Motivated by experimental results on transport properties of graphene covered by gallium atoms, the density functional theory study of clustering of gallium atoms on graphene (up to a size of 8 atoms) is presented. The paper explains a rapid initial increase of graphene electron doping by individual Ga atoms with Ga coverage, which is continually reduced to zero, when bigger multiple-atom clusters have been formed. According to density functional theory calculations with and without the van der Waals correction, gallium atoms start to form a three-dimensional cluster from five and three atoms, respectively. The results also explain an easy diffusion of Ga atoms while forming clusters caused by a small diffusion barrier of 0.11 eV. Moreover,...
In this work, we present the adsorption of AunPtn clusters on graphene surface by using the density-...
Nanoparticles exhibit characteristics that are different from bulk materials as well as from atoms r...
During the last decades the specific manipulation of matter on the (sub-) nanometer scale, also know...
Transition Metal (TM) atoms adsorption on graphene results in a tuning of their electronic, magnetic...
We study the diffusion dynamics, the diffusion mechanisms, and the adsorption energetics of Ag, Au, ...
This work is devoted to investigating the changes of electronic properties of graphene devices by in...
The molecular nature (Ga2)n of gallium makes this an interesting metal to investigate for the develo...
In this study, the adsorption influence of two different metals, gallium (Ga) and arsenide (As) adat...
Graphene and GaAs nanostructures are well-known materials that have potential application in modern ...
We perform a phenomenological analysis of the problem of the electronic doping of a graphene sheet b...
In contemporary solid-state research, various approaches exist to manipulate and study material prop...
We investigated the interaction between size-selected Au2 and Au3 clusters and graphene. Hereto pref...
© 2018 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim Graphene's sensitivity to adsorbed particles has...
The electrical transport properties of graphene doped with gadolinium (Gd) adatoms have been measure...
The density functional formalism has been used to investigate the stability and the properties of sm...
In this work, we present the adsorption of AunPtn clusters on graphene surface by using the density-...
Nanoparticles exhibit characteristics that are different from bulk materials as well as from atoms r...
During the last decades the specific manipulation of matter on the (sub-) nanometer scale, also know...
Transition Metal (TM) atoms adsorption on graphene results in a tuning of their electronic, magnetic...
We study the diffusion dynamics, the diffusion mechanisms, and the adsorption energetics of Ag, Au, ...
This work is devoted to investigating the changes of electronic properties of graphene devices by in...
The molecular nature (Ga2)n of gallium makes this an interesting metal to investigate for the develo...
In this study, the adsorption influence of two different metals, gallium (Ga) and arsenide (As) adat...
Graphene and GaAs nanostructures are well-known materials that have potential application in modern ...
We perform a phenomenological analysis of the problem of the electronic doping of a graphene sheet b...
In contemporary solid-state research, various approaches exist to manipulate and study material prop...
We investigated the interaction between size-selected Au2 and Au3 clusters and graphene. Hereto pref...
© 2018 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim Graphene's sensitivity to adsorbed particles has...
The electrical transport properties of graphene doped with gadolinium (Gd) adatoms have been measure...
The density functional formalism has been used to investigate the stability and the properties of sm...
In this work, we present the adsorption of AunPtn clusters on graphene surface by using the density-...
Nanoparticles exhibit characteristics that are different from bulk materials as well as from atoms r...
During the last decades the specific manipulation of matter on the (sub-) nanometer scale, also know...