快速充电后石墨电极上的锂剥离动力学

IF 7.9 2区 综合性期刊 Q1 CHEMISTRY, MULTIDISCIPLINARY
Sobana P. Rangarajan, Conner Fear, Tanay Adhikary, Yevgen Barsukov, Gayatri Dadheech, Partha P. Mukherjee
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引用次数: 0

摘要

锂离子电池能否安全可靠地快速充电,取决于能否开发出简便的锂镀层检测和量化方法。在线锂镀层检测的主要候选方法之一是分析充电后静止或放电阶段观察到的电压高原。在这项工作中,根据电化学数据开发了一种操作度量 "S 因子",用于定量分析在一定范围的充电速率和温度下锂电镀层的严重程度。我们采用了一种原位可视化方法来研究石墨电极在电压高原期间发生的物理机制和相变。在此,我们报告了具有显著电荷异构状态的电镀电极表现出多个电压高原和更高比例的不可逆电镀。利用 S 因子和库仑无效率对电池进行表征,有助于确定高可逆锂镀层的机会区域,从而促进安全可靠的快速充电算法的开发。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Dynamics of lithium stripping on graphite electrodes after fast charging

Dynamics of lithium stripping on graphite electrodes after fast charging

Safe and reliable fast charging of lithium-ion batteries is contingent upon the development of facile methods of detection and quantification of lithium plating. Among the leading candidates for online lithium plating detection is analysis of the voltage plateau observed during the rest or discharge phase ensuing a charge. In this work, an operando metric, “S-factor,” is developed from electrochemical data to quantitatively analyze the severity of lithium plating over a range of charge rates and temperatures. An in situ visualization method is employed to study the physical mechanisms and phase transitions occurring at the graphite electrode during the voltage plateau. Here, we report that plated electrodes with significant state of charge heterogeneity exhibit multiple voltage plateaus and a higher proportion of irreversible plating. Cell characterization using S-factor and coulombic inefficiency helps in identifying the zone of opportunity with highly reversible lithium plating, facilitating development of safe and reliable fast-charging algorithms.

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来源期刊
Cell Reports Physical Science
Cell Reports Physical Science Energy-Energy (all)
CiteScore
11.40
自引率
2.20%
发文量
388
审稿时长
62 days
期刊介绍: Cell Reports Physical Science, a premium open-access journal from Cell Press, features high-quality, cutting-edge research spanning the physical sciences. It serves as an open forum fostering collaboration among physical scientists while championing open science principles. Published works must signify significant advancements in fundamental insight or technological applications within fields such as chemistry, physics, materials science, energy science, engineering, and related interdisciplinary studies. In addition to longer articles, the journal considers impactful short-form reports and short reviews covering recent literature in emerging fields. Continually adapting to the evolving open science landscape, the journal reviews its policies to align with community consensus and best practices.
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