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Лаборатория
Полимерных мембран

Ведущая лаборатория в области разработки полимерных мембран
и процессов на их основе для разделения газов и жидких сред






Волков Алексей Владимирович


<< Назад
Волков Алексей Владимирович
Зам. директора ИНХС РАН, заведующий лабораторией (д.х.н.)

Год рождения: 1979

ORCID: 0000–0003–4524–4597
ResearcherID: G–5301–2014
Scopus Author ID: 55959940700
Scholar Google: Alexey Volkov
SPIN: 3264–2100
IstinaResearcherID (IRID): 58991571



Образование
  • 1996-2001 – Кафедра высокомолекулярных соединений, Химический факультет Московский государственный университет имени М. В. Ломоносова.
  • 2001-2006 – аспирантура (МГУ им.М.В.Ломоносова, ИНХС РАН; научный руководитель академик Платэ Н.А.).
  • 2003 – курсы химической инженерии, Департамент науки и технологий Университета Твенте (Энсхеде, Нидерланды).
  • 2004 – Летняя школа EMS («Полимерные и неорганические мембранные материалы и получение мембран», Гамбург, Германия).
  • 2005 – Практикум по технологиям разделения; UT, TUD, TNO (Энсхеде, Делфт, Апелдорн, Нидерланды).
  • 2007 – научная степень к.х.н. (специальность: «Высокомолекулярные соединения» и «Мембраны и мембранная технология»); Институт нефтехимического синтеза им. А.В. Топчиева РАН.
  • 2008 – Летняя школа EMS («Устойчивые в растворителях мембраны», Лёвен, Бельгия).
  • 2008 – IX Школа молодых ученых по нефтехимии (Звенигород, Россия).
  • 2009 – General Course on Intellectual Property (World Intellectual Property Organization).
  • 2010 – Введение во внешнеэкономическую деятельность (Юридический институт "М–Логос").
  • 2011 – Introduction to the Patent Cooperation Treaty (PCT) (World Intellectual Property Organization).
  • 2011 – Контрактное право (Юридический институт "М–Логос").
  • 2012 – Patent Information Search (World Intellectual Property Organization).
  • 2012 – Intellectual Property Management (World Intellectual Property Organization).
  • 2012-2013 – Интеллектуальная собственность: судебная практика и актуальные правовые вопросы (Юридический институт "М–Логос").
  • 2013 – EAP2510 CO2 removal processes using Aspen Plus (AspenTech, Великобритания).
  • 2017 – научная степень д.х.н. (специальность: «Нефтехимия» и «Мембраны и мембранная технология»); МГУ им. М.В.Ломоносова.
  • 2017 – IBM IP management commercialization and research managment workshop (IBM, ФАНО России).
  • 2017 – Патентная школа (Сколково).
  • 2019 – Преподаватель высшего образования: цифровые компетенции и инновационные технологии обучения (МИПК).

Профессиональная карьера
  • 1998-2001 – староста группы во время обучения в МГУ им. М.В.Ломоносва (избран).
  • 2002-2003 – приглашенный учёный (10 месяцев); Группа OOIP (проф. G.Versteeg), Департамент науки и технологий, Университет Твенте (Нидерланды). Тема: «Мембранная абсорбция газа».
  • 2004-2005 – приглашенный учёный (4 месяца); Группа мембранных технологий (проф. M.Wessling), факультет науки и технологий, Университет Твенте (Нидерланды). Тема: «Новые материалы для нанофильтрации органических сред».
  • 2005-2006 – приглашенный учёный (4 месяца); Группа мембранных технологий (проф. M.Wessling), факультет науки и технологий, Университет Твенте (Нидерланды). Тема: «Новые материалы для нанофильтрации органических сред».
  • 2013-2016 – член правления Европейского Мембранного Общества, EMS (выбран в ходе тайного голосования).
  • 2013-2017 – руководитель КТ 20 "Технологии поиска, разведки, разработки месторождений полезных ископаемых и их добычи" по направлению "Рациональное природопользование" (Минобрнауки РФ).
  • 2021-2024 – член правления Европейского Мембранного Общества, EMS (выбран в ходе тайного голосования).
  • 2017-н.в. – член правления Всемирной Ассоциации Мембранных Обществ, WA-MS (назначен как представитель EMS).
  • 2021-н.в. – Научный совет РАН по газохимии (заместитель Председателя).
  • 2009-н.в. – заместитель директора ИНХС РАН.
  • 2018-н.в. – заведующий лабораторией "Полимерные мембраны".

Награды
  • Профессор Российской академии наук (2022).
  • Медаль «За вклад в реализацию государственной политики в области научно-технологического развития» (2021).
  • Премия Правительства Москвы молодым ученым (2018).
  • Грант Президента Российской Федерации для государственной поддержки молодых российских ученых - докторов наук (2018).
  • Премия "МАИК" за цикл опубликованных работ (2016).
  • Лауреат Фонда содействия отечественной науке в номинации "Кандидаты наук РАН" (2008).
  • Премия Европейского мембранного общества за лучший устный доклад "Permea 2007", Венгрия (2007).
  • Стипендия голландского правительства «Huygens» на прохождение стажировки (2002).
  • Золотая медаль за окончание МГУ им.М.В.Ломоносова с отличием (2001).

Области интересов
  • Мембраны, мембранные технологии, разделение газов, разделение жидкостей, водоочистка, полимеры, полимерные материалы, нефтепереработка, нефтехимия, газохимия, декарбонизация, водород.

