Add to ORKGPolycrystalline graphene has an inherent tendency to buckle, i.e., develop out-of-plane, three-dimensional structure. A force applied to stretch a piece of polycrystalline graphene influences the out-of-plane structure. Even if the graphene is well relaxed, this happens in nonlinear fashion: Occasionally, a tiny increase in stretching force induces a significant displacement, in close analogy to avalanches, which in turn can create vibrations in the surrounding medium. We establish this effect in computer simulations: By continuously changing the strain, we follow the displacements of the carbon atoms that turn out to exhibit a discontinuous evolution. Furthermore, the displacements exhibit a hysteretic behavior upon the change from low to ...
Graphene can now be found in many different technologies, with new and innovative products expected ...
AbstractTwo-dimensional (2D) layers like graphene are subject to long-wavelength fluctuations that m...
The exceptional properties of the two-dimensional material graphene make it attractive for multiple ...
Polycrystalline graphene has an inherent tendency to buckle, i.e., develop out-of-plane, three-dimen...
There is a growing interest in the strain engineering of 2D materials for applications in semiconduc...
Mechanics of polycrystalline graphene are studied through molecular dynamics simulations. Local buck...
The movement of dislocations in a crystal is the key mechanism for plastic deformation in all materi...
The movement of dislocations in a crystal is the key mechanism for plastic deformation in all materi...
First principle calculations are performed to show that the bending rigidity of graphene can be soft...
We study the dispersion characteristics of strained graphene using many-body interatomic potentials ...
The effect of intrinsic ripples on the mechanical response of the graphene monolayer is investigated...
The deformation behavior of nanocrystalline graphene sheets is investigated by molecular dynamics (M...
Two-dimensional (2D) layers like graphene are subject to long-wavelength fluctuations that manifest ...
The unique lattice structure and properties of graphene has drawn tremendous interests recently. By ...
We present a molecular modeling study analyzing nanometer-scale strain variations in graphene as a f...
Graphene can now be found in many different technologies, with new and innovative products expected ...
AbstractTwo-dimensional (2D) layers like graphene are subject to long-wavelength fluctuations that m...
The exceptional properties of the two-dimensional material graphene make it attractive for multiple ...
Polycrystalline graphene has an inherent tendency to buckle, i.e., develop out-of-plane, three-dimen...
There is a growing interest in the strain engineering of 2D materials for applications in semiconduc...
Mechanics of polycrystalline graphene are studied through molecular dynamics simulations. Local buck...
The movement of dislocations in a crystal is the key mechanism for plastic deformation in all materi...
The movement of dislocations in a crystal is the key mechanism for plastic deformation in all materi...
First principle calculations are performed to show that the bending rigidity of graphene can be soft...
We study the dispersion characteristics of strained graphene using many-body interatomic potentials ...
The effect of intrinsic ripples on the mechanical response of the graphene monolayer is investigated...
The deformation behavior of nanocrystalline graphene sheets is investigated by molecular dynamics (M...
Two-dimensional (2D) layers like graphene are subject to long-wavelength fluctuations that manifest ...
The unique lattice structure and properties of graphene has drawn tremendous interests recently. By ...
We present a molecular modeling study analyzing nanometer-scale strain variations in graphene as a f...
Graphene can now be found in many different technologies, with new and innovative products expected ...
AbstractTwo-dimensional (2D) layers like graphene are subject to long-wavelength fluctuations that m...
The exceptional properties of the two-dimensional material graphene make it attractive for multiple ...