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Research on the correlation of mechanical properties of BN–graphene–BN/BN vertically-stacked nanostructures in the presence of interlayer sp<sup>3</sup> bonds and nanopores with temperature

Wenjuan Yao, Lei Fan

2020Physical Chemistry Chemical Physics26 citationsDOI

Abstract

bonds can be regarded as a special defect, which will increase the initial strain of the system. In addition, the mechanical properties of the nanostructure, containing square nanopores in the boron nitride region are most sensitive to temperature change, relative to the nanopore in the other two regions. Atoms (around square nanopores) are more likely to overcome the binding energy and lose stability from the inherent equilibrium position, relative to that of circular nanopores.

Topics & Concepts

NanoporeNanostructureMaterials scienceGrapheneChemical physicsBoron nitrideNanotechnologyForce field (fiction)CrystallographyChemistryPhysicsQuantum mechanicsGraphene research and applicationsBoron and Carbon Nanomaterials Research2D Materials and Applications
Research on the correlation of mechanical properties of BN–graphene–BN/BN vertically-stacked nanostructures in the presence of interlayer sp<sup>3</sup> bonds and nanopores with temperature | Litcius