Key Laboratory of Power Batteries and Materials
1. Introduction
Jiangxi Key Laboratory of power battery and materials (hereinafter referred to as "the laboratory") is located in Jiangxi University of science and technology. Relying on materials science, material chemistry and other disciplines, it takes the research direction of ten subprojects of major science and technology projects of power battery in Jiangxi Province as the innovation focus, takes the research of key and difficult points in the field of power battery as the breakthrough. In 2010, the laboratory was approved as a provincial key laboratory.
Guided by the major scientific and technological needs of Jiangxi Province in the field of lithium-ion power batteries and related materials, and combined with the cutting-edge development trend of the discipline, the laboratory mainly carries out research work in the basic theoretical research, engineering technology development and application of lithium-ion battery cathode materials, anode materials, conductive materials, power lithium-ion batteries, liquid flow batteries, etc. Research directions include: research and development of high specific capacity cathode materials, research and development of long life and high rate power batteries, application of carbon nanotubes in power batteries, development and application of organic cathode materials, design and application of power batteries, etc.
The laboratory has a large number of advanced instruments and equipment, such as adiabatic calorimeter, electrochemical workstation, automatic laminating machine, automatic welding line, automatic liquid injection line, comprehensive electrical performance tester, with a total value of more than 20 million yuan; it can carry out all related research work on power battery and material synthesis and performance research.
After several years of talent team building, the laboratory has become an academic team with reasonable structure, balanced levels and outstanding advantages. It has 31 fixed personnel, 1 national ten thousand talents plan, 1 innovation and Entrepreneurship Talent of the Ministry of science and technology of the people's Republic of China, 2 young and middle-aged scientists in Jiangxi Province, and has a provincial power battery material advantage innovation team, and takes the lead in the establishment of "Jiangxi power battery" Industrial technology innovation strategic alliance.
2.Members Profile
Zhong Shengwen, born in Anyuan, Jiangxi Province, is a professor.
zhongshw@126.com
▪ Doctor of lithium ion battery and its materials
▪ Candidates for the national ten thousand people plan
▪ Innovation and entrepreneurship talents of the Ministry of science and technology of the people's Republic of China
▪ Chief expert of Jiangxi power battery major science and technology project
▪ Chairman of Jiangxi power battery industry technology innovation strategic alliance
▪ Member of Jiangxi Natural Science Foundation Committee
▪ Young and middle-aged academic leaders in Colleges and universities of Jiangxi Province
▪ Director of Jiangxi Key Laboratory of power battery and its materials
Research interests: design and development of large capacity power battery, design and application of high specific capacity cathode materials.
Over the years, he has maintained good communication and cooperation with colleagues at home and abroad in the frontier field. More than 60 academic papers have been published, 15 of which have been included in SCI and EI, and three textbooks have been compiled.
Major achievements:
[1]Hu, Jing Wei; Wu, Zi Ping; Zhong, Sheng Wen; Folding insensitive, high energy density lithium-ion battery featuring carbon nanotube current collectors, Carbon,2015,87: 292-298
[2]Zhong Sheng-wen; Hu Jing-wei; Wu Zi-ping,Performance of lithium ion batteries using a carbon nanotube film as a cathode current collector, New Carbon Materials. 2014.29(4): 322-328
[3]Zhong Sheng-wen;et al,The analysis for preparing Ni1/3Mn1/3Co1/3[CO3]1-x(OH)2xwith carbonate co-precipitation method,200903
[4]Zhong Sheng-wen, et al;,Synthesis and electrochemical properties of 0.5Li2MnO3.0.5LiMn0.5Ni0.5O2, Advanced Materials Research, 2010, Vol.105-106, p664
Zhang Qian, born in Jiayu, Hubei Province, is an associate professor.
zhangqian@jxust.edu.cn
Deputy director of Jiangxi Key Laboratory of lithium ion power battery and materials
Research direction: synthesis of high capacity cathode materials for lithium ion batteries by molten salt method, recycling of waste batteries, etc.
