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杨智博
职称/职务: 讲师
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电子信箱: yangzhb15@snnu.edu.cn
出生年月: 1987年11月
办公地点: 致知楼3407

        工作经历:

        2015.07-至今,陕西师范大学物理学与信息技术学院,讲师;

        2010.09-2015.06,兰州大学物理科学与技术学院,凝聚态物理(新能源材料与器件),理学博士;

       2006.09-2010.06,兰州大学物理科学与技术学院,物理学国家基础科学人才培养基地班,理学学士。

       科研经历:

       硅基高功率锂离子二次电池应用研究:

     由于Si材料是具有最高质量比容量的锂离子电池负极材料,我们将重掺杂纳米化Si材料作为Li离子电池负极材料,在保持了高容量的同时大幅提高了其导电性,改善了材料在电池循环过程中的结构稳定性,使其大倍率循环性能得到了显著改善。

光伏电池关键材料纳米晶Si薄膜的研究:

采用传统射频(13.56MHz)和甚高频(81.36MHz)等离子体化学气相沉积(PECVD)方法制备了Si薄膜,研究了沉积参数对Si薄膜结构、光电学性质的影响,优化了光伏应用中纳米晶Si薄膜的沉积条件;在此基础上结合电化学沉积方法制备了Si纳米棒状阵列结构,研究了其在可见光波段的减反射性能。

参与科研项目:

国家自然科学基金项目(NO. 10974073),硅基材料纳米管的制备及其锂离子电池性能研究;

国家自然科学基金项目(NO. 60776009),用大气压等离子体CVD快速制备低温晶化Si薄膜;

国家自然科学基金项目(NO. 11179038),离子辐照硅基薄膜作为大容量高功率锂离子电池负极材料研究;

国家自然科学基金面上项目(NO. 61376011),金属诱导垂直生长低温poly-Si1-xGex薄膜及其作为太阳能电池材料特性研究;

国家自然科学基金面上项目(NO. 61376068),玻璃衬底上p型自掺杂硅纳米线阵列的制备及在径向异质结光伏器件中的应用;

国家青年基金项目(NO. 11304132),碳纳米纤维“骨架”支撑的三维异质结硅太阳电池:设计和制备;

国家青年基金项目(NO. 61106006),金属诱导晶化低温制备poly-Si1-xGex薄膜及其作为薄膜晶体管的特性研究;

国家青年基金项目(NO. 11304133),新型超薄高效低高宽比纳米半球太阳电池研究;

高等学校博士学科点专项科研基金(NO. 20120211130005),高功率密度锂离子电池负极硅基材料研究。

论文发表情况:


      1. Chao Yan#, Qianru Liu#, Jianzhi Gao, Zhibo Yang*, Deyan He. Phosphorus-doped silicon nanorod anodes for high power lithium-ion batteries. Beilstein Journal of Nanotechnology. 2017; 8: 222-7.(#为并列第一作者)

2. Zhibo Yang, Desheng Wang, Fei Li, Dequan Liu, Peng Wang, Xiuwan Li, Hongwei Yue, Shanglong Peng, Deyan He*. Facile synthesis of CuO nanorod for lithium storage application. Materials Letters. 2013; 90: 4-4.

3. Zhibo Yang, Desheng Wang, Fei Li, Hongwei Yue, Dequan Liu, Xiuwan Li, Li Qiao, Deyan He*. Copper nanorods supported phosphorus-doped silicon for lithium storage application. Materials Letters. 2014; 117: 58-4.

4. Zhibo Yang, Shuai Bai, Hongwei Yue, Xiuwan Li, Dequan Liu, Shumei Lin, Fei Li, Deyan He*. Germanium anode with lithiated-copper-oxide nanorods as an electronic-conductor for high-performance lithium-ion batteries. Materials Letters. 2014; 136: 107-4.

5. Xiuwan Li#, Zhibo Yang#, Yujun Fu, Li Qiao, Dan Li, Hongwei Yue, Deyan He*. Germanium anode with excellent lithium storage performance in a germanium /lithium-cobalt-oxide lithium-ion battery. ACS Nano. 2015; 9: 1858-10.(#为并列第一作者

6. Shumei Lin, Zhibo Yang, Hongwei Yue, Deyan He*. Ridge-like Ni supported WS films for lithium storage application. Materials Letters. 2015; 158; 9-4.

