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Designable ductility of a nano-network from few-layered graphene bonded with benzene: A molecular dynamics study

In nanoscale, motion operation of a nano-objective is usually realized by displacement load, which put forwards high requirement for ductility of material. Since pristine graphene has low ductility, once the stretching strain exceeds its critical value, it breaks in brittle style and loses ability to bear the external load quickly. Herein, to improve the ductility, a corrugated sandwich carbon nano-network model based on few-layered graphene is proposed, in which the two surface layers are bonded with several corrugated core layers via benzene molecules. Effects of factors such as the geometry of the carbon network, temperature, and strain rate, on the ductility are evaluated by molecular dynamics simulations. Conclusions are drawn for potential application of the new two-dimensional material with designable ductility.

preprint2020arXivOpen access
Jiao ShiJia-Long ZhangXin LiBo Song
physics.comp-ph
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Jiao ShiJia-Long ZhangXin LiBo Song

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