Please use this identifier to cite or link to this item: https://repositorio.uti.edu.ec//handle/123456789/6070
Title: Tuning the energy gap of graphene quantum dots functionalized by [sbnd]OH and [sbnd] COOH radicals: First principle study
Authors: Ojeda-Martínez, Miguel
Pérez-Martínez, Arturo
El Hamdaoui, Jawad
Courel-Piedrahita, Maykel
Feddi, El Mustapha
Thirumuruganandham, Saravana
Ojeda-Martínez, María
Cuevas-Figueroa, José
Velásquez-Ordoñez, Celso
Mowbray, Duncan
Issue Date: 2024
Publisher: Materials Chemistry and Physics. Volume 3111
Abstract: In this work, we performed theoretical calculations based on density functional theory for graphene quantum dots considering three different sizes. We consider graphene quantum dots formed by 7, 19, and 37 rings of C atoms in a hexagonal arrangement. The electronic band structure of graphite and graphene were calculated to evaluate the methodology and parameters used during calculations. The modeled graphene quantum dots structures were initially passivated by H atoms, then the H atoms were gradually replaced by [sbnd]OH or [sbnd]COOH radicals to investigate the influence of oxygen on the chemical stability and the energy gap. Based on the electric dipole moment, the replacement positions were selected. The results demonstrate that all the structures are chemically stable and that the energy gap depends on the number of [sbnd]OH or [sbnd]COOH radicals at the edge of the GQDs. H passivation results in energy gaps of 2.83 eV, 1.87 eV and 1.33 eV, decreasing with increasing [sbnd]OH or [sbnd]COOH radical amount. It was found that the energy gap varies non-monotonically as the [sbnd]OH or [sbnd]COOH radicals increase. To better understand the origin of the energy gap and its changes by [sbnd]OH or [sbnd]COOH radicals, we calculated the DOS and evaluated the HOMO and LUMO by Fermi surfaces.
URI: https://www.x-mol.net/paper/article/1712826086566154240
https://repositorio.uti.edu.ec//handle/123456789/6070
Appears in Collections:Artículos Científicos Indexados

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