蔡卫卫

Associate professor   Supervisor of Doctorate Candidates   Supervisor of Master's Candidates

Gender : Male

Date of Birth : 1985-01-12

Alma Mater : 中国科学院大学

Education Level : Doctoral Degree in Education

Degree : Doctoral Degree in Science

Status : Employed

School/Department : 材料与化学学院

Date of Employment : 2014-10-31

Discipline : Applied Chemistry


Current position: 英文主页 >> Scientific Research

Research Field

Paper Publications More>>

Patents

Published Books

Research Projects

Personal Profile

教育科研背景

2013年毕业于中国科学院长春应用化学研究所获理学博士学位,在新加坡国立大学从事博士后研究工作后于201410月起就职于中国地质大学(武汉),任副教授。近年来以发表SCI论文100余篇。

 

研究兴趣

高效电化学催化剂设计;电化学催化机理探索;高分子固体电解质改性;燃料电池/水电解器件优化;新型电化学过程研究。

 

主持项目

Ø  国家自然科学基金,面上项目(2019/01-2022/12),65万元,主持

Ø  国家自然科学基金,青年基金(2016/01-2018/12),21万元,主持

Ø  浙江省自然科学基金,公益项目(2019/01-2021/12),10万元,主持。

Ø  中央高校基本科研业务费,杰出人才培育基金2016/01-2020/12),30万元,主持。

 

代表性通讯作者论文

1.     J. Li, W. Cai,* et. al., Hetero-structural Mass Transfer Channel Boosts Electrocatalytic Oxygen Reactions of Metallic Catalyst, Chem. Eng. J., 2021; In Press. (IF=10.652)

2.     F. Luo, W. Cai,* et. al., Regulated Coordination Environment of Ni Single Atom Catalyst toward High-efficiency Oxygen Electrocatalysis for Rechargeable Zinc-air Batteries, Energy Storage Mater., 2021; 35:723-730. (IF=16.28)

3.     Q. Zhang, W. Cai,* et. al., Nitrogen dopants in nickel nanoparticles embedded carbon nanotubes promote overall urea oxidation, Appl. Catal. B, 2021; 280:119436. (IF= 16.683)

4.     Z. Liu, W. Cai,* et. al., Heterointerface-rich Mo2C/MoO2 porous nanorod enables superior alkaline hydrogen evolution, Chem. Eng. J., 2021; 421:127807. (IF=10.652)

5.     Z. Liu, W. Cai,* et. al., Mater. Today Phys., Co nanocluster strain-engineered by atomic Ru for efficient and stable oxygen reduction catalysis, 2021; 421:127807. (IF=10.443)

6.     F. Luo, W. Cai,* et. al., Robust and Stable Acidic Overall Water Splitting on Ir Single Atoms, Nano Lett., 2020; 20:2120. (IF= 11.238)

7.     F. Luo, W. Cai,* et. al., Palladium phosphide as stable and efficient electrocatalyst for overall water splitting, Angew. Chem. Int. Ed., 2018; 57:14862. (IF= 12.959)

8.     J. Xiong, W. Cai,* et. al., In-situ Engineering of Double Phase Interface in Mo/Mo2C Heteronanosheets for Boosted Hydrogen Evolution Reaction, ACS Energy Lett., 2018; 3:341. (IF= 19.003)

9.     J. Liang (本科生), W. Cai,* et. al., Boosting the acidic electrocatalytic nitrogen reduction performance of MoS2 by strain engineering, J. Mater. Chem. A, 2020; 8:10426. (IF= 11.301)

10.   Q. Zhang, W. Cai,* et. al., Identification of functionality of heteroatoms in boron, nitrogen and fluorine ternary-doped carbon as a robust electrocatalyst for nitrogen reduction reaction powered by rechargeable zinc–air batteries, J. Mater. Chem. A, 2020; 8:8430. (IF= 11.301)

11.   F. Luo, W. Cai,* et. al., Robust hydrogen evolution reaction activity catalyzed by ultrasmall Rh–Rh2P nanoparticles, J. Mater. Chem. A, 2020; 8:12378. (IF= 11.301)

12.   Y. Ling, W. Cai,* et. al., Strain induced rich planar defects in heterogeneous WS2/WO2 enable efficient nitrogen fixation at low overpotential, J. Mater. Chem. A, 2020; 8:12996. (IF= 11.301)

13.   H. Hu, W. Cai,* et. al., Electronically delocalized Ir enables efficient and stable acidic water splitting, J. Mater. Chem. A, 2020; 8:20168. (IF= 11.301)

14.   X. Wei, W. Cai,* et. al., Highly-defective Fe-N-C catalysts towards pH-Universal oxygen reduction reaction, Appl. Catal. B, 2020; 263:118347. (IF= 16.683)

