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    Self-Assembly of Soluplus in Aqueous Solutions: Characterization and Prospectives on Perfume Encapsulation

    Year: 2022

    Journal: ACS Appl. Mater. Interfaces, Volume 14, MAR 30, page 14791–14804

    Authors: Sofroniou, Constantina; Baglioni, Michele; Mamusa, Marianna; Resta, Claudio; Doutch, James; Smets, Johan; Baglioni, Piero

    Organizations: European Union's Horizon 2020 research and innovation program under the SAMCAPS project [814100]; Procter Gamble Co; Consorzio Interuniversitario per lo Sviluppo dei Sistemi a Grande Interfase (CSGI) [PRIN 2017249YEF]

    Keywords: self-assembly; amphiphilic graft-polymer; fragrances; encapsulation; self-assembled capsules; small-angle neutron scattering

    Soluplus is an amphiphilic graft copolymer intensively studied as a micellar solubilizer for drugs. An extensive characterization of the nanostructure of its colloidal aggregates is still lacking. Here, we provide insights into the polymer's self-assembly in water, and we assess its use as an encapsulating agent for fragrances. The self-assembly properties of Soluplus aqueous solutions were studied over a wide concentration range (1-70% w/w) by means of small-angle neutron scattering (SANS), differential scanning calorimetry, NMR, and rheometry. SANS analyses revealed the presence of polymeric micelles with a fuzzy surface interacting via a 2-Yukawa potential, up to 15% w/w polymer. Increasing the polymer concentration up to 55% w/w led to tightly packed micelles described according to the Teubner-Strey model. The ability of Soluplus to encapsulate seven perfume molecules, 2-phenyl ethanol, L-carvone, linalool, florhydral, beta-citronellol, alpha-pinene, and R-Iimonene, was then examined. We showed that the fragrance's octanol/water partition coefficient (log K-ow), widely used to characterize the solubilization capacity, is not sufficient to characterize such systems and the presence of specific functional groups or molecular conformation needs to be considered. In fact, the combination of SANS, NMR, confocal laser scanning microscopy, and confocal Raman microscopy showed that the perfumes, interacting with different regions of the polymer aggregates, are able to tune the systems' structures resulting in micelles, matrix-type capsules, core-shell capsules, or oil-in-water emulsions.
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