Regulating Diffusion Coefficient of Li+ by High Binding Energy Anion towards Ultra-Low Temperature Lithium-Ion Batteries

IF 5.1 4区 材料科学 Q2 ELECTROCHEMISTRY
Qiu Chen, Pan Luo, Li Liao, Yin Shen, Xiaoshuang Luo, Xinpeng Li, Xuanzhong Wen, Jialin Song, Dr. Bo Yu, Dr. Junchen Chen, Dr. Bingshu Guo, Prof. Mingshan Wang, Prof. Yun Huang, Fuliang Liu, Dr. Jiangtao Liu, Zhedong Li, Jingrun Ma, Shuiyong Wang, Prof. Xing Li
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Abstract

Electrolyte design is the optimal strategy to achieve extremely low temperature operation of lithium-ion batteries. Here, the diffusion coefficient of Li+ is proposed to improve the ion transport kinetics at low temperatures. The diffusion coefficient of Li+ is improved by constructing a Li+ solvation sheath with weak steric effects. Specifically, high binding energy BF4 anions are added to a 1 M LiPF6 in propyl acetate (PA) electrolyte. Since the binding energy of Li+ with BF4 is greater than that of PA. Therefore, the small-sized BF4 replaces the large-sized PA molecule to form a Li+ solvation sheath with a weak steric effect, which increases the diffusion coefficient of Li+. Using the high diffusion coefficient electrolyte, the 800 mAh pouch cell retain 91 % and 75 % of its room temperature capacity at −40 °C(0.5 C rate) and −60 °C (0.2 C rate), respectively. And it also shows stable cycling at −40 °C. This work provides a new strategy for designing low-temperature electrolytes of lithium-ion batteries.

Abstract Image

利用高结合能阴离子调节 Li+ 的扩散系数,实现超低温锂离子电池
电解质设计是实现锂离子电池超低温运行的最佳策略。这里提出了利用 Li+ 的扩散系数来改善低温下离子传输动力学的方法。通过构建具有弱立体效应的 Li+ 溶解鞘,可以提高 Li+ 的扩散系数。具体来说,在醋酸丙酯(PA)电解液中的 1M LiPF6 中加入高结合能的 BF4- 阴离子。由于 Li+ 与 BF4- 的结合能大于 PA 的结合能。因此,小尺寸的 BF4- 取代了大尺寸的 PA 分子,形成了一个具有弱立体效应的 Li+ 溶解鞘,从而提高了 Li+ 的扩散系数。使用高扩散系数电解质的 800 mAh 袋装电池在-40℃(0.5C 速率)和-60℃(0.2C 速率)条件下分别保持了室温容量的 91% 和 75%。它还能在-40℃下稳定循环。这项工作为锂离子电池低温电解质的设计提供了一种新策略。
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来源期刊
CiteScore
8.60
自引率
5.30%
发文量
223
期刊介绍: Electrochemical energy storage devices play a transformative role in our societies. They have allowed the emergence of portable electronics devices, have triggered the resurgence of electric transportation and constitute key components in smart power grids. Batteries & Supercaps publishes international high-impact experimental and theoretical research on the fundamentals and applications of electrochemical energy storage. We support the scientific community to advance energy efficiency and sustainability.
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