孔凡军

发布时间:2023-09-21阅读次数:

研究方向 新型电池电极材料的设计和电化学性能研究 学位职称 博士/讲师

Ø 个人基本信息

孔凡军,博士研究生,20206月毕业于苏州大学,理学博士学位。20189-20199月,在新墨西哥州立大学公派访学。20213-20232月,在远东电池江苏有限公司从事博士后研究。现任教于常熟理工学院新能源科学与工程专业,主要从事新型电池电极材料的设计和电化学性能研究,参与国家自然科学基金项目、江苏省科技厅成果转化专项资金项目、江苏省教育厅重大科技项目等多个项目。近年来以第一作者/通讯作者在Chemical Engineering JournalJournal of Energy Chemistry》、《Chinese Chemical Letters》、《Chemical Communications》、《The Journal of Physical Chemistry of C等杂志发表SCI论文二十余篇。2021年入选江苏省“双创博士”计划。指导本科生省级大创项目2项,校级大创项目3项,获得省级竞赛2项。

Ø 研究方向:

新型电池电极材料的设计和电化学性能研究

Ø 教科研项目:

(1) 江苏省双创博士项目 主持      2021.01-2022.12

Ø 教科研论文:

1. F.J. Kong, Y.X. Ge, S. Tao*, Z.Q. Yuan, C. Lu, Z.D. Han, L.H. Yu*, B. Qian*, Engineering and understanding SnS0.5Se0.5@N/S/Se triple-doped carbon nanofibers for enhanced sodium-ion batteries, Chinese Chemical Letters (2023) On line.

2. Y.X. Ge, W.X. Gao, Z.Q. Yuan, S. Tao, F.J. Kong*, B. Qian*, Synergistic effect on the improved lithium ion storage performance in the porous Fe2O3@Fe3C@C composite, Materials Research Bulletin, 164 (2023) 112287.

3. F.J. Kong, G.K. Zhang, D.J. Wu, F. Sun, S. Tao*, S.Q. Chu, B. Qian, W.S. Chu, L. Song, Insight into the cation migration and surface structural evolution of spinel LiNi0.5Mn1.5O4 cathode material for lithium-ion batteries, Chemical Engineering Journal, 451 (2023) 138708.

4. Q.D. Zhu, J.Y. Chen, Z.Q. Yuan, S. Tao, B. Qian, F.J. Kong*, Binary heteroatom doping enhanced the sodium storage performance of porous carbon nanofibers with fast kinetics, Ceramics International, 48 (2022) 36264-36272.

5. J.H. Zheng, F.J. Kong*, S. Tao, B. Qian*, A Fe2O3–Fe3C heterostructure encapsulated into a carbon matrix for the anode of lithium-ion batteries, Chemical Communications, 57 (2021) 8818-8821.

6. H.G. Zhang, Z.S. Han, X.J. Li, F.J. Kong*, S. Tao, B. Qian*, MoO2 nanosheets embedded into carbon nanofibers with a self-standing structure for lithium ion and sodium ion batteries, Ceramics International, 47 (2021) 26839-26843.

7. F.J. Kong*, J.H. Zheng, J.Y. Chen, X.J. Li, S. Tao, B. Qian*,The lithium ion storage performance of ZnSe particles with stable electrochemical reaction interfaces improved by carbon coating, Journal of Physics and Chemistry of Solids, 152 (2021) 109987.

8. Z.S. Han, J.H. Zheng, F.J. Kong*, S. Tao, B. Qian*, One dimensional SbO2/Sb2O3@NC microrod as anode for lithium-ion and sodium-ion batteries, Nano Selcet, 2 (2021) 425-432.

9. Z.S. Han, F.J. Kong*, J.H. Zheng, J.Y. Chen, S. Tao, B. Qian*, MnSe nanoparticles encapsulated into N-doped carbon fibers with a binder-free and free-standing structure for lithium ion batteries, Ceramics International, 47 (2021) 1429-1438.

