Decoupling the Effect of Electrolyte Infiltration on the Intercalation of Alkali Metal Ions in Highly Oriented Pyrolytic Graphite

Zhi Yuan Li; Le Yang; Na Li; Siqi Lyu; Hao Sen Chen; Wei Li Song

doi:10.1149/1945-7111/accb6c

Decoupling the Effect of Electrolyte Infiltration on the Intercalation of Alkali Metal Ions in Highly Oriented Pyrolytic Graphite

Zhi Yuan Li, Le Yang, Na Li, Siqi Lyu, Hao Sen Chen, Wei Li Song

Institute of Advanced Structure Technology

Research output: Contribution to journal › Article › peer-review

Abstract

Diffusion coefficients of ion in graphitic materials are responsible for high-rate batteries. However, the complex electrochemical response presented a challenge to accurately measure 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. The presence of electrolyte has different effect on the interlayer diffusion of Li+ and Na+.

Original language	English
Article number	040531
Journal	Journal of the Electrochemical Society
Volume	170
Issue number	4
DOIs	https://doi.org/10.1149/1945-7111/accb6c
Publication status	Published - 1 Apr 2023

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title = "Decoupling the Effect of Electrolyte Infiltration on the Intercalation of Alkali Metal Ions in Highly Oriented Pyrolytic Graphite",

abstract = "Diffusion coefficients of ion in graphitic materials are responsible for high-rate batteries. However, the complex electrochemical response presented a challenge to accurately measure 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. The presence of electrolyte has different effect on the interlayer diffusion of Li+ and Na+.",

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T1 - Decoupling the Effect of Electrolyte Infiltration on the Intercalation of Alkali Metal Ions in Highly Oriented Pyrolytic Graphite

AU - Li, Zhi Yuan

AU - Yang, Le

AU - Li, Na

AU - Lyu, Siqi

AU - Chen, Hao Sen

AU - Song, Wei Li

PY - 2023/4/1

Y1 - 2023/4/1

N2 - Diffusion coefficients of ion in graphitic materials are responsible for high-rate batteries. However, the complex electrochemical response presented a challenge to accurately measure 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. The presence of electrolyte has different effect on the interlayer diffusion of Li+ and Na+.

AB - Diffusion coefficients of ion in graphitic materials are responsible for high-rate batteries. However, the complex electrochemical response presented a challenge to accurately measure 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. The presence of electrolyte has different effect on the interlayer diffusion of Li+ and Na+.

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Decoupling the Effect of Electrolyte Infiltration on the Intercalation of Alkali Metal Ions in Highly Oriented Pyrolytic Graphite

Abstract

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