The role of ozone in the formation and structural evolution of graphene oxide obtained from nanographite

Autor: Sam Groveman, Lawrence M. Pratt, Charles Michael Drain, Ibrahim Diallo, Elizabeth J. Biddinger, Lynn C. Francesconi, Alexander Greer, Michele Vittadello, Boris Itin, Jing Peng, Steve Greenbaum
Rok vydání: 2017
Předmět:
Zdroj: Carbon. 122:411-421
ISSN: 0008-6223
Popis: Chemical exfoliation of graphite under strong oxidizing conditions yields graphene oxide nanosheets with oxy functional groups on the carbon basal plane. The importance of ozone in the chemical oxidation mechanism of graphite by the widely-used Hummers' method has been largely overlooked. Herein we demonstrate that the ozonolysis of graphite leads to the formation of secondary epoxy and peroxymonosulfate ester functional groups arising from a rotationally hindered Criegee intermediate and sulfuric acid, in a strongly favored thermodynamic process. This mechanistic step is followed by formation of adjacent epoxy and hydroxy groups as major functionalities on graphene oxides via a radical process, and leaves a significant amount of unreacted peroxides well above levels previously recognized. The thermal decomposition of graphene releases sulfur oxygen species (SO 2 and SO), but does not appear to release ozone even if this reaction pathway is moderately favored thermodynamically. We propose a new structural model for graphene oxide based on detailed chemical and spectroscopic data that provides insight into observed chemical reactivity and physical properties, including the antimicrobial activity and protein deactivation.
Databáze: OpenAIRE
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