Воротынцев Андрей Владимирович
Научно-исследовательский институт химии
Отдел химии неорганических соединений
Научно-исследовательская лаборатория "Лаборатория технологий получения веществ электронной чистоты"
заведующий научно-исследовательской лабораторией
Научно-исследовательский институт химии
Научно-исследовательская лаборатория инженерной химии
старший научный сотрудник
Кафедра аналитической и медицинской химии
доцент
Общие сведения
Научная Работа
Образование, учёные степени и учёные звания
Высшее образование
специалист. Специальность: химия. Квалификация: химик.
Список преподаваемых дисциплин
Публикации
2022
Публикации в научных журналахSazanova T.S., Smorodin K.A., Zarubin D.M., Otvagina K.V., Maslov A.A., Markov A.N., Fukina D.G., Mochalova A.E., Mochalov L.A., Atlaskin A.A., Vorotyntsev A.V. Morphology Effect of Zinc Oxide Nanoparticles on the Gas Separation Performance of Polyurethane Mixed Matrix Membranes for CO2 Recovery from CH4, O2, and N2 // Membranes. № 6. V. 12. 2022. P. 577.
Sazanova T.S., Mochalov L.A., Logunov A.A., Kudryashov M.A., Fukina D.G., Vshivtsev M.A., Prokhorov I.O., Yunin P.A., Smorodin K.A., Atlaskin A.A., Vorotyntsev A.V. Influence of Temperature Parameters on Morphological Characteristics of Plasma Deposited Zinc Oxide Nanoparticles // Nanomaterials. № 11. V. 12. 2022. P. 1838.
Vorotyntsev A.V., Petukhov A.N., Markov A.N., Kapinos A.A., Atlaskin A.A., Golovacheva A.A. Direct synthesis of nanostructural and nanospherical silica using induction jet levitation: synthesis, design and catalytic application // Materials Today Chemistry. V. 26. 2022. P. 101004.
Vorotyntsev A.V. Direct Synthesis of Al, Mg, Ni, and Ti Nanoparticles by Induction Flow Levitation Technique // ACS Sustainable Chemistry & Engineering. № 24. V. 10. 2022. P. 7929–7941.
Petukhov A.N., Vorotyntsev A.V., Shablykin D.N., Kudryavtseva M.S., Kazarina O.V., Stepanova E.A., Atlaskina M.E., Markov A.N., Atlaskin A.A. CO2 capture process through hybrid gas hydrate-membrane technology: Complex approach for the transition from theory to practice // Journal of Environmental Chemical Engineering. V. 10. 2022. P. 108104.
Petukhov A.N., Vorotyntsev A.V., Shablykin D.N., Zarubin D.M., Kazarina O.V., Vorotyntsev V.M., Stepanova E.A., Atlaskin A.A., Vorotyntsev I.V., Trubyanov M.M., Smorodin K.A., Petukhova A.N. A hybrid batch distillation/membrane process for high purification part 2: Removing of heavy impurities from xenon extracted from natural gas // Separation and Purification Technology. V. 294. 2022. P. 2121230.
Petukhov A.N., Vorotyntsev A.V., Vorotyntsev V.M., Otvagina K.V., Kazarina O.V., Atlaskin A.A., Vorotyntsev I.V., Kapinos A.A., Markov A.N. Direct Synthesis of Al, Mg, Ni, and Ti Nanoparticles by Induction Flow Levitation Technique // ACS Sustainable Chemistry & Engineering. № 10. V. 24. 2022. P. 7929-7941.
Petukhov A.N., Vorotyntsev A.V., Golovacheva A.A., Atlaskina M.E., Zarubin D.M., Stepanova E.A., Vorotyntsev I.V., Atlaskin A.A., Markov A.N., Smorodin K.A. An Efficient Technique for Ammonia Capture in the Haber–Bosch Process Loop—Membrane-Assisted Gas Absorption // Polymers. № 14. V. 11. 2022. P. 2214.
Petukhov A.N., Kazarina O.V., Vorotyntsev A.V., Atlaskina M.E., Nyuchev A.V., Atlaskin A.A., Vorotyntsev I.V., Markov A.N., Kryuchkov S.S. Deep Eutectic Solvents Composed of Urea and New Salts of a Choline Family for Efficient Ammonia Absorption // Journal of Chemical & Engineering Data. № 67. V. 1. 2022. P. 138-150.
Petukhov A.N., Kazarina O.V., Vorotyntsev A.V., Golovacheva A.A., Atlaskina M.E., Kazarin A.S., Ageenko V.N., Markov A.N., Atlaskin A.A., Vorotyntsev I.V. Monoethanolamine + Ethylene Glycol + Choline Chloride: An Effect of the Mixture Composition on the CO2Absorption Capacity, Density, and Viscosity // Journal of Chemical & Engineering Data. № 67. V. 10. 2022. P. 2899-2912.
