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个人信息

姓名:朱先军

学历:博士 

职称:副教授

电话:13554405258

E-mail xjzhu@mail.ccnu.edu.cn 

教育与研究经历

198309月至198706月:湖北大学化学系,本科;

199109月至199406月:北京师范大学化学系,硕士;

200309月至200306月:武汉大学化学系,博士;

200402月至200609月:武汉理工大学材料复合新技术国家重点实验室,博士后;

200808月至200908月:澳大利亚The University of WollongongISEM研究所,访问学者;

201003月至201103月:美国The University of Texas at AustinRuoff课题组,访问学者。

研究领域与兴趣

1.石墨烯在锂离子电池和超级电容器中的应用基础研究;

2.锂离子电池正、负极材料和电解质;

3.全固态锂离子电池;

4.钠离子电池;

5.锂空气电池。

承担项目与课题信息

1、 国家自然科学基金面上项目(21975092):Li3OCl系列固态电解质制备及其在全固态锂电池中的性能研究2020.01~2023.1265万元,主持人。

2、 国家自然科学基金(ZL200510018357):新型硫簇化合物低维纳米结构膜生长机理研究,2005.1~2008.1230万元,骨干成员。

3、 教育部留学回国人员科研启动基金:新型单维和多维纳米储锂材料薄膜研究,2010年,3万元、主持人。

4、 湖北省自然科学基金(2006ABA317):全固态锂微电池正极薄膜制备及表征,2006.1~2007.122万元、主持人。

5、 湖北省自然科学基金(2011CDB161):石墨烯嵌锂机理及在锂离子电池中的应用基础研究,2011.1~2012.122万元,主持人。

6、 国际合作项目(Australian Research CouncilLP0991022):先进锂离子电池研究及混合电动车用管理系统,2009.6~2011.625万澳元,骨干成员。

学术成果

1. Zhu Liya, Yang Chengsheng, Chen Yanan, Wang Jing, Wang Chenggang, Zhu Xianjun*, Lithium storage performance and mechanism of VS4/rGO as an electrode material associated with lithium-sulfur batteries, Journal Of Alloys And Compounds, 2019, (785): 855-861.

2. Zhu Liya, Li Yanan, Wang Jing, Zhu Xianjun*, Sodium storage performance and mechanism of rGO-wrapped nanorod vanadium sulfide as an anode material for sodium ion batteries, Solid State Ionics, 2018, (327): 129-135.

3. Tan Ziqi, Ni Kun, Chen Guanxiong, Zeng Wencong, Tao Zhuchen, Ikram Mujtaba, Zhang Qiubo, Wang Huijuan, Sun Litao, Zhu Xianjun, Wu Xiaojun, Ji Hengxing, Ruoff Rodney S.*, Zhu Yanwu*, Incorporating Pyrrolic and Pyridinic Nitrogen into a Porous Carbon made from C60 Molecules to Obtain Superior Energy Storage, Advanced Materials, 2017, 8(29): 1603414.

4. Zhu Xianjun, Zuo Linwen, Wu Shuilin, Qu Xiaodi, Wei Meng, He Li, Zhong Yu, Zhu Yanwu*, Porous three-dimensional activated microwave exfoliated graphite oxide as an anode material for lithium ion batteries, RSC Advances, 2016, 60(6): 55176-55181.

5. Zhu Xianjun, Zhong Yu, Zhai Haidie, Yan Zan, Li Dongfong*, Nanoflake nickel hydroxide and reduced graphene oxide composite as anode materials for high capacity lithium ion batteries, Electrochimica Acta, 2014, 0(132): 364-369.

6. Zhu Xianjun, Yan Zan, Wu Wenyan, Zeng Wencong, Du Yuanxin, Zhong Yu, Zhai Haidie, Ji Hengxing*, Zhu Yanwu*, Manipulating Size of Li3V2(PO4)3 with Reduced Graphene Oxide: towards High-Performance Composite Cathode for Lithium Ion Batteries, Scientific Reports, 2014, (4): 1-7.

