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机译:以Zn离子电池为高性能阴极的结构重构的锰酸钙纳米粒子
Wuyi Univ Sch Appl Phys &
Mat Jiangmen 529020 Peoples R China;
Wuyi Univ Sch Appl Phys &
Mat Jiangmen 529020 Peoples R China;
Wuyi Univ Sch Appl Phys &
Mat Jiangmen 529020 Peoples R China;
Sun Yat Sen Univ Key Lab Bioinorgan &
Synthet Chem Key Lab Low Carbon Chem &
Energy Conservat Guangd MOE Sch Chem Chem Guangzhou 510275 Peoples R China;
Wuyi Univ Sch Appl Phys &
Mat Jiangmen 529020 Peoples R China;
Sun Yat Sen Univ Key Lab Bioinorgan &
Synthet Chem Key Lab Low Carbon Chem &
Energy Conservat Guangd MOE Sch Chem Chem Guangzhou 510275 Peoples R China;
Wuyi Univ Sch Appl Phys &
Mat Jiangmen 529020 Peoples R China;
机译:朝高性能阴极:氧化钒基材料的设计和储能机理,用于锌离子电池水溶液
机译:具有聚(苯喹啉基硫醚)阴极的高性能可充电水性Zn离子电池
机译:石墨烯涡旋涂覆α-MnO_2纳米线作为用于锌离子电池水溶液的高性能阴极材料
机译:(Battery Division Student Research Award Sponsored by Mercedes-Benz Research Development) Sustainable High-Performance Lithium-Ion Batteries: Aqueous Processing of Cobalt-Free High-Energy Cathodes
机译:新型阴极框架,有效电解质改性和高性能锂硫电池的电极结构改进
机译:水性/有机混合电解质可实现高性能的锌离子电池
机译:Na3v2(PO4)3和Na3v2(PO4)2F3作为锌离子电池水电的结构分解的观察
机译:用于锂空气电池的高性能阴极,最终技术报告。项目期限:2010年8月1日至2013年1月16日。