18luck新利电竞
材料科学与工程学院,副教授, “新型能源材料与器件”教育部创新团队成员,教育部自然科学一等奖获得者之一。主要研究领域为锂离子电池、钠离子电池及其在动力与储能上的应用。在Chem. Mater.,Cryst. Growth Des.,J. Mater. Chem.,Sensor Actuat B, Nano Energy, Electrochim Acta, Chem. Comm.等学术期刊上发表SCI论文50余篇,已授权和申请专利20余项。主持和参加“新能源汽车”国家重点研发计划、国家重大科学研究计划 863项目、中德电动汽车国际合作项目、国家自然科学基金等科研项目。开发了钠离子电池和磷酸铁锂产业技术。教学方面,目前讲授《微电子工艺学》、《微电子器件与IC设计》课程。
联系方式
18luck新利电竞
材料科学与工程学院东一楼 253
电子邮件:zhangwx@hust.edu.cn
学习及工作经历
2007- 至今: 18luck新利电竞
材料科学与工程学院,副教授
2004 - 2007年: 日本高知大学水热化学实验所, 博士后
2003 - 2005年: 18luck新利电竞
,博士后
1999 - 2002年: 18luck新利电竞
,博士
1996 - 1999年,武汉理工大学,硕士
1992 - 1996年,西北轻工业学院,学士
研究方向
下一代高比能锂离子电池及其新型钠离子电池技术的基础研究和产业开发。
主持科研项目
(1) 国家自然科学基金(2004)
(2) 武汉市青年科技晨光计划项目(2008-2009)
(3) 18luck新利电竞
自主创新研究基金 (2011-2012)
(4) 东风汽车有限公司,磷酸铁锂正极材料实验及电池组装(2010)
(5) 东风汽车有限公司,磷酸铁锂材料及单体电池的制备、评价(2011)
(6) 上海宝钢磁业有限公司,宝钢磁业锂电池实验室建设(2011-2012)
(7) 863重大项目(兼容V2G技术的高性能电动汽车关键技术研究,2011AA11A290)中的子项目:能量转换与存储单元中的电池材料与电池工艺(2011-2014),研究骨干
(8) 恩力能源科技(南通)有限公司,钠电池材料技术开发和产业化(2012-2013)
(9) 上海宝钢磁业有限公司,电池正极用磷酸铁锂材料中试生产线工艺技术及产业化研究(2013-2014)
(10) 襄阳锦翔光电科技股份有限公司,高比能锂离子电池产业技术开发(2014.3-2017.3)
(11) 湖北诺邦科技有限公司,湖北诺邦锂电池技术中心建设,(2013-2016)
(12) 天门市人民政府,共建18luck新利电竞
-天门市产业联合研究中心,(2013-2016)
(13) 深圳市基础研究计划,(2016-2018 )
(14) 国家重点研发计划“新能源汽车”试点专项“高比能量动力锂离子电池的研发与集成应用”,子课题“高容量硅基负极材料的研发和产业化”,330万,(2016-2021)
发表期刊论文
[1] Aijun Zhou,* Weijie Cheng, Wei Wang, Qiang Zhao, Jian Xie,* Wuxing Zhang,* Hongcai Gao, Leigang Xue, and Jingze Li, Hexacyanoferrate-Type Prussian Blue Analogs: Principles and Advances Toward High-Performance Sodium and Potassium Ion Batteries. Advanced Energy Materials, 2020, 2000943
[2] Lingxiao Yang, Qing Liu, Min Wan, Jiayu Peng, Yu Luo, Hang Zhang, Jianguo Ren, Lihong Xue* and Wuxing Zhang*, Surface Passivation of NaxFe[Fe(CN)6] Cathode to improve Its Electrochemical Kinetics and Stability in Sodium-Ion Batteries, Journal of Power Sources, 2020, 448: 227421
[3] Wenzhe Gong, Rui Zeng, Shang Su, Min Wan, Zhixiang Rao, Lihong Xue*, Wuxing Zhang*, Ball-milling Synthesis of Ultrafine NayFexMn1-x[Fe(CN)6] as High-Performance Cathode in Sodium-Ion Batteries, Journal of Nanoparticle Research, 2019, 21:274
[4] Wenzhe Gong, Min Wan, Rui Zeng, Zhixiang Rao, Shang Su, Lihong Xue*, Wuxing Zhang*, and Yunhui Huang, Ultrafine Prussian Blue as a High-Rate and Long-Life Sodium Ion Battery Cathode, Energy Technology , 2019, 1900108
[5] Qing Liu, Yu Luo, Weilun Chen, Youwei Yan, Lihong Xue*, Wuxing Zhang*, CoP3@PPy microcubes as anode for lithium-ion batteries with improved cycling and rate performance, Chemical Engineering Journal, 2018, 347, 455–461
[6] Nan Zhang, Qing Liu, Weilun Chen, Min Wan, Xiaocheng Li, Lili Wang, Lihong Xue*, Wuxing Zhang*, High Capacity Hard Carbon Derived from Lotus Stem as Anode for Sodium Ion Batteries, Journal of Power Sources, 2018, 378, 331-337
[7] Min Wan, Rui Zeng, Kongyao Chen, Ganxiong Liu, Weilun Chen, Lili Wang, Nan Zhang, Lihong Xue, Wuxing Zhang*, Yunhui Huang*, Fe7Se8 nanoparticles encapsulated by nitrogen-doped carbon with high sodium storage performance and evolving redox reactions, Energy Storage Materials, 2018, 10: p 114–121
