陈卫华

作者: 时间:2021-03-13 点击数:

陈卫华  教授

邮箱:chenweih@zzu.edu.cn

通讯地址:郑州大学化学学院

陈卫华,郑州大学化学学院教授、博士生导师,入选教育部“长江学者奖励计划”青年学者(能源化学岗位)、“中原千人计划”-中原青年拔尖人才、河南省高校科技创新人才等。近几年,主要聚焦在面向经济、安全、绿色的钠离子电池体系电极材料、隔膜设计合成及界面调控相关研究工作。以第一或通讯作者在Chem.、Angew. Chem. Int. Ed.、Adv. Mater.、Nat. Commun.、Nano Research、Sci. China-Mater.、J. Energy Chem.等主流期刊发表学术论文100余篇;相关研究成果已授权中国发明专利16件;受邀撰写钠离子电池领域英文书籍中“Separators for Sodium-Ion Batteries”章节。担任《Nano Research》、《Energy & Environmental Materials》和《Rare Metals》期刊青年编委。兼任中国化工学会第二届储能工程专业委员会委员、国际电化学会员、中国化学会会员。

·教育与工作经历

2019.04--至今 郑州大学化学学院 教授

2013.03--2019.04 郑州大学 化学与分子工程学院 副教授

2010.01--2013.03 郑州大学 化学与分子工程学院 讲师

2004.09--2009.12 武汉大学 化学与分子科学学院 物理化学 硕博

2000.09--2004.06 郑州大学 化学系基地班 化学本科

·主讲课程·参讲课程

本科生《物理化学》理论课 本科生《今日化学》理论课

本科生《物理化学》实验 本科生《现代无机合成》理论课

本科生《综合化学》实验

·部分代表性论文/专利

K. Song, J. Liu, H. Dai, Y. Zhao, S. Sun, J. Zhang, C. Qin, P. Yan, F. Guo, C. Wang, Y. Cao, S. Li,W. Chen*.Atomically dispersed Ni induced by ultrahigh N-doped carbon enables stable sodium storage.Chem.,2021,7,1-11.

Y. Wan, K. Song,W. Chen*,C. Qin, X. Zhang, J. Zhang, H. Dai, Z. Hu, P. Yan, C. Liu, S. Sun*, S. Chou*, C. Shen.Ultra-high initial coulombic efficiency induced by interface engineering enables rapid, stable sodium storage.Angew. Chem. Int. Ed.,2021, 60, 11481-11486.

J. Shi, L. Ding, Y. Wan, L. Mi, L. Chen, D. Yang, Y. Hu,W. Chen*.Achieving long-cycling sodium-ion full cells in ether-based electrolyte with vinylene carbonate additive.J. Energy Chem.,2021, 57, 650-655.

L.Zhang,X.Li, M.Yang,W.Chen*.High-safety separators for lithium-ion batteries and sodium-ion batteries:advances and perspective.Energy Storage Materials,2021,41,522-545.

J. Zheng*, Y. Sun, W. Li, X. Feng,W. Chen*, Y. Zhao.Effects ofcomonomers on theperformance ofstablephosphonatebasedgelterpolymerelectrolytes forsodium-ionbatteries withultralongcyclingstability.ACS Appl. Mater. Interfaces.,2021, 13, 25024-25035.

S. Zhou, J. Lan, K. Song, Z. Zhang, J. Shi,W. Chen*.SnS/SnS2/rGO heterostructure with fast kinetics enables compact sodium ion storage.FlatChem.,2021,28,100259.

L. Chen, K. Song, J. Shi, J. Zhang, L. Mi,W. Chen*, C. Liu*, C. Shen.PAANa polymer induced ductile SEI of bare micro-sized FeS enables high sodium-ion storage performance.Sci China Mater.,2021, 64, 105-114.

J. Zhang, K. Song, L. Mi, C. Liu, X. Feng, J. Zhang,W. Chen*, C. Shen.Bimetal synergistic effect induced high reversibility of conversion type Ni@NiCo2S4as a free-standing anode for sodium ion batteries.J. Phys. Chem.,Lett.,2020, 11, 1435-1442.

G. Yao, X. Zhang, Y. Yan, J. Zhang, K. Song, J. Shi, L. Mi, J. Zheng, X. Feng*,W. Chen*.Facile synthesis of hierarchical Na2Fe(SO4)2@rGO/C as high-voltage cathode for energy density-enhanced sodium-ion batteries.J. Energy Chem.,2020, 50, 387-394.

