石墨烯
材料科学
阳极
箔法
锂(药物)
阴极
合金
纳米技术
化学工程
氧化物
电极
复合材料
冶金
化学
物理化学
内分泌学
工程类
医学
作者
Jie Zhao,Guangmin Zhou,Kai Yan,Jin Xie,Yuzhang Li,Lei Liao,Yang Jin,Kai Liu,Po‐Chun Hsu,Jiangyan Wang,Hui‐Ming Cheng,Yi Cui
标识
DOI:10.1038/nnano.2017.129
摘要
Developing high-capacity anodes is a must to improve the energy density of lithium batteries for electric vehicle applications. Alloy anodes are one promising option, but without pre-stored lithium, the overall energy density is limited by the low-capacity lithium metal oxide cathodes. Recently, lithium metal has been revived as a high-capacity anode, but faces several challenges owing to its high reactivity and uncontrolled dendrite growth. Here, we show a series of Li-containing foils inheriting the desirable properties of alloy anodes and pure metal anodes. They consist of densely packed LixM (M = Si, Sn, or Al) nanoparticles encapsulated by large graphene sheets. With the protection of graphene sheets, the large and freestanding LixM/graphene foils are stable in different air conditions. With fully expanded LixSi confined in the highly conductive and chemically stable graphene matrix, this LixSi/graphene foil maintains a stable structure and cyclability in half cells (400 cycles with 98% capacity retention). This foil is also paired with high-capacity Li-free V2O5 and sulfur cathodes to achieve stable full-cell cycling.
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