Electron Tunneling through Ultrathin Boron Nitride Crystalline Barriers
Nano Letters 12(3): 1707-1710
Article 2012 English
Authors
LB
L. Britnell
РГ
Р. В. Горбачев
RJ
R. Jalil
Abstract
1 min read
We investigate the electronic properties of ultrathin hexagonal boron nitride (h-BN) crystalline layers with different conducting materials (graphite, graphene, and gold) on either side of the barrier layer. The tunnel current depends exponentially on the number of h-BN atomic layers, down to a monolayer thickness. Conductive atomic force microscopy scans across h-BN terraces of different thickness reveal a high level of uniformity in the tunnel current. Our results demonstrate that atomically thin h-BN acts as a defect-free dielectric with a high breakdown field. It offers great potential for applications in tunnel devices and in field-effect transistors with a high carrier density in the conducting channel.
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