Патенты
  • Т.С.Анохина, И.Л.Борисов, А.В.Волков. Способ оценки свойств полимерной мембраны. Патент РФ №2767951 от 22.03.2022 Бюл. № 9
  • В.П.Василевский, И.Л.Борисов, И.А.Подтынников, А.А.Юшкин, А.В.Волков, В.В.Волков. Модуль для термопервапорационного выделения и концентрирования органических соединений из жидких сред. Патент РФ № 204484 от 26.05.2021 Бюл. № 15
  • В.П.Василевский, Г.С.Голубев, И.Л.Борисов, И.С.Еремеев, А.В.Волков. Дистилляционный модуль для концентрирования и опреснения водного раствора и способ концентрирования и опреснения водного раствора с его применением. Патент РФ № 2737524 от 01.12.2020 Бюл. № 34
  • С.О.Ильин, Т.С.Анохина, В.Я.Игнатенко, Д.С.Бахтин, А.В.Костюк, С.В.Антонов, А.В.Волков. Способ получения полимерной пленки. Патент РФ №2716795 от 16.03.2020 г. Бюл. №8
  • И.В.Седов, В.И.Савченко, И.Г.Фокин, А.В.Никитин, А.В.Озерский, Я.С.Зимин, В.С.Арутюнов, С.Д.Баженов, А.В.Волков, Д.Н.Горбунов, В.Р.Флид. Способ переработки нефтяных газов. Патент РФ №2688932 от 23.05.2019 г. Бюл. №15
  • И.Л.Борисов, Е.А.Грушевенко, А.В.Волков, В.В.Волков Способ получения композиционной мембраны и композиционная мембрана, полученная этим способом. Патент РФ №2652228 от 25.04.2018 г. Бюл. №12
  • Э.Г.Новицкий, В.П.Василевский, Е.А.Грушевенко, А.В.Волков, В.В.Волков, С.Д.Баженов. Способ удаления диоксида углерода из газовых смесей. Патент РФ №2656661 от 06.06.2018 г. Бюл. №16
  • Э.А.Караханов, А.Л.Максимов, А.А.Юшкин, А.А.Коссов, В.С.Хотимский, А.В.Волков, Д.Н.Горбунов. Способ нанофильтрационного разделения жидких органических смесей. Патент РФ №2638661 от 25.04.2016
  • В.В.Волков, И.Л.Борисов, В.П.Василевский, Э.Г.Новицкий, А.В.Волков. Мембранный дистилляционный модуль и способ опреснения минерализованной воды. Патент РФ № 2612701 от 03.11.2015
  • И.Л.Борисов, В.П.Василевский, В.В.Волков, А.В.Волков. Способ выделения и концентрирования органических веществ из жидких смесей и устройство для его осуществления. Патент РФ № 2532518 от 10.11.2014 Бюл. № 31
  • Э.Г.Новицкий, Г.А.Дибров, В.П.Василевский, А.В.Волков, А.А.Лысенко, В.С.Хотимский, В.В.Волков. Композиционная мембрана на основе высокопроницаемых стеклообразных полимеров. Патент РФ № 2491983 от 10.09.2013
  • В.В.Волков, А.В.Волков, И.Л.Борисов, В.С.Хотимский, Е.А.Андрюшин. Способ выделения с одновременным концентрированием органических веществ с помощью первапорационного разделения жидких смесей и устройство для его осуществления. Патент РФ №2408416 от 10.01.2011
  • С.Е.Царьков, А.В.Волков, В.С.Хотимский, А.Б.Гильман, Ю.В.Костина. Способ нанофильтрационного разделения жидких органических смесей. Патент РФ №2428243 от 10.09.2011
  • В.В.Волков, И.Л.Борисов, В.С.Хотимский, А.В.Волков. Способ выделения и концентрирования органических веществ из водных сред. Патент РФ № 2432984 от 10.11.2011
  • В.Д.Борман, А.М.Грехов, А.А.Белогорлов, В.В.Волков, А.В.Волков. Способ измерения проницаемости материалов. Патент РФ № 2434223 от 20.11.2011
  • А.В.Волков, В.С.Хотимский, В.В.Паращук, Д.Стаматиалис, М.Весслинг, В.В.Волков, Н.А.Платэ. Способ нанофильтрационного разделения жидких органических смесей. Патент РФ №2297975 от 27.04.2007

Публикации
  • A.V.Basko, K.V.Pochivalov, M.Y.Yurov, T.N.Lebedeva, A.A.Yushkin, A.V.Volkov. Preparation of thermostable polypropylene membranes with a controlled structure by nonsolvent thermally induced phase separation. Polymer-Plastics Technology and Materials, (2022) 1-13
  • G.Golubev, S.Sokolov, T.Rokhmanka, S.Makaev, I.Borisov, S.Khashirova, A.Volkov. High Efficiency Membranes Based on PTMSP and Hyper-Crosslinked Polystyrene for Toxic Volatile Compounds Removal from Wastewater. Polymers, 14 (2022) 2944
  • A.A.Yushkin, A.V.Balynin, M.N.Efimov, D.G.Muratov, G.P.Karpacheva, A.V.Volkov. Formation of Multilayer Membranes from One Polymer Using IR Treatment. Membranes and Membrane Technologies, 12 №4 (2022) 286-293 (in Russian)
  • A.Yushkin, A.Balynin, M.Efimov, K.Pochivalov, I.Petrova, A.Volkov. Fabrication of Polyacrylonitrile UF Membranes by VIPS Method with Acetone as Co-Solvent. Membranes, 12 №5 (2022) 523
