简历

基本信息：

教育及工作背景:

本科教学情况:

研究方向：

一直从事胶体界面化学、新型储能材料及器件等基础与研发工作。先后主持10余项厅级以上自然科学研究项目（包括4项国家自然基金）；主持完成省研究生教改项目等高校教学研究项目3项。在国内外学术刊物发表文章100多篇，其中SCI 60篇，申请专利10项。2010年被选为江西省第七届中青年学科带头人。2015年被聘为赣江特聘教授。

科研项目：

1. 螺环季磷盐电解质的制备、溶液热力学及其在超级电容中的应用研究，国家自然基金项目，批准号：21863006，2019.01-2022.12，项目主持人，在研。

2. 季磷盐离子液体电解液溶液热力学及电化学研究，江西省自然科学基金重点项目，批准号：2021.01-2023.12，项目主持人，在研。

3. 基于新型硼系锂盐的锂动力电池电解质溶液热力学及动力学研究, 国家自然科学基金项目；批准号: 21263016, 2013.1-2016.12, 项目主持人, 已结题

4. 若干二茂铁型表面活性剂聚集行为及电化学研究，国家自然科学基金项目

批准号20963007 2010.1-2012.12，项目主持人, 已结题

5 葫芦[n]脲与表面活性剂分子间的相互作用及主客体包络物研究，国家自然科学基金项目，批准号20703023 2008-2010，项目主持人, 已结题。

6 车用锂离子动力电池关键技术及其安全性研究，江西省重点研发项目， 批准号No.2011BBE50022，2011.1-2016.12，项目主持人, 已结题.

7 车用磷酸铁锂动力电池关键技术研究，江西省锂电产业重大专项课题，

2012.1-2017.12，参加，排名第三，主持新型电解液研究专题, 已结题。

8 离子液体的基础电化学研究，江西省自然科学基金，批准号2007GQH2100，2008-2009，项目主持人，已完成。

9. 新型锂离子电池电解液中锂离子传输行为研究, 江西省教育厅基金，批准号 GJJ12313, 2012-2013, 项目主持人, 已结题。

近期论文发表情况

1. PDA modified commercial paper separator engineering with excellent lithiophilicity and mechanical strength for lithium metal batteries，Zhou, Mei-Ling; Zhang, Ze; Xu, Jian; Wei, Junchao; Yu, Ji; Yang, Zhen-Yu*，Journal of Electroanalytical Chemistry, 2020, 868: 0-114195.

2. Agaric-assisted synthesis of core-shell MnO@C microcubes as super-high- volumetric-capacity anode for lithium-ion batteries，Jindi Luo; Hai Zhang; Ze Zhang; Zhenyu Yang*，Carbon, 2020, 162(1): 36-45.

3. Efficient Polysulfide Redox Enabled by Lattice-Distorted Ni3Fe Intermetallic Electrocatalyst-Modified Separator for Lithium-Sulfur Batteries，Zhang, Ze; Shao, A-Hu; Xiong, Dong-Gen; Yang, Zhen-Yu*，ACS Applied Materials & Interfaces, 2020, 12(17): 19572-19580.

4. Two for One: A Biomass Strategy for Simultaneous Synthesis of MnO2 Microcubes and Porous Carbon Microcubes for High Performance Asymmetric Supercapacitors. Yu, Ji; Luo, Jindi; Zhang, Hai; Zhang, Ze; Wei, Junchao; Cai, Jianxin; Yang, Zhenyu*，ACS Sustainable Chemistry & Engineering, 2020, 8(16): 6333-6342. SCIE.

5. Facile Synthesis of a "two-in-One"Sulfur Host Featuring Metallic-Cobalt-Embedded N-Doped Carbon Nanotubes for Efficient Lithium-Sulfur Batteries "，Ahu Shao; Ze Zhang; Donggen Xiong; Ji Yu; Jianxin Cai; Zhenyu Yang*，ACS Applied Materials & Interfaces, 2020, 12(5): 5968-5978.

6. A simple and recyclable molten-salt route to prepare superthin biocarbon sheets based on the high water-absorbent agaric for efficient lithium storage A simple and recyclable molten-salt route to prepare superthin biocarbon sheets based on the high water-absorbent agaric for efficient lithium storage. Qi, Xingtao; Zhang, Hai; Li, Chao; Yang, Zhenyu* Carbon, 2020;157:286-94.

7. Boosting the polysulfide confinement in B/N–codoped hierarchically porous carbon nanosheets via Lewis acid–base interaction for stable Li–S batteries. Xiong, Dong-Gen; Zhang, Ze; Huang, Xiao-Yun; Huang, Yan; Yu, Ji; Cai, Jian-Xin; Yang, Zhen-Yu*, Journal of Energy Chemistry 2020, 51, 90-100.

8. Recyclable cobalt-molybdenum bimetallic carbide modified separator boosts the polysulfide adsorption-catalysis of lithium sulfur battery. Zhang, Ze; Wang, Jia-Nan; Shao, A. -Hu; Xiong, Dong-Gen; Liu, Jian-Wei; Lao, Cheng-Yen; Xi, Kai*; Lu, Shi-Yao; Jiang, Qiu; Yu, Ji; Li, Huang-Long*; Yang, Zhen-Yu*; Kumar, R. Vasant, Science China Materials 2020, 63 (12), 2443-2455.

9. Integrating metallic cobalt and N/B heteroatoms into porous carbon nanosheets as efficient sulfur immobilizer for lithium-sulfur batteries. Zhang, Ze; Xiong, Dong-Gen; Shao, A-Hu; Huang, Xiao-Yun; Huang, Yan; Yu, Ji; Cai, Jian-Xin; Yang, Zhen-Yu*, Carbon, 2020, 167: 918-929.

