Surface modification and characterization of F-Co doped spinel LiMn_2O_4 被引量：1

Surface modification and characterization of F-Co doped spinel LiMn_2O_4

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摘要 Spinel LiCo0.09Mn1.91O3.92F0.08 as cathode material was modified with LiCoO2 by the sol-gel method, and the crystal structure, morphology and electrochemical performance were characterized with XRD, SEM, EDS, AAS and charge-discharge test in this paper. The results show that a good clad coated on parent material can be synthesized by the sol-gel method, and the materials with modification have perfect spinel structure. LiCo0.09Mn1.91O3.92F0.08 materials coated by LiCoO2 improve the stability of crystal structure and decrease the dissolution of Mn into electrolyte. With the LiCoO2 content increasing, the specific capacity and cycle performance of samples are improved. The capacity loss is also suppressed distinctly even at 55 ℃. Spinel LiCo0.09Mn1.91O3.92F0.08 as cathode material was modified with LiCoO2 by the sol-gel method, and the crystal structure, morphology and electrochemical performance were characterized with XRD, SEM, EDS, AAS and charge-discharge test in this paper. The results show that a good clad coated on parent material can be synthesized by the sol-gel method, and the materials with modification have perfect spinel structure. LiCo0.09Mn1.91O3.92F0.08 materials coated by LiCoO2 improve the stability of crystal structure and decrease the dissolution of Mn into electrolyte. With the LiCoO2 content increasing, the specific capacity and cycle performance of samples are improved. The capacity loss is also suppressed distinctly even at 55 ℃.

作者 WATANABE Takayuki

机构地区 Department of Environmental Chemistry and Engineering

出处《Rare Metals》 SCIE EI CAS CSCD 2006年第z1期33-38,共6页 稀有金属（英文版）

关键词 lithium ion batteries spinel LiMn2O4 ion doping surface coating lithium ion batteries spinel LiMn2O4 ion doping surface coating

分类号 TB39 [一般工业技术—材料科学与工程]

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