催化作用
法拉第效率
多硫化物
电池(电)
硫黄
杂原子
化学
电化学
碳纤维
氧化还原
化学工程
储能
材料科学
纳米技术
无机化学
电极
有机化学
物理化学
电解质
热力学
工程类
戒指(化学)
复合材料
复合数
功率(物理)
物理
作者
Zhenzhen Yang,Ru Xiao,Xiaoyin Zhang,Xin Wang,Dong Zhang,Zhenhua Sun,Feng Li
出处
期刊:Energy & environmental materials
[Wiley]
日期:2021-06-09
卷期号:5 (3): 693-710
被引量:46
摘要
Room temperature sodium–sulfur (RT Na‐S) battery with high theoretical energy density and low cost has spurred tremendous interest, which is recognized as an ideal candidate for large‐scale energy storage applications. However, serious sodium polysulfide shutting and sluggish reaction kinetics lead to rapid capacity decay and poor Coulombic efficiency. Recently, catalytic materials capable of adsorbing and catalyzing the conversion of polysulfides are profiled as a promising method to improve electrochemical performance. In this review, the research progress is summarized that the application of catalytic materials in RT Na‐S battery. For the role of catalyst on the conversion of sulfur species, specific attention is focused on the influence factors of reaction rate during different redox processes. Various catalytic materials based on lightweight and high conductive carbon materials, including heteroatom‐doped carbon, metals and metal compounds, single‐atom and heterostructure, promote the reaction kinetic via lowered energy barrier and accelerated charge transfer. Additionally, the adsorption capacity of the catalytic materials is the key to the catalytic effect. Particular attention to the interaction between polysulfides and sulfur host materials is necessary for the exploration of catalytic mechanism. Lastly, the challenges and outlooks toward the desired design of efficient catalytic materials for RT Na‐S battery are discussed.
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