锂离子电容器日历老化过程中的退化行为

Nagham El Ghossein, A. Sari, P. Venet
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引用次数: 7

摘要

锂离子电容器(Lithium-Ion Capacitors, lic)是一种以提供相对高能量和高功率为目标的混合超级电容器新技术。因此,它们的结构受到锂离子电池和传统超级电容器的启发而闻名。由于它们的杂化结构,它们在老化过程中具有独特的行为。本文研究了高温(60°C和70°C)和两种充电状态(充满电和完全放电)对锂离子电池加速老化的影响。将完全充电和完全放电的电池安装在高温下,并在12个月内监测其性能的演变。电化学阻抗谱是定期测量其容量的工具。结果表明,完全放电的llic性能会严重下降。例如,在60°C时,发现容量下降了45%。另一方面,充满电的电池损失了大约12%的初始容量,因此,在一篇论文中首次介绍了使锂离子电池处于静止状态时应该避免的充电状态。在比较不同温度下完全放电电池容量下降情况的基础上,分析了Arrhenius方程的参数。根据已建立的结果对结果进行了物理化学解释。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Degradation behavior of Lithium-Ion capacitors during calendar aging
Lithium-Ion Capacitors (LICs) are a new technology of hybrid supercapacitors that aims to deliver relatively high energy and high power. Therefore, they are known for their constitution inspired from lithium-ion batteries and conventional supercapacitors. Due to their hybrid structure, they have a unique behavior during aging. This paper concerns the effects of high temperatures (60°C and 70°C) and two states of charge (fully charged and fully discharged) on the acceleration of aging of LICs. Fully charged and fully discharged cells were mounted at high temperatures and the evolution of their properties was monitored during 12 months. Electrochemical Impedance spectroscopy was the tool for regularly measuring their capacity. Results showed that fully discharged LICs encounter huge deterioration of performance. For example, at 60°C, a capacity decrease of 45 % was found. On another hand, fully charged cells lost around 12 % of their initial capacity Therefore, the state of charge that should be avoided when leaving LICs at rest is introduced for the first time in a paper. Moreover, based on the comparison of capacity decrease of fully discharged cells at different temperatures, the parameters of Arrhenius equation were analyzed. A physicochemical interpretation of the results was made according to the established results.
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