Water-soluble poly(2-(3 thienyloxy) ethane sulfonic acid)/V2O5 nanocomposites: synthesis and electrochromic properties

摘要

Water-soluble conducting poly(2-(3thienyloxy)ethanesulfonic acid) (PTOESA)/V2O5 nanocomposite, (PTOESA),V2O5, was prepared by simply mixing PTOESA with V2O5 wet gel at room temperature. XRD data showed that the interlayer spacings of (PTOESA)(x)V2O5 films are 14.0 +/- 1.5 Angstrom and increased as the polymer content increased. These values are consistent with the insertion of polythiophene chains into the V2O5 layer gallery. The formation of alternative layers of PTOESA and V2O5 was further supported by depth profile SIMS analyses. Cyclic voltammograms of (PTOESA)(x)V2O5 film showed two pairs of redox peaks with colors varying from orange, yellowish green, green, to purple blue, depending on the stoichiometry of the nanocomposites. Moreover, a synergetic effect was observed on the electrochromic properties of these nanocomposites. It was found that the optical contrast (DeltaOD) of the composites is better than those of PTOESA and V2O5 at the film thickness from 150 to 500 nm. The oxidation optical response time of (PTOESA)(x)V2O5 is independent of the stoichiometry and falls in between those of PTOESA and V2O5. At higher polymer content (x > 0.5), the reduction optical response time of (PTOESA)(x)V2O5 is smaller than those of PTOESA and V2O5. Variable temperature conductivity data showed that the conductivity of (PTOESA)(x)V2O5 films increased as temperature increased, characteristic of thermal activated behavior, which was dominated by the interparticle contact resistance. The room-temperature conductivity of water-soluble (PTOESA)(x)V2O5 films was in between those of PTOESA and V2O5 xerogel and higher conductivity was found in the composite with lower polymer content. The anomalous conductivity of (PTOESA)(x)V2O5 with high PTOESA content may be due to the reason that the higher the polymer content, the bigger the grain size of (PTOESA)(x)V2O5 film as revealed with scanning electron microscopy and AFM micrographs. (C) 2003 Elsevier Inc. All rights reserved.