武汉大学化学与分子科学学院物理化学研究所陈胜利 -

陈胜利，武汉大学珞珈学者特聘教授，博士生导师；1996年于武汉大学获博士学位；1998年底至2004年初分别在美国Southern Methodist University 和英国Imperial College作博士后研究；2004年4月起为武汉大学化学与分子科学学院教授；入选教育部新世纪优秀人才支持计划，获中国电化学青年奖；主要从事燃料电池电催化、理论与计算电化学等研究；在 Chem. Soc. Rev., JACS, ACS Nano, ACS Catalysis. J. Phys. Chem..等期刊发表论文60余篇。

分别于1991和1996年大学本科和研究生毕业于武汉大学化学系，获博士学位，留校任教；1998年7月至2004年3月期间分别在美国Southern Methodist University（Dallas）和英国ImperialCollege London化学系从事博士后研究；2004年4月起被聘为武汉大学化学与分子科学学院教授、博士生导师。现为武汉大学珞珈学者特聘教授。

1. 国家自然科学基金项目“磷酸铁锂等材料中锂离子嵌脱机理和动力学的微纳电极和理论计算研究”（2017-2020）.

2. 国家自然科学基金重点项目（合作）“多组分协同团簇基新型PEMFC催化剂研究”（2017-2020）.

3. 科技部纳米重大科学研究计划项目子课题 “高比能直接甲醇燃料电池关键纳米材料和纳米结构研究“子课题”抗毒化、长寿命低铂纳米电催化剂的设计和可控制备“（2012-2016）.

4. 科技部863计划项目”低成本燃料电池膜电极/双极板及电堆技术研究“催化剂子课题（2013-2015）.

5. 科技部863计划项目”车用燃料电池电堆及膜电极技术研究“催化剂子课题（2012-2014）.

8. 国家自然科学基金重点项目（合作）：“无机非金属材料提高质子膜燃料电池催化效率基础研究”子课题（2007-2010）

1. J. X. Chen, S. W. Luo, Y. W. Liu, S.L.Chen*, Theoretical Analysis of Electrochemical Formation and Phase Transitionof Oxygenated Adsorbates on Pt(111), ACS Appl. Mater. Interfaces, 2016, 8,20448–20458.

2. H. B. Tao, L. W. Fang, J. G. Chen, H. B.Yang, J. J. Gao, J. W. Miao, S. L. Chen*, B. Liu*, Identification of SurfaceReactivity Descriptor for Transition Metal Oxides in Oxygen Evolution Reaction,J. Am. Chem. Soc., 2016, 138, pp 9978–9985.

3. W. Wang, J. Luo, W. H. Chen, J. Li, W.Xing, S. L. Chen*, Synthesis of mesoporous Fe/N/C oxygen reduction catalyststhrough NaCl crystallite-confined pyrolysis of polyvinylpyrrolidone, J. Mater.Chem. A, 2016,4, 12768-12773 .

4. S. M. Zhang, H. Y. Zhang, X. Hua, S. L.Chen*, Tailoring molecular architectures of Fe phthalocyanine on nanocarbonsupports for high oxygen reduction performance, J. Mater. Chem. A, 2015, 3,10013.

5. Y. Dai, S. L. Chen*, Oxygen ReductionElectrocatalyst of Pt on Au Nanoparticles through Spontaneous Deposition, ACSAppl. Mater. Interfaces, 2015, 7, 823-829.

6. S. L. Chen*, Y. W. Liu, J. X. Chen,Heterogeneous electron transfer at nanoscopic electrodes: importance ofelectronic structures and electric double layers, Chemical SocietyReview, 43(2014) 5372-5386.

7. L. X. Fan, Y. W. Liu, J. W. Xiong,H. S. White*, S. L. Chen*, Electron-Transfer Kinetics andElectric Double Layer Effects in Nanometer-Wide Thin-Layer Cells, ACSNano, 8 (2014) 10426–10436.

8. W. Liang, J. X. Chen, Y. W. Liu, S.L. Chen*, Density-Functional-Theory Calculation Analysis of ActiveSites for Four-Electron Reduction of O2 on Fe/N-Doped Graphene, ACSCatalysis, 4 (2014) 4170–4177.

9. S. L. Chen*, Y. W. Liu,Electrochemistry at nanometer-sized electrodes, Phys. Chem. Chem. Phys.,16 (2014) 635-652 (invited perspective review).