Major achievements:
[1] Mei Jia, Zhang Qian, et al. Study on sintering temperature and properties of lini0.90co0.05mn0.05o2 coated with CO and Mn [J],
[2] Mei Jia, Zhang Qian, et al. Preparation and characterization of high performance LiCoO2 [J]. Power supply technology,
[3] Mei Jia, Zhang Qian, et al. Preparation of cobalt and nickel doped layered LiMnO2 [J]. Battery industry,
Xie Zhipeng, associate professor
zhpxie_06@126.com
Deputy director of Jiangxi Key Laboratory of power battery and materials
Research direction: energy storage battery, nanometer material
Major achievements:
[1]Xie ZP*, Yang B , Cai DJ, Yang L. Hierarchical porous carbon toward effective cathode in advanced zinc-cerium redox flow battery. Journal of Rare Earths, 32(10):973-978, 2014
[2]Xie ZP, Liu QC, Chang ZW, Zhang XB*. The developments and challenges of cerium half-cell in zinc-cerium redox flow battery for energy storage. Electrochimica Acta, 90:695-704,2013
[3]Xiong FJ, Zhou DB*,Xie ZP, Chen YY. A study of the Ce3+/Ce4+redox couple insulfamicacid for redox battery application. Applied Energy, 99:291-296, 2012
[4]Yu CL*, Shu Q, Zhang CX,Xie ZP, Fan QZ. A sonochemical route to fabricate the novel porous F, Ce-codoped TiO2photocatalyst with efficient photocatalytic performance. Journal of Porous Materials, 19:903-911, 2012
Yin Congling, associate professor
congling.yin@pku.edu.cn
Doctor of science, Peking University
Main research interests: solid oxide functional materials, including multiferroic materials; lead-free piezoelectric ceramics; oxygen ion conductor materials; lithium ion / sodium ion battery cathode materials
Major achievements:
[1]D.Usvyat, C.Yin, G.Wälz, C.Mühle, M.Schütz*, and M.Jansen*, “Phase transition in GeF2driven by change of type of intermolecular interaction”Phys. Rev.B86,054102, 2012
[2]O. Toulemonde*, J. Abel, C.Yin, A. Wattiaux, and E. Gaudin “Magnetic andMagnetocaloric Properties of SrFe0.5Co0.5O3-yupon Oxidation and Reduction: AHeterogeneous Distribution of the Oxidation States”Chem. Mater.24,1128-1135, 2012
[3]C.Li*, C.Yin, X.Mu, J.Maier “Top-down synthesis of OpenFramework Fluoride for Lithium and Sodium Batteries”Chem. Mater.25,962−969, 2013
[4]C.Li*, C.Yin, L.Gu, R.E. Dinnebier, X.Mu, P.A. van Aken, J.Maier “An FeF3·0.5H2O Polytype: A Microporous Framework Compound with Intersecting Tunnels for Li and Na Batteries”J. Am. Chem. Soc.135,11425–11428, 2013
Ding Nengwen, associate professor
Doctor of Zhejiang University
Research direction / field: anode materials for lithium ion batteries; conductive polyaniline
Major achievements:
[1]Ding Nengwen,Zhou Minghong, Cai Mingzhong*. Synthesis and properties of novel copolymers of poly(ether ketone ketone) and poly(ether ether ketone ketone) containing amide and sulfone linkages High Perform. Polym 25(2):126-134, 2013
[2]Ding Nengwen,Sun Weilin*, Yan Lin, Shen Zhiquan. Synthesis and magnetic properties of the novel complexes of a conjugated hyperbranchedpolymercontaining bithiazole ring, Chinese J. Polym. Sci, 30(5):759 -769, 2012
Wang Chunxiang, born in Weifang, Shangdong Province
Research direction / field: Ni Mn based cathode materials for lithium ion batteries
Research project in progress: research and development of Ni Mn based cathode materials with high voltage and high specific capacity for power batteries
Major achievements:
[1]Wang Chunxiang, Li Zhifeng. Crystal structure of catena-poly[[diaqua(4,5-diazafluoren-9-one-κ2N,N′)cadmium]-μ-2-hydroxy-5-sulfonatobenzoato-κ3O1,O1′:O5Acta Cryst. 2014, E70, 387–388.
[2]Zhong Shengwen, Wang Chunxiang, et al. Synthesis and electrochemical properties of li1.07ni0.4mn0.53o2 as cathode material for lithium ion batteries, Materials Guide, 2015, 29 (4): 38-42.
Chen Jun, associate professor
chenjun@iccas.ac.cn
Doctor, Institute of chemistry, Chinese Academy of Sciences
Associate professor of Jiangxi University of science and technology
Research direction / field: Organic / polymer compounds as cathode materials for lithium ion batteries
Major achievements:
[1] Chen Jun, Mei Wenjie, Zeng min, Guo Jinkang, Liu Defang, Zhong Shengwen, synthesis and electrochemical properties of carboxyl substituted nickel phthalocyanine complexes, science and engineering of nonferrous metals, 2015, (5).
[2] Chen Jun, Ding Nengwen, Li Zhifeng, Zhang Qian, Zhong Shengwen. Research progress of organic cathode materials for lithium ion batteries, chemical progress, 2015, (9).