W. Chen*,X. Zhang, L. Mi, C. Liu, J. Zhang, S. Cui, X. Feng, Y. Cao*, C. Shen.High-performance flexible freestanding anode with hierarchical 3D carbon-networks/Fe7S8/graphene for applicable sodium-ion batteries.Adv. Mater.,2019, 31, 1806664.

M.Chen,W.Hua,J.Xiao,D.Cortie,W.Chen*,E.Wang,Z.Hu,.X.Wang,S.Indris,S.Chou*,S.Dou.NASICON-type air-stable and all-climate cathode for sodium-ion batteries with low cost and high-power density.Nat. Commun.,2019, 10, 1480.

L.Mi,K.Song,K.Yang,J.Ma,X.Feng,J.Zhang*,W.Chen*.Understanding shuttling effect in sodium ion batteries for the solution of capacity fading: FeS2 as an example.J. Phys. Chem. C.,2019, 123, 2775-2782.

L.Zhang,G.Feng,X.Li,S.Cui,S.Ying,X.Feng*,L,Mi*,W.Chen*.Synergism of surface group transfer and in-situ growth of silica-aerogel induced high-performance modifiedpolyacrylonitrile separator for lithium/sodium-ion batteries.J. Membr. Sci.,2019, 577, 137-144.

K. Song, C. Liu, L. Mi, S. Chou,W. Chen*,C. Shen.Recent progress on the alloy-based anode for sodium-ion batteries and potassium-ion batteries.Small,2019, 1903194.

W Chen*,L.Zhang, C.Liu, X.Feng,J.Zhang, L.Guan, L.Mi*, S.Cui.Electrospun flexible cellulose acetate-based separators for sodium-ion batteries with ultralong cycle stability and excellent wettability: the role of interface chemical groups.ACS Appl. Mater. Interfaces.,2018, 10, 28, 23883-23890.

Y.Dong,Y.Ma,D.Li,Y.Liu,W.Chen*,X.Feng,J.Zhang*.Construction of 3D architectures with Ni(HCO3)2nanocubes wrapped by reduced graphene oxide for LIBs: ultrahigh capacity, ultrafast rate capability and ultralong cycle stability.Chem. Sci.,2018, 9, 8682.

Z.Li,X.Feng*,L.Mi,J.Zheng,X.Chen,W.Chen*.Hierarchical porous onion-shapedLiMn2O4as ultrahigh-ratecathode material for lithium ion batteries.Nano Research, 2018, 11, 4038-4048.

W.Chen*,L.Zhang, C.Liu,X.Feng, J.Zhang, L.Guan, L.Mi*, S.Cui.Electrospunflexiblecelluloseacetate-basedseparators forsodium-ionbatteries withultralongcyclestability andexcellentwettability:therole ofinterfacechemicalgroups.ACS Appl. Mater. Interfaces.,2018, 10, 28, 23883-23890.

L.Zhang, G.Feng, X.Li, S.Cui, S.Ying , X.Feng*, L Mi,W Chen*.Polypropylene/hydrophobic-silica-aerogel-composite separator induced enhanced safety and low polarization for lithium-ion batteries.J. Power Sources.,2018, 376,177-183.

一种钠/钠离子电池无纺布隔膜及其制备方法(ZL201810137138.4)

一种高氮掺杂碳包覆金属硫化物钠二次电池用高容量电极材料及其应用(ZL201910911570.9)

石墨烯和/或乙炔黑复合的Na2Fe(SO4)2/C电极材料、制备方法及制备的电池(ZL201910671297.7)

一种硒化黄铁矿材料及其制备的电池(ZL201711077657.8)

石墨烯/氧化石墨烯包覆的复合电极、电池及其制备方法(ZL201810776905.6)

超级电容器用Ni1-x-yCoxMny(OH)2@C材料及其制备方法(ZL201510303974.1

锂离子电池用疏水性二氧化硅气凝胶复合隔膜(ZL201610853861.3)

锂二次电池用高容量正极材料及其制备方法(ZL201510304476.9)

一种球形锂离子电池正极材料及其前驱体的制备方法(ZL201110405938.8)

水系可充放锂离子的电极材料及水溶液可充放锂离子电池(ZL201210087143.1)

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