西安交通大学唐伟

yufei

唐伟，博士，2016年博士毕业于新加坡国立大学，西安交通大学教授，博士生导师，西安交通大学青年拔尖人才支持计划A类资助、陕西省青年计划获得者。唐博士长期从事电化学储能以及新能源材料的研究工作，研究兴趣包括水系锂电池、锂/钠/钾离子电池、锂硫电池以及锂金属电池。唐博士的工作致力于材料开发、以及利用多种原位检测手段对于材料的储能效用进行评价，以此来辅助对于材料的进一步改性和性能提升，先后国际顶级期刊发表学术论文40篇，其中第一作者19篇，包括J. Am. Chem. Soc. (2)、Adv. Mater. (1)、Nano Lett. (1)、Energy Environ. Sci.(2)、Nat. Energy (1,评论)等。

邮箱：tangw2018@mail.xjtu.edu.cn
地址：西安交通大学兴庆校区教学二区

研究方向
1. 锂离子、锂金属、锂硫、钠离子电池电极材料的开发；
2. 基于多种原位以及非原位技术的表征手段，如原位核磁，原位同步辐射吸收谱等的电化学反应机理研究；
3. 水溶液锂离子电池中的超快电化学行为以及超级电容器的研究；
4. 电化学催化二氧化碳还原以及氮固定。


