Absence of strong gate effects in electrical measurements on phenylene-based conjugated molecules

Jeong O. Lee; Günther Lientschnig; Frank Wiertz; Martin Struijk; Réne A J Janssen; Richard Egberink; David N. Reinhoudt; Peter Hadley; Cees Dekker

doi:10.1021/nl025882+

Absence of strong gate effects in electrical measurements on phenylene-based conjugated molecules

Jeong O. Lee^*, Günther Lientschnig, Frank Wiertz, Martin Struijk, Réne A J Janssen, Richard Egberink, David N. Reinhoudt, Peter Hadley, Cees Dekker

^*Corresponding author for this work

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

Abstract

The electronic transport characteristics of self-assembled monolayers of phenylene-based π-conjugated molecules were measured in a three-terminal device geometry. The short (∼1 nm) molecules were connected between two gold electrodes with a nearby Al₂O₃/Al gate electrode. It was possible to fabricate working devices using three of the five molecules investigated. The other two types of molecules led to devices where the Au electrodes were shorted together. Current-voltage characteristics as a function of the gate voltage are presented for the other three molecules. For some devices with 1,3-benzenedithiol, a weak gate effect was observed but no gating effect was observed for devices fabricated with the other molecules. The results are in strong contrast with those reported by Schön et al.

Original language	English
Pages (from-to)	113-117
Number of pages	5
Journal	Nano Letters
Volume	3
Issue number	2
DOIs	https://doi.org/10.1021/nl025882+
Publication status	Published - 1 Feb 2003
Externally published	Yes

ASJC Scopus subject areas

General Materials Science

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title = "Absence of strong gate effects in electrical measurements on phenylene-based conjugated molecules",

abstract = "The electronic transport characteristics of self-assembled monolayers of phenylene-based π-conjugated molecules were measured in a three-terminal device geometry. The short (∼1 nm) molecules were connected between two gold electrodes with a nearby Al2O3/Al gate electrode. It was possible to fabricate working devices using three of the five molecules investigated. The other two types of molecules led to devices where the Au electrodes were shorted together. Current-voltage characteristics as a function of the gate voltage are presented for the other three molecules. For some devices with 1,3-benzenedithiol, a weak gate effect was observed but no gating effect was observed for devices fabricated with the other molecules. The results are in strong contrast with those reported by Sch{\"o}n et al.",

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T1 - Absence of strong gate effects in electrical measurements on phenylene-based conjugated molecules

AU - Lee, Jeong O.

AU - Lientschnig, Günther

AU - Wiertz, Frank

AU - Struijk, Martin

AU - Janssen, Réne A J

AU - Egberink, Richard

AU - Reinhoudt, David N.

AU - Hadley, Peter

AU - Dekker, Cees

PY - 2003/2/1

Y1 - 2003/2/1

N2 - The electronic transport characteristics of self-assembled monolayers of phenylene-based π-conjugated molecules were measured in a three-terminal device geometry. The short (∼1 nm) molecules were connected between two gold electrodes with a nearby Al2O3/Al gate electrode. It was possible to fabricate working devices using three of the five molecules investigated. The other two types of molecules led to devices where the Au electrodes were shorted together. Current-voltage characteristics as a function of the gate voltage are presented for the other three molecules. For some devices with 1,3-benzenedithiol, a weak gate effect was observed but no gating effect was observed for devices fabricated with the other molecules. The results are in strong contrast with those reported by Schön et al.

AB - The electronic transport characteristics of self-assembled monolayers of phenylene-based π-conjugated molecules were measured in a three-terminal device geometry. The short (∼1 nm) molecules were connected between two gold electrodes with a nearby Al2O3/Al gate electrode. It was possible to fabricate working devices using three of the five molecules investigated. The other two types of molecules led to devices where the Au electrodes were shorted together. Current-voltage characteristics as a function of the gate voltage are presented for the other three molecules. For some devices with 1,3-benzenedithiol, a weak gate effect was observed but no gating effect was observed for devices fabricated with the other molecules. The results are in strong contrast with those reported by Schön et al.

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DO - 10.1021/nl025882+

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JO - Nano Letters

JF - Nano Letters

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Absence of strong gate effects in electrical measurements on phenylene-based conjugated molecules

Abstract

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