Electronic structure of silicon-based nanostructures

Guzmán-Verri, G. G.; Voon, L. C. Lew Yan

doi:10.1103/physrevb.76.075131

articlePhysical Review BAug 30, 2007GREEN OA

Electronic structure of silicon-based nanostructures

GGG. G. Guzmán-Verri LCL. C. Lew Yan Voon

Wright State University · Universidad de Costa Rica

Indexed inarxivcrossref

Abstract

We have developed a unifying tight-binding Hamiltonian that can account for the electronic properties of recently proposed Si-based nanostructures, namely, Si graphene-like sheets and Si nanotubes. We considered the $s{p}^{3}{s}^{*}$ and $s{p}^{3}$ models up to first- and second-nearest neighbors, respectively. Our results show that the Si graphene-like sheets considered here are metals or zero-gap semiconductors, and that the corresponding Si nanotubes follow the so-called Hamada's [Phys. Rev. Lett. 68, 1579 (1992)] rule. Comparison to a recent ab initio calculation is made.

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Topics & keywords

Topics

Keywords

Graphene
Hamiltonian (control theory)
Nanostructure
Silicon
Ab initio
Materials science
Semiconductor
Tight binding

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