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Vehicular Power Battery & BMS
  • Research Field Orientations

    1.     Power battery for new energy vehicle

    2.     High Energy Batteries

    3.     New energy materials

    4.     Power battery thermal behavior analysis and management

    5.     Safety and Reliability of Battery Pack

    6.     Electric vehicle energy management

    7.     Electric vehicle power train simulation and control

    8.     ICE Testing Technology


    1. Power battery for new energy vehicle; Power battery thermal behavior analysis and management; Safety and Reliability of Battery Pack; Electric vehicle energy management

    [1] Chaofeng Pan, Liao Chen, Long Chen, et al. Research on motor rotational speed measurement in regenerative braking system of electric vehicle. Mechanical Systems and Signal Processing, 2016, 66-67: 829-839. Indexed by SCI(IF=2.256)

    [2] Pan C, Chen L, Chen L, et al. Research on energy management of dual energy storage system based on the simulation of urban driving schedules. International Journal of Electrical Power & Energy Systems, 2013, 44(1):37-42. Indexed by SCI(IF=3.432)/EI Compendex.

    [3] Limei Wang, Yong Cheng*, Ju Zou. Battery available power prediction of hybrid electric vehicle based on improved Dynamic Matrix Control algorithms. Journal of Power Sources, 2014, 261: 337-347.

    [4] Limei Wang, Yong Cheng*, Xiuliang Zhao. Influence of connecting plate resistance upon LiFePO4 battery performance. Applied Energy, 2015, 147: 353-360.

    [5] Limei Wang, Yong Cheng*, Xiuliang Zhao. A LiFePO4 battery pack capacity estimation approach considering in-parallel cell safety in electric vehicles. Applied Energy, 2015, 142: 293-302.

    [6] Limei Wang, Yong Cheng*. Analyzing the effects of connecting plate resistance on battery usability. Automotive Engineering, 2015, 37(1): 62-65.

    [7] CF Pan, ZG He, X Xu, FQ Han. Dynamic modeling and simulation of battery electric vehicle power performance under transient conditions. 2012 international conference on system simulation, April 6-9, 2012 in Shuanghai China. 360-365. Indexed by EI Compendex.

    [8] CF Pan, HE Zhi-Gang, DW Zhang, KK Zhou. Modeling and simulation of electric vehicle power system with multiplex power supply. Journal of Guangxi University(Natural Science Edition), 2012,372: 284-290.In Chinese.

    [9] C PanX XuX LiaoK Zhou. Power Performance of Battery Electric Vehicle Based on Dynamic Modeling and Simulation. Journal of Chongqing Jiaotong University(Natural Science), 2012,312:335-338. In Chinese.

    [10] GQ GengJ TangCF Pan. Torque Control Strategy of PHEV Based on Ultracapacitor. Machinery Design & Manufacture, 2012(9):123-125. In Chinese.

    [11] Chen L, Zeng L, Pan C, et al. Control of regenerative braking force for EV equipped with ultra-capacitor. Journal of Jiangsu University, 2014, 35(5):508-507. In Chinese.

    [12] Zhou K, Chen L, Pan C, et al. Electric Vehicle Regenerative Braking System Based on Constant Current Control of Composite Power Sources. Journal of Mechanical Engineering, 2013, 49(20):78-83. In Chinese. Indexed by EI Compendex

    [13] Zhongxing L I, Ying L I, Zhou K, et al. Temperature Study of Pure Electric Vehicles Battery Pack at Different Driving Conditions. Journal of Mechanical Engineering, 2014, 50(16):180-185. In Chinese. Indexed by EI Compendex

    [14] Chen L, Wang X, Pan C, et al. Energy Management Strategy for Fuel Cell Hybrid Electric Vehicles. Journal of Chongqing Jiao tong University, 2014,33(1):149-152. In Chinese.

    [15] Wei G E, Pan C F, Guo L N, et al. The parameters of suspension optimization design based on the steering stability characteristics. Journal of Guangxi University, 2013, 38(5):1052-1058. In Chinese. 

    2High-energy Batteries & New Energy Materials

    [1] Huanhuan Li, Ruyu Xu, Yaping Wang*, Binbin Qian, Hongbo Wang, Long Chen, Haobin Jiang, Yulu Yanga, Yiyun Xua, In situ synthesis of hierarchical mesoporous Fe3O4@C nanowires derived from coordination polymers for high-performance lithium-ion batteries, RSC Adv., 2014, 4, pp 51960–51965.

    [2] Yaping Wang, Binbin Qian, Huanhuan Li*, Liang Liu, Long Chen, Haobin Jiang, VSe2/graphene nanocomposites as anode materials for lithium-ion batteries. Mater. Lett., 2015, 141, pp 35-38.

    [3] Yaping Wang, Yijing Wang*, Huanhuan Li*, Zongtao Liu, Lili Zhang, Haobin Jiang, Ming Zhou, Baojia Li, Naifei Ren, Facile synthesis of Co2P via the reduction of phosphate with KBH4 for nickel-based rechargeable batteries, J. Alloys Comp. 2015, 623, pp 140–145.

