Амфифильные свойства алкоксиолигоэтиленгликольметакрилатов и сополимеров на их основе

На основе данных по распределению алкоксиолиго(этиленгликоль)метакрилатов в системе вода-гексан определены значения ГЛБ макромономеров. Показана хорошая корреляция между температурами фазовых переходов сополимеров алкоксиолиго(этиленгликоль)метакрилатов в водных растворах и расчетными значениями ГЛБ исходных макромономеров.

алкоксиолиго(этиленгликоль)метакрилаты, амфифильные свойства, ГЛБ, радикальная сополимеризация, сополимеры, водные растворы, низшая критическая температура растворения, корреляция

1. Sakai E., Ishida A., Ohta A. New Trends in the Development of Chemical Admixtures in Japan // J. Adv. Concr. Technol. ‒ 2006. ‒ V. 4, N 2. ‒ P. 211-223.

2. Papayianni I., Tsohos G., Oikonomou N., Mavria P. Infl uence of superplasticizer type and mix design parameters on the performance of them in concrete mixtures // Cement Concrete Comp. ‒ 2005. ‒ V. 27, N 2. ‒ P. 217-222.

3. Tan g B., Yang Z., Zhang S. Poly(polyethylene glycol methyl ether methacrylate) as novel solid-solid phase change material for thermal energy storage // Journal of Applied Polymer Science. ‒ 2012. ‒ V. 125, N 2. ‒ P. 1377-1381.

4. Meng J .-y., Tang X.-f., Zhang Z.-l., Zhang X.-x., Shi H.-f. Fabrication and properties of poly(polyethylene glycol octadecyl ether methacrylate) // Thermochimica Acta. ‒ 2013. ‒ V. 574. ‒ P. 116-120.

5. Kazantsev O.A., Kamorin D.M., Orekhov D.V., Sivokhin A.P. Study of amphiphilic properties of amine- and oligo(ethylene glycol)- containing (meth)acrylic monomers // Des. Monomers Polym. ‒ 2015. ‒ V. 18, N 4. ‒ P. 378-384.

6. Orekhov D.V ., Kamorin D.M., Rumyantsev M., Kazantsev O.A., Sivokhin A.P., Gushchin A.V., Savinova M.V. Assembly of oligo(ethylene glycol)- and amine-containing methacrylic esters in water and water–hexane mixtures // Colloid Surface A. ‒ 2015. ‒ V. 481, N 0. ‒ P. 20-30.

7. Kazantsev O.A., Orekhov D.V., Sivokhin A.P., Kamorin D.M., Savinova M.V. Concentration eff ects in the base-catalyzed hydrolysis of oligo(ethylene glycol)- and amine-containing methacrylic monomers // Designed Monomers and Polymers. ‒ 2017. ‒ V. 20, N 1. ‒ P. 136-143.

8. Orekhov D.V., Kaza ntsev O.A., Sivokhin A.P., Savinova M.V. Features of the acid-catalyzed hydrolysis of mono- and poly(ethylene glycol) methacrylates // European Polymer Journal. ‒ 2018. https://doi.org/10.1016/j.eurpolymj.2018.01.010.

9. Güven G., Pişkin E. Optimization of monosize/cationic nanoparticle synthesis and their interaction with genomic DNA // Polymers for Advanced Technologies. ‒ 2006. ‒ V. 17, N 11-12. ‒ P. 850854.

10. Güven G., Tuncel A., P işkin E. Monosized cationic nanoparticles prepared by emulsifer-free emulsion polymerization // Colloid. Polym. Sci. ‒ 2004. ‒ V. 282, N 7. ‒ P. 708-715.

11. Lutz J.-F. Thermo-Switcha ble Materials Prepared Using the OEGMA-Platform // Adv. Mater. ‒ 2011. ‒ V. 23, N 19. ‒ P. 2237-2243.

12. Kuckling D., Doering A., Kra hl F., Arndt K. F. 8.15 - StimuliResponsive Polymer Systems A2 - Matyjaszewski, Krzysztof // Polymer Science: A Comprehensive Reference / Möller M. ‒ Amsterdam: Elsevier, 2012. ‒ C. 377-413.

13. Liu R., Fraylich M., Saunders B. R. Thermoresponsive copolymers: from fundamental studies to applications // Colloid and Polymer Science. ‒ 2009. ‒ V. 287, N 6. ‒ P. 627-643.

14. Schott H. Hydrophilic—lipophilic balance and distribution coeffi cients of nonionic surfactants // Journal of Pharmaceutical Sciences. ‒ 1971. ‒ V. 60, N 4. ‒ P. 648-649.

15. Gritskova I.A., Panich R.M., Voyuts kii S.S. The physicochemical properties of oxyethylated non-ionic surface-active substances // Russian Chemical Reviews. ‒ 1965. ‒ V. 34, N 11. ‒ P. 867–882.

16. Becher P. Hydrophile-Lipopb.ile Balance: History and Recent Developments Langmnir Lecture – 1983 // J. Disper. Sci. Technol. ‒ 1984. ‒ V. 5, N 1. ‒ P. 81-96.