创造、创新、创业

Creation, innovation and Entrepreneurship

副高级专业技术职称

徐飞

分类:院内新闻 作者: 来源: 时间:2021-03-02 访问量:

一、个人基本情况

姓名:徐飞

性别:男

学位:博士

职称:副教授

E-mailxufei2058@whu.edu.cn

二、学习工作经历

2016.12–至今 武汉大学,动力与机械学院,副教授

2015.1–2016.11 武汉大学,动力与机械学院,讲师

2012.11–2014.12 华中科技大学,化学与化工学院,讲师

2009.10–2012.9 日本京都大学,能源科学院,博士

2008.4–2009.3 日本京都大学,能源科学院,国际交换留学

2006.9–2009.6 武汉大学,化学与分子科学学院,硕士

2002.9–2006.6 武汉大学,化学与分子科学学院,化学基地班,学士

三、研究方向

电化学储能、可充镁电池、锂离子电池电解液

四、主要科研项目

1. 国家自然科学基金面上项目,多元共轭共聚物可逆储镁反应及其应用基础研究, 221791012022.01-2025.12,主持。

2. 宁德时代21C创新实验室开放基金,环状磷酸酯电解液界面反应热力学与动力学研究,21C-OP-2022022022.08-2024.07,主持。

3. 国家重点研发计划,面向中美合作的纯电动力系统前沿技术联合研究,2019YFE01002002020.01-2021.12,参与。

4. 国家自然科学基金青年项目,锂二次电池用新型低熔点熔融盐电解质的制备、性质与结构的研究,514021132015.01-2017.12,主持。

5. 湖北省自然科学基金面上项目,基于有机聚合物正极的镁二次电池的研究, 2019CFB4522019.01-2020.12,主持。

五、学术兼职

1. Journal of Magnesium and AlloysSCI一区,IF=17.6)青年编委

2. 日本电化学会国际顾问委员会成员

六、近五年代表性论文

1. D. Tao, T. Li*, Y. Tang, H. Gui, Y. Cao. F. Xu*, Cu3VSe4 cathode for rechargeable magnesium batteries: Favorable chemical and electronic structures inducing intercalation and displacement reactions, Advanced Functional Materials, 2024, 2411223.

2. D. Tao, L. Ran, T. Li*, Y. Cao, F. Xu*, 3D Tunnel copper tetrathiovanadate nanocube cathode achieving ultra-fast magnesium storage reactions through a charge delocalization and displacement mechanism, ACS Nano, 2024, 18, 28810−28821.

3. D. Tao, T. Li*, Y. Tang, H. Gui, Y. Cao. F. Xu*, Mo3S13 cluster-based cathodes for rechargeable magnesium batteries: Reversible magnesium association/dissociation at the bridging disulfur along with sulfur-sulfur bond break/formation, ACS Nano, 2024, 18, 5590‒5598.

4. S. Cui, T. Li*, D. Tao, D. Zhang*, Y. Cao, F. Xu*, Disulfide bonded polyimide cathode of rechargeable magnesium batteries: Improved capacity via reversible break/formation of disulfide and sulfur-oxygen bonds, Energy Storage Materials, 2024, 71, 103672.

5. S. Cui, T. Li*, D. Tao, D. Zhang*, Y. Cao, F. Xu*, Large conjugated polyimide cathodes of rechargeable magnesium batteries: Electron delocalization induced by bivalent magnesium cations, ACS Materials Letters, 2024, 6, 1883−1889.

6. D. Tao, Y. Tang, H. Gui, F. Xu*, Facile fabrication of high-power molybdenum diselenide cathode for rechargeable magnesium batteries, ACS Sustainable Chemistry & Engineering, 2024, 12, 10269–10275.

7. T. Li, L. Ran, H. Li, D. Zhang*, F. Xu*, Amorphous cobalt polyselenides with hyperbranched polymer additive as high-capacity magnesium storage cathode materials through cationic and anionic co-redox mechanism, Small, 2024, 20, 2400903.

8. X. Ren, D. Tao, S. Cui, T. Li, Y. Cao, F. Xu*, Double-chain conjugated carbonyl polymer cathode for rechargeable magnesium batteries: Constructing active sites for reversible storage of bivalent magnesium cations, Energy Storage Materials, 2023, 63, 102992.

9. X. Ren, F. Wen, S. Cao, F. Xu*, Polyanthraquinonyl sulfide cathodes for rechargeable magnesium batteries: Effect of structure on the performance, Chemical Engineering Journal, 2023, 452, 139570.

10. C. Hu, L. Ran, H.-a. Zhang, S. Cui, F. Xu*, D. Zhang*, T. Li*, In-situ generated elemental selenium nanograins cooperated with NiSe2 microspheres for significantly enhanced magnesium-storage performance, Chemical Engineering Journal, 2023, 478, 147440.

