Atoms (Dec 2015)

Density Functional Theory (DFT) Study on the Ternary Interaction System of the Fluorinated Ethylene Carbonate, Li+ and Graphene Model

  • Mami Mutoh,
  • Shigeaki Abe,
  • Teruo Kusaka,
  • Mariko Nakamura,
  • Yasuhiro Yoshida,
  • Junichiro Iida,
  • Hiroto Tachikawa

DOI
https://doi.org/10.3390/atoms4010004
Journal volume & issue
Vol. 4, no. 1
p. 4

Abstract

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The ternary interaction system composed of fluorinated ethylene carbonate, denoted by EC(F), lithium ion (Li+) and a model of nano-structured graphene has been investigated by means of the density functional theory (DFT) method. For comparison, fluorinated vinylene carbonate, denoted by VC(F), was also used. The model of graphene consisting of 14 benzene rings was examined as a nano-structured graphene. The effects of fluorine substitution on the electronic state and binding energy were investigated from a theoretical point of view. It was found that both EC(F) and VC(F) bind to a hexagonal site corresponding to the central benzene ring of the model of the graphene surface. The binding energies of Li+EC(F) and Li+VC(F) to the model of graphene decreased with increasing number of fluorine atoms (n).

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