  • E.Grushevenko, A.Balynin, R.Ashimov, S.Sokolov, S.Legkov, G.Bondarenko, I.Borisov, M.Sadeghi, S.Bazhenov, A.Volkov. Hydrophobic Ag-Containing Polyoctylmethylsiloxane-Based Membranes for Ethylene/Ethane Separation in Gas-Liquid Membrane Contactor. Polymers, 14 №8 (2022) 1625
  • E.S.Dmitrieva, T.S.Anokhina, E.G.Novitsky, V.V.Volkov, I.L.Borisov, A.V.Volkov. Polymeric Membranes for Oil-Water Separation: A Review. Polymers, 14 (2022) 980
  • T.Anokhina, E.Dmitrieva, A.Volkov. Recovery of Model Pharmaceutical Compounds from Water and Organic Solutions with Alginate-Based Composite Membranes. Membranes, 12 №2 (2022) 235
  • D.Matveev, V.Vasilevsky, V.Volkov, T.Plisko, A.Shustikov, A.Volkov, A.Bildyukevich. Fabrication of ultrafiltration membranes from non-toxic solvent dimethylsulfoxide: Benchmarking of commercially available acrylonitrile co-polymers. Journal of Environmental Chemical Engineering, 10 №1 (2022) 107061
  • G.Golubev, V.Volkov, I.Borisov, A.Volkov. High free volume polymers for pervaporation. Current Opinion in Chemical Engineering, 36 (2022) 100788
  • I.L.Borisov, E.A.Grushevenko, T.S.Anokhina, D.S.Bakhtin, I.S.Levin, G.N.Bondarenko, V.V.Volkov, A.V.Volkov. Influence of side chains assembly on the structure and transport properties of comb-like polysiloxanes in hydrocarbon separation. Materials Today Chemistry, 22 (2021) 100598
  • K.V.Pochivalov, A.V.Basko, T.N.Lebedeva, M.Yu.Yurov, A.A.Yushkin, A.V.Volkov. A Facile Method for Selection of Solvents for Fabrication of Polypropylene Membranes by Thermally Induced Phase Separation. Journal of Macromolecular Science, Part B, 60 №12 (2021)
  • A.Yu.Alent'ev, A.V.Volkov, I.V.Vorotyntsev, A.L.Maximov, A.B.Yaroslavtsev. Membrane technologies for decarbonization. Membranes and Membrane Technologies, 11 №5 (2021) 283-303 (in Russian)
  • A.I.Wozniak, E.V.Bermesheva, I.L.Borisov, A.V.Volkov, D.I.Petukhov, N.N.Gavrilova, V.P.Shantarovich, A.F.Asachenko, M.A.Topchiy, E.Sh.Finkelshtein, M.V.Bermeshev. Switching on/switching off solubility controlled permeation of hydrocarbons through glassy polynorbornenes by the length of side alkyl groups. Journal of Membrane Science, 641 (2022) 119848
  • T.S.Anokhina, I.L.Borisov, A.A.Yushkin, G.Vaganov, A.Didenko, A.V.Volkov. Kinetics of Phase Separation Polyamic Acid (PAA) Solutions with Various Precipitants. Key Engineering Materials, 899 (2021) 9-16
  • E.S.Dmitrieva, E.E.Pankratova, T.S.Anokhina, V.A.Vinokurov, A.V.Volkov. Crosslinked Sodium Alginate as a Material for Nanolfiltration Protonic and Aprotonic Solvents. Key Engineering Materials, 899 (2021) 745-751
  • R.A.Kirk, C.Ye, A.B.Foster, A.V.Volkov, N.B.McKeown, P.M.Budd. Mixed matrix membranes derived from a spirobifluorene polymer of intrinsic microporosity and polyphenylene networks for the separation of toluene from dimethyl sulfoxide. Arkivoc, (2021) 120-130
  • I.Kuryndin, S.Kostromin, E.Popova, I.Borisov, D.Bakhtin, R.Mamalimov, A.Chervov, A.Volkov, S.Bronnikov. Gas permeability and mechanical properties of polyethylene films subjected to ultraviolet irradiation. Separation Science and Technology, (2021)
  • M.A.Guseva, D.A.Alentiev, D.S.Bakhtin, I.L.Borisov, R.S.Borisov, A.V.Volkov, E.Sh.Finkelshtein, M.V.Bermeshev. Polymers based on exo-silicon-substituted norbornenes for membrane gas separation. Journal of Membrane Science, 638 (2021) 119656
  • E.A.Grushevenko, I.L.Borisov, A.V.Volkov. High-Selectivity Polysiloxane Membranes for Gases and Liquids Separation (A Review). Petroleum Chemistry, 61 (2021) 959-976
  • E.A.Grushevenko, I.L.Borisov, A.V.Volkov. High-Selectivity Polysiloxane Membranes for Gases and Liquids Separation (A Review). Petroleum Chemistry, 61 №5 (2021) 571-590 (in Russian)
  • K.V.Pochivalov, A.V.Basko, T.N.Lebedeva, A.N.Ilyasova, M.Yu.Yurov, R.Yu.Golovanov, V.V.Artemov, V.V.Volkov, A.A.Ezhov, A.V.Volkov, Ya.V.Kudryavtsev. Thermally induced phase separation in semicrystalline polymer solutions: How does the porous structure actually arise? Materials Today Communications, 28 (2021) 102558
  • G.Golubev, D.Bakhtin, S.Makaev, I.Borisov, A.Volkov. Hybrid Microporous Polymeric Materials with Outstanding Permeability and Increased Gas Transport Stability: PTMSP Aging Prevention by Sorption of the Polymerization Catalyst on HCPS. Polymers, 13 №12 (2021) 1922
