Batteries (Apr 2024)

DFT Simulations Investigating the Trapping of Sulfides by 1T-Li<sub>x</sub>MoS<sub>2</sub> and 1T-Li<sub>x</sub>MoS<sub>2</sub>/Graphene Hybrid Cathodes in Li-S Batteries

  • Shumaila Babar,
  • Elaheh Hojaji,
  • Qiong Cai,
  • Constantina Lekakou

DOI
https://doi.org/10.3390/batteries10040124
Journal volume & issue
Vol. 10, no. 4
p. 124

Abstract

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The aim of this study is to investigate new materials that can be employed as cathode hosts in Li-S batteries, which would be able to overcome the effect of the shuttling of soluble polysulfides and maximize the battery capacity and energy density. Density functional theory (DFT) simulations are used to determine the adsorption energy of lithium sulfides in two types of cathode hosts: lithiated 1T-MoS2 (1T-LixMoS2) and hybrid 1T-LixMoS2/graphene. Initial simulations of lithiated 1T-MoS2 structures led to the selection of an optimized 1T-Li0.75MoS2 structure, which was utilized for the formation of an optimized 1T-Li0.75MoS2 bilayer and a hybrid 1T-Li0.75MoS2/graphene bilayer structure. It was found that all sulfides exhibited super-high adsorption energies in the interlayer inside the 1T-Li0.75MoS2 bilayer and very good adsorption energy values in the interlayer inside the hybrid 1T-Li0.75MoS2/graphene bilayer. The placement of sulfides outside each type of bilayer, over the 1T-Li0.75MoS2 surface, yielded good adsorption energies in the range of −2 to −3.8 eV, which are higher than those over a 1T-MoS2 substrate.

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