10. F.J. Kong, Z.S. Han, S. Tao*, B. Qian*, Core–shell structured SnSe@C microrod for Na-ion battery anode, Journal of Energy Chemistry, 55 (2021) 256-264.

11. F.J. Kong,J. Wang, J.Y. Chen, S. Tao, B. Qian*, H.M. Luo*, MOF-derived ultrasmall CoSe2nanoparticles encapsulated by an N-doped carbon matrix and their superior lithium/sodium storage properties, Chemical Communications, 56 (2020) 9218-9221.

12. F.J. Kong, Z.S. Han,X.L. He, H.L. Yu*, S. Tao, B. Qian*, H.M. Luo*, Synergistic effect on the improved electrochemical performance in the case of Fe1-xCdxCO3, The Journal of Physical Chemistry of C,123 (2019) 19333-19339.

13. Z.S. Han,F.J. Kong*, X.L. He, S. Tao, X.F. Jiang, B. Qian*, CeO2 nanoparticles embedded into one dimensional N doped carbon matrixas a high performance anode for lithium ion batteries, Journal of Physics and Chemistry of Solids, 134 (2019) 187-192.

14. J. Wang, F.J. Kong*, J.Y. Chen, Z.S. Han, S. Tao, B. Qian*, X.F. Jiang, Metal organic framework derived FeSe2@C embedded into N-doped Graphene sheets with binary conductive networks for rechargeable batteries, Chemelectrochem, 6 (2019) 2805-2811.

15. F.J. Kong, X.L. He, J.Y. Chen, S. Tao, B. Qian*, X.F. Jiang, H.M. Luo*, HierarchicalNi(HCO3)2 nanosheets anchored on carbon nanofibers as binder-free anodes for lithium-ion batteries, Energy Technology, 7 (2019) 1900094.

16. F.J. Kong, J. Wang, Z.S. Han, B. Qian*, S. Tao, H.M. Luo*, L. Gao*, Lithium storage mechanisms of CdSe nanoparticles with carbon modification for advanced lithium ion batteries, Chemical Communications, 55 (2019) 2996-2999.

17. F.J. Kong, L.Z. Lv, Y. Gu, S. Tao*, X.F. Jiang, B. Qian*, L. Gao, Nano-sized FeSe2 anchored on reduced graphene oxide as a promising anode material for lithium-ion and sodium-ion batteries, Journal of Materials Science, 54 (2019) 4225-4235.

18. F.J. Kong, F.T. Yu, W.Q. Lu, Z.Q. Yuan*, B. Qian, An Organic/Inorganic Synergistic Electrolysis for Overcharge Protection of Electric Vehicle Batteries, Industrial & Engineering Chemistry Research, 58 (2019) 1787-1793.

19. F.J. Kong, S. Tao, B. Qian*, L. Gao*, Multiwalled carbon nanotube-modified Nb2O5 with enhanced electrochemical performance for lithium-ion batteries, Ceramics International, 44 (2018) 23226-23231.

20. F.J. Kong, S. Tao, B. Qian*, L. Gao*, Facile synthesis of MTaO4 (M = Al, Cr and Fe) metal oxides and their application as anodes for lithium-ion batteries, Ceramics International, 44 (2018) 8827-8831.

21. F.J. Kong, L.Z. Lv, J. Wang, G.H. Jiao, S. Tao*, Z.D. Han, Y. Fang, B. Qian*, X.F. Jiang, Graphite modified AlNbO4 with enhanced lithium—ion storage behaviors and its electrochemical mechanism, Materials Research Bulletin, 97 (2018) 405–410.

22. F.J. Kong, G.H. Jiao, J. Wang, S. Tao*, Z.D. Han, Y. Fang, L. Zhang, B, Qian*, X.F. Jiang, Preparation and characterization of Nano-sized FeTaO4/graphite for lithium-ion batteries, Solid State Ionics, 313 (2017) 45-51.

Ø 教科研成果:

2022年获常熟市自然科学优秀学术论文二等奖

Ø 联系邮箱:

fjkong@cslg.edu.cn