李文斌

【来源: | 发布日期:2023-02-28 】

姓名:李文斌

出生年月:1989年12月

职称:副教授

毕业学校:陕西科技大学

Emial:liwb@xaut.edu.cn

学习与工作情况

2009.09—2013.07陕西科技大学77779193永利集团,无机非金属材料,学士

2013.09—2016.07陕西科技大学77779193永利集团,材料工程,硕士

2016.09—2019.06陕西科技大学77779193永利集团,材料物理与化学,博士

2019.07—现在 77779193永利集团,能材与院办党支部书记

研究方向

  1. 纳米能源材料与器件

  2. 3D打印和原子层沉积(ALD)技术

研究成果

已在J. Mater. Chem. A、Chem.-Eur. J.、ChemSusChem、J. Power Sources.、Nanoscale、ACS Sustainable Chem. Eng.、Electrochim. Acta、Appl. Catal. B-Environ.等期刊发表论文31篇,其中一作20篇(中科院一区论文12篇),累计影响因子达156.981,封面文章2篇。授权美国专利1件,中国发明专利26件,合作出版专著1部(排名2)。

获奖情况与荣誉

1、2017年国家级老员工“小平科技创新团队”负责人

2、2018年度教育部高等学校技术发明奖二等奖(排名3)

3、2018年度中国轻工业联合会技术发明奖一等奖(排名3)

4、2018年度陕西高等学校科学技术奖二等奖(排名3)

5、首批全国高校“百名研究生党员标兵”

6、第四届全国“工程硕士实习实践优秀成果获得者”

7、2019年度“化工与材料京博博士论文奖”提名奖

8、2018年博士研究生国家奖学金

9、第五届中国“互联网+”老员工创新创业大赛全国铜奖

10、首届“创青春”全国老员工创业大赛全国银奖

11、“挑战杯”全国老员工课外学术科技作品竞赛全国二等奖

12、2018年“光威杯”中国高性能复合材料科技创新竞赛国家级二等奖

13、第九、十届全国老员工环境友好科技竞赛国家级三等奖

14、2014年国家级中国电信奖学金•飞Young奖

15、2014、2015年国家级中国老员工自强之星(创新类)

16、2015年获陕西好青年提名奖(创新类)

17、陕西省第五届研究生创新成果展一等奖

18、第二届中国国际复合材料科技大会研究生学术峰会二等奖

19、2016中国国际功能材料大会优秀墙报奖

科研项目

1、永利集团教师博士科研启动项目,负责人,在研

2、国家自然科学基金面上项目(51672165),排名2,在研

3、国家自然科学基金青年项目(51672165),排名2,在研

4、国家自然科学基金青年项目(61705125),参与,在研

学术兼职

中国材料研究学会会员

中国硅酸盐学会会员

代表性学术论文

[1]Wenbin Li, Jianfeng Huang, Liangliang Feng, Liyun Cao, Yongqiang Feng, Haijing Wang, Jiayin Li, Chunyan Yao. Facile In-Situ Synthesis of Crystalline VOOH-Coated VS2 Microflowers with Superior Sodium Storage Performance.J. Mater. Chem. A, 2017, 5: 20217-20227. (中科院分区: Q1)

[2]Wenbin Li, Jianfeng Huang, Ruizi Li, Liyun Cao, Xifei Li, Liangliang Feng, Shaoyi Chen. (110)-bridged Nanoblocks Self-assembled VS4 Hollow Microspheres as Sodium-ion Battery Anode with Superior Rate Capability and Long Cycling Life [J].Chem.-Eur. J., 2019,https://doi.org/10.1016/j.cej.2019.123385. (中科院分区: Q1)

[3]Wenbin Li, Jianfeng Huang, Ruizi Li, Liyun Cao, Xifei Li, Shaoyi Chen, Liangliang Feng. Enhanced Kinetics Over VS4 Microspheres with Multi-dimensional Na+ Transfer Channels for High-rate Sodium-ion Battery Anode [J].ChemSusChem, 2019,https://doi.org/10.1002/cssc.201902130. (中科院分区: Q1)

[4]Wenbin Li, Jianfeng Huang, Liangliang Feng, Liyun Cao, Yijun Liu, Limin Pan. Nano-grain dependent 3D Hierarchical VS2 Microrods with Enhanced Intercalation Kinetic for Sodium Storage Properties.J. Power Sources, 2018, 398: 91-98. (中科院分区: Q1)

[5]Wenbin Li, Jianfeng Huang, Liangliang Feng, Liyun Cao, Shuwei He. 3D Self-assembled VS4 Microspheres with High Pseudocapacitance as Highly Efficient anodes for Na-ion Batteries.Nanoscale, 2018, 10: 21671-21680. (中科院分区: Q1,封面文章)

