Physicochemical properties of graphene oxide: density functional theory study

Abstract

Oxidation of graphene by oxygen and hydrogen peroxide molecule to afford graphene oxide (GO) has been studied by density functional theory (DFT) method. Formation of epoxy, hydroxyl, carbonyl carboxyl GOs and their optimized structures has been investigated. Adsorption of oxygen and hydrogen peroxide molecules on pristine and SW–defective GOs were investigated. The reaction energies for oxidation of graphene by oxygen molecule to afford carbonyl GO and hydrogen molecule and oxidation hydrogenation of graphene by hydrogen molecule to afford carboxyl GO and methane molecule were obtained. GOs simulated by random adsorptions of 3H₂O₂ and 3O₂ on basal planes of one and both sides of pristine and SW–defective graphene sheets were examined.