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-образовательное отделение материалов для электроники
начальник отделения
доцент
Научно-исследовательский институт химии
Научно-исследовательская лаборатория инженерной химии
старший научный сотрудник
Общие сведения
Научная Работа
Образование, учёные степени и учёные звания
Высшее образование
Специальность: химия. Квалификация: химик.
Дополнительное образование, повышение квалификации, стажировки
07.11.2022 - 28.12.2022
Повышение квалификации: "Основы использования информационных систем и управление данными", НГТУ им.Р.Е.Алексеева, 40 час., документ № рег ИПС-У-3923-22 от 28.12.2022
07.11.2022 - 28.12.2022
Повышение квалификации: "Противодействие распространению идеологии терроризма и экстремизма в молодежной среде", НГТУ им.Р.Е.Алексеева, 16 час., документ № рег ИПС-У-4426-22 от 28.12.2022
17.11.2022 - 23.11.2022
Повышение квалификации: Применение платформы Webinar для онлайн-мероприятий и обучения, ФГАОУ ВО "Национальный исследовательский Нижегородский государственный университет им Н.И.Лобачевского", 16 час., документ № 520324004760 33-4618 от 25.11.2022
Список преподаваемых дисциплин
Публикации
2024
Публикации в научных журналахPetukhov A.N., Vorotyntsev A.V. Amino acid-based ionic liquid as a promising CO2 sorption increasing agent by aqueous MDEA solution // Journal of Molecular Liquids. № 395. V. 1. 2024. P. 123635.
Petukhov A.N., Vorotyntsev A.V. Bifunctional Silica-Supported Ionic Liquid Phase (SILP) Catalysts in Silane Production: Their Synthesis, Characterization and Catalytic Activity // International Journal of Molecular Sciences. № 1. V. 2. 2024. P. 68.
Petukhov A.N., Vorotyntsev A.V. Synthesis of Zinc Nanoparticles by the Gas Condensation Method in a Non-Contact Crucible and Their Physical–Chemical Characterization // Nanomaterials. № 2. V. 12. 2024. P. 163.
Petukhov A.N., Vorotyntsev A.V. Hydrate-based technique for natural gas processing: Experimental study of pressure-dropping and continuous modes // Chemical Engineering Journal Advances. V. 18. 2024. P. 100596.
2023
Публикации в научных журналахPetukhov A.N., Vorotyntsev A.V., Suvorov S.S., Barysheva A.V., Nyuchev A.V., Kazarina O.V. The Cation Effect on the Free Volume and the Solubility of H2S and CO2 in Ionic Liquids Based on Bis(2-Ethylhexyl) Sulfosuccinate Anion // Membranes. № 2023. V. 13. 2023. P. 238.
Otvagina K.V., Fukina D.G., Petukhov A.N., Malysheva Yu.B., Vorotyntsev A.V., Sazanova T.N., Kapinos A.A., Barysheva A.V., Suvorov S.S., Dokin E.S., Kazarina O.V. The Influence of Polycation and Counter-Anion Nature on the Properties of Poly(ionic liquid)-Based Membranes for CO2 Separation // Membranes. № 13. V. 6. 2023. P. 539.
Petukhov A.N., Vorotyntsev A.V., Kapinos A.A. How the Presence of CO2 Absorption Promoters and Composition of the Choline Chloride/Amine/Molecular Solvent Mixtures Influence Its Thermophysical Properties and Ability to Absorb Carbon Dioxide // Environments - MDPI. № 5. V. 10. 2023. P. 88.
Petukhov A.N., Vorotyntsev A.V., Suvorov S.S., Kazarina O.V., Markov A.N. The way for improving the efficiency of ammonia and carbon dioxide absorption of choline chloride: Urea mixtures by modifying a choline cation // Fluid Phase Equilibria. № 568. 2023. P. 113736.
Petukhov A.N., Vorotyntsev A.V., Kazarina O.V., Barysheva A.V., Markov A.N., Golovacheva A.A., Kazarin A.S. The role of HBA structure of deep eutectic solvents consisted of ethylene glycol and chlorides of a choline family for improving the ammonia capture performance // Journal of Molecular Liquids. V. 373. 2023. P. 121216.
Petukhov A.N., Vorotyntsev A.V., Suvorov S.S., Barysheva A.V. Formation of intermediate gas–liquid system in aromatics’ thin layers // Journal of the Serbian Chemical Society. № 82. V. 3. 2023. P. 267-281.
Petukhov A.N., Kudryavtseva M.S., Vorotyntsev A.V., Stepanova E.A., Shablykin D.N. Separation of CH4 - CO2 gas mixture by gas hydrate crystallisation: A parametric study // Journal of Natural Gas Science and Engineering. V. 116. 2023. P. 205026.
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.
Kazarina O.V., Agieienko V.N., Petukhov A.N., Vorotyntsev A.V., Atlaskina M.E., Atlaskin A.A., Kryuchkov S.S., Markov A.N., Nyuchev A.V., Vorotyntsev I.V. 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.
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.
