C (Dec 2023)

High Energy Density Primary Lithium Battery with Fluorinated S-Doped Graphene

  • Marie Colin,
  • Hani Farhat,
  • Sam Chen,
  • Elodie Petit,
  • Emmanuel Flahaut,
  • Katia Guérin,
  • Marc Dubois

DOI
https://doi.org/10.3390/c10010003
Journal volume & issue
Vol. 10, no. 1
p. 3

Abstract

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Sulphur-doped graphene was fluorinated using molecular fluorine (F2). First, the fluorination conditions were adapted in order to be mild enough to maintain S in the carbon lattice and form S-F bonds. An unusually weakened C-F bonding for an F/C ratio of 0.71 was then achieved, which allowed enhanced performances when used as a cathode in primary lithium batteries. The material prepared at a moderate fluorination temperature of 70 °C for a period of 60 min exhibits a high mid-discharge reduction potential of 3.11 V at 10 mA/g and a power density of 3605 W/kg at a discharge rate of 2C. These electrochemical properties make the fluorine/sulfur co-doped graphene a promising material.

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