CC-BY-NC-NDMedić, DraganaMilić, SnežanaMilošević, NemanjaNujkić, MajaAlagić, SlađanaCvetković, AleksandarPapludis, Aleksandra2024-10-112024-10-112024978-86-6305-152-2https://eco.tfbor.bg.ac.rs/download/Zbornici/2024.pdfhttps://repozitorijum.tfbor.bg.ac.rs/handle/123456789/5871Advances in lithium-ion battery (LIB) technology have facilitated its widespread use, including in electric vehicles and electronic devices. However, with the increasing use of LIBs, the risk of thermal runaway is also increasing. This article explains the causes and mechanisms of thermal runaway in LIBs and the possible consequences of this process. One way to mitigate the risk of thermal runaway is to improve battery design to minimise internal defects and increase thermal stability. In addition, the development of advanced thermal management systems capable of detecting and controlling thermal anomalies can be crucial. Understanding the causes and consequences of thermal runaway in LIBs is essential for their further development and safe application in various fields.enLIBsthermal runawaymechanismconferenceObject