10. Facile construction of honeycomb-shaped porous carbon electrode materials using recyclable sodium chloride template for efficient lithium storage. Fang, ShiQing; He, HaoXuan; Yu, YingHui; Li, Xiao; Xie, WeiCheng; Li, Wei; Jin, Lu Qiao; Yang, ZhenYu; Cai, JianXin*. Science China Technological Sciences 2020, 63 (10), 2123-2130.

11. Interlayered MoS2/rGO thin film for efficient lithium storage produced by electrospray deposition and far-infrared reduction. Wang,Juan; Li,chao; Chen,Deliang; Yang,zhenyu*, Applied Surface Science 2020, 499, 143940.

12. A Chemical Blowing Strategy to Fabricate Biomass-Derived Carbon-Aerogels with Graphene-Like Nanosheet Structures for High-Performance Supercapacitors. Zhang, Hai; Zhang, Ze; Luo, Jin Di; Yang, Zhen Yu*, ChemSusChem 2019, 12 (11), 2462-2470.

13. Manganese Monoxide/Biomass-Inherited Porous Carbon Nanostructure Composite Based on the High Water-Absorbent Agaric for Asymmetric Supercapacitor. Zhang, Hai; Zhang, Ze; Qi, Xingtao; Yu, Ji; Cai, Jianxin; Yang, Zhenyu*. ACS Sustainable Chemistry & Engineering, 2019, 7(4): 4284-4294.

14. Highly sulfiphilic Ni-Fe bimetallic oxide nanoparticles anchored on carbon nanotubes enable effective immobilization and conversion of polysulfides for stable lithium-sulfur batteries. Zhang, Ze; Basu, Swastik; Zhu, Peipei; Zhang, Hai; Shao, Ahu; Koratkar, Nikhil*; Yang, Zhenyu*,Carbon, 2019, 142: 32-39.

15. Rational design of intertwined carbon nanotubes threaded porous CoP@carbon nanocubes as anode with superior lithium storage. Zhu Peipei; Zhang Ze; Zhao Pengfei; Zhang Bowei; Cao Xun; Yu Ji; Cai Jianxin; Huang Yizhong*; Yang Zhenyu*,Carbon, 2019, 142: 269-277.

16. Cobalt-Tungsten Bimetallic Carbide Nanoparticles as Efficient Catalytic Material for High-Performance Lithium-Sulfur Batteries. Zhao, Pengfei; Zhang, Ze; He, Haoxuan; Yu, Yinghui; Li, Xiao; Xie, Weicheng; Yang, Zhenyu*; Cai, Jianxin*, Chemsuschem, 2019, 12(21): 4866-4873.

17. In-built template synthesis of hierarchical porous carbon microcubes from biomass toward electrochemical energy storage. Luo, Jindi; Zhang, Hai; Zhang, Ze; Yang, Zhenyu*

Carbon, 2019, 155: 1-8.

18. Renewable agaric-based hierarchically porous cocoon-like MnO/Carbon composites enable high-energy and high-rate Li-ion batteries. Yu, Ji; Luo, Jin Di; Zhang, Hai; Zhang, Ze; Yang, Zhenyu*. Electrochimica Acta, 2019, 322: 0-UNSP 134757.

19. Molten-Salt-Assisted Synthesis of Hierarchical Porous MnO@Biocarbon Composites as Promising Electrode Materials for Supercapacitors and Lithium-Ion Batteries. Zhang, Hai; Zhang, Ze; Luo, Ji Di; Yang, Zhen Yu*, Chemsuschem, 2019, 12(1): 283-290.

20. Utilizing egg lecithin coating to improve the electrochemical performance of regenerated lithium iron phosphate. Zhu Peipei; Yang Zhenyu*; Zhang Hai; Yu Ji; Zhang Ze; Cai Jianxin; Li Chao, Journal of Alloys and Compounds, 2018, 745: 164-171.

21. Rational design of intertwined carbon naotubes threaded porous CoP@carbon nanocubes as anode with superior lithium storage. Zhu, Peipei.; Zhang, Ze; Zhao, Pengfei; Zhang, Bowei; Cao, Xun; Yu, Ji; Cai, Jianxin; Huang, Yizhong; Yang, Zhenyu*, Carbon 2019, 142, 269-277.

22. Multi-channel FeP@C octahedra anchored on reduced graphene oxide nanosheet with efficient performance for lithium-ion batteries. Zhu, Peipei; Zhang, Ze; Hao, Shiji; Zhang, Bowei; Zhao, Pengfei; Yu, Ji; Cai, Jianxin; Huang, Yizhong*; Yang, Zhenyu*, Carbon, 2018, 139: 477-485.              

24. Intermolecular Interaction for Binary Mixtures of Propylene Carbonate with Acetonitrile, Dimethyl Carbonate, Diethyl Carbonate at Different Temperatures: Density and Viscosity

Song, Wei; Zhang, Hai; Yang, Zhenyu*; Wang, Juan; Yue, Zishuang; Yu, Ji. Zeitschrift für Physikalische Chemie 2017, 232.

25. Simultaneous Electrospinning and Electrospraying: Fabrication of a Carbon Nanofibre/MnO/Reduced Graphene Oxide Thin Film as a High-Performance Anode for Lithium-Ion Batteries. Wang, Fan; Cai, Jianxin; Yu, Ji; Li, Chao; Yang, Zhenyu*, Chemelectrochem, 2018, 5(1): 51-61.

26. Ultrathin and strong electrospun porous fiber separator. Pan, Jiaolong; Zhang, Ze; Zhang, Hai; Zhu, Peipei; Wei, junchao; Cai, Jianxin; Yu, Ji; Koratkar, Nikhil; Yang, Zhenyu*, ACS Applied Energy Materials 2018, 1 (9), 4794-4803.