Electronic transport in B-N substituted bilayer graphene nanojunctions

Electronic transport in B-N substituted bilayer graphene nanojunctions

We investigated a suspended bilayer graphene where the bottom/top layer is doped by boron/nitrogen substitutional atoms. By using density functional theory calculations, we found that at high dopant concentration (one B-N pair every 32 C atoms), the electronic structure of the bilayer does not depen...

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Veröffentlicht in:Physical review. B 2016-05, Vol.93 (20), Article 205420
Hauptverfasser: Giofré, Daniele, Ceresoli, Davide, Fratesi, Guido, Trioni, Mario I.
Format: Artikel
Sprache:eng
Schlagworte:
Charge transfer
Condensed matter
Dopants
Electric fields
Electron transport
Graphene
Nanostructure
Occupation
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Zusammenfassung:We investigated a suspended bilayer graphene where the bottom/top layer is doped by boron/nitrogen substitutional atoms. By using density functional theory calculations, we found that at high dopant concentration (one B-N pair every 32 C atoms), the electronic structure of the bilayer does not depend on the B-N distance but on the relative occupation of the bilayer graphene sublattices by B and N. The presence of the dopants and the consequent charge transfer establish a built-in electric field between the layers, giving rise to an energy gap. We further investigated the electronic transport properties and found that intralayer current is weakly influenced by the presence of these dopants while the interlayer one is enhanced for biases, allowing an easy tunneling between layers. This effect leads to current rectification in asymmetric junctions.
ISSN:2469-9950
2469-9969
DOI:10.1103/PhysRevB.93.205420