Evaluating the Aging-Induced Voltage Slippery as Cause for Float Currents of Lithium-ion Cells

IF 4.6 4区 化学 Q2 ELECTROCHEMISTRY
Mohamed Azzam, C. Endisch, Meinert Lewerenz
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Abstract

This paper provides a comprehensive exploration of float current analysis in lithium-ion batteries, a promising new testing method to assess calendar aging. Float currents are defined as the steady-state trickle charge current after a transient part. In the literature, a correlation to capacity loss was reported. Assuming the float current compensates for the voltage decay over time and is linked to calendar aging, effects from voltage slippery must be considered. The dU/dQ analysis suggests solely a loss of active lithium. Therefore, we investigate the solid electrolyte interphase (SEI) growth as the general aging mechanism to explain the origin of float currents. Our results show that the voltage slippery theory holds true within the low to middle test voltage ranges. However, the theory’s explanatory power begins to diminish at higher voltage ranges, suggesting the existence of additional, yet unidentified, factors influencing the float current. A shuttle reaction or lithiation of the cathode by electrolyte decomposition are the most promising alternative aging mechanisms at high voltages. The paper proposes a unique voltage slippery model to check for correlations between aging mechanisms, the float current test and the check-up test. For a better understanding, test strategies are proposed to verify/falsify the aging mechanisms beyond SEI.
评估锂离子电池老化引起的电压滑移对浮充电流的影响
本文全面探讨了锂离子电池中的浮充电流分析,这是一种很有前途的评估日历老化的新测试方法。浮充电流被定义为瞬态部分后的稳态涓流充电电流。文献报道了浮充电流与容量损失的相关性。假设浮充电流补偿了电压随时间的衰减并与日历老化有关,则必须考虑电压滑动的影响。dU/dQ 分析表明,这仅仅是活性锂的损失。因此,我们研究了固体电解质相间层(SEI)的生长作为一般老化机制,以解释浮充电流的起源。我们的研究结果表明,电压滑动理论在中低测试电压范围内是正确的。然而,在较高的电压范围内,该理论的解释力开始减弱,这表明还存在其他尚未确定的因素影响着浮子电流。穿梭反应或电解质分解导致的阴极锂化是高电压下最有希望的替代老化机制。本文提出了一个独特的电压滑动模型,以检查老化机制、浮子电流测试和检查测试之间的相关性。为了更好地理解,还提出了验证/证伪 SEI 之外的老化机制的测试策略。
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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来源期刊
Batteries
Batteries Energy-Energy Engineering and Power Technology
CiteScore
4.00
自引率
15.00%
发文量
217
审稿时长
7 weeks
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