Interaction between stabilized droplets of different phases in the same continuous phase of an aqueous three-phase system

Water-in-water (W/W) emulsions, also called aqueous two-phase systems, are formed by mixing two incompatible polymers in water that phase separate into two distinct phases. They can be stabilized by addition of colloidal particles. Droplets of the dispersed phase can be used to compartmentalize ingr...

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Veröffentlicht in:Soft matter 2024-04, Vol.2 (15), p.3359-3366
Hauptverfasser: Nguyen, Do-Nhu-Trang, Waldmann, Léa, Ravaine, Valérie, Nicolai, Taco, Benyahia, Lazhar
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Sprache:eng
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Zusammenfassung:Water-in-water (W/W) emulsions, also called aqueous two-phase systems, are formed by mixing two incompatible polymers in water that phase separate into two distinct phases. They can be stabilized by addition of colloidal particles. Droplets of the dispersed phase can be used to compartmentalize ingredients and induce localized reactions. By mixing more types of incompatible polymers, emulsions containing droplets of different phases can be formed that can potentially capture different ingredients. Here the interaction between dispersed droplets of different types was studied by gently mixing a W/W emulsion containing droplets rich in dextran (DEX) dispersed in a continuous phase rich in polyethylene oxide with an emulsion containing droplets rich in fish gelatin (GEL) dispersed in the same continuous medium. Bis-hydrophilic microgels (MG) consisting of DEX grafted with poly( N -isopropylacrylamide) were added and their effect on the stability of each binary emulsion was investigated. Interestingly, when two very stable emulsions were gently mixed, droplets of different types were observed with confocal scanning laser microscopy to coalesce immediately upon contact. In this manner, Janus-type droplets were formed containing a DEX and a GEL compartment with no MG at the GEL/DEX interface that further associated into strings of alternating droplets. Contact angles between the different phases in emulsions with and without MG were compared and used to determine the effect of the microgels on the interfacial tension between the phases. Janus-like droplets, covered with microgel, formed after the fusion of gelatin and dextran droplets in a common poly(ethylene oxide) phase.
ISSN:1744-683X
1744-6848
DOI:10.1039/d3sm01688a