I. Introduction

The lithium-ion battery market has grown quickly in recent years. Due to their high charging efficiency, fast charging and discharging speed, high energy density and low self-discharge, the creation and use of lithium-ion batteries have drawn an increasing amount of interest. Lithium-ion batteries are core components of electric vehicles and energy storage devices, which can reduce carbon emission and protect the environment [1]. However, Lithium-ion batteries also have major drawbacks: when the temperature is too low, the internal resistance of the battery increases and the capacity decreases, which has an impact on the travel and acceleration of the car [2]–[3]; when the temperature is too high or there are other physical reasons, such as overcharge, over-discharge, puncture, internal short circuit and triggered thermal runaway [4], then the result is a terrible combustion and explosion, which brings great potential danger to people's life and property safety [5]. The temperature of the battery not only changes with the environment, but the battery itself will also heat up and change its own temperature in the working condition. At present, the structure of the battery has been optimized to its limits and only by using new materials is it possible to increase the capacity of the battery and maintain its stability [6].