发表论文
(24) Jiangqi Zhou +, Shilin Zhang+, Ya-Nan Zhou +, Wei Tang ,*, Junhe Yang ,Chengxin Peng,*, Zaiping Guo ,*Biomass-derived carbon for high-performance supercapacitors: Current status and perspective, Electrochem. Energy Rev. 2020, in press. (SCI,预计2021第一个影响因子>20)
(23) Cheng Yang, Chengyong Shu, Zhuofan Gan, Chen Lai, Jijun Ma*, Wei Tang*, and Yuping Wu*, Thiocyanate Ion Ligand-Induced Atomically Dispersed Fe–N–S Tridoped Hollow Catalyst for High-Performance Zinc–Air Rechargeable Batteries, Energy & Fuels, in press. （影响因子：3.421）
(22) Zhengang Li, Wenjun Deng, Chang Li, Weijian Wang, Zhuqing Zhou, Yibo Li, Xinran Yuan, Jun Hu, Man Zhang, Jinlin Zhu, Wei Tang*, Xin Wang*, Rui Li*, Uniformizing Electric Field Distribution and Ion Migration during Zinc Plating/Stripping via Binary Polymer Blend Artificial Interphase, J. Mater. Chem. A, 2020, DOI: 10.1039/D0TA05253A. （影响因子：11.307）
(21) Xiangwen Gao , Ya-Nan Zhou(共同一作), Duzhao Han, Jiangqi Zhou, Dezhong Zhou, Wei Tang* and John B. Goodenough* （诺贝尔化学奖获得者）Thermodynamic Understanding of Li-Dendrite Formation, Joule, 2020, DOI: 10.1016/j.joule.2020.06.016. （影响因子：27.054）
(20) Chengyong Shu, Zhuofan Gan, Yuyang Hou, Ting Zhu, Jijun Ma*, Wei Tang*, Yuping Wu*, Tailoring the porous structure of Mono-dispersed hierarchically nitrogen doped carbon spheres for highly efficient oxygen reduction reaction, Energy & Environ. Mater., 2020, in press. (SCI,预计2021第一个影响因子>10)
(19) Pu Yang, Xiangwen Gao, Xiaolu Tian, Chengyong Shu, Yikun Yi, Pei Liu, Te Wang, Long Qu, Bingbing Tian, Mingtao Li*, Wei Tang*, Bolun Yang, John B Goodenough*（诺贝尔化学奖获得者）, Upgrading Traditional Organic Electrolytes toward Future Lithium Metal Batteries: A Hierarchical Nano-SiO2-Supported Gel Polymer Electrolyte, ACS Energy Lett., 2020, 5, 1681.（影响因子：16.331）
(18) Yu Chen, Weimin Zhao, Quanhai Zhang, Guangzhi Yang, Jianming Zheng, Wei Tang,* Qunjie Xu, Chunyan Lai,* Junhe Yang, and Chengxin Peng*, Armoring LiNi1/3Co1/3Mn1/3O2 Cathode with Reliable Fluorinated Organic–Inorganic Hybrid Interphase Layer toward Durable High Rate Battery, Adv. Funct. Mater., 2020, 2000396. (影响因子: 15.621)
(17) W. Tang, X. Yin, S. Kang, Z. Chen, B. Tian, S. Teo, X. Wang, X. Chi, K. P. Loh, H. Lee  G.W. Zheng, Lithium Silicide Surface Enrichment: A Solution to Lithium Metal Battery, Adv. Mater., 2018,30, 1801745; (影响因子: 25.809)
(16) W. Tang+, Z. Chen+, B. Tian+, H. Lee, X. Zhao, X. Fan, Y. Fan, K. Leng, C. Peng, M. Kim, M. Li, M. Lin, J. Su, J. Chen, H. Jeong, X. Yin, Q. Zhang, W. Zhou, K. Loh, G. Zheng, In Situ Observation and Electrochemical Study of Encapsulated Sulfur Nanoparticles by MoS2 Flakes, J. Am. Chem. Soc., 2017, 139, 10133; (《C&EN》亮点报道) (影响因子: 14.695)
(15) W. Tang, Y. Liu, C. Peng, M.Y. Hu, X. Deng, M. Lin, J.Z. Hu, K.P. Loh, Probing Lithium Germanide Phase Evolution and Structural Change in a Germanium-in-Carbon Nanotube Energy Storage System, J. Am. Chem. Soc., 2015, 137, 2600;  (影响因子: 14.695)
(14) W. Tang, Y. Y. Hou, F. Wang, L. L. Liu, Y. P. Wu, K. Zhu, LiMn2O4 Nanotube as Cathode Material of Second-Level Charge Capability for Aqueous Rechargeable Batteries, Nano Lett., 2013,13, 2036; (中国百篇最具影响力国际论文, ESI高引论文) (影响因子: 12.279)
(13) W. Tang, Y. Zhu, Y. Hou, L. Liu, Y. Wu, K.P. Loh, H. Zhang, K. Zhu, Aqueous rechargeable lithium batteries as an energy storage system of superfast charging, Energy Environ. Sci., 2013, 6, 2093; (影响因子: 33.250, ESI高引论文)
(12) W. Tang, L.L. Liu, S. Tian, Y.S. Zhu, Y.P. Wu, K. Zhu, An aqueous rechargeable lithium battery of excellent rate capability based on nanocomposite of MoO3 coating with PPy and LiMn2O4, Energy Environ. Sci., 2012, 5, 6909; (影响因子: 33.250)
(11) W. Tang+, X. Song+, Y. Du+, C. Peng, M. Lin, S. Xi, B. Tian, J. Zheng, Y. Wu, F.Pan, K. P. Loh, High-performance NaFePO4 formed by Aqueous Ion- exchange and its mechanism for advanced Sodium Ion Batteries, J. Mat. Chem. A, 2016, 4, 4882; (影响因子: 10.733, JMCA热点文章)
(10) W. Tang, C.X. Peng, C.T. Nai, J. Su, Y.P. Liu, M.V. Reddy, M. Lin, K.P. Loh, Ultrahigh Capacity Due to Multi-Electron Conversion Reaction in Reduced Graphene Oxide-Wrapped MoO2 Porous Nanobelts, Small, 2015, 11, 2446; (影响因子: 10.856)
(9) W. Tang, X.W. Gao, Y.S. Zhu, Y.B. Yue, Y. Shi, Y.P. Wu, K. Zhu, A hybrid of V2O5 nanowires and MWCNTs coated with polypyrrole as an anode material for aqueous rechargeable lithium batteries with excellent cycling performance, J. Mater. Chem., 2012, 22, 20143. (影响因子:10.733)
(8) W. Tang, B. Goh, M. Y. Hu, C. Wan, B. Tian, X. Deng, C. Peng, M. Lin, J. Z. Hu, and K. P. Loh, In-situ Raman and Nuclear Magnetic Resonance Study of Trapped Lithium in the Solid Electrolyte Interface of Reduced Graphene Oxide, J. Phys. Chem. C, 2016, 120, 2600 (影响因子: 4.484)
(7) W. Tang,Y.Y. Hou, X.J. Wang, Y. Bai, Y.S. Zhu, H. Sun, Y.B. Yue, Y.P. Wu, K. Zhu, R. Holze , A hybrid of MnO2 nanowires and MWCNTs as cathode of excellent rate capability for supercapacitors, J. Power Sources, 2012, 197, 330; (ESI高引论文,影响因子: 6.945)
(6) W. Tang, X.J. Wang, Y.Y. Hou, L.L. Li, H. Sun, Y.S. Zhu, Y. Bai, K. Zhu, Y.P. Wu, T. van Ree, Nano LiMn2O4 as cathode material of high rate capability for lithium ion batteries, J. Power Sources, 2012, 198, 308. (ESI高引论文, 影响因子: 6.945)
(5) W. Tang, S. Tian, L.L. Liu, L. Li, H.P. Zhang , Y.B. Yue, Y. Bai, Y.P. Wu, K. Zhu, Nanochain LiMn2O4 as ultra-fast cathode material for aqueous rechargeable lithium batteries, Electrochem. Commun., 2011, 13, 205; (影响因子: 4.660)
(4) W. Tang, L.L Liu, S. Tian, L. Li, Y.B. Yue, Y.P. Wu, K.Zhu, Aqueous supercapacitors of high energy density based on MoO3 nanoplates as anode materials, Chem. Commun., 2011, 41,10058. (影响因子: 6.290)
(3) W. Tang, L.L. Liu, S. Tian, L. Li, L.L. Li, Y.B. Yue, Y. Bai, Y.P. Wu, K. Zhu, R. Holze , LiMn2O4  nanorods as a super-fast cathode material for aqueous rechargeable lithium batteries, Electrochem. Commun.,2011,13, 1159; (影响因子: 4.660)
(2) W. Tang, L.L. Liu, S. Tian,L. Li, Y.B. Yue, Y.P. Wu, S.Y. Guan, K. Zhu, Nano-LiCoO2 as cathode material of large capacity and high rate capability for aqueous rechargeable lithium batteries, Electrochem. Commun., 2010, 12, 1524; (影响因子:4.660)
(1) W.Tang, X. Yin, Z. Chen, W. Fu, K. Loh, G. Zheng, Chemically polished lithium metal anode for high energy lithium metal batteries, Energy Storage Mater., 2018, 14,289.