  • T.Anokhina, A.Raeva, S.Makaev, I.Borisov, V.Vasilevsky, A.Volkov. Express Method of Preparation of Hollow Fiber Membrane Samples for Spinning Solution Optimization: Polysulfone as Example. Membranes, 11 №6 (2021) 396
  • E.G.Novitsky, S.D.Bazhenov, A.V.Volkov. Optimization of methods for cleaning gas mixtures from carbon dioxide (Review). Petroleum Chemistry, 61 №3 (2021) 291-310 (in Russian)
  • D.S.Bakhtin, A.O.Malakhov, V.G.Polevaya, L.A.Kulikov, A.M.Grekhov, S.D.Bazhenov, A.V.Volkov. Behavior of Polytrimethylsilylpropyne-Based Composite Membranes in the Course of Continuous and Intermittent Gas Permeability Measurements. Russian Journal of Applied Chemistry, 94 (2021) 616-623
  • D.S.Bakhtin, A.O.Malakhov, V.G.Polevaya, L.A.Kulikov, A.M.Grekhov, S.D.Bazhenov, A.V.Volkov. Behavior of Polytrimethylsilylpropyne-Based Composite Membranes in the Course of Continuous and Intermittent Gas Permeability Measurements. Russian Journal of Applied Chemistry, 94 №5 (2021) 612-620 (in Russian)
  • D.Kalmykov, S.Makaev, G.Golubev, I.Eremeev, V.Vasilevsky, J. Song, T.He, A.Volkov. Operation of Three-Stage Process of Lithium Recovery from Geothermal Brine: Simulation. Membranes, 11 №3 (2021) 175
  • A.A.Yushkin, A.V.Balynin, A.I.Nekhaev, A.V.Volkov. Separation of “Archipelago” and “Continent” Type Asphaltenes on Ultrafiltration Membranes. Membranes and Membrane Technologies, 11 №2 (2021) 155-162 (in Russian)
  • G.Golubev, I.Eremeev, S.Makaev, M.Shalygin, V.Vasilevsky, T.He, E.Drioli, A.Volkov. Thin-film distillation coupled with membrane condenser for brine solutions concentration. Desalination, 503 (2021) 114956
  • A.A.Yushkin, M.N.Efimov, A.O.Malakhov, G.P.Karpacheva, G.Bondarenko, L.Marbelia, I.F.J.Vankelecom, A.V.Volkov. Creation of highly stable porous polyacrylonitrile membranes using infrared heating. Reactive and Functional Polymers, 158 (2021) 104793
  • L.Liu, Z.Xiao, Y.Liu, X.Li, H.Yin, A.Volkov, T.He. Understanding the fouling/scaling resistance of superhydrophobic/omniphobic membranes in membrane distillation. Desalination, 499 (2021) 114864
  • D.Bakhtin, S.Bazhenov, V.Polevaya, E.Grushevenko, S.Makaev, G.Karpacheva, V.Volkov, A.Volkov. Aging of Thin-Film Composite Membranes Based on Crosslinked PTMSP/PEI Loaded with Highly Porous Carbon Nanoparticles of Infrared Pyrolyzed Polyacrylonitrile. Membranes, 10 №12 (2020) 419
  • I.L.Borisov, S.D.Bazhenov, V.P.Vasilevsky, D.S.Bakhtin, A.V.Balynin, A.A.Yushkin, G.V.Vaganov, A.L.Didenko, V.E.Yudin, A.V.Volkov. Asymmetric hollow-fiber filtration membranes based on insoluble polyimide (R-BAPB): Influence of coagulation bath on porous structure. Journal of Physics: Conference Series, 1696 (2020) 012040
  • D.S.Bakhtin, I.L.Borisov, V.G.Polevaya, P.M.Budd, A.V.Volkov. Synergy of selective gas transport in bilayered membranes. Journal of Physics: Conference Series, 1696 (2020) 012038
  • T.Anokhina, I.Borisov, A.Yushkin, G.Vaganov, A.Didenko, A.Volkov. Phase Separation within a Thin Layer of Polymer Solution as Prompt Technique to Predict Membrane Morphology and Transport Properties. Polymers, 12 №12 (2020) 2785
  • G.Dibrov, G.Kagramanov, V.Sudin, E.Grushevenko, A.Yushkin, A.Volkov. Influence of Sodium Hypochlorite Treatment on Pore Size Distribution of Polysulfone/Polyvinylpyrrolidone Membranes. Membranes, 10 №11 (2020) 356
  • V.V.Ugrozov, A.V.Volkov. The Effects of the Viscous Flow of a Gas and the Porous Structure of a Support on the Permeability of a Composite Membrane. Colloid Journal, 82 №5 (2020) 597-603
  • V.V.Ugrozov, A.V.Volkov. The Effects of the Viscous Flow of a Gas and the Porous Structure of a Support on the Permeability of a Composite Membrane. Colloid Journal, 82 №5 (2020) 644-650 (in Russian)
  • G.Vaganov, A.Didenko, E.Ivan’kova, E.Popova, V.Elokhovskii, A.V.Volkov, I.L.Borisov, V.E.Yudin. Preparation of R-BABP Polyimide Fibers via Wet Spinning of Polyamide Acid. Key Engineering Materials, 869 (2020) 266-272
  • I.A.Podtynnikov, A.V.Balynin, A.A.Yushkin, P.M.Budd, A.V.Volkov, I.L.Borisov. Pervaporation Separation of Toluene/TEG Mixture with PIM-1 Membrane. Key Engineering Materials, 869 (2020) 408-412