7. Xiuwan Li, Zhibo Yang, Shumei Lin, Dan Li, Hongwei Yue, Xiaonan Shang, Yujun Fu, Deyan He*. A facile and inexpensive approach to improve the performance of silicon film as an anode for lithium-ion batteries. Journal of Materials Chemistry A. 2014; 2: 14817-5.

8. Yujun Fu, Zhibo Yang, Xiuwan Li, Xinghui Wang, Dequan Liu, Duokai Hu, Li Qiao, Deyan He*. Template-free synthesized Ni nanofoams as nanostructured current collectors for high-performance electrodes in lithium ion batteries. Journal of Materials Chemistry A. 2013; 1: 10002-6.

9. Dequan Liu, Zhibo Yang, Peng Wang, Fei Li, Desheng Wang and Deyan He*. Preparation of 3D nanoporous copper-supported cuprous oxide for high-performance lithium ion battery anodes. Nanoscale. 2013; 5: 1917-5.

10. Xinghui Wang, Zhibo Yang, Xiaolei Sun, Xiuwan Li, Desheng Wang, Peng Wang, Deyan He*. NiO nanocone array electrode with high capacity and rate capability for Li-ion batteries. Journal of Materials Chemistry. 2011; 21: 9988-3.

11. Desheng Wang, Zhibo Yang, Fei Li, Deyan He*. The microstructure and optical properties of crystallized hydrogenated silicon films prepared by very high frequency glow discharge. Applied Surface Science. 2011; 257: 8350-5.

12. Desheng Wang, Zhibo Yang, Fei Li, Dequan Liu, Peng Wang, Deyan He*. Broadband antireflection of silicon nanorod arrays prepared by plasma enhanced chemical vapor deposition. Applied Surface Science. 2011; 258: 1058-4.

13. Desheng Wang, Zhibo Yang, Fei Li, Dequan Liu, Xinghui Wang, Hengqing Yan, Deyan He*. Improved performance for lithium-ion batteries with nickel nanocone-arrays supported germanium anode. Materials Letters. 2011; 65: 1542-4.

14. Desheng Wang, Zhibo Yang, Fei Li, Xinghui Wang, Dequan Liu, Peng Wang, Deyan He*. Performance of Si–Ni nanorod as anode for Li-ion batteries. Materials Letters. 2011; 65: 3227-3.

15. Desheng Wang*, ZhiboYang, DeyanHe. Electrochemical performances of nanorod structured Si1-xGex anodes. Materials Letters. 2014; 128: 163-4.

16. Li Qiao, Xiaolei Sun, Zhibo Yang, Xinghui Wang, Qi Wang, Deyan He*. Network structures of fullerene-like carbon core/nano-crystalline silicon shell nanofibers as anode material for lithium-ion batteries. Carbon. 2013; 54: 29-7.

17. Hongwei Yue, Fei Li, Zhibo Yang, Jun Tang, Xiuwan Li, Deyan He*. Nitrogen-doped carbon nanofibers as anode material for high-capacity and binder-free lithium ion battery. Materials Letters. 2014; 120: 39-4.

18. Fei Li, Hongwei Yue, Zhibo Yang, Xiuwan Li, Yanli Qin, Deyan He*. Flexible free-standing graphene foam supported silicon films as high capacity anodes for lithium ion batteries. Materials Letters. 2014; 120: 39-4.

19. Hongwei Yue, Fei Li, Zhibo Yang, Xiuwan Li, Shumei Lin, Deyan He*. Facile preparation of Mn3O4-coated carbon nanofibers on copper foam as a high-capacity and long-life anode for lithium-ion batteries. Journal of Materials Chemistry A. 2014; 2: 17352-7.

20. Fei Li, Hongwei Yue, Peng Wang, Zhibo Yang, Desheng Wang, Dequan Liu, Li Qiao, Deyan He*. Synthesis of core–shell architectures of silicon coated on controllable grown Ni-silicide nanostructures and their lithium-ion battery application. CrystEngComm2013; 15: 7298-9.

21. Fei Li, Yanli Qin, Hongwei Yue, Zhibo Yang, Xiuwan Li, Deyan He*. In situ coating of NiO on Ni-silicide nanowires with roughened surfaces for improved electrochemical energy storage. Journal of Materials Chemistry A. 2014; 2: 9156-8.

22. Dequan Liu, Li Qiao, Fei Li, Desheng Wang, Zhibo Yang, Deyan He*. Preparation of nano-networks of MnO2 shell/Ni current collector core for high-performance supercapacitor electrodes. Journal of Materials Chemistry. 2012; 22: 483-5.





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