Browsing by Author "Sverdlikovska, Olga S."

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Ionic Conductivity and Glass Transition Temperature of Ionene-Type Polymeric Ionic Liquids
(Ukrainian State University of Science and Technologies, Dnipro, 2025) Sverdlikovska, Olga S.; Potapchuk M. O.
ENG: The influence of the polymeric nature of synthesized ionene-type polymeric ionic liquids based on tetrahydro-1,4-oxazine on their ionic conductivity and glass transition temperature has been investigated. Correlations between temperature, chemical structure, ionic conductivity and glass transition temperature of these ionene-type polymeric ionic liquids were established, contributing to the design principles for new polymeric and ionenetype ionic liquids with tailored properties. The identified relationships were confirmed by correlation equations, and their chemical nature was analyzed. The proposed guidelines demonstrate practical value for the development of tetrahydro-1,4-oxazine-based ionenetype polymeric ionic liquids with high ionic conductivity across a wide temperature range.
Solid-Phase Polycondensation of Polyethylene Terephthalate with Technologies of Its Reactive Extrusion
(MM Publishing s.r.o., Praha, Czechia, 2023) Rimar, Miroslav; Chervakov, Denys O.; Fedak, Marcel; Kulikov, Andrii; Kulikova, Olha; Sukhyy, Kostyantyn M.; Chervakov, Oleh V.; Bentsionov, Igor; Sverdlikovska, Olga S.; Belyanovskaya, Elena; Yeromin, Oleksandr O.; Prokopenko, Olena M.
ENG: It has been experimentally confirmed that polyethylene terephthalate during its processing into products destruct without carrying out the process of solid-phase polycondensation. The conditions for both primary and secondary polyethylene terephthalate have been determined for carrying out the process of solid-phase polycondensation for its effective reaction extrusion with chain extenders. To confirm the effectiveness of the parameters of the solid-phase polycondensation process of polyethylene terephthalate, its reaction extrusion was carried out with commercially available chain extenders of the diepoxide class. The optimal content of chain extenders of the diepoxide class for changing the complex of physical, mechanical and rheological properties of polyethylene terephthalate modified by them was determined. It allows obtaining materials with an increased by 2.2 times characteristic viscosity.
Technological Parameters of Dimeric Ionene-Type Ionic Liguids Based on Tetrahydro-1, 4-Oxazine
(Ukrainian State University of Science and Technologies, Dnipro, 2025) Sverdlikovska, Olga S.; Potapchuk, M. O.
ENG: Experimental studies confirmed that introduction of allyl and hydroxyethyl groups, a benzyl fragment, and alkylaromatic radicals into the cationic center of dimeric ionenetype ionic liquids leads to a high ionic conductivity of 10–1 S cm–1 at –1230C. The synthesized dimeric ionic liquids were found to be thermally stable in the range 107–2060C. The presence of –O–CH(CH3 )–CH2– groups in the radical adjacent to the quaternized nitrogen atom was shown to enhance thermal stability. Studies of how the nature of the radical near the ionic center affects melting behavior established that the melting point of the dimeric ionene-type ionic liquids increases with an increasing number of –O–CH(CH3 )–CH2– units in the radical. In particular, correlations between temperature, chemical structure of the tetrahydro-1,4-oxazine-based dimeric ionic liquids, and their ionic conductivity were established; correlation equations are provided and their chemical basis is discussed. These findings support the proposed mechanism of property formation and demonstrate the practical relevance of the developed compounds.