[3] Jun Chen, Tao Zhang, Shuangqing Wang, Rui Hu, Shayu Li, Jin Shi Ma, Guoqiang Yang. Spectrochimica Acta Part A: Molecular and Biomolecular Spectroscopy, 2105, 149 (5): 426-433.
[4] Chen Jun, Wang Shuang-Qing, Yang Guo-Qiang.Nonlinear Optical Limiting Properties of Organic Metal Phthalocyanine Compounds Acta. Phys. Chim. Sin., 2015, 31 (4), 595-611.
Li Dong, Lecturer
libehave@jxust.edu.cn
Doctor, Beijing Key Laboratory of new energy, Beijing University of science and technology
Research interests: lithium ion battery materials, battery design, electrochemistry
Major achievements:
[1]D. Li, F. Lian, X.M. Hou and K.C. Chou. Reaction mechanisms for 0.5Li2MnO3·0.5LiMn0.5Ni0.5O2cathode materials prepared by low-heat solid state reaction.InternationalJournal ofMinerals, MetallurgyandMaterials.19(2012),No.9,856-862.(SCI)
[2]D. Li,F. Lian and K.C. Chou. Decomposition mechanisms and non-isothermal kinetics ofLiHC2O4·H2O. Rare Metals.36(2012),No.6.615-620. (SCI)
[3]Dong Li,Fang Lian,Weihua Qiu,Fushen LiandKuo-Chih Chou. Fe Content Effects on Electrochemical properties of 0.3Li2MnO3·0.7LiMnxNixFe(1-2x)/2O2Cathode Materials.Advanced Materials Research.347-353(2012), 3518-3521. (EI).
Liu Xiaolin,xlliu@jxust.edu.cn
Doctor, Shanghai Institute of silicate, Chinese Academy of Sciences
Lecturer, School of materials science and engineering, Jiangxi University of science and technology
Research direction / field: cathode materials and solid electrolytes for lithium batteries
Major achievements:
[1]Xiao-Liu Li*, Dan Li, Qiaoling Mo, Xiaoyu Guo, Xiaoxiao Yang, Guoxin Chen and Shengwen Zhong. Facile synthesis of aluminum-doped LiNi0.5Mn1.5O4hollow microspheres and their electrochemical performance for high-voltage Li-ion batteries. Journal of Alloys and Compounds, 609,54-59, 2014.
[2]Xiao-Liu Liu, Qian Zhang, Guo-xin Chen, Dan Li and Bin Yang*. Nanostructured ZrO2powders: hydrothermal synthesis, doping modification, morphology and phase evolution. Materials Research Innovations, 17, 478-482, 2013.
[3]Xiao-Lin Liu, Iraklis Pappas, Michael Fitagerald, Ying-Jie Zhu*, Matthew Eibling, Long Pan*. Solvothermal synthesis and characterization of ZrO2nanostructures using zirconium precursor. Materials Letters, 64, 1591-1594, 2010.
3.Scientific Research Achievements
(1)Research Projects
1 |
Basic research on high specific capacity nickel based cathode materials strengthened by cobalt free Ni Mn solid solution structure |
51372104 |
Zhong Shengwen |
2014.1-2017.12 |
80 |
National Natural Science Foundation of China |
2 |
Study on cathode performance and attenuation mechanism of zinc cerium flow battery for energy storage |
21361010 |
Xie Zhipeng |
2014.1-2017.12 |
50 |
National Natural Science Foundation of China |
3 |
Basic research on the formation and application of macro tubular continuum of carbon nanotubes |
51264010 |
Wu Ziping |
2012.1-2015.12 |
25 |
National Natural Science Foundation of China |
4 |
Preparation and morphology control of double walled carbon nanotubes template loaded with Pt WC |
51202095 |
Wu Ziping |
2012.1-2016.12 |
55 |
National Natural Science Foundation of China |
5 |
Synthesis and mechanism of novel multiferroic Pb2 + containing oxide materials |
21301077 |
Yin Congling |
2014.1-2016.12 |
24 |
National Natural Science Foundation of China |
6 |
Solid solution mechanism and performance evaluation of layered lithium rich manganese based cathode materials with high specific capacity |
50762004 |
Zhong Shengwen |
2009.1-2011.12 |
27 |
National Natural Science Foundation of China |
7 |
Research on key technology innovation of new energy vehicle power battery industry chain in Jiangxi Province |
|
Zhong Shengwen |
2006.1-2008.12 |
1000 |
Major science and technology projects in Jiangxi Province |
8 |
Industrialization of lithium rich manganese based cathode materials with an annual output of 1000 tons |
|
Zhong Shengwen |
2010.1-2012.12 |
370 |
Major high tech industrialization projects in Jiangxi Province |
9 |
Industrialization of lithium rich manganese based cathode materials for power lithium ion batteries with an annual output of 500 tons |
