Add to ORKGScaling graphene down to nanoribbons is a promising route for the implementation of this material into devices. Quantum confinement of charge carriers in such nanostructures, combined with the electric field-induced break of symmetry in AB-stacked bilayer graphene, leads to a band gap wider than that obtained solely by this symmetry breaking. Consequently, the possibility of fabricating AB-stacked bilayer graphene nanoribbons with high precision is very attractive for the purposes of applied and basic science. Here we show a method, which includes a straightforward air annealing, for the preparation of quasi-free-standing AB-bilayer nanoribbons with different widths on SiC(0001). Furthermore, the experiments reveal that the degree of disord...
The ability to define an off state in logic electronics is the key ingredient that is impossible to ...
Équipe 102 : Surfaces et SpectroscopiesInternational audienceGraphene nanoribbons grown on sidewall ...
According to theoretical studies, narrow graphene nanoribbons with atomically precise armchair edges...
Scaling graphene down to nanoribbons is a promising route for the implementation of this material in...
One of the ways to use graphene in field effect transistors is to introduce a band gap by quantum co...
We propose a natural way to create quantum-confined regions in graphene in a system that allows larg...
We propose a natural way to create quantum-confined regions in graphene in a system that allows larg...
One of the ways to use graphene in field effect transistors is to introduce a band gap by quantum co...
We propose a natural way to create quantum-confined regions in graphene in a system that allows larg...
One of the ways to use graphene in field effect transistors is to introduce a band gap by quantum co...
13 pages, 5 figuresInternational audienceExcellent electronic properties notwithstanding, the use of...
The tunable electronic structure of graphene nanoribbons (GNRs) has attracted much attention due to ...
Graphene nanostructures directly grown on SiC are appealing for their potential application to nano-...
The ability to define an off state in logic electronics is the key ingredient that is impossible to ...
The ability to define an off state in logic electronics is the key ingredient that is impossible to ...
The ability to define an off state in logic electronics is the key ingredient that is impossible to ...
Équipe 102 : Surfaces et SpectroscopiesInternational audienceGraphene nanoribbons grown on sidewall ...
According to theoretical studies, narrow graphene nanoribbons with atomically precise armchair edges...
Scaling graphene down to nanoribbons is a promising route for the implementation of this material in...
One of the ways to use graphene in field effect transistors is to introduce a band gap by quantum co...
We propose a natural way to create quantum-confined regions in graphene in a system that allows larg...
We propose a natural way to create quantum-confined regions in graphene in a system that allows larg...
One of the ways to use graphene in field effect transistors is to introduce a band gap by quantum co...
We propose a natural way to create quantum-confined regions in graphene in a system that allows larg...
One of the ways to use graphene in field effect transistors is to introduce a band gap by quantum co...
13 pages, 5 figuresInternational audienceExcellent electronic properties notwithstanding, the use of...
The tunable electronic structure of graphene nanoribbons (GNRs) has attracted much attention due to ...
Graphene nanostructures directly grown on SiC are appealing for their potential application to nano-...
The ability to define an off state in logic electronics is the key ingredient that is impossible to ...
The ability to define an off state in logic electronics is the key ingredient that is impossible to ...
The ability to define an off state in logic electronics is the key ingredient that is impossible to ...
Équipe 102 : Surfaces et SpectroscopiesInternational audienceGraphene nanoribbons grown on sidewall ...
According to theoretical studies, narrow graphene nanoribbons with atomically precise armchair edges...