Modified binodal model describes phase separation in aqueous two-phase systems in terms of the effects of phase-forming components on the solvent features of water

摘要

The binodal model pioneered by Guan et al. [Y. Guan, T. H. Lilley, T. E. Treffry, J. Chem. Soc. Faraday Trans., 89 (1993) 4283-4298] remains the most successful in regard to the quantitative description of phase diagrams among various theoretical models proposed to describe phase separation in aqueous mixtures of polymers. This is a semi-empirical model based on the assumption that any point on the binodal line may be viewed as a saturated solution of the phase-forming compound-1 in the solution of the phase-forming compound-2. Although this model is originally based on the excluded volume concept, we suggest that the solubility of the compound-1 in solutions of compound-2 may depend on the solvent properties of water in solutions of compound-2. The binodal model described in these terms was very successfully applied to the phase diagrams of aqueous two-phase systems formed by different pairs of polymers (dextran, Ficoll, poly(ethylene glycol)-8000, and Ucon). Phase diagram of a new aqueous twophase system formed by trimethylamine N-oxide (TMAO) and polypopylene glycol-400 and previously reported phase diagram for system formed by TMAO and poly(ethylene glycol)-600 were also described by this model quite well. It was found that the modified binodal model is also applicable to single polymer salt and polymer-ionic liquid aqueous two-phase systems. The most important conclusion of our study is that the effects of different compounds (polymers, salts, ionic liquids) on the solvent features of water in their aqueous solutions cause changes in the water structure, resulting in phase separation in the mixtures of these compounds. (C) 2018 Elsevier B.V. All rights reserved.