Thermal analysis techniques for evaluating the thermal stability of battery materials: A comprehensive review

The thermal stability of battery materials is a critical factor in ensuring the safety and performance of energy storage systems. However, accurately assessing this stability poses a challenge. In this comprehensive review, we present an exploring various thermal analysis techniques that enable the evaluation of thermal behavior and facilitate informed decision-making for enhanced battery safety and performance. We discuss the principles, benefits, and limitations of thermal analysis techniques in battery material analysis. Furthermore, we review recent literature on the application of these techniques for assessing the thermal stability of various battery materials, including anode, cathode, and electrolyte materials. We also comprise of thermal analysis techniques for battery material analysis. As well as, the effect of material composition, structure, and environmental factors on the thermal stability of battery material was investigated. Finally, prospects of the thermal analysis techniques for evaluating thermal stability of battery material were explained. This review provides valuable insights into the role of thermal analysis in evaluating and optimizing the thermal stability of battery materials and directions for future research in this area.