  • A.A.Yushkin, A.V.Balynin, D.S.Bakhtin, R.Kirk, P.M.Budd, A.V.Volkov. Cross-Linked PIM-1 Membranes with Improved Stability to Aromatics. Key Engineering Materials, 869 (2020) 431-436
  • A.A.Yushkin, A.V.Balynin, M.E.Efimov, G.Karpacheva, A.V.Volkov. Preparation of Fine Porous Ultrafiltration Membranes from Polyacrylonitrile. Key Engineering Materials, 869 (2020) 437-442
  • D.O.Kalmykov, S.V.Makaev, G.S.Golubev, T.L.Hoang, Tr.D.Nguyen, A.V.Volkov. Simulation of Desalination of a Sodium Chloride Aqueous Solution by Membrane Distillation with a Porous Condenser. Membranes and Membrane Technologies, 2 №6 (2020) 407–416
  • D.O.Kalmykov, S.V.Makaev, G.S.Golubev, T.L.Hoang, Tr.D.Nguyen, A.V.Volkov. Simulation of Desalination of a Sodium Chloride Aqueous Solution by Membrane Distillation with a Porous Condenser. Membranes and Membrane Technologies, 10 №6 (2020) 436-446 (in Russian)
  • E.A.Grushevenko, I.L.Borisov, D.S.Bakhtin, V.V.Volkov, A.V.Volkov. The Effect of the Type and Concentration of the Crosslinking Diene on the Gas Transport Properties of Membranes Based on Polyoctylmethylsiloxane. Membranes and Membrane Technologies, 10 №6 (2020) 428-435 (in Russian)
  • E.A.Grushevenko, I.L.Borisov, D.S.Bakhtin, V.V.Volkov, A.V.Volkov. The Effect of the Type and Concentration of the Crosslinking Diene on the Gas Transport Properties of Membranes Based on Polyoctylmethylsiloxane. Membranes and Membrane Technologies, 2 №6 (2020) 399–406
  • A.A.Yushkin, G.S.Golubev, I.A.Podtynnikov, I.L.Borisov, V.V.Volkov, A.V.Volkov. Separation of Mixtures of Polar and Nonpolar Organic Liquids by Pervaporation and Nanofiltration (Review). Petroleum Chemistry, 60 №11 (2020) 1317-1327
  • A.A.Yushkin, G.S.Golubev, I.A.Podtynnikov, I.L.Borisov, V.V.Volkov, A.V.Volkov. Separation of Mixtures of Polar and Nonpolar Organic Liquids by Pervaporation and Nanofiltration (Review). Petroleum Chemistry, 60 №6 (2020) 863-874 (in Russian)
  • I.L.Borisov, E.A.Grushevenko, A.V.Volkov. Effect of Crosslinking Agent Length on the Transport Properties of Polydecylmethylsiloxane-Based Membranes. Membranes and Membrane Technologies, 2 №5 (2020) 318-324
  • I.L.Borisov, E.A.Grushevenko, A.V.Volkov. Effect of Crosslinking Agent Length on the Transport Properties of Polydecylmethylsiloxane-Based Membranes. Membranes and Membrane Technologies, 10 №5 (2020) 334-340 (in Russian)
  • A.Brunetti, P.F.Zito, I.Borisov, E.Grushevenko, V.Volkov, A.Volkov, G.Barbieri. CO2 separation from humidified ternary gas mixtures using a polydecylmethylsiloxane composite membrane. Fuel Processing Technology 210 (2020) 106550
  • W.H.Lee, J.Y.Bae, A.Yushkin, M.Efimov, J.T.Jung, A.Volkov, Y.M.Lee. Energy and time efficient infrared (IR) irradiation treatment for preparing thermally rearranged (TR) and carbon molecular sieve (CMS) membranes for gas separation. Journal of Membrane Science, 613 (2020) 118477
  • A.I.Wozniak, I.L.Borisov, E.V.Bermesheva, D.P.Zarezin, A.V.Volkov, E.Sh.Finkelstein, M.V.Bermeshev. Influence of the Nature of Chemical Modification of Addition Poly(5-vinyl-2-norbornene) on the Gas Permeability of Hydrocarbons. Polymer Science, Series B, 62 №3 (2020) 218-224
  • A.I.Wozniak, I.L.Borisov, E.V.Bermesheva, D.P.Zarezin, A.V.Volkov, E.Sh.Finkelstein, M.V.Bermeshev. Influence of the Nature of Chemical Modification of Addition Poly(5-vinyl-2-norbornene) on the Gas Permeability of Hydrocarbons. Vysokomolekulyarnye soedineniya. Series B, 62 №3 (2019) 183-189 (in Russian)
  • V.Y.Ignatenko, T.S.Anokhina, S.O.Ilyin, A.V.Kostyuk, D.S.Bakhtin, V.V.Makarova, S.V.Antonov, A.V.Volkov. Phase Separation of Polymethylpentene Solutions for Producing Microfiltration Membranes. Polymer Science, Series A, 62 №3 (2020) 292-299
  • D.S.Bakhtin, L.A.Kulikov, A.L.Maksimov, A.V.Volkov. Composite Membranes Based on the Poly(1-trimethylsylyl-1-propine): Influence of the Porous Aromatic Frameworks Produced from the Friedel?Crafts Reaction and Introduced into the Polymer Matrix. Russian Journal of Applied Chemistry, 93 №2 (2020) 252-257
  • G.O.Karpov, I.L.Borisov, A.V.Volkov, E.S.Finkelshtein, M.V.Bermeshev. Synthesis and Gas Transport Properties of Addition Polynorbornene with Perfluorophenyl Side Groups. Polymers, 12 №6 (2020) 1282
