极端条件下锂离子电池失效机制研究进展

With the rapid development of modern technology，there is an increasing demand for energy storage systems that can operate stably in extreme environments，especially in cutting-edge fields such as unmanned aerial vehicles，electric vehicles，and deep-sea exploration. Lithium-ion batteries，due to their high energy density，long life，and lack of memory effect，have become an ideal choice to meet the energy needs in these extreme environments. However，harsh conditions such as extreme temperatures，impacts，and pressures pose serious challenges to the performance and safety of batteries. This article reviews the failure behaviors and mechanisms of lithium-ion batteries in various extreme environments in recent years，focusing on the changes in the internal material structure of the batteries，lithium ion transport，and electrochemical reactions to explore the internal material failure mechanisms of lithium-ion batteries under various extreme conditions. Finally，the article summarizes the main measures to improve the performance of lithium-ion batteries in extreme environments. It is hoped that these studies can guide the design of more durable and efficient lithium-ion batteries in the future，promoting the development of lithium-ion batteries in a wider range of fields.