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Gaussian Curvature Effects on Graphene Quantum Dots

Sergio de-la-Huerta-Sainz, Ángel Ballesteros, Nicolás A. Cordero

2022Nanomaterials14 citationsDOIOpen Access PDF

Abstract

In the last few years, much attention has been paid to the exotic properties that graphene nanostructures exhibit, especially those emerging upon deforming the material. Here we present a study of the mechanical and electronic properties of bent hexagonal graphene quantum dots employing density functional theory. We explore three different kinds of surfaces with Gaussian curvature exhibiting different shapes-spherical, cylindrical, and one-sheet hyperboloid-used to bend the material, and several boundary conditions regarding what atoms are forced to lay on the chosen surface. In each case, we study the curvature energy and two quantum regeneration times (classic and revival) for different values of the curvature radius. A strong correlation between Gaussian curvature and these regeneration times is found, and a special divergence is observed for the revival time for the hyperboloid case, probably related to the pseudo-magnetic field generated by this curvature being capable of causing a phase transition.

Topics & Concepts

GrapheneQuantum dotGaussian curvatureCurvatureGaussianPhysicsStatistical physicsQuantum mechanicsMaterials scienceMathematicsGeometryGraphene research and applicationsGraphene and Nanomaterials ApplicationsCarbon and Quantum Dots Applications