Issue 4, 2014

Growth of polythiophene nano-walls and their unique electrochemical and optical properties

Abstract

It has been a persistent challenge to develop ordered conducting polymer nano- and micro-structures with a high active area. We herein report the method to produce and characterise a network of nanometre-sized walls (nano-walls) which forms on the surface of a conducting co-polymer composite film based on bithiophene and terthiophene prepared using vapour-phase polymerisation (VPP). The density and dimension of the walls are tunable in order to suit the application demands. The presence of nano-walls on the film surface increases the capacitance of the coating up to 3.4 times, making it a very promising candidate for energy and organic electronics applications. The nano-walls have also proved to be great candidates for photonic applications, efficiently guiding light. A two-step growth mechanism is proposed, which includes the reduction of Fe(III) and part of the tosylate ligands in the Fe(III) para-toluene sulphonate oxidant. This is the first report of a self-assembling conducting polymer material with nano-wall features induced by the conditions during VPP.

Graphical abstract: Growth of polythiophene nano-walls and their unique electrochemical and optical properties

Supplementary files

Article information

Article type
Communication
Submitted
22 Jan 2014
Accepted
29 Apr 2014
First published
29 Apr 2014

Mater. Horiz., 2014,1, 452-460

Growth of polythiophene nano-walls and their unique electrochemical and optical properties

B. Kolodziejczyk, O. Winther-Jensen, C. H. Ng, S. Lin, Q. Bao and B. Winther-Jensen, Mater. Horiz., 2014, 1, 452 DOI: 10.1039/C4MH00016A

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