  • I.Borisov, I.Podtynnikov, E.Grushevenko, O.Scharova, T.Anokhina, S.Makaev, A.Volkov, V.Volkov. High Selective Composite Polyalkylmethylsiloxane Membranes for Pervaporative Removal of MTBE from Water: Effect of Polymer Side-chain. Polymers, 12 №6 (2020) 1213
  • T.S.Anokhina, V.Y.Ignatenko, A.V.Kostyuk, S.O.Ilyin, A.V.Volkov, S.V.Antonov. Effect of coagulant nature on nanofiltration properties of cellulose membranes formed from solutions in ionic liquid. Membranes and Membrane Technologies, 2 №3 (2020) 149-158
  • T.S.Anokhina, V.Y.Ignatenko, A.V.Kostyuk, S.O.Ilyin, A.V.Volkov, S.V.Antonov. Effect of coagulant nature on nanofiltration properties of cellulose membranes formed from solutions in ionic liquid. Membranes and Membrane Technologies, 10 №3 (2020) 153-164 (in Russian)
  • D.N.Matveev, V.P.Vasilevskii, I.L.Borisov, V.V.Volkov, A.V.Volkov. Effects of dry-jet wet spinning parameters on properties of polysulfone hollow fiber membranes. Russian Journal of Applied Chemistry, 93 №4 (2020) 554-563
  • D.N.Matveev, V.P.Vasilevskii, I.L.Borisov, V.V.Volkov, A.V.Volkov. Effects of dry-jet wet spinning parameters on properties of polysulfone hollow fiber membranes. Russian Journal of Applied Chemistry, 93 №4 (2020) 545-555 (in Russian)
  • A.I.Wozniak, E.V.Bermesheva, F.A.Andreyanov, I.L.Borisov, D.P.Zarezin, D.S.Bakhtin, N.N.Gavrilova, I.R.Ilyasov, M.S.Nechaev, A.F.Asachenko, M.A.Topchiy, A.V.Volkov, E.Sh.Finkelshtein, X.-K.Ren, M.V.Bermeshev. Modifications of addition poly(5-vinyl-2-norbornene) and gas-transport properties of the obtained polymers. Reactive and Functional Polymers, 149 (2020) 104513
  • E.A.Grushevenko, I.L.Borisov, A.A.Knyazeva, V.V.Volkov, A.V.Volkov. Polyalkylmethylsiloxanes composite membranes for hydrocarbon/methane separation: Eight component mixed-gas permeation properties. Separation and Purification Technology, 241 (2020) 116696
  • E.G.Novitsky, E.A.Grushevenko, V.P.Vasilevsky, A.V.Volkov. Studying the Possibilities of Generating Electric-Power by Reverse Electrodialysis of Monoethanolamine Aqueous Solutions. Membranes and Membrane Technologies, 10 №2 (2020) 125-130 (in Russian)
  • E.G.Novitsky, E.A.Grushevenko, V.P.Vasilevsky, A.V.Volkov. Studying the Possibilities of Generating Electric-Power by Reverse Electrodialysis of Monoethanolamine Aqueous Solutions. Membranes and Membrane Technologies, 2 №2 (2020) 109-114
  • D.S.Bakhtin, L.A.Kulikiv, A.L.Maksimov, A.V.Volkov. Stabilization of gas transport properties of composite membranes based on poly [1-trimethylsilyl-1-propine] by introducing porous aromatic frameworks nanoparticles obtained by the Friedel-Crafts reaction. Russian Journal of Applied Chemistry, 93 №2 (2020) 257-263 (in Russian)
  • Z.Xiao, H.Guo, H.He, Y.Liu, X.Li, Y.Zhang, H.Yin, A.V.Volkov, T.He. Unprecedented scaling/fouling resistance of omniphobic polyvinylidene fluoride membrane with silica nanoparticle coated micropillars in direct contact membrane distillation. Journal of Membrane Science, 599 (2020) 117819
  • G.S.Golubev, I.L.Borisov, V.V.Volkov, A.V.Volkov. High-Performance Reinforced PTMSP Membranes for Thermopervaporation Removal of Alcohols from Aqueous Media. Membranes and Membrane Technologies, 2 №1 (2020) 45-53
  • G.S.Golubev, I.L.Borisov, V.V.Volkov, A.V.Volkov. High-Performance Reinforced PTMSP Membranes for Thermopervaporation Removal of Alcohols from Aqueous Media. Membranes and Membrane Technologies, 10 №1 (2020) 54-62 (in Russian)
  • S.Ilyin, V.Ignatenko, T.Anokhina, D.Bakhtin, A.Kostyuk, E.Dmitrieva, S.Antonov, V.Volkov. Formation of Microfiltration Membranes from PMP/PIB Blends: Effect of PIB Molecular Weight on Membrane Properties. Membranes, 10 №1 (2020) 9
  • V.Y.Ignatenko, T.S.Anokhina, S.O.Ilyin, A.V.Kostyuk, D.S.Bakhtin, S.V.Antonov, A.V.Volkov. Fabrication of microfiltration membranes from polyisobutylene/polymethylpentene blends. Polymer International, 69 №2 (2020) 165-172
  • A.O.Malakhov, A.V.Volkov. Modification of polymer membranes for use in organic solvents (Review). Russian Journal of Applied Chemistry, 93 №1 (2020) 20-31
