Colloids and Surfaces A: Physicochemical and Engineering Aspects
Document Type
Article
Department or Administrative Unit
Chemistry
Publication Date
6-20-2012
Abstract
Interactions of polyelectrolyte/surfactant complexes (PSCs) with the ionic dyes phenol red (PR) and bromothymol blue (BB) and the adsorption of these dyes to a TiO2 surface were studied using ultraviolet–visible (UV–vis) spectroscopy. The PSC consisted of the polyelectrolyte sodium polystyrene-4-sulfonate (PSS) and the surfactant cetylpyridinium bromide monohydrate (CPBM). For the studies involving PR the PSC began to extract the PR from solution at an absolute mol ratio of CPBM to PSS greater than 300:1 but more CPBM needs to be added to the solution to maximize the removal of the PR. The number of PR molecules per PSC was calculated to be 20 ± 2 for solutions of 5 × 10−7 M PSS and 11 ± 1 for 1 × 10−6 M PSS. For the PR experiments the number of CPBM molecules per PSC was calculated to be 250 ± 20 for 5 × 10−7 M PSS solutions and 300 ± 20 for 1 × 10−6 M PSS solutions. For studies involving BB the PSC begins to extract the BB from solution at an absolute mole ratio of CPBM to PSS of greater than 280:1. Unlike the PR this extraction is essentially complete for the BB by an absolute mole ratio of CPBM to PSS of 320:1 indicating that the BB interacts more strongly with the PSC than does the PR. The number of BB molecules per PSC was calculated to be 20 ± 2 for solutions of 5 × 10−7 M PSS and the number of CPBM molecules per PSC was calculated to be 300 ± 20 for 5 × 10−7 M PSS solutions. The Δ(ΔG) between the complex formed with the BB and the PR was estimated to be −1.6 ± 0.4 kJ/mol. The aggregation behavior of the CPBM and PSS in the absence of the dyes was found to be drastically different compared to the studies with the dyes present. In the absence of either dye the number of CPBM molecules per PSC was calculated to be 150 ± 10 for 5 × 10−7 M PSS.
Recommended Citation
Holmes, B., Swansen, J., Buck, K., & Rivera, D. (2012). Investigations of the interaction and phase transfer to a TiO2 surface of water soluble dyes with polyelectrolyte/surfactant complexes using ultraviolet–visible spectroscopy and multivariate least squares analysis. Colloids and Surfaces A: Physicochemical and Engineering Aspects, 404, 36–46. https://doi.org/10.1016/j.colsurfa.2012.04.003
Journal
Colloids and Surfaces A: Physicochemical and Engineering Aspects
Rights
Copyright © 2012 Elsevier B.V. All rights reserved.
Comments
This article was originally published in Colloids and Surfaces A: Physicochemical and Engineering Aspects. The full-text article from the publisher can be found here.
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