同济大学化学科学与工程学院

韦广丰

作者:时间:2016-09-01点击数:

韦广丰 博士

韦广丰,博士,助理教授,硕士生导师

同济大学化学科学与工程学院

联系电话

+86-21-65983503

办公地址

化学馆230室

E-mail

weigf@tongji.edu.cn

个人介绍

2003.9-2012.6 复旦大学化学系本硕博,2012.7-2015.8复旦大学物理系博士后,2015.9加入同济大学化学系,任助理教授。2016年入选上海市青年科技英才扬帆计划。主要研究方向:催化机理研究、新材料理性设计。在Nature Chemistry, Energy & Environmental Science, Chemical Science, Chemistry of Materials, Journal of Chemical Theory and Computation, Journal of Physical Chemistry C, Physical Chemistry Chemical Physics等国际学术期刊上发表SCI论文23篇(影响因子>3.0或SCI 2区以上20篇),论文他引400余次,H指数为11。

研究领域:

量子化学、理论催化

代表性论文:

[14] Zhang, G. Y.#,Wei, G. F.#, Liu, Z. P., Oliver, S., Fei, H. H., “A Robust Sulfonate-Based Metal-Organic Framework with Permanent Porosity for Efficient CO2Capture and Conversion”,Chem. Mater., 2016, 28, 6276.

[13] Wei, G. F.; Liu, Z. P., “Subnano Pt Particles from a First Principles Stochastic Surface Walking Global Search”,J. Chem. Theory Comput., 2016, 12, 4698.

[12] Zhao. H. Y.#;Wei, G. F.#; Gao, J. X.; Liu, Z. P.; Zhao, G. H., “Ultrasonic electrochemical reaction on boron-doped diamond electrode: Reaction pathway and theoretical mechanism”,ChemElectroChem, 2016, 2, 366.

[11] Wei, G. F.; Liu, Z. P., “Restructuring and Hydrogen Evolution on Pt Nanoparticle”,Chem. Sci., 2015, 6, 1485.

[10] Wei, G. F.; Shang, C.; Liu, Z. P., “Confined Platinum Nanoparticle in Carbon Nanotube: Structure and Oxidation”,Phys. Chem. Chem. Phys., 2015, 17, 2078.

[9] Chen, Q.;Wei, G. F.; Tian, W. J.; Bai, H.; Liu, Z. P.; Zhai, H. J.; Li, S. D., “Quasi-planar aromatic B-36 and B-36(-) clusters: all-boron analogues of coronene”,Phys. Chem. Chem. Phys., 2014, 34, 18282.

[8] Fang, Y. H.;Wei, G. F.; Liu, Z. P., “Constant-Charge Reaction Theory for Potential-Dependent Reaction Kinetics at Solid-Liquid Interface”,J. Phys. Chem. C., 2014, 118, 3629.

[7] Zhai, H. J.; Zhao, Y. F.; Li, W. L.; Chen, Q.; Bai, H.; Hu, H. S.; Piazza, Z. A.; Tian, W. J.; Lu, H. G..; Wu, Y. B.; Mu, Y. W.;Wei, G. F.; Liu, Z. P.; Li, J.; Li, S. D.; Wang, L. S., “Observation of an all-boron fullerene”,Nature Chemistry, 2014, 8, 727.

[6] Wei, G. F.; Liu, Z. P., “Optimum nanoparticles for electrocatalytic oxygen reduction: the size, shape and new design”,Phys. Chem. Chem. Phys., 2013, 15, 18555.

[5] Fang, Y. H.;Wei, G. F.; Liu, Z. P., “Catalytic Role of Minority Species and Minority Sites for Electrochemical Hydrogen Evolution on Metals: Surface Charging, Coverage, and Tafel Kinetics”,J. Phys. Chem. C, 2013, 117, 7669.

[4] Fang, Y. H.;Wei, G. F.; Liu, Z. P., “Theoretical modeling of electrode/electrolyte interface from first-principles periodic continuum solvation method”,Catalysis today, 2013, 202, 98.

[3] Wei, G. F.; Fang, Y. H.; Liu, Z. P., “First principles Tafel kinetics for resolving key parameters in optimizing oxygen electrocatalytic reduction catalyst”,J. Phys. Chem. C, 2012, 116, 12696.

[2] Wei, G. F.; Liu, Z. P., “Towards active and stable oxygen reduction cathodes: a density functional theory survey on Pt(2)M skin alloys”,Energy Environ. Sci., 2011, 4, 1268.

[1] Wei, G. F.; Yan, X. X.; Yi, J.; Zhao, L. Z.; Zhou, L.; Wang, Y. H.; Yu, C. Z., “Synthesis and in-vitro bioactivity of mesoporous bioactive glasses with tunable macropores”,Microporous Mesoporous Mat., 2011, 143, 157.

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