    [4] Huanhuan Li, Yi Chen, Long Chen, Haobin Jiang, Yaping Wang*, Hongbo Wang, Guochun Li, Yunxing Li, Yuan Yuan, Improved cycling and high rate performance of core-shell LiFe1/3Mn1/3Co1/3PO4/carbon nanocomposites for lithium-ion batteries: Effect of the carbon source, Electrochimica Acta, 2014, 143, pp 407-414.
    [5]  Huanhuan Li, Yunxing Li, Long Chen, Haobin Jiang, Jinping Wei, Hongbo Wang, Yaping Wang*, Microwave assisted synthesis of core–shell LiFe1/3Mn1/3Co1/3PO4/C nanocomposite cathode for high-performance lithium-ion batteries J. Alloys Comp. 2014, 617, pp 154–159.
    [6]  Huanhuan Li, Yaping Wang*, Xiaoliang Yang, Liang Liu, Long Chen, Jinping Wei*, Improved electrochemical performance of 5 V LiCoPO4 cathode materials via yttrium doping. Solid State Ionics 2014, 255, pp 84-88.

    [7]  Huanhuan Li, Fei Yang*, Yaping Wang, Long Chen, Haobin Jiang, Crystal structure and electrochemical performance of La0.75Ce0.25Ni3.46Al0.17Mn0.04Co1.33 alloy for high-power-type 29 Ah Ni-MH battery, J Rare Earth. 2015, 33, pp 633–638.

    [8] Huan-Huan Li, Zheng Niu, Long Chen,* Hao-Bin Jiang, Ya-Ping Wang,* Peng Cheng, Three luminescent metal-organic frameworks constructed from trinuclear zinc(II) clusters and furan-2,5-dicarboxylate. CrystEngComm, 2015, 17, pp 5101–5109.

    [9] Huan-Huan Li, Han Li, Zheng Niu, Ya-PingWang,* Structural diversity of two novel Dy(III) metal-organic frameworks based on binuclear nodes with furan-2,5-dicarboxylic acid: Crystal structures and luminescent properties, Inorg. Chem. Commun. 2015, 55, 103–107. 

    [10]  Huanhuan Li, Wei Shi*, Kaina Zhao, Han Li, Yanmin Bin, Peng Cheng*. High Selective Sorption and Luminescent Sensing of Small Molecules Demonstrated in a Multifunctional Lanthanide Microporous Metal-Organic Framework Containing 1D Honeycomb-Type Channels. Chem.-Eur. J. 2013, 19(10), pp 3358-3365.

    [11] Huanhuan Li, Wei Shi*, Kaina Zhao, Zheng Niu, Xitong Chen and Peng Cheng*. A Robust Porous Metal-Organic Material with New Topology Structure Demonstrating Pronounced Porosity and High-Efficiency Sorption/Selectivity Properties of Small Molecules.Chem.-Eur. J. 2012, 18(18), pp 5715-5723.

    [12]  Huanhuan Li, Wei Shi*, Kaina Zhao, Han Li, Yanmin Bin, Peng Cheng*. Enhanced Hydrostability in Ni-doped MOF-5. Inorg. Chem2012, 51(17) pp 9200−9207.

    [13]  HuanHuan Li, Wei Shi*, Na Xu, Tian Han, Zheng Niu, Zhi Chen, Peng Cheng*. Structural Diversity of Four Metal-Organic Frameworks Based on Linear Homo/Heterotrinuclear Nodes with Furan-2,5-dicarboxylic Acid: Crystal Structures, Luminescent and Magnetic Properties. Cryst. Growth Des. 2012, 12(5), pp 2602-2612.

    Research Projects in Progress:

    [1] The National Natural Science Foundation of China (Grant No.51105178)

    [2] The Natural Science Foundation of Jiangsu Province(Grant No.BK2011489) [3] The Six Talent Peaks Project of Jiangsu Province (Grant No. 2013-XNY-002)

    [4] Design and construction of graphene/phthalocyanine-based MOFs composites as high-effective air electrodes for lithium-air battery (NSFC21501071), supported by National Natural Science Foundation of China, presided;

    [5] Foundation of China Postdoctoral funded projects: In-situ synthesis of hierarchically structured porous transition metal oxide/carbon composites and their lithium storage mechanism (2014M561572), presided;

    [6] Jiangsu Province Science and Technology Support Program (key projects): The development and application of novel high-voltage lithium-rich manganese-based cathode materials for lithium-ion batteries (BE2014008-2), presided

    [7] Natural Science Foundation of Jiangsu Province (Youth Project): Preparation and electrochemical properties of porous transition metal oxide/carbon anode materials for lithium-ion batteries derived from metal-organic framework (BK20130482), presided;

    [8] Jiangsu Province Universities Natural Science Research Program projects: Preparation and electrochemical properties of porous transition metal oxide/carbon composite anodes for high-performance lithium-ion batteries l (13KJB430008), presided;

    [9] Jiangsu University senior personnel Scientific Research Foundation (13JDG071);

    [10] Jiangsu Province Science and Technology Support Program (Key Project): The development and application of novel high-voltage lithium-rich manganese-based lithium ion batteries and management system for new energy vehicles (BE2014008);

    [11] Natural Science Foundation of Jiangsu Province (Youth Project): Investigation on the preparation and electrochemical properties of novel MS2 (M = W,V)/graphene composites (BK2012293);

    [12] Study on synthesis and properties of bonding integrated sulfur cathode for lithium sulfur batteries (NSFC51403087), supported by National Natural Science Foundation of China. (principal)

    [13] Study on sulfur-based composites and integrated sulfur cathode for lithium sulfur batteries based on synergy between sulfur and polymer (BK20140563), supported by Jiangsu provincial committee of Science and Technology. (principal)

    [14] the National Natural Science Foundation of China (NSFC No.51402129);

    [15] the University Natural Science Research Project of Jiangsu Province (14KJB580004)

    [16] Research Foundation for Advanced Talents of Jiangsu University (No. 1281120042).