  • A.O.Malakhov, A.V.Volkov. Modification of Polymer Membranes for Use in Organic Solvents (Review). Russian Journal of Applied Chemistry, 93 №1 (2020) 14–24 (In Russian)
  • V.Volkov, I.Borisov, G.Golubev, V.Vasilevsky, D.Matveev, G.Bondarenko, A.Volkov. Sorption-assisted thermopervaporation method for organics recovery from ABE fermentation broth. Journal of Chemical Technology & Biotechnology, 95 №1 (2020) 40-51
  • M.I.Kostyanaya, S.D.Bazhenov, V.P.Vasilevsky, S.A.Legkov, A.V.Nikitin, I.V.Sedov, A.V.Volkov. Membrane Absorption of Ethylene from a Mixture with Ethane Using MDK-3 Composite Membranes. Russian Journal of Applied Chemistry, 92 №12 (2019) 1826-1834
  • M.I.Kostyanaya, S.D.Bazhenov, V.P.Vasilevsky, S.A.Legkov, A.V.Nikitin, I.V.Sedov, A.V.Volkov. Membrane Absorption of Ethylene from a Mixture with Ethane Using MDK-3 Composite Membranes. Russian Journal of Applied Chemistry, 92 №13 (2019) 1749-1758 (in Russian)
  • I.Borisov, V.Vasilevsky, D.Matveev, A.Ovcharova, A.Volkov, V.Volkov. Effect of Temperature Exposition of Casting Solution on Properties of Polysulfone Hollow Fiber Membranes. Fibers, 7 №12 (2019) 110
  • V.Y.Ignatenko, T.S.Anokhina, S.O.Ilyin, A.V.Kostyuk, D.S.Bakhtin, S.V.Antonov, A.V.Volkov. Fabrication of microfiltration membranes from polyisobutylene/polymethylpentene blends. Polymer International. (2019). DOI 10.1002/pi.5932
  • E.G.Novitsky, G.S.Golubev, E.A.Grushevenko, V.P.Vasilevsky, A.V.Volkov. Process of Concentrating of Highly Mineralized Waters in an Air-Gap Membrane Distiller. Membranes and Membrane Technologies, 9 №6 (2019) 445-450 (in Russian)
  • E.G.Novitsky, G.S.Golubev, E.A.Grushevenko, V.P.Vasilevsky, A.V.Volkov. Process of Concentrating of Highly Mineralized Waters in an Air-Gap Membrane Distiller. Membranes and Membrane Technologies, 1 №6 (2019) 381-385
  • M.N.Putintseva, A.A.Yushkin, G.N.Bondarenko, R.A.Kirk, P.M.Budd, A.V.Volkov. Crosslinking of Polybenzodioxane PIM-1 for Improving Its Stability in Aromatic Hydrocarbons. Polymer Science, Series B, 61 №6 (2019) 795–805
  • M.N.Putintseva, A.A.Yushkin, G.N.Bondarenko, R.A.Kirk, P.M.Budd, A.V.Volkov. Crosslinking of Polybenzodioxane PIM-1 for Improving Its Stability in Aromatic Hydrocarbons. Vysokomolekulyarnye soedineniya. Series B, №6 (2019) 450–461 (in Russian)
  • E.Grushevenko, S.Bazhenov, V.Vasilevsky, E.Novitsky, M.Shalygin, A.Volkov. Effect of Carbon Dioxide Loading on Removal of Heat Stable Salts from Amine Solvent by Electrodialysis. Membranes, 9 №11 (2019) 152
  • I.V.Volgin, M.V.Andreeva, S.V.Larin, A.L.Didenko, G.V.Vaganov, I.L.Borisov, A.V.Volkov, L.I.Klushin, S.V.Lyulin. Transport Properties of Thermoplastic R-BAPB Polyimide: Molecular Dynamics Simulations and Experiment. Polymers, 11 №1 (2019) 1775
  • G.S.Golubev, I.L.Borisov, A.V.Volkov, V.V.Volkov. Poly(trimethylsilylpropyne) Membranes for Removal of Alcohol Fermentation Products by Thermopervaporation with a Porous Condenser. Membranes and Membrane Technologies, 1 №5 (2019) 331-339
  • G.S.Golubev, I.L.Borisov, A.V.Volkov, V.V.Volkov. Poly(trimethylsilylpropyne) Membranes for Removal of Alcohol Fermentation Products by Thermopervaporation with a Porous Condenser. Membranes and Membrane Technologies, 9 №5 (2019) 387-396 (in Russian)
  • S.D.Bazhenov, E.G.Novitskii, V.P.Vasilevskii, E.A.Grushevenko, A.A.Bienko, A.V.Volkov. Heat-Stable Salts and Methods for Their Removal from Alkanolamine Carbon Dioxide Absorbents (Review). Russian Journal of Applied Chemistry, 92 №8 (2019) 1045-1063
  • S.D.Bazhenov, E.G.Novitskii, V.P.Vasilevskii, E.A.Grushevenko, A.A.Bienko, A.V.Volkov. Heat-Stable Salts and Methods for Their Removal from Alkanolamine Carbon Dioxide Absorbents (Review). Russian Journal of Applied Chemistry, 92 №8 (2019) 957-979 (in Russian)
  • T.S.Anokhina, S.O.Ilyin, V.Ya.Ignatenko, D.S.Bakhtin, A.V.Kostyuk, S.V.Antonov, A.V.Volkov. Formation of Porous Films with Hydrophobic Surface from a Blend of Polymers. Polymer Science, Series A, 61 №5 (2019) 619–626
  • T.S.Anokhina, S.O.Ilyin, V.Ya.Ignatenko, D.S.Bakhtin, A.V.Kostyuk, S.V.Antonov, A.V.Volkov. Formation of Porous Films with Hydrophobic Surface from a Blend of Polymers. Vysokomolekulyarnye Soedineniya, Seriya A, 61 №5 (2019) 440-447 (in Russian)
