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Use of the semi-equilibrium dialysis method in studying the thermodynamics of solubilization of organic compounds in surfactant micelles. Systemn-hexadecylpyridinium chloride-phenol-water

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Abstract

The semi-equilibrium dialysis method has been used to infer solubilization equilibrium constants or, alternatively, activity coefficients of solutes solubilized into micelles of aqueous surfactant solutions. Methods are described for inferring the concentrationa of monomers of the organic solute and of the surfactant on both sides of the dialysis membrane, under conditions where the organic solute is in equilibrium with both the high-concentration (retentate) and low-concentration (permeate) solutions. By using a form of the Gibbs-Duhem equation, activity coefficients of both phenol (the solubilizate) and n-hexadecylpyridinium chloride (the surfactant) are obtained for aqueous solutions at 25°C throughout a wide range of relative compositions of surfactant and solubilizate within the micelle. The apparent solubilization constant, K=[solubilized phenol]/([monomeric phenol][micellar surfactant]), is found to decrease significantly as the mole fraction of phenol in the micelle increases.

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Authors and Affiliations

  1. Department of Chemistry, The University of Oklahoma, 73019, Norman, OK

    George A. Smith, Sherril D. Christian & Edwin E. Tucker

  2. Institute for Applied Surfactant Research, The University of Oklahoma, 73019, Norman, OK

    George A. Smith, Sherril D. Christian & Edwin E. Tucker

  3. School of Chemical Engineering and Materials Science, The University of Oklahoma, 73019, Norman, OK

    John F. Scamehorn

Authors
  1. George A. Smith
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  2. Sherril D. Christian
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  3. Edwin E. Tucker
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  4. John F. Scamehorn
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Smith, G.A., Christian, S.D., Tucker, E.E. et al. Use of the semi-equilibrium dialysis method in studying the thermodynamics of solubilization of organic compounds in surfactant micelles. Systemn-hexadecylpyridinium chloride-phenol-water. J Solution Chem 15, 519–529 (1986). https://doi.org/10.1007/BF00644893

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  • DOI: https://doi.org/10.1007/BF00644893

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