Mustafa Khan, Xuli Ding, Hongda Zhao, Yuxin Wang, Ning Zhang, Xiaojing Chen, Jiahao Xu
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引用次数: 2
Abstract
Selenium (Se)-based cathode materials have garnered considerable interest for lithium-ion batteries due to their numerous advantages, including low cost, high volumetric capacity (3268 mAh cm−3), high density (4.82 g cm−3), ability to be cycled to high voltage (4.2 V) without failure, and environmental friendliness. However, they have low electrical conductivity, low coulombic efficiency, and polyselenide solubility in electrolytes (shuttle effect). These factors have an adverse effect on the electrochemical performance of Li-Se batteries, rendering them unsuitable for real-world use. In this study, we briefly examined numerous approaches to overcoming these obstacles, including selecting an adequate electrolyte, the composition of Se with carbonaceous materials, and the usage of metal selenide base electrodes. Furthermore, we examined the effect of introducing interlayers between the cathode and the separator. Finally, the remaining hurdles and potential study prospects in this expanding field are proposed to inspire further insightful work.
硒(Se)基正极材料由于其众多优点,包括低成本,高容量(3268 mAh cm - 3),高密度(4.82 g cm - 3),能够循环到高电压(4.2 V)而不会失效,以及环保,已经引起了锂离子电池的极大兴趣。然而,它们具有低导电性、低库仑效率和多硒化物在电解质中的溶解度(穿梭效应)。这些因素对锂硒电池的电化学性能有不利影响,使其不适合实际使用。在这项研究中,我们简要地研究了克服这些障碍的许多方法,包括选择适当的电解质,硒与碳质材料的组成,以及金属硒化物基电极的使用。此外,我们还研究了在阴极和分离器之间引入中间层的影响。最后,提出了这一不断扩大的领域中存在的障碍和潜在的研究前景,以启发进一步深入的工作。
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