J. A. Furst, J. Hashemi, T. Markussen, M. Brandbyge, A. P. Jauho, R. M. Nieminen
Published 2009-05-07Version 1
Fullerene functionalized carbon nanotubes -- NanoBuds -- form a novel class of hybrid carbon materials, which possesses many advantageous properties as compared to the pristine components. Here, we report a theoretical study of the electronic transport properties of these compounds. We use both ab initio techniques and tight-binding calculations to illustrate these materials' transmission properties, and give physical arguments to interpret the numerical results. Specifically, above the Fermi energy we find a strong reduction of electron transmission due to localized states in certain regions of the structure while below the Fermi energy all considered structures exhibit a high-transmission energy band with a geometry dependent width.
An efficient method for computing the electronic transport properties of a multi-terminal system
Tuning the electronic transport properties of graphene through functionalisation with fluorine
Effects of Domain Wall on Electronic Transport Properties in Mesoscopic Wire of Metallic Ferromagnets
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