Huang, Lang; Lu, Tao; Xu, Gaojie; Zhang, Xiaohu; Jiang, Zhaoxuan; Zhang, Zengqi; Wang, Yantao; Han, Pengxian; Cui, Guanglei; Chen, Liquan published the artcile< Thermal runaway routes of large-format lithium-sulfur pouch cell batteries>, Application In Synthesis of 112-63-0, the main research area is thermal runaway lithium sulfur pouch cell battery.
Lithium-sulfur (Li-S) batteries emerge as one of the most attractive energy storage systems due to their ultra-high theor. energy densities, but the pace of their thermal safety assessment is obviously lagging behind. Herein, by investigating the thermal runaway behavior of Li-S pouch cells from the materials level, we unprecedentedly revealed that the thermal runaway route starts from cathode-induced reactions and then gets accelerated by reactions from the anode. Besides, the solvent vaporization is verified to dominate pressure building up during thermal runaway. Moreover, Li-S batteries employing varied electrolytes with different thermal stabilities, even inorganic all solid-state electrolytes, all undergo rapid thermal runaway at a narrow temperature range due to the intrinsic thermal features of the sulfur cathode and Li metal anode sublimating, melting, and cross-reacting at high temperatures The in-depth depicted thermal runaway routes will deliver great inspiration for mitigating the safety issues of next generation batteries.
Joule published new progress about Battery cathodes. 112-63-0 belongs to class esters-buliding-blocks, and the molecular formula is C19H34O2, Application In Synthesis of 112-63-0.
Referemce:
Ester – Wikipedia,
Ester – an overview | ScienceDirect Topics