Making electrical contacts to molecular monolayers

X. D. Cui; X. Zarate; J. Tomfohr; O. F. Sankey; A. Primak; Ana Moore; Thomas Moore; D. Gust; G. Harris; Stuart Lindsay

doi:10.1088/0957-4484/13/1/302

Making electrical contacts to molecular monolayers

X. D. Cui, X. Zarate, J. Tomfohr, O. F. Sankey, A. Primak, Ana Moore, Thomas Moore, D. Gust, G. Harris, Stuart Lindsay

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

307 Scopus citations

Abstract

Electrical contacts between a metal probe and molecular monolayers have been characterized using conducting atomic force microscopy in an inert environment and in a voltage range that yields reversible current-voltage data. The current through alkanethiol monolayers depends on the contact force in a way that is accounted for by the change of chain-to-chain tunnelling with film thickness. The electronic decay constant, β_N, was obtained from measurements as a function of chain length at constant force and bias, yielding β_N = 0.8 ± 0.2 per methylene over a ± 3 V range. Current-voltage curves are difficult to reconcile with this almost constant value. Very different results are obtained when a gold tip contacts a 1, 8-octanedithiol film. Notably, the current-voltage curves are often independent of contact force. Thus the contact may play a critical role both in the nature of charge transport and the shape of the current-voltage curve.

Original language	English (US)
Pages (from-to)	5-14
Number of pages	10
Journal	Nanotechnology
Volume	13
Issue number	1
DOIs	https://doi.org/10.1088/0957-4484/13/1/302
State	Published - Feb 2002

ASJC Scopus subject areas

Bioengineering
General Chemistry
General Materials Science
Mechanics of Materials
Mechanical Engineering
Electrical and Electronic Engineering

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10.1088/0957-4484/13/1/302

Cite this

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title = "Making electrical contacts to molecular monolayers",

abstract = "Electrical contacts between a metal probe and molecular monolayers have been characterized using conducting atomic force microscopy in an inert environment and in a voltage range that yields reversible current-voltage data. The current through alkanethiol monolayers depends on the contact force in a way that is accounted for by the change of chain-to-chain tunnelling with film thickness. The electronic decay constant, βN, was obtained from measurements as a function of chain length at constant force and bias, yielding βN = 0.8 ± 0.2 per methylene over a ± 3 V range. Current-voltage curves are difficult to reconcile with this almost constant value. Very different results are obtained when a gold tip contacts a 1, 8-octanedithiol film. Notably, the current-voltage curves are often independent of contact force. Thus the contact may play a critical role both in the nature of charge transport and the shape of the current-voltage curve.",

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AU - Cui, X. D.

AU - Zarate, X.

AU - Tomfohr, J.

AU - Sankey, O. F.

AU - Primak, A.

AU - Moore, Ana

AU - Moore, Thomas

AU - Gust, D.

AU - Harris, G.

AU - Lindsay, Stuart

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N2 - Electrical contacts between a metal probe and molecular monolayers have been characterized using conducting atomic force microscopy in an inert environment and in a voltage range that yields reversible current-voltage data. The current through alkanethiol monolayers depends on the contact force in a way that is accounted for by the change of chain-to-chain tunnelling with film thickness. The electronic decay constant, βN, was obtained from measurements as a function of chain length at constant force and bias, yielding βN = 0.8 ± 0.2 per methylene over a ± 3 V range. Current-voltage curves are difficult to reconcile with this almost constant value. Very different results are obtained when a gold tip contacts a 1, 8-octanedithiol film. Notably, the current-voltage curves are often independent of contact force. Thus the contact may play a critical role both in the nature of charge transport and the shape of the current-voltage curve.

AB - Electrical contacts between a metal probe and molecular monolayers have been characterized using conducting atomic force microscopy in an inert environment and in a voltage range that yields reversible current-voltage data. The current through alkanethiol monolayers depends on the contact force in a way that is accounted for by the change of chain-to-chain tunnelling with film thickness. The electronic decay constant, βN, was obtained from measurements as a function of chain length at constant force and bias, yielding βN = 0.8 ± 0.2 per methylene over a ± 3 V range. Current-voltage curves are difficult to reconcile with this almost constant value. Very different results are obtained when a gold tip contacts a 1, 8-octanedithiol film. Notably, the current-voltage curves are often independent of contact force. Thus the contact may play a critical role both in the nature of charge transport and the shape of the current-voltage curve.

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Making electrical contacts to molecular monolayers

Abstract

ASJC Scopus subject areas

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