材料科学
铜
阳极
集电器
聚丙烯
箔法
锂(药物)
能量密度
复合数
电流密度
电流(流体)
离子
复合材料
金属锂
金属
冶金
电极
工程物理
电气工程
有机化学
物理化学
内分泌学
化学
工程类
物理
医学
电解质
量子力学
作者
Jing Niu,Xianli Huang,Hui Yang,Datuan Li,Xingxu Gao,Ling Yang,Qian Chen,Ao Sun,Kejun Zheng,Tao Wang,Jianping He
标识
DOI:10.1021/acsami.4c08053
摘要
Composite copper foil is considered to be the future-proof anode current collector solution for lithium-ion batteries (LIBs) with high energy density, for its light weight and low cost. Polypropylene (PP) film is widely used as the support layer of composite copper foil current collectors (CCs) due to its excellent mechanical properties and chemical stability. However, the interface adhesion between the PP layer and the copper layer is weak, due to the significant difference in surface energy. In this study, we prepared a hydrophilic PP film by air plasma treatment. After magnetron sputtering and electroplating, the composite copper foil (PP@Cu-1) with strong adhesion was then successfully prepared. In the T-peel test, for PP@Cu-1, the pull required to separate PP from the copper layer is approximately 7 times that of PP@Cu-0. The PP@Cu-1 composite copper foil exhibits excellent electrochemical properties when applied to LIBs. As an anode CC material, it could be a favorable competitor to conventional commercial Bare Cu and holds broad prospects for application in high-energy-density LIBs.
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