[PDF][PDF] Tunable Thermal Transport and Mechanical Properties in Strained Graphene Nanoribbons
arXiv preprint arXiv:1001.3033, 2010•researchgate.net
We study the effects of stress and strain on thermal transport and mechanical properties of
armchair and zigzag graphene nanoribbons (AGNR and ZGNRs) using non-equilibrium
molecular dynamics simulations. Both nanoribbons buckle at low temperatures (100K) and
the buckling height decreases as the temperature increases. Moreover they experience an
intrinsic tensile stress which decreases as the temperature increases. The thermal
conductivity of AGNR∗ To whom correspondence should be addressed
armchair and zigzag graphene nanoribbons (AGNR and ZGNRs) using non-equilibrium
molecular dynamics simulations. Both nanoribbons buckle at low temperatures (100K) and
the buckling height decreases as the temperature increases. Moreover they experience an
intrinsic tensile stress which decreases as the temperature increases. The thermal
conductivity of AGNR∗ To whom correspondence should be addressed
Abstract
We study the effects of stress and strain on thermal transport and mechanical properties of armchair and zigzag graphene nanoribbons (AGNR and ZGNRs) using non-equilibrium molecular dynamics simulations. Both nanoribbons buckle at low temperatures (100K) and the buckling height decreases as the temperature increases. Moreover they experience an intrinsic tensile stress which decreases as the temperature increases. The thermal conductivity of AGNR∗ To whom correspondence should be addressed
researchgate.net
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