Band Structure and Contact Resistance of Carbon Nanotubes Deformed by a Metal Contact

Roohollah Hafizi; Jerry Tersoff; Vasili Perebeinos

doi:10.1103/PhysRevLett.119.207701

Band Structure and Contact Resistance of Carbon Nanotubes Deformed by a Metal Contact

Roohollah Hafizi
, Jerry Tersoff
, Vasili Perebeinos

Department of Electrical Engineering

Skolkovo Institute of Science and Technology
Isfahan University of Technology
IBM

Research output: Contribution to journal › Article › peer-review

27 Scopus citations

Abstract

Capillary and van der Waals forces cause nanotubes to deform or even collapse under metal contacts. Using ab initio band structure calculations, we find that these deformations reduce the band gap by as much as 30%, while fully collapsed nanotubes become metallic. Moreover, degeneracy lifting due to the broken axial symmetry, and wave functions mismatch between the fully collapsed and the round portions of a CNT, lead to a 3 times higher contact resistance. The latter we demonstrate by contact resistance calculations within the tight-binding approach.

Original language	English
Article number	207701
Journal	Physical Review Letters
Volume	119
Issue number	20
DOIs	https://doi.org/10.1103/PhysRevLett.119.207701
State	Published - Nov 16 2017

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10.1103/PhysRevLett.119.207701

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title = "Band Structure and Contact Resistance of Carbon Nanotubes Deformed by a Metal Contact",

abstract = "Capillary and van der Waals forces cause nanotubes to deform or even collapse under metal contacts. Using ab initio band structure calculations, we find that these deformations reduce the band gap by as much as 30\%, while fully collapsed nanotubes become metallic. Moreover, degeneracy lifting due to the broken axial symmetry, and wave functions mismatch between the fully collapsed and the round portions of a CNT, lead to a 3 times higher contact resistance. The latter we demonstrate by contact resistance calculations within the tight-binding approach.",

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N2 - Capillary and van der Waals forces cause nanotubes to deform or even collapse under metal contacts. Using ab initio band structure calculations, we find that these deformations reduce the band gap by as much as 30%, while fully collapsed nanotubes become metallic. Moreover, degeneracy lifting due to the broken axial symmetry, and wave functions mismatch between the fully collapsed and the round portions of a CNT, lead to a 3 times higher contact resistance. The latter we demonstrate by contact resistance calculations within the tight-binding approach.

AB - Capillary and van der Waals forces cause nanotubes to deform or even collapse under metal contacts. Using ab initio band structure calculations, we find that these deformations reduce the band gap by as much as 30%, while fully collapsed nanotubes become metallic. Moreover, degeneracy lifting due to the broken axial symmetry, and wave functions mismatch between the fully collapsed and the round portions of a CNT, lead to a 3 times higher contact resistance. The latter we demonstrate by contact resistance calculations within the tight-binding approach.

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Band Structure and Contact Resistance of Carbon Nanotubes Deformed by a Metal Contact

Abstract

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