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用于硅基锂离子电池负极的具有卓越倍率性能和改善循环性能的微孔粘结剂

Microporous Binder for the Silicon-Based Lithium-Ion Battery Anode with Exceptional Rate Capability and Improved Cyclic Performance.

作者信息

Ma Liujia, Meng Jianqiang, Pan Ying, Cheng Ya-Jun, Ji Qing, Zuo Xiuxia, Wang Xiaoyan, Zhu Jin, Xia Yonggao

机构信息

State Key Laboratory of Separation Membranes and Membrane Processes, Tianjin Polytechnic University, Tianjin 300387, People's Republic of China.

Ningbo Institute of Materials Technology and Engineering, Chinese Academy of Sciences, 1219 Zhongguan West Road, Zhenhai District, Ningbo 315201, Zhejiang Province, People's Republic of China.

出版信息

Langmuir. 2020 Mar 3;36(8):2003-2011. doi: 10.1021/acs.langmuir.9b03497. Epub 2020 Feb 20.

DOI:10.1021/acs.langmuir.9b03497
PMID:32036666
Abstract

Silicon anodes have attracted much attention owing to their high theoretical capacity. Nonetheless, an inevitable and enormous volumetric expansion of silicon in the lithiated state restrained the development of the silicon anode for lithium-ion batteries. Fortunately, the utilization of the high-performance binder is a promising and effective way to overcome such obstacles. Herein, a polymer of intrinsic microporosity (PIM) is applied as the binder for the silicon anode, which is composed of a rigid polymer backbone, an intrinsic porous structure, and active carboxyl groups (PIM-COOH). Compared to the traditional binder, both the long-term stability and rate performance of the electrode using PIM-COOH as the binder are significantly improved. The mechanism responsible for the enhanced performance is investigated. The PIM-COOH binder provides stronger adhesion toward the current collector than the conventional binders. The unique rigid polymer backbone and porous structure of the PIM-COOH binder enable a good capability to withstand the volume change and external stress generated by the Si anode. The porous structure of the PIM-COOH binder enhances lithium-ion transportation compared to the SA binder, which improves rate performance of the silicon anode. This work provides a unique insight into design, synthesis, and utilization of the binders for lithium-ion batteries.

摘要

硅阳极因其高理论容量而备受关注。尽管如此,锂化状态下硅不可避免的巨大体积膨胀限制了锂离子电池硅阳极的发展。幸运的是,使用高性能粘结剂是克服此类障碍的一种有前景且有效的方法。在此,一种固有微孔聚合物(PIM)被用作硅阳极的粘结剂,它由刚性聚合物主链、固有多孔结构和活性羧基(PIM-COOH)组成。与传统粘结剂相比,使用PIM-COOH作为粘结剂的电极的长期稳定性和倍率性能均得到显著提高。研究了性能增强的机制。PIM-COOH粘结剂对集流体的粘附力比传统粘结剂更强。PIM-COOH粘结剂独特的刚性聚合物主链和多孔结构使其具有良好的承受硅阳极产生的体积变化和外部应力的能力。与SA粘结剂相比,PIM-COOH粘结剂的多孔结构增强了锂离子传输,从而提高了硅阳极的倍率性能。这项工作为锂离子电池粘结剂的设计、合成和应用提供了独特的见解。

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