Auxetic properties of a newly proposed γ-graphyne-like material

Abstract

In this work, we propose a new auxetic (negative Poisson's ratio values) structure, based on a γ-graphyne structure, here named Aγ G structure. Graphynes are 2D carbon allotropes with phenylic rings connected by acetylenic groups. The AγG structural/mechanical and electronic properties, as well as its thermal stability, were investigated using classical reactive and quantum molecular dynamics simulations. We found that AγG has a large bandgap of 2.48 eV and is thermally stable at a large range of temperatures. It presents a Young's modulus that is an order of magnitude smaller than that of graphene or γ-graphyne. The classical and quantum results are consistent and validate that the AγG is auxetic, both when isolated (vacuum) and when deposited on a copper substrate. We believe that this is the densest auxetic structure belonging to the graphyne-like families.