Visualisation of edge effects in side-gated graphene nanodevices

Panchal, V; Lartsev, A; Manzin, Alessandra; Yakimova, R; Tzalenchuk, A; Kazakova, O.

doi:10.1038/srep05881

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Using local scanning electrical techniques we study edge effects in side-gated Hall bar nanodevices made of epitaxial graphene. We demonstrate that lithographically defined edges of the graphene channel exhibit hole conduction within the narrow band of similar to 60-125 nm width, whereas the bulk of the material is electron doped. The effect is the most pronounced when the influence of atmospheric contamination is minimal. We also show that the electronic properties at the edges can be precisely tuned from hole to electron conduction by using moderate strength electrical fields created by side-gates. However, the central part of the channel remains relatively unaffected by the side-gates and retains the bulk properties of graphene.

Titolo:	Visualisation of edge effects in side-gated graphene nanodevices
Autori:	Panchal V Lartsev A MANZIN, ALESSANDRA Yakimova R Tzalenchuk A Kazakova O. mostra contributor esterni nascondi contributor esterni
Data di pubblicazione:	2014
Rivista:	SCIENTIFIC REPORTS
Abstract:	Using local scanning electrical techniques we study edge effects in side-gated Hall bar nanodevices made of epitaxial graphene. We demonstrate that lithographically defined edges of the graphene channel exhibit hole conduction within the narrow band of similar to 60-125 nm width, whereas the bulk of the material is electron doped. The effect is the most pronounced when the influence of atmospheric contamination is minimal. We also show that the electronic properties at the edges can be precisely tuned from hole to electron conduction by using moderate strength electrical fields created by side-gates. However, the central part of the channel remains relatively unaffected by the side-gates and retains the bulk properties of graphene.
Handle:	http://hdl.handle.net/11696/33303
Appare nelle tipologie:	1.1 Articolo in rivista

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