先进高能量密度锂离子电池富锂正极材料

先进高能量密度锂离子电池富锂正极材料

  • 先进高能量密度锂离子电池富锂正极材料
    ART/185CP
    20141208 - 20160807
    8617

    林葆喜博士
    (A) LRCM synthesis and modification Synthesis of Li-Mn-Ni-O material (i) Formulation for mixed phase composition (ii) Lithiation processing for material capacity of 180 mAh/g (B) LRCM cathode electrode fabrication Apply LRCM in industrial processes to fabricate cathode electrode (C) Electrochemical property of LRCM vs HiCA Demonstrate full cell design using LRCM and HiCA for energy density reaching 620 mWh/cm3 (D) CS Deliverables with Customer (1) (a) A report which includes material characteristics of lithium-rich cathode material composite as below: • Major material property of the lithium-rich cathode material composite with nano-metal oxide • Capacity performance of half cell containing the lithium-rich cathode material composite (b) 2 units of coin-cell samples with the lithium-rich cathode material composite (E) CS Deliverables with Customer (2) (i) 500g modified electrode material for application in high energy density lithium ion battery (ii) A report document about the evaluation of electrode material and separator for full cell assembly, including electrochemical property of anode material and surface treatment of separator
    林葆喜博士 Mr Ryan P. C. CHUNG Ms Y. H. KWAN Ms Alice Y.M. Chow Ms Carmen K.M. LIU Dr Aaron L.Y. XIE Mr Yingkai JIANG Ms Linlu LIU Dr Bin WANG Dr Irene, Lai-Fan Man Dr To be recruited Dr To be recruited.. Mr Liangbin Jiang Mr Peng Gao
    Anpo (Technology Licensing) [赞助机构] Department of Physics, Hong Kong Baptist University GP Batteries International Limited (GPB) [赞助机构] GPB (Contract Services) [赞助机构] 河南安普工程技术有限公司 Hong Kong Newpo Science and Technology Co. Ltd. [赞助机构] LION (Contract Service) [赞助机构] School of Energy and Environment, City University of Hong Kong Wintronic Technology Limited [赞助机构] 浙江精极能源科技有限公司 [赞助机构]

    香港应用科技研究院於本项目中把合成活性材料的优胜技术应用於开发比容量大於180 mAh/g 的Li-Mn-Ni-O 类型的新型富锂正极材料。项目中所提出的正极材料含有较少量的昂贵元素,因此材料价格在市场上具有竞争力。为了利於正极的设计,正极材料的工业化製备方法将会进行优化。此後,ASTRI的富锂正极和高容量负极将组装成全电池并进行评估以展示能量密度达到620 mWh/cm3。