Exploring the adsorption mechanism of a CO<sub>2</sub> molecule in graphene and graphene oxide structures employing DFT

Erica Valencia Gomez; J. J. Prias-Barragan; Cristian Villa Zabala

Exploring the adsorption mechanism of a CO<sub>2</sub> molecule in graphene and graphene oxide structures employing DFT

POSTER

Abstract

In this research, we present a theoretical interpretation of the adsorption mechanism of a CO₂ molecule in graphene and graphene oxide (GO) structures, which were previously proposed, via DFT with hybrid functional B3LYP, obtaining the global reactivity indexes, the NCI and MEPs which were studied; finding, the formation of hydroxyl bridges; also, the adsorption of the CO₂ molecule by a physisorption mechanism and a decrement on the global reactivity. These results suggest that GO is an excellent candidate material to capture CO₂ from the environment.

Presenters

Erica Valencia Gomez

Universidad del Quindío

Authors

Erica Valencia Gomez

Universidad del Quindío
J. J. Prias-Barragan

Universidad del Quindío, Universidad del Quindio, Interdisciplinary Institute of Sciences, Doctoral Program in Physical Science and Electronic Instrumentation Program at Universidad del Quindío, Colombia, 630004.
Cristian Villa Zabala

Universidad del Quindío