|
Zhong Shengwen |
2011.1-2013.12 |
160 |
National Development and Reform Commission |
10 |
Development of high performance lithium rich manganese based cathode materials |
SQ2009GJC5005778 |
Zhong Shengwen |
2011.9-2013.12 |
40 |
Industry university research project of the Ministry of science and technology of the people's Republic of China |
11 |
Preliminary study on the industrialization of low cost composite lithium ion battery cathode materials for automotive power batteries |
200502 |
Zhong Shengwen |
2011.1-2011.12 |
9 |
Key projects of Jiangxi science and Technology Department |
12 |
Application of nano carbon materials in high capacity lithium rich manganese based power batteries |
20123BDH80016 |
Zhang Qian |
2013.1-2015.12 |
4 |
Foreign cooperation projects of science and technology in Jiangxi Province |
13 |
Research on key technologies for further promoting industrialization of lithium rich manganese based cathode materials |
|
Zhong Shengwen |
2013.1-2015.12 |
50 |
Implementation project of Jiangxi Provincial Department of Education |
14 |
Research on Key Technologies of high performance nickel based cathode materials |
|
Zhong Shengwen |
2013.1-2015.12 |
100 |
Gan Po"555" project |
15 |
Research on industrialization of structure strengthening of high capacity nickel based cathode materials |
|
Zhong Shengwen |
2013.1-2015.12 |
30 |
Innovation team project of Jiangxi science and Technology Department |
16 |
Structural characteristics and properties of Li Rich Mn based cathode materials |
2010GQC0064 |
Li Zhifeng |
2012.1-2014.12 |
1.5 |
Jiangxi Natural Science Foundation Project |
17 |
Preparation of carbon nanotube fiber continuum with high strength and toughness |
GJJ12366 |
Wu Ziping |
2013.1-2014.12 |
2 |
Jiangxi Natural Science Foundation Project |
18 |
Research and development of Ni Mn based cathode materials with high voltage and high specific capacity for power batteries |
20141BBE50019 |
Wang Chunxiang |
2014.1-2016.12 |
10 |
Jiangxi science and technology support project |
19 |
Preparation of LiFePO4 modified by carbon nanomaterials and Study on the key factors affecting the interfacial structure and properties |
GJJ13392 |
Liu Xiaolin |
2013.1-2014.12 |
2 |
Jiangxi Provincial Department of Education |
20 |
High voltage electrochemical properties of lithium rich manganese based cathode materials and mechanism of structural evolution during cycling |
GJJ14444 |
Li Dong |
2014.1-2015.12 |
2 |
Jiangxi Provincial Department of Education |
21 |
Study on Li1 + X (mnyni1-y) 1-xo2 cathode material modified by fast ionic conductor / Al2O3 |
20142BAB216018 |
Li Dong |
2014.6-2016.12 |
5 |
Jiangxi Natural Science Foundation |
22 |
Research on key technology of high performance and low cost power lithium ion battery |
|
Zhong Shengwen |
2012.3-2013.6 |
120 |
Horizontal project |
23 |
Development of high performance lithium rich manganese based cathode materials |
|
Zhong Shengwen |
2008.12-2012.12 |
120 |
Horizontal project |
24 |
Research on industrialization of 500 t / a ternary cathode material |
|
Zhang Qian |
2013.1-2014.12 |
330 |
Horizontal project |
25 |
Research on the construction of lithium ion battery Engineering Test Center |
|
Li Zhifeng |
2013.1-2014.12 |
430 |
Horizontal project |
26 |
Research on power battery for high rate helicopter |
|
Zhong Shengwen |
2013.1-2014.12 |
75 |
Horizontal project |
(2) Patents:
[1]The invention patent No. 200910186311.0, Zhong Shengwen, Hu Wei, etc
[2]The invention relates to a method for non-destructive dispersion of double wall carbon nanotubes by combining n, N-dimethylformamide and ethylene glycol. The invention patent number is 201110309123. X Wu Ziping
[3]The invention relates to a transparent macrotube continuum composed of carbon nanotubes and a synthesis method thereof. The invention patent number is 201010230938.4 Wu Ziping
[4]The invention patent number is 201110120707.2, Lian Fang, Li Dong
[5]The invention patent application number is 201310267889.5 Jiangxi University of technology
