机译:LiCoO2阴极薄膜电池界面纳米型BATIO3处理的超高率充电能力
Tokyo Inst Technol Lab Mat &
Struct Yokohama Kanagawa 2268503 Japan;
Tokyo Inst Technol Lab Mat &
Struct Yokohama Kanagawa 2268503 Japan;
Okayama Univ Grad Sch Nat Sci &
Technol Okayama 7008530 Japan;
Okayama Univ Grad Sch Nat Sci &
Technol Okayama 7008530 Japan;
Okayama Univ Grad Sch Nat Sci &
Technol Okayama 7008530 Japan;
Tokyo Inst Technol Lab Mat &
Struct Yokohama Kanagawa 2268503 Japan;
Tokyo Inst Technol Lab Mat &
Struct Yokohama Kanagawa 2268503 Japan;
Tokyo Inst Technol Lab Mat &
Struct Yokohama Kanagawa 2268503 Japan;
Li-ion battery; BaTiO3; thin-film battery; high-rate chargeability; cyclability;
机译:LiCoO2阴极薄膜电池界面纳米型BATIO3处理的超高率充电能力
机译:优化BaTiO3负载的铁电BaTiO3-LiCoO2复合材料的高容量能力,用于锂离子电池
机译:在Li / Li3PO4 / LiCoO2全固态薄膜锂电池中的LixCOO2阴极的原位拉曼光谱
机译:锂离子薄膜电池LiCoO2阴极的物理气相沉积
机译:锂离子电池薄膜Limn2O4阴极的界面电化学和表面改性
机译:硝酸盐熔体合成的HT-LiCoO2作为锂离子电池的高级阴极材料
机译:BATIO3纳米蛋白密度载体对高速可再晴度性外延LiCoO2薄膜的影响