou#,*, J.-J. Chen*, W. X. Chen, F. Y. Zhou, Z. Y. Wang, Jia Yang, Can Xiong, Ying Wang, Fengting Li, Han-Qing Yu, Yuen Wu*, Integrating single-cobalt-site and electric field of boron nitride in dechlorination electrocatalysts by bioinspired design. Nature Comminucations, 2021, 12, 303.
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S.-J. Yuan#, J.-J. Chen#, Z.-Q. Lin, W.-W. Li, G.-P. Sheng, H.-Q. Yu*, Nitrate formation from atmospheric nitrogen and oxygen photocatalysed by nano-sized titanium dioxide. Nature Communications2013, 4, 2249.
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W.-K. Wang#, J.-J. Chen#, Z.-Z. Lou#, S. Kim, M. Fujitsuka*, H.-Q. Yu*, T. Majima*, Single-molecule and -particle probing crystal edge/corner as highly efficient photocatalytic sites on a single TiO2 particle. Proc. Nat. Acad. Sci.2019, 116, 18827-18833.
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S. Lu#, J. Jiang#, H. Yang, Y.-J. Zhang, D.-N. Pei, J.-J. Chen*, Y. Yu*, Phase Engineering of iron–cobalt sulfides for Zn–air and Na–ion batteries. ACS Nano, 2020, 14, 10438-10451.
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L. J. Tian#, Y. Min#, W. W. Li*, J. J. Chen*, N. Q. Zhou, T. T. Zhu, D. B. Li, J. Y. Ma, P. F. An, L. R. Zheng, H. Huang, Y. Z. Liu, H. Q. Yu, Substrate metabolism-driven assembly of high-quality CdSxSe1-x quantum dots in Escherichia coli: Molecular mechanisms and bioimaging application. ACS Nano2019, 13, 5841-5851.
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S. S. Yu, J. J. Chen*, X. Y. Liu, H. Q. Yu*, Interfacial electron transfer from the outer membrane cytochrome OmcA to graphene oxide in a microbial fuel cell: Spectral and electrochemical insights. ACS Energy Letters 2018, 3, 2449-2456.
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H.-C. Li#, Y.-J. Zhang#, X. Hu, W.-J. Liu*, J.-J. Chen*, H.-Q. Yu, Metal–organic framework templated Pd@PdO–Co3O4 nanocubes as an efficient bifunctional oxygen electrocatalyst. Advanced Energy Materials2018, 8, 1702734.
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J. Jiang#, Y.-J. Zhang#, X.-J. Zhu, S. Lu, L.-L. Long, J.-J. Chen*, Nanostructured metallic FeNi2S4 with reconstruction to generate FeNi-based oxide as a highly-efficient oxygen evolution electrocatalyst. Nano Energy2021, 81, 105619.
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L. Xiong#, J.-J. Chen#, Y.-X. Huang, W.-W. Li, J.-F. Xie, H.-Q. Yu*, An oxygen reduction catalyst derived from a robust Pd-reducing bacterium. Nano Energy2015, 12, 33-42.
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L.-L. Li, Q.-Z. Wu, J.-J. Chen*, Y.-H. Cui, C.-M. Zhu, B.-Y. Li, Z. Guo, W.-W. Li*. Mechanical Insights into Thiol-Mediated Synergetic Biotransformation of Cadmium and Selenium in Nematodes. Environmental Science & Technology, 2021, DOI: 10.1021/acs.est.1c00686.
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S. -S. Yu, J.-J. Chen*, R.-F. Cheng, M. Yuan, H. -Q. Yu*.Iron Cycle Tuned by Outer-Membrane Cytochromes of Dissimilatory Metal-Reducing Bacteria: Interfacial Dynamics and Mechanisms in Vitro. Environmental Science & Technology, 2021, accepted.
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F. Chen#, L.-L. Liu#, J.-J. Chen*, W.-W. Li, Y.-P. Chen, Y.-J. Zhang, J.-H. Wu, S.-C. Mei, Q. Yang, H.-Q. Yu*,Efficient decontamination of organic pollutants under high salinity conditions by a nonradical peroxymonosulfate activation system. Water Research, 2021, 191, 116799.