Add to ORKGThe electrical transport properties of graphene doped with gadolinium (Gd) adatoms have been measured. The gate voltage dependence of the conductivity shows that Gd produces n doping of graphene. The charged Gd ions act as scattering centers, lowering the sample mobility for both electrons and holes. The doping efficiency of Gd at 77 K reproduces theoretical predictions (0.7 electron per Gd adatom). On raising the sample temperature to even 150 K, clustering effects are observed and substantially modify the transport
Graphene is a very interesting new material, and promises attractive applications in future nanodevi...
Transition Metal (TM) atoms adsorption on graphene results in a tuning of their electronic, magnetic...
This work is devoted to investigating the changes of electronic properties of graphene devices by in...
Graphene, a single atom thick plane of graphite, is a novel two-dimensional electron system in which...
Graphene has proven to be an interesting and exciting material for experimental and theoretical rese...
The electronic transport properties of single layer graphene having a dilute coating of indium adato...
In this work, we systematically investigate and compare noninvasive doping of chemical vapor deposit...
In 2004 graphene, a monolayer of carbon atoms, has been isolated as the first real two-dimensional s...
In this thesis scanning probe techniques are used to study the transport properties of epitaxial-gro...
We investigate the electronic transport properties of Au-contacted graphene on Ge/Si(001). Kelvin pr...
Understanding the electrical transport properties of graphene provides a basis for determining its f...
To induce a non-negligible spin-orbit coupling in monolayer graphene, for the purposes of realizing ...
The temperature dependence of electric transport properties of single-layer and few-layer graphene a...
Graphene is of great fundamental interest and has potential applications in disruptive novel technol...
Motivated by experimental results on transport properties of graphene covered by gallium atoms, the ...
Graphene is a very interesting new material, and promises attractive applications in future nanodevi...
Transition Metal (TM) atoms adsorption on graphene results in a tuning of their electronic, magnetic...
This work is devoted to investigating the changes of electronic properties of graphene devices by in...
Graphene, a single atom thick plane of graphite, is a novel two-dimensional electron system in which...
Graphene has proven to be an interesting and exciting material for experimental and theoretical rese...
The electronic transport properties of single layer graphene having a dilute coating of indium adato...
In this work, we systematically investigate and compare noninvasive doping of chemical vapor deposit...
In 2004 graphene, a monolayer of carbon atoms, has been isolated as the first real two-dimensional s...
In this thesis scanning probe techniques are used to study the transport properties of epitaxial-gro...
We investigate the electronic transport properties of Au-contacted graphene on Ge/Si(001). Kelvin pr...
Understanding the electrical transport properties of graphene provides a basis for determining its f...
To induce a non-negligible spin-orbit coupling in monolayer graphene, for the purposes of realizing ...
The temperature dependence of electric transport properties of single-layer and few-layer graphene a...
Graphene is of great fundamental interest and has potential applications in disruptive novel technol...
Motivated by experimental results on transport properties of graphene covered by gallium atoms, the ...
Graphene is a very interesting new material, and promises attractive applications in future nanodevi...
Transition Metal (TM) atoms adsorption on graphene results in a tuning of their electronic, magnetic...
This work is devoted to investigating the changes of electronic properties of graphene devices by in...