Electrochemical Dilatometry of Si-Bearing Electrodes: Dimensional Changes and Experiment Design

The severe volumetric changes in Si particles during the Li (de)alloying process cause expansion and contraction of the electrodes, which along with excessive electrolyte reduction and solid electrolyte interphase formation brings about rapid decay in cell capacity. In this work, we use operando ele...

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Bibliographic Details
Published in:Journal of the Electrochemical Society 2020-12, Vol.167 (16), p.160551
Main Authors: Prado, Andressa Y. R., Rodrigues, Marco-Tulio F., Trask, Stephen E., Shaw, Leon, Abraham, Daniel P.
Format: Article
Language:English
Subjects:
electrode polarization
electrode porosity
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INORGANIC, ORGANIC, PHYSICAL, AND ANALYTICAL CHEMISTRY
irreversible expansion
LiFSI
Polarization
porosity
Silicon
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Summary:The severe volumetric changes in Si particles during the Li (de)alloying process cause expansion and contraction of the electrodes, which along with excessive electrolyte reduction and solid electrolyte interphase formation brings about rapid decay in cell capacity. In this work, we use operando electrochemical dilatometry to quantify the (de)lithiation-induced expansion/contraction of Si-based and graphite-rich electrodes during electrochemical cycling. We evaluate the relationship between electrode capacity and dilation and observe that by increasing the Si contribution to the electrode capacity, the swelling is aggravated upon lithiation. For silicon-rich anodes, the electrode dilation can be higher than 300%, and the expansion profile consists of a combination of slow swelling at low lithiation followed by an accelerated increase at higher lithium contents. We investigate how electrode properties, such as porosity, affect the dilation profile and quantify the irreversible expansion of the electrodes. Finally, we discuss some of the challenges associated with the dilatometry technique and suggest experimental approaches for obtaining consistent and reliable data.
ISSN:0013-4651
1945-7111
DOI:10.1149/1945-7111/abd465