Molecular Bridging of Silicon Nanogaps

Molecular Bridging of Silicon Nanogaps

The highly doped electrodes of a vertical silicon nanogap device have been bridged by a 5.85 nm long molecular wire, which was synthesized in situ by grafting 4-ethynylbenzaldehyde via C−Si links to the top and bottom electrodes and thereafter by coupling an amino-terminated fluorene unit to the ald...

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Bibliographic Details
Published in:ACS nano Vol. 4; no. 12; pp. 7401 - 7406
Main Authors: Ashwell, Geoffrey J, Phillips, Laurie J, Robinson, Benjamin J, Urasinska-Wojcik, Barbara, Lambert, Colin J, Grace, Iain M, Bryce, Martin R, Jitchati, Rukkiat, Tavasli, Mustafa, Cox, Timothy I, Sage, Ian C, Tuffin, Rachel P, Ray, Shona
Format: Journal Article
Language:English
Published: United States American Chemical Society 28-12-2010
Subjects:
silicon nanogap
stepwise synthesis
vertical nanogap electrode device
molecular electronics
molecular wire
self-assembled monolayer
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Summary:The highly doped electrodes of a vertical silicon nanogap device have been bridged by a 5.85 nm long molecular wire, which was synthesized in situ by grafting 4-ethynylbenzaldehyde via C−Si links to the top and bottom electrodes and thereafter by coupling an amino-terminated fluorene unit to the aldehyde groups of the activated electrode surfaces. The number of bridging molecules is constrained by relying on surface roughness to match the 5.85 nm length with an electrode gap that is nominally 1 nm wider and may be controlled by varying the reaction time: the device current increases from ≤1 pA at 1 V following the initial grafting step to 10−100 nA at 1 V when reacted for 5−15 min with the amino-terminated linker and 10 μA when reacted for 16−53 h. It is the first time that both ends of a molecular wire have been directly grafted to silicon electrodes, and these molecule-induced changes are reversible. The bridges detach when the device is rinsed with dilute acid solution, which breaks the imine links of the in situ formed wire and causes the current to revert to the subpicoampere leakage value of the 4-ethynylbenzaldehyde-grafted nanogap structure.
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ISSN:1936-0851
1936-086X
DOI:10.1021/nn102460z