个人简介
1998--2002 本科,厦门大学
2002--2005 硕士,厦门大学;导师:孙世刚院士 & 姜艳霞教授
2005--2009 博士,香港大学;导师:Vivian Wing-Wah Yam 院士 & 祖延兵 研究员
2009--2013 博士后,北卡罗来纳大学教堂山分校;合作导师:Thomas J. Meyer 院士
2013--2014 博士后,杜克大学;合作导师:Benjamin J. Wiley 教授
2014--至今,同济大学,教授,博士生导师
学术成果
目前已发表SCI论文118篇,他引约4600次,H因子40;其中以第一作者或通讯作者在Proceedings of the National Academy of Sciences USA (3),Journal of the American Chemical Society (3),Angewandte Chemie International Edition (3), Advanced Materials (1), Energy & Environmental Science (2), Advanced Energy Materials (1),Nano Letters (1),ACS Nano (1),ACS Catalysis (3), Journal of Materials Chemistry (3)等期刊发表高水平论文21篇。申请或获国际、国内专利授权14项。(http://www.researcherid.com/rid/C-2167-2011)
主要科研项目
主持国家自然科学基金面上项目:过渡金属配合物作为质子-电子储存媒介用于水分解析氢和析氧反应分离,2019/01-2022/12
主持国家自然科学基金面上项目:新型核-壳结构铜纳米线透明网络电极及用于太阳能燃料制备,2016/01-2019/12
主持国家自然科学青年基金项目:发展新型电致化学发光透明生物传感器,2015/01-2017/12
主持中央高校基本科研业务费,非贵金属产氢催化剂的研究,2017/01-2018/12
研究领域
人工光合作用和太阳能燃料制备过程中的光、电催化半反应(包括水氧化,氯离子氧化,水/质子还原,二氧化碳还原)催化剂的设计、开发和催化机理研究;新能源材料
燃料电池,氧气电催化还原
光、电功能材料和助剂的开发和应用
近期论文
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Ji, L. L.; Wang, J. Y.; Teng, X.; Meyer, T. J.; Chen, Z. F.* “CoP nanoframes as bifunctional electrocatalysts for efficient overall water splitting.”ACS Catalysis 2019, ASAP.
Wang, J. Y.; Ji. L. L.; Teng, X.; Liu, Y. Y.; Guo, L. X.; Chen, Z. F.* “Decoupling half-reactions of electrolytic water splitting by integrating a polyaniline electrode.” Journal of Materials Chemistry A 2019, 7, 13149-13153.
Ji, L. L.; Lv, C. C.;Chen, Z. F.;*Huang, Z. P.;* Zhang, C.* “Nickel-based (photo)electrocatalysts for Hydrogen Production.”Advanced Materials,2018,30, 1705653.
Ji, L. L.; Wang, J. Y.; Teng, X.; Dong, H.; He. X. M.;Chen, Z. F.;*“N,P-doped molybdenum carbide nanofibers for efficient hydrogen production.”ACS Applied Materials & Interfaces2018,10, 14632-14640.
Guo, L. X.; Ji, L. L.; Wang, J. Y.; Zuo, S. S.;Chen, Z. F.*“Walnut-like transition metal carbides with 3D networks by a versatile electropolymerization-assisted method for efficient hydrogen evolution.”ACS Applied Materials & Interfaces2018,10(43), 36824-36833.
Guo,L. X.; Wang, J. Y.; Teng, X.; Liu, Y. Y.; He, X. M. He;Chen, Z. F.*“A novel bimetallic NiMo carbide nanowire array for efficient hydrogen evolution.”ChemSusChem2018,11, 2717.
Wang, J. Y.; Ji, L. L.; Zuo, S. S.;Chen, Z. F.*“Hierarchically structured 3D integrated electrodes by galvanic replacement reaction for highly efficient water splitting.”Advanced Energy Materials2017, 1700107.
Liu, Y. Y.; Teng, X.; Mi, Y. L.;Chen, Z. F.*“A new architecture design of Ni-Co LDHs-based pseudocapacitors.”Journal of Materials Chemistry A2017, 5, 24407-24415.
Ji, L. L.; Wang, J. Y.; Guo, L. X.;Chen, Z. F.*“In situO2-emission assisted synthesis of molybdenum carbide nanomaterial as an efficient electrocatalyst for hydrogen production in both acidic and alkaline media.”Journal of Materials Chemistry A2017,5, 5178-5186.
Tang, W. Q.; Wang, J. Y.; Guo, L. X.; Teng, X.; Meyer, T. J.;Chen, Z. F.*“Heterostructured NixP/S/Se nanosheets on CoxP/S/Se nanowire arrays for highly efficient hydrogen evolution.”ACS Applied Materials & Interfaces2017,9, 41347-41353.
Du, J. L.; Wang, J. Y.; Ji, L. L.; Xu, X. X.;Chen, Z. F.*“A highly active and robust copper-based electrocatalyst toward hydrogen evolution reaction with low overpotential in neutral solution.”ACS Applied Materials & Interfaces2016,8(44), 30205-30211.
Wang, J. Y.; Ji, L. L.;Chen, Z. F.*“In situ rapid formation of a nickel−iron-based electrocatalyst for water oxidation.”ACS Catalysis2016,6(10), 6987-6992.
Lu, C.; Du, J. L.; Su, X. J.; Zhang, M T.; Xu, X. X.; Meyer, T. J.;Chen, Z. F.*“Cu(II) aliphatic diamine complexes for both heterogeneous and homogeneous water oxidation catalysis in basic and neutral solutions.”ACS Catalysis2016,6(1), 77-83.
Du, J. L.;Chen, Z. F.;*Chen, C. C.;* Meyer, T. J. “An alternative half reaction to water oxidation: chloride oxidation to chlorine catalyzed by silver ion.”Journal of the American Chemical Society2015,137(9), 3193-3196.
Du, J. L.;Chen, Z. F.;*Ye, S. R.; Wiley, B. J.; Meyer, T. J. “Copper as a robust and transparent electrocatalyst for water oxidation.”Angewandte Chemie International Edition2015,54(7), 2073-2078.