[8] Qing Liu, Youwei Yan, Xiangcheng Chu, Yiling Zhang, Lihong Xue*, Wuxing Zhang*, Graphene Induced Growth of Single Crystalline Sb2MoO6 Sheets and the Sodium Storage Performance, Journal of Materials Chemistry A, 2017, 5, 21328 - 21333
[9] Qing Liu, Jinsong Wang, Yu Luo, Ling Miao, Youwei Yan, Lihong Xue*, Wuxing Zhang*, Facile synthesis of FeSi4P4 and its Sodium Ion Storage Performance, Electrochimica Acta, 2017, 247: p 820-825
[10] Kongyao Chen, Wuxing Zhang*, Lihong Xue, Weilun Chen, Xinghua Xiang, Min Wan, and Yunhui Huang*, Mechanism of capacity fade in sodium storage and the strategies of improvement for FeS2 anode, ACS Applied Materials & Interfaces, 2017, 9: p 1536−1541
[11] Xinghua Xiang, Xiaocheng Li, Kongyao Chen, Yang Tang, Min Wan, Xuli Ding, Lihong Xue, Wuxing Zhang* and Yunhui Huang*, Gamma titanium phosphate as an electrode material for Li-ion and Na-ion storage: performance and mechanism. Journal of Materials Chemistry A, 2016. 4(46): p. 18084-18090.
[12] Min Wan, Yang Tang, Lili Wang, Xinghua Xiang, Xiaocheng Li, Kongyao Chen, Lihong Xue, Wuxing Zhang*, Yunhui Huang*, Core-shell hexacyanoferrate for superior Na-ion batteries. Journal of Power Sources, 2016. 329: p. 290-296.
[13] Yang Tang, Wuxing Zhang,* Lihong Xue, Xuli Ding, Ting Wang, Xiaoxiao Liu, Jing Liu, Xiaocheng Li and Yunhui Huang*, Polypyrrole-promoted superior cyclability and rate capability of NaxFe[Fe(CN)6] cathodes for sodium-ion batteries. Journal of Materials Chemistry A, 2016. 4(16): p. 6036-6041.
[14] Jian Duan, Wei Zhang, Chao Wu, Qingjie Fan, Wuxing Zhang*, Xianluo Hu, Yunhui Huang*, Self-wrapped Sb/C nanocomposite as anode material for High-performance sodium-ion batteries. Nano Energy, 2015. 16: p. 479-487.
[15] Yang Liu, Yun Qiao, Wuxing Zhang*, Huan Wang, Kongyao Chen, Huaping Zhu, Zhen Li and Yunhui Huang*, Nanostructured alkali cation incorporated δ-MnO2 cathode materials for aqueous sodium-ion batteries. Journal of Materials Chemistry A, 2015. 3(15): p. 7780-7785.
[16] Yang Liu, Yun Qiao, Wuxing Zhang*, Zhen Li, Xiao Ji, Ling Miao, Lixia Yuan, Xianluo Hu, and Yunhui Huang*,Sodium storage in Na-rich NaxFeFe(CN)6 nanocubes, Nano Energy, 2015, 12, 386–393.
[17] Kongyao Chen, Wuxing Zhang, Yang Liu, Huaping Zhu, Jian Duan, Xinghua Xiang, Lihong Xue, Yunhui Huang,Carbon coated K0.8Ti1.73Li0.27O4:A novel anode material for sodium-ion batteries with long cycle life, Chemical Communications, 2015, 51, 1608-1611.
[18] Kunlei Hong, Long Qie, Rui Zeng, Ziqi Yi, Wei Zhang, Duo Wang, Wei Yin, Chao Wu, Qing-jie Fan, Wuxing Zhang and Yun-hui Huang, Biomass derived hard carbon used as a high performance anode material for sodium ion batteries, Journal of Materials Chemistry A, 2014, 2, 12733–12738 (ESI highly cited papers)
[19] Yang Liu, Yun Qiao, Wuxing Zhang, Henghui Xu, Zhen Li, Yue Shen, Lixia Yuan, Xianluo Hu, Xiang Dai, Yunhui Huang, High-performance aqueous sodium-ion batteries with K0.27MnO2 cathode and their sodium storage mechanism. Nano Energy, 2014. 5(0): p. 97-104.