First-principles study of O3 molecule adsorption on pristine, N, Ga-doped and -Ga-N- co-doped graphene
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Karagandy University of the name of acad. E.A. Buketov
Abstract
The adsorption of O3 molecules (ozone) on graphene, N-doped graphene, Ga-doped graphene, and
-Ga-N- co-doped graphene with an emphasis on O3 detection was examined in this work. The physical characteristics
of -Ga-N-co-doped graphene are significantly altered upon O3 adsorption, which makes it a suitable
choice for O3 detection molecular sensors. The interaction between the O3 molecule and the adsorbent is
explained on the basis of their adsorption energy, adsorption distance and charge transfer. It was found that
the adsorption of ozone molecules on the -Ga-N- co-doped graphene was more favorable in energy than that
on the pristine one, representing the superior sensing performance of -Ga-N- co-doped system. In our work,
we estimated the charge transfer between the O3 molecule and doped graphene nanostructures based on
Mulliken population analysis. The calculated adsorption energy value shows the ozone molecule more firmly
adsorbs on the surface of -Ga-N- co-doped graphene nanostructures (Eads = –1.74 eV) than that of pristine
graphene (Eads = –0.41 eV), deriving from a stronger covalent bond between the ozone molecule and the -Ga-
N- co-doped graphene nanostructures. Our findings thus suggest that -Ga-N- co-doped graphene could be a
highly efficient gas sensor device for O3 detection in the environment.
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First-principles study of O3 molecule adsorption on pristine, N, Ga-doped and -Ga-N- co-doped graphene/ Beall G.W. [et al.] // Bulletin of the Karaganda University. “Physics” Series. - 2024. - Vol. 29 - №3(115). – pp.15-24.