10. C. Du, Y. X. Liao, X. Hua, W. Luo,* S.L. Chen*, Amine–borane assisted synthesis of wavy palladium nanorods ongraphene as efficient catalysts for formic acid oxidation, Chem.Commun., 50(2014)12843.

11. W. Hu, H. W. Zhong, W. Liang, S. L.Chen*, Ir-Surface Enriched Porous Ir−Co Oxide Hierarchical Architecture forHigh Performance Water Oxidation in Acidic Media, ACS Appl. Mater.Interfaces, 6 (2014)12729-12736.

12. B. Zhang, L. X. Fan, H. W. Zhong,Y. W. Liu, S. L. Chen*, Graphene Nanoelectrodes: Fabrication andSize-Dependent Electrochemistry, Journal of the American ChemicalSociety, 135 (2013) 10073−10080.

13. S. M. Zhang, B. Liu and S. L. Chen*,Synergistic increase of oxygen reduction favourable Fe–N coordinationstructures in a ternary hybrid of carbon nanospheres/carbon nanotubes/graphenesheets, Phys. Chem. Chem. Phys., 15 (2013) 18482.

14. S. M. Zhang, H. Y. Zhang, Q. Liu, S. L.Chen*, Fe-N doped Carbon Nanotube/Graphene Composite: FacileSynthesis and Superior Electrocatalytic Activity, J. Mater. Chem. A,1 (2013)3302-3308.

15. Y. W. Liu, S. L. Chen*,Theory of Interfacial Electron Transfer Kinetics at Nanometer-SizedElectrodes, J. Phys. Chem. C, 116(2012)13594–13602.

16. W. Hu, Y. Q. Wang, X. H. Hu, S.L. Chen*, Three-Dimensional Ordered Macroporous IrO2 asElectrocatalyst for Oxygen Evolution Reaction in Acidic Medium, J.Mater. Chem., 22(2012) 6010- 6016.

17. Y. Sun, Y. Dai, Y. W. Liu and S. L.Chen*, A Rotating Disk Electrode Study of the Particle Size Effects of Pt forthe Hydrogen Oxidation Reaction, Phys. Chem. Chem. Phys., 14(2012)2278–2285.

18. F. Yang, Q. F. Zhang, Y. W. Liu, and S.L. Chen*, A Theoretical Consideration on the Surface Structure and NanoparticleSize Effects of Pt in Hydrogen Electrocatalysis, J. Phys. Chem. C, 115(2011)19311–19319.

19. Y. M. Chen, Z. X. Liang, F. Yang, Y. W.Liu, and S. L. Chen*, Ni–Pt Core–Shell Nanoparticles as Oxygen ReductionElectrocatalysts: Effect of Pt Shell Coverage, J. Phys. Chem. C, 115(2011)24073–24079.

20. Y. Dai, L. H. Ou, W. Liang, F. Yang,Y. W. Liu, L. and S. L. Chen*, Efficient and Superiorly Durable Pt-leanElectrocatalysts of Pt-W Alloys for Oxygen Reduction Reaction，J. Phys.Chem. C,115(2011)2162–2168.

21. Y. W. Liu, R. He, Q. F. Zhang, S. L.Chen*, Theory of Electrochemistry for Nanometer-sized diskElectrodes, J. Phys. Chem. C, 114(2010) 10812–10822.

22. Y. Sun, Y. W. Liu, Z. X. Liang, S. L.Chen*, On the Applicability of Conventional Voltammetric Theory to NanoscaleElectrochemical Interfaces, J. Phys. Chem. C, 113(2009) 9878–9883.

23. L. H. Ou, Y. Fang, Y. W. Liu, S. L.Chen*, First-Principle Study of the Adsorption and Dissociation of O2 onPt(111) in Acidic Media, J. Phys. Chem. C, 113(2009) 20657–2066.

24. 16. Y. M. Chen, F. Yang, Y. Dai, W. Q.Wang, S. L. Chen*, Ni@Pt Core-ShellNanoparticles: Synthesis, Structural and Electrochemical Properties, J.Phys. Chem. C, 112(2008)1645-1649.

25. R. He, F. Yang, S. L. Chen*,Wu BL, Dynamic Diffuse Double-Layer Model for the Electrochemistry ofNanometer-Sized Electrodes, J. Phys. Chem. B, 110(2006)3262-3270.