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Colloidal Properties and Potential Applications of Branched Poly(Vinyl Alcohol).

Title: Colloidal Properties and Potential Applications of Branched Poly(Vinyl Alcohol).
Authors: Grivin, Anton V.; Kraynik, Il'ya I.; Kabanov, Daniil A.; Nechaeva, Anna M.; Markova, Gali D.; Burmitskaya, Eva S.; Shulgin, Anton M.; Andreeva, Anna V.; Zakharova, Vasilina A.; Raitman, Oleg A.; Samusenko, Svetlana O.; Levina, Irina I.; Motyakin, Mikhail V.; Dyatlov, Valerie A.; Gorbunova, Irina Yu.; Gritskova, Inessa A.; Meshalkin, Valeriy P.; Mezhuev, Yaroslav O.
Source: Colloids & Interfaces; Jun2026, Vol. 10 Issue 3, p41, 22p
Subject Terms: Branched polymers; Polyvinyl alcohol; Surface interactions; Colloidal stability; Adsorption capacity; Physisorption; Light scattering; Viscometry
Abstract: Branched poly(vinyl alcohol) (PVA) was synthesized via chemical modification of linear PVA with epichlorohydrin in an alkaline aqueous medium under conditions preventing crosslinking. Branching was confirmed by IR and Heteronuclear Single Quantum Coherence (HSQC) spectroscopy, as well as by viscometric analysis. An iterative procedure is proposed for refining the branching factor (g) and the viscosity-average molecular weight of the branched macromolecules. Coil diameters determined by viscometry and dynamic light scattering showed satisfactory agreement. While an increase in the viscosity-average molecular weight of branched PVA enhances its surface activity in the low-adsorption region, the branched geometry itself hinders subsequent adsorption due to steric shielding of the interface. This correlates with wetting behavior on Teflon: lightly branched PVA requires a higher concentration to induce wetting inversion than its linear counterpart but further increase in molecular weight shifts the inversion point to lower concentrations due to a higher density of hydroxyl groups. Concurrently, the concentration dependence of the work of adhesion degenerates with increasing molecular weight. Despite their reduced adsorption capacity, the specific geometry of branched PVA macromolecules provides effective steric stabilization of micrometer-sized particles during styrene suspension polymerization. These results demonstrate that chain branching in PVA is a powerful tool for tuning its adsorption properties, stabilizing ability, and interfacial activity. [ABSTRACT FROM AUTHOR]
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Database: Complementary Index