Add to ORKGThe thermodynamic preference of a foreign atom for adsorption on versus intercalation into a graphitic surface is of fundamental and widespread interest. From an exhaustive first-principles density functional theory investigation for 38 typical elements over the periodic table, we reveal a quasilinear correlation between the Shannon effective ionic radius and the chemical-potential difference for a single atom from adsorption to intercalation at multilayer graphene surfaces. A critical Shannon radius is found to be around 0.10 nm, below (above) which intercalation (adsorption) is more favorable for elements with ionic-like bonding after intercalation. Single atoms with van der Waals-biased bonding show some deviation from the linear relatio...
Employing density functional theory we studied microscopic mechanisms governing initial stages of gr...
We have studied the effect of Au intercalation on the atomic and electronic structure of the graphen...
The interest in understanding the interaction between graphene and atoms that are adsorbed on its su...
The thermodynamic preference of a foreign atom for adsorption on versus intercalation into a graphit...
We investigate the mechanism of the intercalation-aided exfoliation of graphite using van der Waals ...
We investigate the mechanism of the intercalation-aided exfoliation of graphite using van der Waals ...
International audienceGraphene-based two-dimensional materials have attracted an increasing attentio...
Carbon nanomaterials have attracted much attention because they are candidates for post-silicon mate...
The ease by which graphene is affected through contact with other materials is one of its unique fea...
The adsorption of neutral (poly)-aromatic, antiaromatic, and more generally π-conjugated systems on ...
We report density functional theory (DFT) calculations for gold atoms and dimers on the surface of g...
Nano-sized materials have promising contemporary and novel technological applications as they posses...
The interaction between a single atom and graphene is an example in which the density functional the...
Elemental adsorption on graphene offers an effective procedure in fine-tuning electronic and mechani...
p. 1-8In this work, ab initio density functional theory calculations were performed in order to stud...
Employing density functional theory we studied microscopic mechanisms governing initial stages of gr...
We have studied the effect of Au intercalation on the atomic and electronic structure of the graphen...
The interest in understanding the interaction between graphene and atoms that are adsorbed on its su...
The thermodynamic preference of a foreign atom for adsorption on versus intercalation into a graphit...
We investigate the mechanism of the intercalation-aided exfoliation of graphite using van der Waals ...
We investigate the mechanism of the intercalation-aided exfoliation of graphite using van der Waals ...
International audienceGraphene-based two-dimensional materials have attracted an increasing attentio...
Carbon nanomaterials have attracted much attention because they are candidates for post-silicon mate...
The ease by which graphene is affected through contact with other materials is one of its unique fea...
The adsorption of neutral (poly)-aromatic, antiaromatic, and more generally π-conjugated systems on ...
We report density functional theory (DFT) calculations for gold atoms and dimers on the surface of g...
Nano-sized materials have promising contemporary and novel technological applications as they posses...
The interaction between a single atom and graphene is an example in which the density functional the...
Elemental adsorption on graphene offers an effective procedure in fine-tuning electronic and mechani...
p. 1-8In this work, ab initio density functional theory calculations were performed in order to stud...
Employing density functional theory we studied microscopic mechanisms governing initial stages of gr...
We have studied the effect of Au intercalation on the atomic and electronic structure of the graphen...
The interest in understanding the interaction between graphene and atoms that are adsorbed on its su...