基本情况  

曾宏，博士，安泰科技股份有限公司，高级工程师，中国钢铁研究集团有限公司硕士导师，北京工业大学和石家庄铁道大学校外兼职硕士导师，纳米能源材料北京市重点实验室副主任。作为项目负责人和主要研究人员承担国家科技部“863”、国家自然科学基金、国家重大仪器专项、北京市自然科学基金等10余项课题。申请国家发明专利23项，其中第一作者授权专利12项。

 

教育背景 

2003年9月至2007年7月 博士 北京工业大学材料学

2001年9月至2003年9月 硕士 北京工业大学材料学

1997年9月至2001年7月 学士 中南大学材料科学与工程学院

 

工作经历 

2011年8月至今  中国钢铁研究集团有限公司，安泰科技股份有限公司技术中心，高级工程师，钢铁研究总院硕士导师，北京工业大学和石家庄铁道大学校外兼职硕士导师，纳米能源材料北京市重点实验室副主任。

2007年7月至2011年7月  中国钢铁研究集团有限公司，安泰科技股份有限公司技术中心，工程师。

 

研究领域 

主要从事于纳米、能源材料的研究：如稀土纳米材料、动力（储能）电池及其纳米电极材料等方面研究。

 

论文发表  

1. H. Zeng*, J. X. Zhang, C. J. Kuang. In-situ reaction synthesis of pure bulk gadolinium dihydride materials. Intermetallics. 2010，18: 369-373． IF=3.14
2. H. Zeng*, C. J. Kuang, J. X. Zhang, M. Yue. Thermal properties and microstructure of bulk nanocrystalline Gd material. J. Mater. Sci. 2009，44: 5509-5514． IF=2.6
3. Hong.Z*, J.X.Zhang, C.J. Kuang, Ming,Y. Magnetic entropy change in bulk nanocrystalline Gd metals，Applied Nanoscience，2011，1：51-57.IF=3.33
4. Xiaoyan Song, Jiuxing Zhang, Ming Yue, Erdong Li, Hong Zeng, Niandua Lu, Meiling Zhou, and Tieyong Zuo. Technique for Preparing Ultrafine Nanocrystalline Bulk Material of Pure Rare-Earth Metals. Advanced Materials. 2006, 18:1210-1215．
5. M. Yue, J. X. Zhang, H. Zeng, K. J. Wang. Preparation, microstructure, and magnetic properties of bulk nanocrystalline Gd metal. Applied Physics Letter. 2006, 89: 232504．
6. HOU Bihui, LIU Fengyan, YUE Ming, ZENG Hong. Magnetism and phase-transitional analysis of nano-metal gadolinium. Journal of RARE Earths. 2009, 27:1018-1022． IF=2.43
7. Hong Zeng*, Chunjiang Kuang, Jiuxing Zhang, Ming Yue. Magnetocaloric effect in bulk nanocrystalline Gd metals by spark plasma sintering. Nanoscience methods. 2012，1：16-24.
8. Hong Zeng*, Ying Wu, Jiuxing Zhang, Chunjiang Kuang, Ming Yue, Shaoxiong Zhou, Grain size-dependent electrical resistivity of bulk nanocrystalline Gd metals, Progress in Natural Science: Materials International，2013，23(1):18–22. IF=2.03
9. Zhang Fei-peng, Zeng Hong, lu Qing-mei, zhang Xin, Zhang Jiu-xing, Effects of rare earths doping on electrical transport properties of CaMnO3 oxide, Journal Functional Materials and Devices, 2013，19：37-42. (In Chinese)
10. Zhang Fei-peng, Zeng Hong, lu Qing-mei, zhang Xin, Zhang Jiu-xing, Electronic structures and thermal properties of ZnO oxide, Journal Functional Materials and Devices, 2013，19：63-68. (In Chinese)
11. ZHANG Fei-peng, ZENG Hong, Effects of heat treatment parameters on the 30MnSi Steel, 2013 (in pressed). (In Chinese)
12. Zeng Hong, Niu Peili, Yue Ming, Zhang Jiuxing. Magnetocaloric effect Study in the different scales of Gadolinium. Functional Materials. 2004, 35: 660-662．(In Chinese)
13. ZENG Hong, YUE Ming, CHEN Hai-ling, ZHANG Jiu-xing. Magneto-caloric effect of Gd5Si2Ge2/Gd composite materials prepared by spark plasma sintering.
14. Zhang Jiuxing, Zeng Hong, Yue Ming, Niu Peili. Review on research and development of Gd5(SixGe1-x)4 magnetic refrigerant materials. Journal of Beijing University of Technology. 2006, 32: 223-228．(In Chinese)
15. Niu Peili, Zeng Hong, Yue Ming, Zhang Jiuxing. Study on the granularity effect of Gd5Si2Ge2 giant magnetic entropy change alloy. Functional Materials. 2004, 35: 626-628．(In Chinese)
