Kota Suzuki, Jinan Cui, Jiang Peilu, Hanseul Kim, Yumi Yamaguchi, Satoshi Hori, Masaaki Hirayama, Ryoji Kanno
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引用次数: 0
Abstract
In this study, high-sulfur-containing carbon replica (sulfur-rich S-CR) composites were prepared using a melt-diffusion method. Melt diffusion under vacuum enabled the introduction of four times the weight ratio of sulfur into the mesopores of a carbon replica (CR). The obtained sulfur-rich S-CR exhibited an initial discharge capacity of 700 mAh gsulfur−1, indicating the low utilization of sulfur in the composite. The classification of the particle sizes of the solid electrolyte and CR contributed to the improvement in electrochemical performance. An initial discharge capacity of over 1,200 mAh g−1 was confirmed for the S-CR composite using the smaller solid electrolyte and CR prepared via a dry classification process. An analysis of the effect of the additives indicated that the rational design of electronic and ionic conduction pathways is required for higher cycle performance when using sulfur-rich S-CRs.
本研究采用熔融扩散法制备了高含硫碳副本(富硫S-CR)复合材料。熔体在真空下的扩散使硫的重量比增加了四倍,从而进入了碳复制品(CR)的介孔。得到的富硫S-CR的初始放电容量为700 mAh g硫- 1,表明复合材料中硫的利用率较低。固体电解质和CR的粒径分级有助于电化学性能的提高。使用更小的固体电解质和通过干燥分类工艺制备的CR, S-CR复合材料的初始放电容量超过1200 mAh g - 1。对添加剂的影响分析表明,在使用富硫s - cr时,合理设计电子和离子传导途径是提高循环性能的必要条件。
期刊介绍:
The Journal of the Ceramic Society of Japan (JCS-Japan) publishes original experimental and theoretical researches and reviews on ceramic science, ceramic materials, and related fields, including composites and hybrids. JCS-Japan welcomes manuscripts on both fundamental and applied researches.
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