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Diffusion coefficients of ion in graphitic materials are responsible for high-rate batteries. However, the complex electrochemical response presents a challenge to accurately measuring the diffusion coefficient of alkali-metal ions in… Click to show full abstract
Diffusion coefficients of ion in graphitic materials are responsible for high-rate batteries. However, the complex electrochemical response presents a challenge to accurately measuring the diffusion coefficient of alkali-metal ions in graphitic materials. Here we design a method to identify the diffusion coefficients of Li+ and Na+ in highly oriented pyrolytic graphite (HOPG) with and without presence of liquid electrolyte infiltration. The results reveal inherent high diffusivity of Li+ in HOPG (∼10-7 cm2·s-1), as compared to HOPG with electrolyte infiltration (∼10-8 cm2·s-1), while Na+ has almost no interlayer diffusion without solvent infiltration.
Journal Title: Journal of The Electrochemical Society
Year Published: 2023
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