Add to ORKGWe use density functional theory and the van der Waals density functional (vdW-DF) method to determine the binding separation in bilayer and bulk graphane and study the changes in electronic band structure that arise with the multilayer formation. The calculated binding separation (distance between center-of-mass planes) and binding energy are 4.5 -5.0 angstrom (4.5 - 4.8 angstrom) and 75 - 102 meV/cell (93 - 127 meV/cell) in the bilayer (bulk), depending on the choice of vdW-DF version. We obtain the corresponding band diagrams using calculations in the ordinary generalized gradient approximation for the geometries specified by our vdW-DF results, so probing the indirect effect of vdW forces on electron behavior. We find significant band-g...
The neighboring layers in bilayer (and few-layer) graphenes of both AA and AB stacking motifs are kn...
We report results of first-principles density functional theory calculations, which introduce a new ...
Graphite-like hexagonal AlN (h-AlN) multilayers have been experimentally manifested and theoreticall...
We use density functional theory and the van der Waals density functional (vdW-DF) method to determ...
We investigated the nature of the cohesive energy between graphane sheets via multiple CH center dot...
In this communication, we present results of theoretical studies of various systems where Van der Wa...
We investigated the nature of the cohesive energy between graphane sheets via multiple CH···HC inter...
We report diffusion quantum Monte Carlo calculations of the interlayer binding energy of bilayer gra...
Graphene, which is accepted as the main material of nanomaterials, attracts great attention thanks t...
Systematic density functional theory (DFT) computations revealed the existence of considerable C–H··...
Graphane is a two-dimensional system consisting of a single planar layer of fully saturated carbon a...
International audienceDensity functional calculations including long-range dispersion effects demons...
Recent experimental work has demonstrated production of quasi free-standing graphene by methane inte...
Theoretical formulations capable of modeling chemical interactions over 3–4 orders of magnitude of b...
International Physics Conference at the Anatolian Peak (IPCAP) -- FEB 25-27, 2016 -- Ataturk Univ, N...
The neighboring layers in bilayer (and few-layer) graphenes of both AA and AB stacking motifs are kn...
We report results of first-principles density functional theory calculations, which introduce a new ...
Graphite-like hexagonal AlN (h-AlN) multilayers have been experimentally manifested and theoreticall...
We use density functional theory and the van der Waals density functional (vdW-DF) method to determ...
We investigated the nature of the cohesive energy between graphane sheets via multiple CH center dot...
In this communication, we present results of theoretical studies of various systems where Van der Wa...
We investigated the nature of the cohesive energy between graphane sheets via multiple CH···HC inter...
We report diffusion quantum Monte Carlo calculations of the interlayer binding energy of bilayer gra...
Graphene, which is accepted as the main material of nanomaterials, attracts great attention thanks t...
Systematic density functional theory (DFT) computations revealed the existence of considerable C–H··...
Graphane is a two-dimensional system consisting of a single planar layer of fully saturated carbon a...
International audienceDensity functional calculations including long-range dispersion effects demons...
Recent experimental work has demonstrated production of quasi free-standing graphene by methane inte...
Theoretical formulations capable of modeling chemical interactions over 3–4 orders of magnitude of b...
International Physics Conference at the Anatolian Peak (IPCAP) -- FEB 25-27, 2016 -- Ataturk Univ, N...
The neighboring layers in bilayer (and few-layer) graphenes of both AA and AB stacking motifs are kn...
We report results of first-principles density functional theory calculations, which introduce a new ...
Graphite-like hexagonal AlN (h-AlN) multilayers have been experimentally manifested and theoreticall...