阳极
材料科学
单宁酸
硅
法拉第效率
电解质
化学工程
丙烯酸
锂(药物)
电化学
高分子化学
电极
复合材料
聚合物
化学
有机化学
冶金
工程类
内分泌学
物理化学
单体
医学
作者
Hui Gyeong Park,Mincheol Jung,Shin-Young Lee,Woo‐Jin Song,Jung‐Soo Lee
出处
期刊:Nanomaterials
[Multidisciplinary Digital Publishing Institute]
日期:2022-09-30
卷期号:12 (19): 3437-3437
被引量:16
摘要
The design of a novel binder is required for high-capacity silicon anodes, which typically undergo significant changes during charge/discharge cycling. Hence, in this study, a stable network structure was formed by combining tannic acid (TAc), which can be cross-linked, and poly(acrylic acid)(PAA) as an effective binder for a silicon (Si) anode. TAc is a phenolic compound and representative substance with antioxidant properties. Owing to the antioxidant ability of the C-PAA/TAc binder, side reactions during the cycling were suppressed during the formation of an appropriate solid-electrolyte interface layer. The results showed that the expansion of a silicon anode was suppressed compared with that of a conventional PAA binder. This study demonstrates that cross-linking and antioxidant capability facilitate binding and provides insights into the behavior of binders for silicon anodes. The Si anode with the C-PAA/TAc binder exhibited significantly improved cycle stability and higher Coulombic efficiency in comparison to the Si anode with well-established PAA binders. The C-PAA/TAc binder demonstrated a capacity of 1833 mA h g-1Si for 100 cycles, which is higher than that of electrodes fabricated using the conventional PAA binder. Therefore, the C-PAA/TAc binder offers better electrochemical performance.
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