Analytical study on highway thermal runaway propagation and inter-electrode dynamics in lithium-ion battery applications: Insights into battery safety
Author:
Funder
Guangdong Institute of Science and Technology
Publisher
Elsevier BV
Reference99 articles.
1. Thermal stability analysis of nitrile additives in LiFSI for lithium-ion batteries: an accelerating rate calorimetry study;Ali;Heliyon,2024
2. A model for the prediction of thermal runaway in lithium–ion batteries;Azuaje–Berbecí;J. Energy Storage,2024
3. Trajectory-battery integrated design and its application to orbital maneuvers with electric pump-fed engines;Bai;Adv. Space Res.,2022
4. On a Generalized Procedure for the Calculation of Thermal Radiation Transfer;Chao,1955
5. Fundamental understanding and optimization strategies for dual-ion batteries: a review;Chen;Nano-Micro Lett.,2023
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