Optimization of Pore Structure of Cathodic Carbon Supports for Solvate Ionic Liquid Electrolytes Based Lithium–Sulfur Batteries

材料科学 电解质 离子液体 锂(药物) 阴极保护 硫黄 碳纤维 锂硫电池 无机化学 化学工程 电化学 有机化学 冶金 电极 复合材料 复合数 催化作用 化学 物理化学 医学 工程类 内分泌学
作者
Shiguo Zhang,Ai Ikoma,Zhe Li,Kazuhide Ueno,Xiaofeng Ma,Kaoru Dokko,Masayoshi Watanabe
出处
期刊:ACS Applied Materials & Interfaces [American Chemical Society]
卷期号:8 (41): 27803-27813 被引量:27
标识
DOI:10.1021/acsami.6b09989
摘要

Lithium-sulfur (Li-S) batteries are a promising energy-storage technology owing to their high theoretical capacity and energy density. However, their practical application remains a challenge because of the serve shuttle effect caused by the dissolution of polysulfides in common organic electrolytes. Polysulfide-insoluble electrolytes, such as solvate ionic liquids (ILs), have recently emerged as alternative candidates and shown great potential in suppressing the shuttle effect and improving the cycle stability of Li-S batteries. Redox electrochemical reactions in polysulfide-insoluble electrolytes occur via a solid-state process at the interphase between the electrolyte and the composite cathode; therefore, creating an appropriate interface between sulfur and a carbon support is of great importance. Nevertheless, the porous carbon supports established for conventional organic electrolytes may not be suitable for polysulfide-insoluble electrolytes. In this work, we investigated the effect of the porous structure of carbon materials on the Li-S battery performance in polysulfide-insoluble electrolytes using solvate ILs as a model electrolyte. We determined that the pore volume (rather than the surface area) exerts a major influence on the discharge capacity of S composite cathodes. In particular, inverse opal carbons with three-dimensionally ordered interconnected macropores and a large pore volume deliver the highest discharge capacity. The battery performance in both polysulfide-soluble electrolytes and solvate ILs was used to study the effect of electrolytes. We propose a plausible mechanism to explain the different porous structure requirements in polysulfide-soluble and polysulfide-insoluble electrolytes.
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