Water-Soluble Polyamide Acid Binder with Fast Li<sup>+</sup> Transfer Kinetics for Silicon Suboxide Anodes in Lithium-Ion Batteries
Jian Li, Kai Yang, Yun Zheng, Shuyu Gao, Jingchao Chai, Xiaohua Lei, Zhuo Zhan, Yuanjian Xu, Maige Chen, Zhihong Liu, Qingzhong Guo
Abstract
Silicon suboxide (SiO x ) anodes have attracted considerable attention owing to their excellent cycling performance and rate capability compared to silicon (Si) anodes. However, SiO x anodes suffer from high volume expansion similar to Si anodes, which has been a challenge in developing suitable commercial binders. In this study, a water-soluble polyamide acid (WS-PAA) binder with ionic bonds was synthesized. The amide bonds inherent in the WS-PAA binder form a stable hydrogen bond with the SiO x anode and provide sufficient mechanical strength for the prepared electrodes. In addition, the ionic bonds introduced by triethylamine (TEA) induce water solubility and new Li + transport channels to the binder, achieving enhanced electrochemical properties for the resulting SiO x electrodes, such as cycling and rate capability. The SiO x anode with the WS-PAA binder exhibited a high initial capacity of 1004.7 mAh·g –1 at a current density of 0.8 A·g –1 and a capacity retention of 84.9% after 200 cycles. Therefore, WS-PAA is a promising binder for SiO x anodes compared with CMC and SA.