Full-, Half-, and Symmetrical Cell Analysis of Lithium-Ion Battery Using Impedance and Nonlinear Frequency Response

Yan Ying Lee, Hoon Seng Chan, Julian Ulrich, A. Weber, Ulrike Krewer
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Abstract

This study presents an in-depth analysis of the cathode and anode of a commercial 18650 lithium-ion battery by comparing their dynamic behaviors systematically with that of two additional experimental cell setups: (i) full-cell in a three-electrode setup and (ii) symmetrical cathode and anode cells. The analysis involves subjecting the cells to electrochemical impedance spectroscopy, distribution of relaxation times, and nonlinear frequency response analysis at different state-of-charges. Our findings highlight the importance of analyzing the electrodes in all three setups. The impedance and nonlinear frequency response features of the full-cell are also observed in the electrode-resolved cells. Symmetrical cells exhibit stronger impedance and nonlinear responses compared to the commercial cell and the cell with reference electrode, yet they allow identifying contributions of the single cells without artifacts from inductive loops caused by the reference electrode. By correlating nonlinear signals and characteristic peaks across different cell setups, cathode and anode processes and their respective characteristic frequencies can be clearly identified.
利用阻抗和非线性频率响应分析锂离子电池的全、半和对称电芯
本研究对商用 18650 锂离子电池的阴极和阳极进行了深入分析,将其动态行为与另外两种实验电池设置进行了系统比较:(i) 三电极设置中的全电池;(ii) 对称阴极和阳极电池。分析包括在不同充电状态下对电池进行电化学阻抗光谱分析、弛豫时间分布分析和非线性频率响应分析。我们的研究结果强调了在所有三种设置中分析电极的重要性。全电池的阻抗和非线性频率响应特征在电极分辨电池中也能观察到。与商用电池和带参比电极的电池相比,对称电池表现出更强的阻抗和非线性响应,但它们可以识别单个电池的贡献,而不会受到参比电极造成的感应环的干扰。通过关联不同电池设置的非线性信号和特征峰值,可以清楚地识别阴极和阳极过程及其各自的特征频率。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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