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Issue 10, 2012
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Structured oligo(aniline) nanofilms via ionic self-assembly

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Abstract

Conducting polymers have shown great potential for application in electronic devices. A major challenge in such applications is to control the supramolecular structures these materials form to optimise the functionality. In this work we probe the structure of oligo(aniline) thin films (of sub-μm thickness) drop cast on a silicon substrate using synchrotron surface diffraction. Self-assembly was induced through doping with an acid surfactant, bis(ethyl hexyl) phosphate (BEHP), resulting in the formation of well-ordered lamellae with the d-spacing ranging from 2.15 nm to 2.35 nm. The exact structural characteristics depended both on the oligomer chain length and film thickness, as well as the doping ratio. Complementary UV/Vis spectroscopy measurements confirm that such thin films retain their bulk electronic properties. Our results point to a simple and effective ionic self-assembly approach to prepare thin films with well-defined structures by tailoring parameters such as the oligomer molecular architecture, the nanofilm composition and the interfacial roughness.

Graphical abstract: Structured oligo(aniline) nanofilms via ionic self-assembly

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Supplementary files

Article information


Submitted
03 Aug 2011
Accepted
23 Nov 2011
First published
23 Dec 2011

Soft Matter, 2012,8, 2824-2832
Article type
Paper

Structured oligo(aniline) nanofilms via ionic self-assembly

T. G. Dane, P. T. Cresswell, O. Bikondoa, G. E. Newby, T. Arnold, C. F. J. Faul and W. H. Briscoe, Soft Matter, 2012, 8, 2824
DOI: 10.1039/C2SM06492H

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