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机译:双壳混合纳米结构的多功能集成,用于缓解LINI0.8CO0.1MN0.1MN0.1MN0.1MN0.10.1MN0.1MN0.1MN0.1MN0.1MN0.10.1MN0.10.1MN0.1MN0.1MN0.1MN0.1MN0.1MN0.1MN0.1MN0.10.1MN0.10.1MN0.10.1MN0.1O2高截止电压
Univ Elect Sci &
Technol China R&
D Ctr New Energy Mat &
Integrated Energy Device Sch Mat &
Energy Chengdu 610054 Sichuan Peoples R China;
Univ Elect Sci &
Technol China R&
D Ctr New Energy Mat &
Integrated Energy Device Sch Mat &
Energy Chengdu 610054 Sichuan Peoples R China;
Univ Elect Sci &
Technol China R&
D Ctr New Energy Mat &
Integrated Energy Device Sch Mat &
Energy Chengdu 610054 Sichuan Peoples R China;
Univ Elect Sci &
Technol China R&
D Ctr New Energy Mat &
Integrated Energy Device Sch Mat &
Energy Chengdu 610054 Sichuan Peoples R China;
Sichuan Univ Coll Mat Sci &
Engn Chengdu 610065 Peoples R China;
Univ Elect Sci &
Technol China R&
D Ctr New Energy Mat &
Integrated Energy Device Sch Mat &
Energy Chengdu 610054 Sichuan Peoples R China;
Univ Elect Sci &
Technol China R&
D Ctr New Energy Mat &
Integrated Energy Device Sch Mat &
Energy Chengdu 610054 Sichuan Peoples R China;
Univ Elect Sci &
Technol China R&
D Ctr New Energy Mat &
Integrated Energy Device Sch Mat &
Energy Chengdu 610054 Sichuan Peoples R China;
Univ Elect Sci &
Technol China R&
D Ctr New Energy Mat &
Integrated Energy Device Sch Mat &
Energy Chengdu 610054 Sichuan Peoples R China;
Univ Elect Sci &
Technol China R&
D Ctr New Energy Mat &
Integrated Energy Device Sch Mat &
Energy Chengdu 610054 Sichuan Peoples R China;
LiNi0.8Co0.1Mn0.1O2; double-shell modification; hybrid nanostructure; structural degradation; cycling stability;
机译:双壳混合纳米结构的多功能集成,用于缓解LINI0.8CO0.1MN0.1MN0.1MN0.1MN0.10.1MN0.1MN0.1MN0.1MN0.1MN0.10.1MN0.10.1MN0.1MN0.1MN0.1MN0.1MN0.1MN0.1MN0.1MN0.10.1MN0.10.1MN0.10.1MN0.1O2高截止电压
机译:用高价钛离子对高截止电压的高价钛离子诱导的杂交核心壳纳米结构的LINI0.8CO0.1MN0.1O2阴极的表面稳定性
机译:纳米级锂离子/电子超离子导体混合膜包裹用于先进锂离子电池的方法,减轻了富镍层状氧化物正极材料的表面降解
机译:锂离子电池表面处理的Li Ni0.8Co0.1Mn0.1 O2正极材料的电化学性能增强
机译:用于锂离子电池技术的纳米结构化钴酸锂阴极
机译:在LiNi0.8Co0.1Mn0.1O2正极材料上使用碳涂层以增强锂离子电池的性能
机译:通过将纳米级Li-离子/电子表面上杂交膜包封用于高级锂离子电池,减轻富含富镍的层状氧化物阴极材料的表面劣化