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ABSTRACT
Exposure of electrostatically assembled polyelectrolyte films comprised of the anionic carboxylic conjugated polymer poly[2-(3-thienyl)-ethanolhydroxycarbonylmethyl-urethane], hereafter referred to as H-PURET, and polycations such as poly(diallyldimethylammonium) chloride, here after referred to as PDADMAC, to aqueous ammonia vapor leads to dra matic changes in the ultraviolet-visible absorption spectrum. In the case of H-PURET/PDADMAC, a shift from 442 to 494 nm is observed upon overnight ammonia exposure. X-ray photoelectron spectroscopy has been used to investigate the mechanism of the changes in optical properties. The C1s, O1s and S2p core levels exhibit negligible ammonia-induced changes. Two N1s peaks are observed in virgin H-PURET/PDADMAC assemblies, and ammonia exposure causes the nitrogen peak corresponding to the H-PURET side chain to become more intense relative to that of the PDADMAC layer. This selective change in the N1s feature suggests that ammonia interacts with the polythiophene side-chain, presumably by deprotonating the fraction of carboxylic acid groups that remain in the H-PURET layer. This deprotonation apparently leads to structural or single chain conformational changes in the conjugated polymer layers that alter the electronic absorption spectrum.
ACKNOWLEDGMENT
The authors acknowledge the technical assistance of H.Y. Seung for some of these measurements. J.E. Whitten acknowledges support by the National Science Foundation (DMR-0089960). M. Kim acknowledges the Center for Advanced Materials and the Institute for Nanoscale Science and Engineering Technology for a research assistantship funded by the Council of Federated Centers and Institutes.