锂离子电池硅合金阳极用热交联聚酰亚胺粘合剂

IF 2.2 4区工程技术 Q3 ELECTROCHEMISTRY

Journal of electrochemical science and technology Pub Date : 2022-05-12 DOI:10.33961/jecst.2021.01018

Hyeong-Seok Chang, Sanghoon Ji, Miso Rho, Byoung-Min Lee, Sung‐Soo Kim, Jae‐Hak Choi

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引用次数: 2

摘要

与传统的石墨阳极材料相比，硅（Si）由于其高的理论容量而引起了相当大的关注。然而，硅基阳极材料由于在循环过程中体积变化大而导致的机械故障而遭受快速的容量损失。为了缓解这种现象，非常需要具有强相互作用的交联聚合物粘合剂来确保电极的完整性。在本研究中，热交联聚酰亚胺粘合剂被用于锂离子电池中的硅合金阳极。发现交联的聚酰亚胺粘合剂具有高粘附强度，从而在循环过程中增强了电极的完整性。因此，具有交联聚酰亚胺粘合剂的硅合金阳极提供了增强的电化学性能，例如库仑效率、容量保持和循环稳定性。

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Thermally Crosslinked Polyimide Binders for Si-alloy Anodes in Li-ion Batteries

Silicon (Si) has attracted considerable attention due to its high theoretical capacity compared to conventional graphite anode materials. However, Si-based anode materials suffer from rapid capacity loss due to mechanical failure caused by large volume change during cycling. To alleviate this phenomenon, crosslinked polymeric binders with strong interactions are highly desirable to ensure the electrode integrity. In this study, thermally crosslinked polyimide binders were used for Si-alloy anodes in Li-ion batteries. The crosslinked polyimide binder was found to have high adhesion strength, resulting in enhanced electrode integrity during cycling. Therefore, the Si-alloy anodes with crosslinked polyimide binder provide enhanced electrochemical performance, such as Coulombic efficiency, capacity retention, and cycle stability.

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来源期刊

Journal of electrochemical science and technology ELECTROCHEMISTRY-

CiteScore

6.30

自引率

8.10%

发文量

期刊介绍： Covering fields: - Batteries and Energy Storage - Biological Electrochemistry - Corrosion Science and Technology - Electroanalytical Chemistry and Sensor Technology - Electrocatalysis - Electrochemical Capacitors & Supercapcitors - Electrochemical Engineering - Electrodeposition and Surface Treatment - Environmental Science and Technology - Fuel Cells - Material Electrochemistry - Molecular Electrochemistry and Organic Electrochemistry - Physical Electrochemistry - Solar Energy Conversion and Photoelectrochemistry