Xiaobing Wang

Ph. D, Lecturer; born in 1989 at Pingdingshan, Henan.

Education and Work experience

l 2008/09- 2012/07, Bachelor of Engineering, School of Materials Science and Engineering, Jilin University

l 2012/09-2017/07, Doctor of Engineering, School of Materials Science and Engineering, Jilin University

l 2017/07-present, Key Laboratory for Special Functional Materials of Ministry of Education, Henan University

Research Interests：1) The cathode protection and membrane materials research in Li-Air battery. 2) Design and synthesis of electrochemical catalysis and study its properties in oxygen evolution reaction.

E-mail：Email: 10330083@vip.henu.edu.cn

Publications：

(1) Wang Xiaobing, Hu Jiangjiang, Su Yichang, Hao Jin, Liu Fanggang, Han Shuang, An Jian, Lian Jianshe^*. Ni foam-Ni₃S₂@Ni(OH)₂-graphene sandwich structure electrode materials: facile synthesis and high supercapacitorperformance. Chemistry-A European Journal, 2017, 23(17): 4128-4136.

(2) Liu Fanggang^(#), Wang Xiaobing^(#), Hao Jin, Han Shuang, Lian Jianshe, Jiang Qing. High Density Arrayed Ni/NiO Core-shell Nanospheres Evenly Distributed on Graphene for Ultrahigh Performance Supercapacitor. Scientific reports, 7(1), 17709.

(3) Hao Jin^(#),§ Wang Xiaobing^(#), Liu Fanggang, Han Shuang^*, Lian Jianshe^*. Facile Synthesis ZnS/ZnO/Ni(OH)₂ Composites Grown on Ni foam: Bifunctional Materials for Photocatalysts and Supercapacitors. Scientific Reports, 2017, 7(1): 3021.

(4) Wang Xiaobing, Hao Jin, Su Yichang, Liu Fanggang, An Jian, Lian Jianshe^*. A Ni_1−xZn_xS/Ni foam composite electrode with multi-layers: one-step synthesis and high supercapacitor performance. Journal of Materials Chemistry A, 2016, 4(33): 12929-12939.

(5) Wang Xiaobing, Hu Jiangjiang, Liu Weidong, Wang Guoyong, An Jian, Lian Jianshe^*. Ni–Zn binary system hydroxide, oxide and sulfide materials: synthesis and high supercapacitor performance. Journal of Materials Chemistry A, 2015, 3(46): 23333-23344.

(6) Liu Weidong^(#), Wang Xiaobing^(#), Zhang Lishu, Lian Jianshe^*. A novel interfacial synthesis of MnO–NiO–reduced graphene oxide hybrid with enhanced pseudocapacitance performance. RSC Advances, 2015, 5(67): 54138-54147.