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Fullerenes, Nanotubes and Carbon Nanostructures Volume 20, 2012 - Issue 4-7: Proceedings of the Joint International Conference “Advanced Carbon Nanostructures”
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Original Articles

Stone–Wales Defect Generation in Carbon Nanotube Being Fractured

S. S. Moliver State University Ulyanovsk, Ulyanovsk, RussiaCorrespondence[email protected]
Pages 531-537 | Published online: 14 May 2012
 
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Abstract

Quantum-chemistry modeling of carbon nanotubes (8,0) and (5,5) has revealed certain properties of the topochemical Stone–Wales defect. The rolling-up of a planar graphene sheet into a small-diameter nanotube leads to an approximately 0.6 eV decrease in defect formation energy. The SW-defect localized states are resonant with nanotube energy spectrum. In the case of fracture-type deformation, the SW-defect on the compressed side of the tube is energetically favorable. At a fracture angle above critical value–yield point (1.7 deg for (8,0), 2.7 deg for (5,5)), SW-defect appearance decreases the total energy of the tube. Thus, fracturing deformation of the nanotube turns on a plasticity channel in the form of mechanical generation of the Stone–Wales defect.

Acknowledgments

This study was supported in part by the Russian Foundation for Basic Research, project N 08-03-97000.

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