16. Yue Ming, Niu Peili, Zeng Hong, Zhang Jiuxing. Modification of Microstructure and Magnetocaloric effect of Gd5Si2Ge2 alloy. RARE METAL MATERIALS AND ENGINEERING, 2006, 35: 52-54．(In Chinese)
17. WANG Xiao-lu，LIU Yue，YUE Ming，ZENG Hong，ZHANG Jiu-xing. New preparation route of Mn1.1Fe0.9P0.8Ge0.2 room temperature magneto-caloric materials. Functional Materials. 2007, 38: 1171-1172．(In Chinese)
18. Lu Nianduan, Song Xiaoyan, Zhang Jiuxing, Li Erdong, Yue Ming, Zeng Hong,Yan Xiangquan. Preparation of pure rare-earth nanoparticles with controllable sizes by inert-gas condensation. Powder Metallurgy Technology. 2007, 25: 424-429．(In Chinese)
19. Hong Zeng*, Ying Wu, Jiuxing Zhang, Chunjiang Kuang, Ming Yue, Ying Chen and Shaoxiong Zhou, Magnetic, Magnetocaloric and Electrical Properties in Bulk Nanocrystalline Gd Metals, 2013, PRICM: 8 Pacific Rim International Congress on Advanced Materials and Processing, (pages 1729–1736) .
20. Hong Zeng*, Ying Wu, Ying Chen, Tao Tao, Chunjiang Kuang and Shaoxiong Zhou, Preparation and Optical Properties of Amorphous SiO Nanowires, 2013, PRICM: 8 Pacific Rim International Congress on Advanced Materials and Processing,  (pages 1671–1678)
21. Tan Xing, Thrinathreddy Ramireddy, Lu Hua Li, Daniel Gunzelmann, Hong Zeng, Qi Wen, Shaoxiong Zhou, Liting Hou and Ying Chen*, Lithium storage in disordered graphitic materials: a semi-quantitative study of the relationship between structure disordering and capacity, Physical Chemistry Chemical Physics, 2015, 17: 5084- 5089
22. Haihua Zhao,   Wen Qi*,   Xuan Li,   Hong Zeng,   Ying Wu,  Jingwei Xiang,   Shengen Zhang,   Bo Li and   Yunhui Huang, SnSb/TiO2/C nanocomposite fabricated by high energy ball milling for high-performance lithium-ion batteries, RSC Adv., 2016, 6, 32462-32466 IF=3.1
23. Long Zhang*, Lei Lu, Dechao Zhang, Wentao Hua, Ning Wang,Bo Xua,  Yueming Li, Hong Zeng, Dual-buffered SnSe@CNFs as negative electrode with outstanding lithium storage performance, Electrochimica Acta, 2016, 209,423-429
24. Lei Lu, Long Zhang, Hong Zeng, Bo Xu, Limin Wang, Yueming Li: Enhanced cycling performance of Se-doped SnS carbon nanofibers as negative electrode for lithium-ion batteries. Journal of Alloys and Compounds, 2017, 695, 1294–1300 IF=3.13
25. Wen Qi, Xuan Li, Ying Wu, Hong Zeng, Chunjiang Kuang, Shaoxiong Zhou, Shengming Huang, Zhengchun Yang: Flexible electrodes of MnO2/CNTs composite for enhanced performance on supercapacitors. Surface and Coatings Technology, 10/2016; DOI:10.1016/j.surfcoat.2016.10.038
26. Wen Qi, Pei Li, Ying Wu, Hong Zeng, Liting Hou, Chunjiang Kuang, Pei Yao, Shaoxiong Zhou: Facile synthesis of CoFe2O4 nanoparticles anchored on graphene sheets for enhanced performance of lithium ion battery. Progress in Natural Science 2016; 26(5),498–502.
27. Wen Qi, Haihua Zhao, Ying Wu, Hong Zeng, Tao Tao, Chao Chen, Chunjiang Kuang, Shaoxiong Zhou, Yunhui Huang, Facile Synthesis of Layer Structured GeP3/C with Stable Chemical Bonding for Enhanced Lithium-Ion Storage, Scientific Reports, In pressed，doi:10.1038/srep43582.