11. D. Tao, T. Li*, Y. Tang, Y. Cao, F. Xu*, Copper Tetraselenophosphate cathode for rechargeable magnesium batteries: A redox-active polyatomic anion strategy to design the cathode material, Chemistry of Materials, 2023, 35, 4525−4531.

12. X. Ren, D. Tao, Y. Tang, Y. Cao, F. Xu*, Poly(2,6-anthraquinonyl disulfide) as a high-capacity and high-power cathode for rechargeable magnesium batteries: Extra capacity provided by the disulfide group, Journal of Materials Chemistry A, 2023, 11, 9955–9963.

13. D. Chen, X. Ren, T. Li*, Z. Chen, Y. Cao, F. Xu*, Octylamine-supporting interlayer expanded molybdenum diselenide as a high-power cathode for rechargeable Mg batteries, Energy&Environmental Materials, 2023, 6, e12486.

14. S. Cao, F. Wen, X. Ren, Y. Cao, X. Ai*, F. Xu*, Nonflammable dual-salt localized high-concentration electrolyte for graphite/LiNi0.8Co0.1Mn0.1O2 lithium-ion batteries: Li+ solvation structure and interphase, Journal of Power Sources, 2023, 555, 232392.

15. D. Chen, D. Tao, X. Ren, F. Wen, T. Li*, Z. Chen, Y. Cao, F. Xu*, A molybdenum polysulfide in-situ generated from ammonium tetrathiomolybdate for high-capacity and high-power rechargeable magnesium battery cathode, ACS Nano, 2022, 16, 20510−20520.

16. Y. Ding, D. Chen, X. Ren, Y. Cao, F. Xu*, Organic conjugated polyanthraquinonylimide cathodes for rechargeable magnesium batteries, Journal of Materials Chemistry A, 2022, 10, 14111–14120.

17. D. Chen, F. Du, S.-a. Cao*, T. Li, F. Xu*, Co0.85Se hollow polyhedrons entangled by carbon nanotubes as a high-performance cathode for magnesium secondary batteries, Chemical Engineering Journal, 2022, 428, 129545.

18. Y. Zhang, D. Tao, F. Xu*, T. Li*, A low-cost and high-performance rechargeable magnesium battery based on povidone iodine cathode, Chemical Engineering Journal, 2022, 427, 131592.

19. F. Wen, S. Cao, X. Ren, Y. Cao, X. Ai*, F. Xu*, Nonflammable dual-salt electrolytes for graphite/LiNi0.8Co0.1Mn0.1O2 lithium-ion batteries: Li+ solvation structure and electrode/electrolyte interphase, ACS Applied Energy Materials, 2022, 5, 15491−15501.

20. Y. Ding, X. Ren, D. Chen, F. Wen, T. Li*, F. Xu*, Poly(1,5-diaminoanthraquinone) as a high-capacity bipolar cathode for rechargeable magnesium batteries, ACS Applied Energy Materials, 2022, 5, 3004−3012.

21. X. Hu, J. Peng, F. Xu*, M. Ding*, Rechargeable Mg2+/Li+, Mg2+/Na+, and Mg2+/K+ hybrid batteries based on layered VS2, ACS Applied Materials & Interfaces, 2021, 13, 48, 57252–57263.

22. T. Li, H. Li, A. Qin, D. Zhang*, F. Xu*, In-situ constructing uniform polymer network for iron oxide microspheres: A novel approach to improve the cycling stability of the conversion electrodes through chemical interaction, Journal of Power Sources, 2021, 489, 229510.

23. Y. Zhang, T. Li*, S.-a. Cao, W. Luo, F. Xu*, Cu2MoS4 hollow nanocages with fast and stable Mg2+-storage performance, Chemical Engineering Journal, 2020, 387, 124125.

24. Y. Zhang, J. Gui, T. Li*, Z. Chen, S.-a. Cao, F. Xu*, A novel Mg/Na hybrid battery based on Na2VTi(PO4)3 cathode: Enlightening the Na-intercalation cathodes by a metallic Mg anode and a dual-ion Mg2+/Na+ electrolyte, Chemical Engineering Journal, 2020, 399, 125689.

25. D. Chen, Y. Zhang, X. Li, J. Shen, Z. Chen, S.-a. Cao, T. Li*, F. Xu*, Nanosheets assembling hierarchical starfish-like Cu2−xSe as advanced cathode for rechargeable Mg batteries, Chemical Engineering Journal, 2020, 384, 123235.

26. D. Chen, J. Shen, X. Li, S.-a. Cao, T. Li*, W. Luo, F. Xu*, Ni0.85Se hexagonal nanosheets as an advanced conversion cathode for Mg secondary batteries, Journal of Energy Chemistry, 2020, 48, 226–232.

27. Y. Zhang, T. Li*, S.-a. Cao, W. Luo, F. Xu*, NiCo2Se4 hierarchical microflowers of nanosheets and nanorods as pseudocapacitive Mg-storage materials, ACS Sustainable Chemistry & Engineering, 2020, 8, 29642972.