阴极
阳极
电解质
多收费
材料科学
降级(电信)
电池(电)
氧化物
电极
锂(药物)
化学工程
离子
容量损失
化学物理
化学
工程类
冶金
电气工程
物理
物理化学
热力学
有机化学
内分泌学
医学
功率(物理)
作者
René Hausbrand,Gennady Cherkashinin,Helmut Ehrenberg,Melanie Gröting,Karsten Albe,Christian Heß,W. Jaegermann
标识
DOI:10.1016/j.mseb.2014.11.014
摘要
This overview addresses the atomistic aspects of degradation of layered LiMO2 (M = Ni, Co, Mn) oxide Li-ion battery cathode materials, aiming to shed light on the fundamental degradation mechanisms especially inside active cathode materials and at their interfaces. It includes recent results obtained by novel in situ/in operando diffraction methods, modelling, and quasi in situ surface science analysis. Degradation of the active cathode material occurs upon overcharge, resulting from a positive potential shift of the anode. Oxygen loss and eventual phase transformation resulting in dead regions are ascribed to changes in electronic structure and defect formation. The anode potential shift results from loss of free lithium due to side reactions occurring at electrode/electrolyte interfaces. Such side reactions are caused by electron transfer, and depend on the electron energy level alignment at the interface. Side reactions at electrode/electrolyte interfaces and capacity fade may be overcome by the use of suitable solid-state electrolytes and Li-containing anodes.
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