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Voltage relaxation and impedance spectroscopy as in-operando methods for the detection of lithium plating on graphitic anodes in commercial lithium-ion cells

In this study, voltage relaxation and impedance spectroscopy are introduced as in-operando methods for detecting lithium plating in commercial lithium-ion cells with graphitic anodes. Voltage relaxation is monitored subsequent to defined charge steps of variable amplitudes, charge throughputs, termi...

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Bibliographic Details
Published in:Journal of power sources 2016-02, Vol.304, p.170-180
Main Authors: Schindler, Stefan, Bauer, Marius, Petzl, Mathias, Danzer, Michael A.
Format: Article
Language:English
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Summary:In this study, voltage relaxation and impedance spectroscopy are introduced as in-operando methods for detecting lithium plating in commercial lithium-ion cells with graphitic anodes. Voltage relaxation is monitored subsequent to defined charge steps of variable amplitudes, charge throughputs, termination criteria and at different ambient temperatures yielding dependencies over a wide experimental parameter range. An adapted differential voltage analysis is presented to resolve the characteristic mixed potential evolving in case of plating. Impedance spectroscopy is applied in parallel to the relaxation phase to trace a possible alteration of the cell's impedance due to the concurrent depletion of reversibly deposited lithium. The introduced voltage differentials are shown to resolve the mixed potential with restrictions only for little charge throughputs. The comparison of voltage relaxation and already established stripping discharge reveals similarities of the underlying physicochemical processes and allows an estimate of the amount of deposited lithium in case of relaxation. In the evolution of the cell's impedance, a reversible shrinkage of the high frequency intersection resistance and the arc representing the anodic charge transfer process are identified as indicators towards plating. The presented methods solely rely on non-destructive measurement quantities and thus are fully suitable for the application in battery management systems. •Detection of lithium plating by voltage relaxation, stripping discharge and EIS.•Adapted differential voltage method enables resolving lithium depletion process.•Voltage relaxation shows characteristics comparable to stripping discharge.•A reversible shrinking of the cell's impedance after the plating event is observed.•Correlation of adapted differential voltage and impedance characteristics is found.
ISSN:0378-7753
1873-2755
DOI:10.1016/j.jpowsour.2015.11.044