Issue 2, 2016

Thermal curing of a self-assembled monolayer at the nanoscale

Abstract

On fabrication by contact printing, a nanostructured self-assembled monolayer (SAM) of alkanethiol contains a substantial fraction of unbound molecules that are either inverted among other upright molecules or piled on top of the SAM. The molecular dynamics simulation in the present study demonstrates that thermal annealing cures these defects for a SAM island of octadecanethiol. The SAM island melted partially as a result of heating, so the unbound molecules that had piled on top of the SAM island penetrated down to make contact with the surface, and the inverted molecules flipped to achieve adsorption. With subsequent cooling, the packing of sulfur atoms and alignment of alkyl chains of the SAM island were recovered. The molecular pathways for the adsorption of the unbound molecules were unraveled. The transition state and activation energy, calculated for each pathway in the absence of annealing, showed that these defects are incurable without the help of annealing.

Graphical abstract: Thermal curing of a self-assembled monolayer at the nanoscale

Supplementary files

Article information

Article type
Paper
Submitted
23 Sep 2015
Accepted
02 Dec 2015
First published
03 Dec 2015

Nanoscale, 2016,8, 1133-1139

Thermal curing of a self-assembled monolayer at the nanoscale

Z. Zhang, H. Kim, J. Noh, Y. Ahn, J. Y. Son and J. Jang, Nanoscale, 2016, 8, 1133 DOI: 10.1039/C5NR06559C

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