机译:了解高能量密度富锂层状Li1.2Ni0.15Co0.1Mn0.55O2阴极材料的速率能力
Chemistry Department Brookhaven National Laboratory Upton NY USA;
Beijing National Laboratory for Condensed Matter Physics Institute of Physics Chinese Academy of Sciences Beijing China;
Beijing National Laboratory for Condensed Matter Physics Institute of Physics Chinese Academy of Sciences Beijing China;
Chemical Sciences and Engineering Division Argonne National Laboratory Argonne IL USA;
Chemistry Department Brookhaven National Laboratory Upton NY USA;
Chemistry Department Brookhaven National Laboratory Upton NY USA;
Chemical Sciences and Engineering Division Argonne National Laboratory Argonne IL USA;
Chemistry Department Brookhaven National Laboratory Upton NY USA;
Beijing National Laboratory for Condensed Matter Physics Institute of Physics Chinese Academy of Sciences Beijing China;
Chemistry Department Brookhaven National Laboratory Upton NY USA;
Chemistry Department Brookhaven National Laboratory Upton NY USA;
lithium-ion batteries; Li-rich materials; layered materials; cathodes; rate performance; kinetics;
机译:使用非化学计量策略了解层状富锂正极材料上原位生成和集成的尖晶石相的影响
机译:锂富含分层/尖晶石异质结构特殊形态阴极材料,具有锂离子电池的高速率能力
机译:由2D多孔纳米片组装而成的3D立方体迷宫状富锂多层阴极,可增强锂离子电池的循环稳定性和倍率能力
机译:放电容量,放电容量的保留,平均放电电压和能量密度,以及XLI_2MNO_3-YLINI_(1/2)MN_(1/2)O_2-(1-XY)LINI_(1/3)的组成对速率的速率能力)CO_(1/3)MN_(1/3)O_2锂含量的锂固体溶液阴极材料用于锂离子电池
机译:高能量密度高倍率锂离子充电电池正极材料的合成与表征。
机译:锂离子电池的富锂层状阴极中的表面立方尖晶石引起的高倍率能力
机译:锂富含层氧化物阴极的形态学和互连的微观结构驱动的高速率能力