Theory of an all-carbon molecular switch

R. Gutierrez; G. Fagas; G. Cuniberti; F. Grossmann; R. Schmidt; K. Richter

Theory of an all-carbon molecular switch

R. Gutierrez
, G. Fagas
, G. Cuniberti
, F. Grossmann
, R. Schmidt
, K. Richter

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

Abstract

We study electron transport across a carbon molecular junction consisting of a C₆₀ molecule sandwiched between two semi-infinite metallic carbon nanotubes. It is shown that the Landauer conductance of this carbon hybrid system can be tuned within orders of magnitude not only by varying the tube-C₆₀ distance, but more importantly at fixed distances by (i) changing the orientation of the Buckminsterfullerene or (ii) rotating one of the tubes around its cylinder axis. Furthermore, it is explicitly shown that structural relaxation determines qualitatively the transmission spectrum of such devices.

Original language	English
Article number	113410
Pages (from-to)	1134101-1134104
Number of pages	4
Journal	Physical Review B - Condensed Matter and Materials Physics
Volume	65
Issue number	11
Publication status	Published - 15 Mar 2002
Externally published	Yes

Cite this

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abstract = "We study electron transport across a carbon molecular junction consisting of a C60 molecule sandwiched between two semi-infinite metallic carbon nanotubes. It is shown that the Landauer conductance of this carbon hybrid system can be tuned within orders of magnitude not only by varying the tube-C60 distance, but more importantly at fixed distances by (i) changing the orientation of the Buckminsterfullerene or (ii) rotating one of the tubes around its cylinder axis. Furthermore, it is explicitly shown that structural relaxation determines qualitatively the transmission spectrum of such devices.",

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AU - Gutierrez, R.

AU - Fagas, G.

AU - Cuniberti, G.

AU - Grossmann, F.

AU - Schmidt, R.

AU - Richter, K.

PY - 2002/3/15

Y1 - 2002/3/15

N2 - We study electron transport across a carbon molecular junction consisting of a C60 molecule sandwiched between two semi-infinite metallic carbon nanotubes. It is shown that the Landauer conductance of this carbon hybrid system can be tuned within orders of magnitude not only by varying the tube-C60 distance, but more importantly at fixed distances by (i) changing the orientation of the Buckminsterfullerene or (ii) rotating one of the tubes around its cylinder axis. Furthermore, it is explicitly shown that structural relaxation determines qualitatively the transmission spectrum of such devices.

AB - We study electron transport across a carbon molecular junction consisting of a C60 molecule sandwiched between two semi-infinite metallic carbon nanotubes. It is shown that the Landauer conductance of this carbon hybrid system can be tuned within orders of magnitude not only by varying the tube-C60 distance, but more importantly at fixed distances by (i) changing the orientation of the Buckminsterfullerene or (ii) rotating one of the tubes around its cylinder axis. Furthermore, it is explicitly shown that structural relaxation determines qualitatively the transmission spectrum of such devices.

UR - https://www.scopus.com/pages/publications/0037087935

M3 - Article

AN - SCOPUS:0037087935

SN - 0163-1829

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JO - Physical Review B - Condensed Matter and Materials Physics

JF - Physical Review B - Condensed Matter and Materials Physics

IS - 11

M1 - 113410

ER -

Theory of an all-carbon molecular switch

Abstract

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