Synthesis and characterization of hydrophobically modified polymeric betaines

• Main Authors: Alexey Shakhvorostov, Zhanar Nurakhmetova, Gulnur Tatykhanova, Nurxat Nuraje, Sarkyt Kudaibergenov
• Format: Article
• Language: English
• Published: al-Farabi Kazakh National University 2015-09-01
• Series: Chemical Bulletin of Kazakh National University
• Subjects: polymeric betaines; vesicles; micelles; pour point depressants
• Online Access: https://bulletin.chemistry.kz/index.php/kaznu/article/view/645
• ISSN: 1563-0331; 2312-7554

Polymeric betaines containing long alkyl chains C12H25, C14H29, C16H33 and C18H37 were synthesized by Michael addition reaction of alkylaminocrotonates and methacrylic acid (MAA). They were characterized by FTIR, 13C NMR, DSC, DLS, GPC, cryo-TEM, viscometry and zeta-potential measurements. The polymers were fully soluble in DMF, THF and DMSO, partially dissolved in aromatic hydrocarbons (benzene, toluene, o-xylene) and formed colloid solutions in aqueous KOH. In aqueous KOH and DMSO solutions, hydrophobically modified polymeric betaines behaved as polyelectrolytes. The average hydrodynamic size and zeta potential of diluted aqueous solutions of hydrophobic polybetainess containing dodecyl-, tetradecyl-, hexadecyl-, and octadecyl groups were studied as a function of pH. Anomalous low values of the isoelectric point (IEP) of amphoteric macromolecules were found to be in the range of pH 2.7-3.4. According to DLS data, the average size of macromolecules tends to decrease with dilution. Zeta-potential of amphoteric macromolecules in aqueous solution is much higher than that in DMSO. The cryo-TEM results revealed that in both aqueous KOH and DMSO media, the micron- and nanosized vesicles existed. The structural organization of vesicles in water and DMSO is discussed. The wax inhibition effect of hydrophobic polybetaines at a decrease of the pour point temperatures of high paraffinic oils was better in comparison with commercial available ethylene-vinylacetate copolymers (EVA).