7. Zhu Xianjun, Hu Jing, Wu Wenyan, Zeng Wencong, Dai Huaili, Du Yuanxin, Liu Zhen, Li Liang, Ji Hengxing, Zhu Yanwu*, LiFePO4/reduced graphene oxide hybrid cathode for lithium ion battery with outstanding rate performance, Journal of Materials Chemistry A, 2014, 21(2): 7812-7818.

8. Zhu Xianjun, Wu Wenyan, Liu Zhen, Li Liang, Hu Jing, Dai Huaili, Ding Lei, Zhou Kun, Wang Chunya, Song Xuegang, A reduced graphene oxide–nanoporous magnetic oxide iron hybrid as an improved anode material for lithium ion batteries, Electrochimica Acta, 2013, 0(95): 24-28.

9. Zhu Xianjun, Hu Jing, Dai Huaili, Ding Lei, Jiang Li, Reduced graphene oxide and nanosheet-based nickel oxide microsphere composite as an anode material for lithium ion battery, Electrochimica Acta, 2012, 0(64): 23-28.

10. Zhu Xianjun, Dai Huaili, Hu Jing, Ding Lei, Jiang Li, Reduced graphene oxide-nickel oxide composite as high performance electrode materials for supercapacitors, Journal Of Power Sources, 2012, 0(203): 243-249.

11. Stoller Meryl D., Murali Shanthi, Quarles Neil, Zhu Yanwu, Potts Jeffrey R., Zhu Xianjun, Ha Hyung-Wook, Ruoff Rodney S.*, Activated graphene as a cathode material for Li-ion hybrid supercapacitors, Physical Chemistry Chemical Physics, 2012, 10(14): 3388-91.

12. Zhu Xianjun, Zhu Yanwu, Murali Shanthi, Stoller Meryl D., Ruoff Rodney S.*, Nanostructured reduced graphene oxide/Fe2O3 composite as a high-performance anode material for lithium ion batteries, ACS Nano, 2011, 4(5): 3333-8.

13. Zhu Xianjun, Zhu Yanwu, Murali Shanthi, Stoller Meryl D., Ruoff Rodney S.*, Reduced graphene oxide/tin oxide composite as an enhanced anode material for lithium ion batteries prepared by homogenous coprecipitation, Journal Of Power Sources, 2011, 15(196): 6473-6477.

14. Zhu Xianjun, Guo Zaiping*, Zhang Peng, Du Guodong, Poh C. K., Chen Zhixin, Li Sean, Liu Huakun, Three-dimensional reticular tin-manganese oxide composite anode materials for lithium ion batteries, Electrochimica Acta, 2010, 17(55): 4982-4986.

15. Zhu Xianjun, Guo Zaiping*, Du Guodong, Zhang Peng, Liu Huakun, LiCoO2 cathode thin film fabricated by RF sputtering for lithium ion microbatteries, Surface & Coatings Technology, 2010, 11(204): 1710-1714.

16. Zhu Xianjun, Guo Zaiping*, Zhang Peng, Du Guodong, Zeng Rong, Chen Zhixin, Liu Huakun, Tin Oxide Thin Film with Three-Dimensional Ordered Reticular Morphology as a Lithium Ion Battery Anode, Chemphyschem, 2009, 17(10): 3101-3104.

17. Zhu Xianjun, Guo Zaiping*, Zhang Peng, Du Guodong, Zeng Rong, Chen Zhixin, Li Sean, Liu Huakun, Highly porous reticular tin-cobalt oxide composite thin film anodes for lithium ion batteries, Journal Of Materials Chemistry, 2009, 44(19): 8360-8365.

18. Zhu Xianjun, Geng Liangmei, Zhang Fangqin, Liu Yunxia, Cheng Longbin, Synthesis and performance of Zn2SnO4 as anode materials for lithium ion batteries by hydrothermal method, Journal Of Power Sources, 2009, 1(189): 828-831.

