材料科学
阴极
光电子学
电压
阳极
电池(电)
锂(药物)
电极
短路
锂离子电池
集电器
核工程
功率(物理)
作者
Haozhe Yi,Meng Wang,Daniel J. Noelle,Yang Shi,Anh V. Le,Rui Kou,Dengguo Wu,Jiang Fan,Yu Qiao
摘要
Safety of lithium-ion battery (LIB) has become a major concern for many large-scale energy storage systems. Particularly, collision-induced internal short circuit (ISC) can trigger thermal runaway of LIB cells in electric vehicles. Our previous study on LIB coin cells suggested that with an appropriate microstructure, the current collector might favorably modify the failure mode of electrodes and drastically reduce the heat generation rate of ISC. In the current study, we scaled up the technique of microstructured current collector and applied it to LIB pouch cells. Through debossing, surface patterns were rapidly generated on large current collector sheets in a controlled manner. Impact tests demonstrated the high effectiveness of the processed current collectors for thermal runaway mitigation.
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