[6]Wenbin Li, Jianfeng Huang, Liyun Cao, Yijun Liu, Limin Pan,Liangliang Feng. In-situ Topology Synthesis of Orthorhombic NaV2O5 with High Pseudocapacitive Contribution for Lithium-ion Battery Anode.ACS Sustainable Chem. Eng., 2019, 7: 94-99. (中科院分区: Q1,封面文章)

[7]Wenbin Li, Jianfeng Huang, Liangliang Feng, Liyun Cao, Yijun Liu, Limin Pan. VS2 nanoarchitectures assembled by single-crystal nanosheets for enhanced sodium storage properties.Electrochim. Acta, 2018, 286: 131-138. (中科院分区: Q1)

[8]Wenbin Li, Jianfeng Huang, Liyun Cao, Liangliang Feng, Chunyan Yao. Controlled Construction of 3D Self-assembled VS4 Nanoarchitectures as High-performance Anodes for Sodium-ion Batteries.Electrochim. Acta, 2018, 274: 334-342. (中科院分区: Q1)

[9]Li Wenbin, Huang Jianfeng, Fei Jie, Cao Liyun, Yao Chunyan. Simulation and application of temperature field of carbon fabric wet clutch during engagement based on finite element analysis.Inter. Commun. Heat Mass, 2015, 71: 180-187. (中科院分区: Q1)

[10]Li Wenbin, Huang Jianfeng, Fei Jie, Cao Liyun, Yao Chunyan. Mechanical and wet tribological properties of carbon fabric/phenolic composites with different weave filaments counts. Appl. Surf. Sci., 2015, 353: 1223-1233. (中科院分区: Q1)

[11]Wenbin Li, Jianfeng Huang, Liyun Cao, Xifei Li, Shaoyi Chen, and Liangliang Feng. Polycrystalline VO2(M) with well-dispersed crystalline zones for enhanced electroactivity of lithium-ion batteries.J. Alloy. Compd., 2020, 812: 152122. (中科院分区: Q1)

[12]Wenbin Li, Jianfeng Huang, Liangliang Feng, Liyun Cao, Yijie Ren, Ruizi Li, Zhanwei Xu, Jiayin Li, Chunyan Yao. Controlled synthesis of macroscopic three-dimensional hollow reticulate hard carbon as long-life anode materials for Na-ion batteries.J. Alloy. Compd., 2017, 716: 210-219. (中科院分区: Q1)

[13]Li Wenbin, Huang Jianfeng, Fei Jie, Liang Zhenhai, Cao Liyun, Yao Chunyan. A novel preparation approach for improving the mechanical and wet tribological properties of carbon fabric/phenolic composites.Mater. Design, 2016, 103: 356-364. (中科院分区: Q2)

[14]Li Wenbin, Huang Jianfeng, Fei Jie, Cao Liyun, Yao Chunyan, Wang Wenjing. Novel approach to studying the influence of surface structure on tribological properties of carbon fabric reinforced phenolic composites.Tribol. Int., 2015, 81: 209-214. (中科院分区: Q2)

[15]Li Wenbin, Huang Jianfeng, Fei Jie, Cao Liyun, Yao Chunyan, Wang Wenjing. A statistical model for evaluating the tribological properties of paper-based friction materials.Tribol. Int., 2015, 92: 418-424. (中科院分区: Q2)

[16]Li Wenbin, Huang Jianfeng, Fei Jie, Cao Liyun, Yao Chunyan, Wang Wenjing. Simulation of the engagement of carbon fabric wet clutch: Analytical and experimental comparison.Tribol. Int., 2015, 90: 502-508. (中科院分区: Q2)

[17]Li Wenbin, Huang Jianfeng, Fei Jie, Liang Zhenhai, Cao Liyun, Yao Chunyan. Study on tribological properties as a function of operating conditions for carbon fabric wet clutch.Tribol. Int., 2016, 94: 428-436. (中科院分区: Q2)

[18]Li Wenbin, Huang Jianfeng, Fei Jie, Liang Zhenhai, Cao Liyun, Yao Chunyan. Effect of aramid pulp on improving mechanical and wet tribological properties of carbon fabric/phenolic composites.Tribol. Int., 2016, 104: 237-246. (中科院分区: Q2)

[19]Li Wenbin, Huang Jianfeng, Fei Jie, Liang Zhenhai, Cao Liyun, Yao Chunyan. Effect of glass powder content on the mechanical and wet tribological properties of carbon fabric/phenolic composites.J. Mater. Sci., 2016, 51(9): 4419-4430. (中科院分区: Q2)

[20]Wenbin Li, Jianfeng Huang, Liangliang Feng, Liyun Cao, Yijun Liu, Limin Pan. VS4 Microspheres Winded by (110)-oriented Nanotubes with High Rate Capacities as Sodium-ion Battery Anode.Mater. Lett., 2018, 230: 105-108. (中科院分区: Q3)