Design, preparation, application of advanced array structured materials and their action mechanism analyses for high performance lithium-sulfur batteries

IF 14 1区 化学 Q1 CHEMISTRY, APPLIED
Nanping Deng , Xiaofan Feng , Yongbing Jin , Zhaozhao Peng , Yang Feng , Ying Tian , Yong Liu , Lu Gao , Weimin Kang , Bowen Cheng
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Abstract

Lithium-sulfur battery (LSB) has brought much attention and concern because of high theoretical specific capacity and energy density as one of main competitors for next-generation energy storage systems. The widely commercial application and development of LSB is mainly hindered by serious “shuttle effect” of lithium polysulfides (LiPSs), slow reaction kinetics, notorious lithium dendrites, etc. In various structures of LSB materials, array structured materials, possessing the composition of ordered micro units with the same or similar characteristics of each unit, present excellent application potential for various secondary cells due to some merits such as immobilization of active substances, high specific surface area, appropriate pore sizes, easy modification of functional material surface, accommodated huge volume change, enough facilitated transportation for electrons/lithium ions, and special functional groups strongly adsorbing LiPSs. Thus many novel array structured materials are applied to battery for tackling thorny problems mentioned above. In this review, recent progresses and developments on array structured materials applied in LSBs including preparation ways, collaborative structural designs based on array structures, and action mechanism analyses in improving electrochemical performance and safety are summarized. Meanwhile, we also have detailed discussion for array structured materials in LSBs and constructed the structure-function relationships between array structured materials and battery performances. Lastly, some directions and prospects about preparation ways, functional modifications, and practical applications of array structured materials in LSBs are generalized. We hope the review can attract more researchers' attention and bring more studying on array structured materials for other secondary batteries including LSB.

Abstract Image

高性能锂硫电池先进阵列结构材料的设计、制备、应用及其作用机理分析
锂硫电池由于具有较高的理论比容量和能量密度,成为下一代储能系统的主要竞争对手之一,受到了广泛的关注和关注。多硫化锂的“穿梭效应”严重、反应动力学缓慢、锂枝晶劣化等阻碍了多硫化锂的广泛商业化应用和发展。在LSB材料的各种结构中,阵列结构材料具有有序的微单元组成,各单元具有相同或相近的特性,具有固定活性物质、比表面积高、孔径适宜、功能材料表面易于修饰、体积变化大等优点,在各种二次细胞中具有良好的应用潜力。足够方便电子/锂离子的传输,以及特殊的官能团对LiPSs的强吸附。因此,许多新颖的阵列结构材料被应用于电池中,以解决上述棘手的问题。本文综述了近年来阵列结构材料在lbs中的研究进展,包括制备方法、基于阵列结构的协同结构设计以及对提高lbs电化学性能和安全性的作用机理分析。同时,我们也对lsb中的阵列结构材料进行了详细的讨论,构建了阵列结构材料与电池性能之间的结构-功能关系。最后,对阵列结构材料在lbs中的制备方法、功能修饰和实际应用等方面的研究方向和前景进行了展望。我们希望这篇综述能够引起更多研究者的关注,并对包括LSB在内的其他二次电池阵列结构材料进行更多的研究。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
CiteScore
23.60
自引率
0.00%
发文量
2875
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