Characteristics and electrochemical performance of cathode material Co-coated LiNiO_2 for Li-ion batteries 被引量：7

Characteristics and electrochemical performance of cathode material Co-coated LiNiO_2 for Li-ion batteries

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摘要 Spherical Ni(OH)2 powder coated with Co(OH)2 as raw material was mixed with LiOH to synthesize cathode material for lithium ion battery by using solid-state reaction. After sintered at temperature above 600 ℃, a solid solution with layer structure was formed. The result of XPS shows that it is a concentration gradient material with higher cobalt content at the surface, and the gradient decreases with increasing sintering temperature from 650 to 750 ℃. This new gradient material, called as Co-coated LiNiO2, exhibits excellent electrochemical performances for the cathode of Li-ion batteries in comparison with LiNiO2 and Co-doping LiNiO2. The discharge capacity of Co-coated LiNiO2 is over 180 mA·h/g and capacity decay per cycle is less than 0.07% when Co-coated LiNiO2 consisting of 92% nickel and 8% cobalt was sintered at the temperatures between 650-670 ℃. Though initial discharge capacity could be increased with higher sintering temperature, the cycle life would be reduced. Spherical Ni（OH）2 powder coated with Co（OH）2 as raw material was mixed with LiOH to synthesize cathode material for lithium ion battery by using solid-state reaction. After sintered at temperature above 600℃, a solid solution with layer structure was formed. The result of XPS shows that it is a concentration gradient material with higher cobalt content at the surface, and the gradient decreases with increasing sintering temperature from 650 to 750 ℃. This new gradient material, called as Co-coated LiNiO2, exhibits excellent electrochemical performances for the cathode of Li-ion batteries in comparison with LiNiO2 and Co-doping LiNiO2. The discharge capacity of Co-coated LiNiO2 is over 180 mA · h/g and capacity decay per cycle is less than 0.07% when Co-coated LiNiO2 consisting of 92% nickel and 8% cobalt was sintered at the temperatures between 650--670 ℃. Though initial discharge capacity could be increased with higher sintering temperature, the cycle life would be reduced.

作者钟盛文赵煜娟连芳李艳胡杨李培植梅佳刘庆国

机构地区 Laboratory on Solid State Ionics Laboratory on Solid State Ionics Faculty of Materials and Technology Engineering Faculty of Materials and Technology Engineering

出处《中国有色金属学会会刊：英文版》 EI CSCD 2006年第1期137-141,共5页 Transactions of Nonferrous Metals Society of China

关键词锂离子电池阴极材料 LINIO2 LICOO2 NI(OH)2 CO(OH)2 电化学性能钴涂层 Li-ion battery LiNiO2 LiCoO2 Ni（OH）2 Co（OH）2, cathode material gradient cathode material electrochemicalperformance

分类号 TM912 [电气工程—电力电子与电力传动]

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Characteristics and electrochemical performance of cathode material Co-coated LiNiO_2 for Li-ion batteries 被引量：7

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