Add to ORKGThe fact that the resistance of propagating electrons in solids depends on their spin orientation has led to a new field called spintronics. With the parallel advances in nanoscience, it is now possible to talk about nanospintronics. Many works have focused on the study of charge transport along nanosystems, such as carbon nanotubes, graphene nanoribbons, or metallic nanowires, and spin dependent transport properties at this scale may lead to new behaviors due to the manipulation of a small number of spins. Metal nanowires have been studied as electric contacts where atomic and molecular insertions can be constructed. Here we describe what might be considered the ultimate spin device, namely, a Au thin nanowire with one Co atom bridging its...
First-principles and non-equilibrium Green’s function approaches are used to predict spin-polarized ...
We investigate a novel way to manipulate the spin-polarized transmission in a two-terminal zigzag gr...
Because of its fascinating electronic properties, graphene is expected to produce breakthroughs in m...
The fact that the resistance of propagating electrons in solids depends on their spin orientation ha...
Our theoretical study reveals the dependence of quantum conductance of Au-Co nanowires on their atom...
Todays conventional electronic devices are based on electron charge transport in semiconductor chann...
Controlling the spin of electrons in nanoscale electronic devices is one of the most promising topic...
We study electronic transport in systems comprising square graphene nanorings with a ferromagnetic i...
First-principles and non-equilibrium Green's function approaches are used to predict spin-polarized ...
Spin-hosting graphene nanostructures are promising metal-free systems for elementary quantum spintro...
Controlling the spin of electrons in nanoscale electronic devices is one of the most promising topic...
We investigate spin effects in transport across fully interacting, finite size graphene armchair nan...
International audienceAchieving highly spin-polarized electric currents in atomic-scale junctions is...
First-principles and non-equilibrium Green\u2019s function approaches are used to predict spin-polar...
We have carried out fully relativistic full-potential, spin-polarized, all-electron density-function...
First-principles and non-equilibrium Green’s function approaches are used to predict spin-polarized ...
We investigate a novel way to manipulate the spin-polarized transmission in a two-terminal zigzag gr...
Because of its fascinating electronic properties, graphene is expected to produce breakthroughs in m...
The fact that the resistance of propagating electrons in solids depends on their spin orientation ha...
Our theoretical study reveals the dependence of quantum conductance of Au-Co nanowires on their atom...
Todays conventional electronic devices are based on electron charge transport in semiconductor chann...
Controlling the spin of electrons in nanoscale electronic devices is one of the most promising topic...
We study electronic transport in systems comprising square graphene nanorings with a ferromagnetic i...
First-principles and non-equilibrium Green's function approaches are used to predict spin-polarized ...
Spin-hosting graphene nanostructures are promising metal-free systems for elementary quantum spintro...
Controlling the spin of electrons in nanoscale electronic devices is one of the most promising topic...
We investigate spin effects in transport across fully interacting, finite size graphene armchair nan...
International audienceAchieving highly spin-polarized electric currents in atomic-scale junctions is...
First-principles and non-equilibrium Green\u2019s function approaches are used to predict spin-polar...
We have carried out fully relativistic full-potential, spin-polarized, all-electron density-function...
First-principles and non-equilibrium Green’s function approaches are used to predict spin-polarized ...
We investigate a novel way to manipulate the spin-polarized transmission in a two-terminal zigzag gr...
Because of its fascinating electronic properties, graphene is expected to produce breakthroughs in m...