15.   J. Xiong, W. Cai,* et. al., Metallic 1T-MoS2 nanosheets in-situ entrenched on N,P,S-codoped hierarchical carbon microflower as an efficient and robust electro-catalyst for hydrogen evolution, Appl. Catal. B, 2019; 243:614. (IF= 16.683)

16.   J. Xiong, W. Cai,* et. al., Engineering highly active oxygen sites in perovskite oxides for stable and efficient oxygen evolution, Appl. Catal. B, 2019; 256:117817. (IF= 16.683)

17.   F. Luo, W. Cai,* et. al., Engineering oxygen vacancies of cobalt tungstate nanoparticles enable efficient water splitting in alkaline medium, Appl. Catal. B, 2019; 259: 118090. (IF= 16.683)

18.   S. Xing, W. Cai,* et. al., Rh nanoroses for isopropanol oxidation reaction, Appl. Catal. B, 2019; 259: 118082. (IF= 16.683)

19.   Z. Liu, W. Cai,* et. al., Engineering of Ru/Ru2P interfaces superior to Pt active sites for catalysis of the alkaline hydrogen evolution reaction, J. Mater. Chem. A, 2019; 7:5621. (IF= 11.301)

20.   J. Xiong, W. Cai,* et. al., Salt-templated synthesis of defect-rich MoN nano-sheet for boosted hydrogen evolution reaction, J. Mater. Chem. A, 2017; 5:24193. (IF= 11.301)

21.   Z. Liu, W. Cai,* et. al., Pt/Mo2C heteronanosheets for superior hydrogen evolution reaction, J. Energy Chem., 2020; 47:317.

22.   J. Xiong, W. Cai,* et. al., A novel thermomechanically stable LaF3CsH5(PO4)2 composite electrolyte with high proton conductivity at elevated temperatures over 150 °C, J. Energy Chem., 2019; 30:114.

23.   J. Shi, W. Cai,* et. al., Multi-stage porogen induced hetero-porous Co, N-doped carbon catalyst toward efficient oxygen reduction, Chem. Commun., 2021; 57:903.

24.   J. Shi, W. Cai,* et. al., N-rich hetero-porous defective carbon induced by trace B-doping enables efficient oxygen reduction, Chem. Commun., 2020; 56:12214.

25.   G. Xu, W. Cai,* et. al., Targeted filling silica in Nafion by a modified in-situ sol-gel method for boosted fuel cell performance at elevated temperature and low humidity, Chem. Commun., 2019; 55:5499.

26.   L. Guo, W. Cai,* et. al., Robust hydrogen evolution reaction catalysis by ultrasmall amorphous ruthenium phosphide nanoparticles, Chem. Commun., 2019; 55:7623.

27.   Q. Zhang, W. Cai,* et. al., A robust electrocatalytic activity toward the hydrogen evolution reaction from W/W2C heterostructured nanoparticles coated with a N,P dual-doped carbon layer, Chem. Commun., 2019; 55:9665.

28.   J. Li, W. Cai,* et. al., Effect of nano-size of functionalized silica on overall performance of swelling-filling modified Nafion membrane for direct methanol fuel cell application, Appl. Energy, 2018; 213:408.

29.   Y. Ling, W. Cai,* et. al., A self-template synthesis of defect-rich WS2 as a highly efficient electrocatalyst for the hydrogen evolution reaction, Chem. Commun., 2018; 54:2631.

30.   Q. Zhang, W. Cai,* et. al., Chem. Commun., Carbon nitride simultaneously boosted a PtRu electrocatalyst's stability and electrocatalytic activity toward concentrated methanol, 2018; 54:9282.

31.   Guoxiao Xu, Weiwei Cai,* et. al., J. Membr. Sci., Performance dependence of swelling-filling treated Nafion membrane on nano-structure of macromolecular filler, 2017; 534:68.

32.   J. Li, W. Cai,* et. al., An in-situ nano-scale swelling-filling strategy to improve overall performance of Nafion membrane for direct methanol fuel cell application, J. Power Sources, 2016; 332:37.

33.   L. Ma, W. Cai,* et. al., A high performance polyamide-based proton exchange membrane fabricated via construction of hierarchical proton conductive channels, J. Power Sources, 2016; 302:189.

34.   J. Li, W. Cai,* et. al., Towards neat methanol operation of direct methanol fuel cells: a novel self-assembled proton exchange membrane, Chem. Commun., 2015; 51:6556.

 

招生倾向

1.      物理化学、电化学催化及新能源方向有兴趣;

2.      具有无机合成或高分子合成经验。

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