Electronic properties of silicon nanotubes with distinct bond lengths

Hill, James; Bunder, Judith

Electronic properties of silicon nanotubes with distinct bond lengths

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posted on 2024-11-15, 14:58 authored by James HillJames Hill, Judith Bunder

We analyze the band structure of a silicon nanotube with sp^3 bonds and variable bond lengths. This nanotube has many similarities with a carbon nanotube including a band gap at half-filling and conducting behavior which is dependent on structure. We derive a simple formula which predicts when the nanotube is metallic. We discuss our results in the context of a nanotube subject to small applied strains as this provides a means of distorting bond lengths in a predictable way and may be tested experimentally. The affects of strain on nanotube conductance has important implications for sensor technology.

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Citation

Bunder, J. E. & Hill, J. M. (2009). Electronic properties of silicon nanotubes with distinct bond lengths. Physical Review B, 79 (3), 233401-1-233401-4.

Journal title

Physical Review B - Condensed Matter and Materials Physics

Volume

79

Issue

23

Publisher website/DOI

https://doi.org/10.1103/PhysRevB.79.233401

Language

English

RIS ID

29330

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lengths electronic properties distinct bond silicon nanotubes

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Electronic properties of silicon nanotubes with distinct bond lengths

History

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