Conductive composite binder for recyclable LiFePO4 cathode

In order to solve the problem of poor conductivity of traditional LiFePO4 cathode binders, we developed sodium alginate-Congo red copolymers (SA-CR) as water-soluble electrically conductive and mechanically robust composite binder. Unlike most other electrically conductive polymer binders, the proce...

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Bibliographic Details
Published in:Chinese chemical letters 2024-11, Vol.35 (11), p.109389, Article 109389
Main Authors: Dou, Wendi, Wan, Guangying, Liu, Tiefeng, Han, Lin, Zhang, Wu, Sun, Chuang, Song, Rensheng, Zheng, Jianhui, Liu, Yujing, Tao, Xinyong
Format: Article
Language:English
Subjects:
Conducting agent
Conductive binder
Copolymer
LiFePO4 cathode
Lithium-ion batteries
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Summary:In order to solve the problem of poor conductivity of traditional LiFePO4 cathode binders, we developed sodium alginate-Congo red copolymers (SA-CR) as water-soluble electrically conductive and mechanically robust composite binder. Unlike most other electrically conductive polymer binders, the procedure is straightforward and low-cost to prepare SA-CR binder. Various SA -CR copolymers were prepared with different degree of compounding of CR to investigate the effect of CR on the electrochemical and physical properties of the prepared electrodes. The copolymer whose composition was filled with a mixture of SA and CR at a 3:1 mass ratio showed the best cell performance, due to the well-balanced electrical conductivity and mechanical properties. It exhibited a specific capacity of 118.8 mAh/g at the 100th cycle with 92.1% capacity retention, significantly better than the 108.5 mAh/g of conventional acetylene black electrodes. CR as a conduction-promoting agent in water-soluble composite binder favors the formation of continuous and homogenous conducting bridges throughout the electrode and increases the compaction density of electrode by reducing the conducting agent content of acetylene black and thus the improvement of electrode performance is realized. A water-soluble electrically conductive and mechanically robust composite binder (SA-CR) propose by grafting Congo Red (CR) with the sodium alginate (SA) to form copolymers for recyclable LFP cathode. Due to no use of conductive additives, the LFP cathode could readily be recycled by soaking in the water which shed light on the possibility of exploring conductive water-soluble binder for recyclable electrode materials. [Display omitted]
ISSN:1001-8417
DOI:10.1016/j.cclet.2023.109389