Micrometer-scale ballistic transport in encapsulated graphene at room temperature

A. K. Geim; A. S. Mayorov; K. S. Novoselov; K. Watanabe; L. A. Ponomarenko; L. Britnell; P. Blake; R. Jalil; R. V. Gorbachev; S. V. Morozov

arxiv: 1103.4510 · v3 · pith:TTAJCBESnew · submitted 2011-03-23 · ❄️ cond-mat.mtrl-sci · cond-mat.mes-hall

Micrometer-scale ballistic transport in encapsulated graphene at room temperature

A. S. Mayorov , R. V. Gorbachev , S. V. Morozov , L. Britnell , R. Jalil , L. A. Ponomarenko , P. Blake , K. S. Novoselov

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K. Watanabe T. Taniguchi A. K. Geim

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classification ❄️ cond-mat.mtrl-sci cond-mat.mes-hall

keywords grapheneballisticencapsulatedtransportallowsambientanomalousatmosphere

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Devices made from graphene encapsulated in hexagonal boron-nitride exhibit pronounced negative bend resistance and an anomalous Hall effect, which are a direct consequence of room-temperature ballistic transport on a micrometer scale for a wide range of carrier concentrations. The encapsulation makes graphene practically insusceptible to the ambient atmosphere and, simultaneously, allows the use of boron nitride as an ultrathin top gate dielectric.

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Micrometer-scale ballistic transport in encapsulated graphene at room temperature

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