A molecular dynamics investigation on mechanical properties of hydrogenated graphynes

Graphyne, a new type of carbon allotropes, has attracted considerable attention in recent years. Using molecular dynamics simulations, we investigate the mechanical properties of four different graphynes (α-, β-, γ-, and 6,6,12-graphynes) functionalized with hydrogen. The simulations results show th...

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Bibliographic Details
Published in:Journal of applied physics 2013-08, Vol.114 (7)
Main Authors: Zhang, Ying-Yan, Pei, Qing-Xiang, Wang, Chien-Ming, Cheng, Yuan, Zhang, Yong-Wei
Format: Article
Language:English
Subjects:
Fracture mechanics
Hydrogenation
Linkages
Mechanical properties
Molecular dynamics
Reduction
Simulation
Stresses
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Summary:Graphyne, a new type of carbon allotropes, has attracted considerable attention in recent years. Using molecular dynamics simulations, we investigate the mechanical properties of four different graphynes (α-, β-, γ-, and 6,6,12-graphynes) functionalized with hydrogen. The simulations results show that hydrogenation can greatly deteriorate the mechanical properties of the graphynes. For the different graphynes with 100% H-coverage, the reduction in fracture stress depends on the percentage of acetylenic linkages in the graphyne structures: The more the acetylenic linkages, the larger the reduction. For the same graphyne, the reduction in fracture stress depends on the hydrogenation location, distribution, and coverage. Hydrogenation on the acetylenic linkages causes a larger reduction in fracture stress than that on the hexagonal rings. A line hydrogenation perpendicular to the tensile direction leads to a larger reduction in fracture stress than that when the line hydrogenation is parallel to the tensile direction. For random hydrogenation, the fracture stress and Young's modulus decrease rapidly at low H-coverage (
ISSN:0021-8979
1089-7550
DOI:10.1063/1.4818623