Abstract
An experimental study was conducted on aqueous triphasic systems (A3PSs) to increase molecular understanding of the soluting effect phenomenon occurring in these systems. For aqueous quaternary systems 1‑butyl‑3-methylimidazolium bromide ([Bmim][Br]) + trisodium citrate (Na3Cit) + polypropylene glycol 400 (PPG400) and [Bmim][Br] + disodium sulfate (Na2SO4) + PPG400 which were able to form A3PS, the vapor-liquid equilibria measurements were conducted at 318.15 K. For these systems, deviations from the semi-ideal behavior were addressed using the vapor pressure osmometry (VPO) measurements in monophasic (MR), biphasic (BR), and three-phasic (TR) concentration regions. The VPO data revealed that, because of unfavorable IL-salt, IL-polymer, and polymer-salt interactions as well as the preferential hydration of solutes, the amount of free water molecules in the IL + polymer + salt + water solutions is less than that expected based on the semi-ideal behavior. Therefore, under condition that solutes molalities in the quaternary solutions are the same as those in the corresponding binary solutions, (aw+2)−(awIL∘+awP∘+awS∘) and Δp−(ΔpIL∘+ΔpP∘+ΔpS∘) have negative values and become less negative by formation of aqueous two-phase system (A2PS) and become positive with approaching the triphasic region. The triple soluting-out effect resulted from the unfavorable interactions between all pairs of solutes leads to preferential hydration of solutes and thereby creation of three aqueous salt-rich, IL/polymer-rich, and polymer-rich phases in solution for entropy reason.
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