19. Zhu Xianjun, Cheng Longbin, Wang Chenggang, Guo Zaiping*, Zhang Peng, Du Guodong, Liu Huakun, Preparation and Characteristics of LiFePO4 Thin Film by Radio Frequency Magnetron Sputtering for Lithium Microbatteries, Journal of Physical Chemistry C, 2009, 32(113): 14518-14522.

20. Feng Chuanqi, Li Li, Guo Zaiping, Shi Dongqi, Zeng Rong, Zhu Xianjun*, Synthesis and properties of Li-Ti-O spinel (LiTi2O4), Journal Of Alloys And Compounds, 2009, 1-2(478): 767-770.

21. Zhu Xianjun, Liu Yunxia, Geng Liangmei, Chen Longbin, Liu Hanxing*, Cao Minghe, Synthesis and characteristics of Li3V2(PO4)3 as cathode materials for lithium-ion batteries, Solid State Ionics, 2008, 27-32(179): 1679-1682.

22. Zhu Xianjun, Liu Yunxia, Geng Liangmei, Chen Longbin, Synthesis and performance of lithium vanadium phosphate as cathode materials for lithium ion batteries by a sol-gel method, Journal Of Power Sources, 2008, 2(184): 578-582.

23. Zhang Wen, Liu Hanxing*, Hu Chen, Zhu Xianjun, Li Yanxi, Preparation of layered oxide LiCo1/3Ni1/3Mn1/3O2 via the sol-gel process, Rare Metals, 2008, 2(27): 158-164.

24. Zhu Xianjun, Zhan Hui, Liu Hanxing, Zhou Yunhong*, Synthesis and characterization of LiNi0.95-xCoxAl0.05O2 for lithium-ion batteries, Rare Metals, 2006, 4(25): 303-308.

25. Zhu Xianjun, Liu Hanxing*, Gan Xiaoyan, Cao Minghe, Zhou Jian, Chen Wen, Xu Qing, Ouyang Shixi, Preparation and characterization of LiNi0.80Co0.20-xAlxO2 as cathode materials for lithium ion batteries, Journal Of Electroceramics, 2006, 2-4(17): 645-649.

26. Zhu Xianjun, Chen Pingchu, Zhan Hui, Zhou Yunhong*, Synthesis and characterization of LiNi0.85Co0.15-xAlxO2 as cathode materials for lithium-ion batteries, Journal Of Materials Science & Technology, 2006, 1(22): 35-39.

27. Qiao Hui, Zhu Xianjun, Zheng Zhi, Liu Li, Zhang Lizhi*, Synthesis of V3O7 center dot H2O nanobelts as cathode materials for lithium-ion batteries, Electrochemistry Communications, 2006, 1(8): 21-26.

28. Zhu Xianjun, Zhan Hui, Zhou Yunhong*, Preparation and characterization of LiNi0.85Co0.10Al0.05O2 as cathode material, Rare Metal Materials And Engineering, 2005, 12(34): 1862-1865.

29. Zhu Xianjun, Chen Honghao, Zhan Hui, Yang Dailing, Zhou Yunhong*, Storage characteristics of LiNi0.85Co0.15O2 in air as cathode material for lithium-ion batteries, Journal Of Materials Science, 2005, 11(40): 2995-2997.

30. Zhu Xianjun, Chen Honghao, Zhan Hui, Liu Hanxing, Yang Dailing, Zhou Yunhong*, Synthesis and characteristics of LiNi0.85Co0.15O2 cathode materials by particulate sol-gel method for lithium ion batteries, Chinese Journal Of Chemistry, 2005, 5(23): 491-495.

31. Chen Honghao, Zhan Hui, Zhu Xianjun, Zhou Yunhong*, Structure and electrochemical performance of LiNi0.85Co0.15O2 synthesized via a rheological phase method, Acta Chimica Sinica, 2005, 11(63): 1028-1032.