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On the mechanical properties and fracture patterns of the nonbenzenoid carbon allotrope (biphenylene network): a reactive molecular dynamics study

Marcelo Lopes Pereira, Wiliam Ferreira da Cunha, Rafael T. de Sousa, Georges Daniel Amvame Nze, Douglas S. Galvão, Luiz Antônio Ribeiro

2022Nanoscale43 citationsDOI

Abstract

-hybridized carbon atoms. In this work, we carried out fully-atomistic reactive (ReaxFF) molecular dynamics simulations to study the mechanical properties and fracture patterns of non-defective and defective (nanocracks) BPN. Results show that, under uniaxial tensile loading, BPN is converted into four distinct morphologies before fracture starts. This conversion process is dependent on the stretching direction. Some of the formed structures contain mainly eight-membered rings, which have different shapes in each morphology. In one of them, a graphitization process occurs before the complete fracture. Importantly, in the presence of nanocracks, no new morphologies are formed. BPN exhibits a distinct fracture process when contrasted to graphene. After the critical strain threshold, the graphene transitions from an elastic to a brittle regime, while BPN can exhibit different inelastic stages. These stages are associated with the appearance of new morphologies. However, BPN shares some of the exceptional graphene properties. BPN Young's modulus and melting point are comparable to graphene, about 1019.4 GPa and 4024 K, respectively.

Topics & Concepts

Materials scienceReaxFFMolecular dynamicsGrapheneBiphenyleneFracture (geology)BrittlenessCarbon fibersModulusUniaxial tensionComposite materialUltimate tensile strengthChemical physicsNanotechnologyComputational chemistryChemistryComposite numberInteratomic potentialPolymerPhenyleneGraphene research and applicationsCarbon Nanotubes in CompositesBoron and Carbon Nanomaterials Research
On the mechanical properties and fracture patterns of the nonbenzenoid carbon allotrope (biphenylene network): a reactive molecular dynamics study | Litcius