  • T.S.Anokhina, S.D.Bazhenov, I.L.Borisov, V.P.Vasilevsky, V.A.Vinokurov, A.V.Volkov. Nanocellulose as Modifier for Hollow Fiber Ultrafiltration PSF Membranes. Key Engineering Materials, 816 (2019) 238-243
  • A.A.Yushkin, D.S.Bakhtin, M.N.Efimov, G.P.Karpacheva, A.V.Volkov. Preparation of Polyacrylonitrile Membranes by Vapor Induced Phase Separation. Key Engineering Materials, 816 (2019) 174-179
  • M.N.Putintseva, I.L.Borisov, A.A.Yushkin, R.A.Kirk, P.M.Budd, A.V.Volkov. Effect of Casting Solution Composition on Properties of PIM-1/PAN Thin Film Composite Membranes. Key Engineering Materials, 816 (2019) 167-173
  • R.A.Kirk, M.Putintseva, A.Volkov, P.M.Budd. The potential of polymers of intrinsic microporosity (PIMs) and PIM/graphene composites for pervaporation membranes. BMC Chemical Engineering, 1 №1 (2019) 1-19
  • A.I.Wozniak, E.V.Bermesheva, I.L.Borisov, D.I.Petukhov, M.V.Bermeshev, A.V.Volkov, E.S.Finkelshtein. Addition Polyalkylnorbornenes: A Promising New Class of Si-Free Membrane Materials for Hydrocarbons Separation. Macromolecular rapid communications, (2019) 1900206
  • A.O.Malakhov, S.D.Bazhenov, V.P.Vasilevsky, I.L.Borisov, A.A.Ovcharova, A.V.Bildyukevich, V.V.Volkov, L.Giorno, A.V.Volkov. Thin-film composite hollow fiber membranes for ethylene/ethane separation in gas-liquid membrane contactor. Separation and Purification Technology, 219 (2019) 64-73
  • I.Borisov, D.Bakhtin, J.M.Luque-Alled, A.Rybakova, V.Makarova, A.B.Foster, W.J.Harrison, V.Volkov, V.Polevaya, P.Gorgojo, E.Prestat, P.M.Budd, A.Volkov. Synergistic enhancement of gas selectivity in thin film composite membranes of PIM-1. Journal of Materials Chemistry A, 7 (2019) 6417-6430
  • P.Yu.Apel, O.V.Bobreshova, A.V.Volkov, V.V.Volkov, V.V.Nikonenko, I.A.Stenina, A.N.Filippov, Yu.P.Yampolskii, A.B.Yaroslavtsev. Prospects of Membrane Science Development. Membranes and Membrane Technologies, 1 №2 (2019) 45–63
  • P.Yu.Apel, O.V.Bobreshova, A.V.Volkov, V.V.Volkov, V.V.Nikonenko, I.A.Stenina, A.N.Filippov, Yu.P.Yampolskii, A.B.Yaroslavtsev. Prospects of Membrane Science Development. Membranes and membrane technologies, 9 №2 (2019) 59–80 (in Russian)
  • L.A.Kulikov, D.S.Bakhtin, V.G.Polevaya, A.V.Balynin, A.L.Maksimov, A.V.Volkov. Friedel-Crafts Synthesis of New Porous Aromatic Frameworks for Stabilizing Gas Transport Properties of Highly Permeable Glassy Polymers. Journal of Applied Chemistry, 90 №2 (2019) 199-207
  • L.A.Kulikov, D.S.Bakhtin, V.G.Polevaya, A.V.Balynin, A.L.Maksimov, A.V.Volkov. Friedel-Crafts Synthesis of New Porous Aromatic Frameworks for Stabilizing Gas Transport Properties of Highly Permeable Glassy Polymers. Journal of Applied Chemistry, 90 №2 (2019) 168-176 (in Russian)
  • A.Yushkin, R.Borisov, V.Volkov, A.Volkov Improvement of MWCO determination by using branched PEGs and MALDI method, Separation and Purification Technology 211 (2019) 108-116
  • E.A.Grushevenko, I.L.Borisov, D.S.Bakhtin, G.N.Bondarenko, I.S.Levin, A.V.Volkov. Silicone rubbers with alkyl side groups for C3+ hydrocarbon separation. Reactive and Functional Polymers, 134 (2019) 156-165
  • A.A.Yushkin, T.S.Anokhina, S.D.Bazhenov, I.L.Borisov, P.M.Budd, A.V.Volkov. Sorption and Nanofiltration Characteristics of PIM-1 Material in Polar and Non-Polar Solvents. Petroleum Chemistry, 58 №13 (2018) 1154-1158
  • A.A.Yushkin, T.S.Anokhina, S.D.Bazhenov, I.L.Borisov, P.M.Budd, A.V.Volkov. Sorption and Nanofiltration Characteristics of PIM-1 Material in Polar and Non-Polar Solvents. Membranes and membrane technologies, 8 №6 (2018) 434–439 (in Russian)
  • A.A.Yushkin, M.N.Efimov, A.A.Vasilev, G.P.Karpacheva, A.V.Volkov PAN filtration membranes with extended solvent stability, Journal of Physics: Conf. Series 1099 (2018) 012031
  • T.Anokhina, V.Ignatenko, S.Ilyin, S.Antonov, A.Volkov Fabrication of cellulose-based composite membranes for organic solvent nanofiltration, Journal of Physics: Conf. Series 1099 (2018) 012039
  • S.Bazhenov, D.Bakhtin, A.Volkov Regeneration of СO2 Physical Solvents at Elevated Pressures in Gas-Liquid Membrane Contactor, Journal of Membrane Science and Research 4 (2018) 227-238
  • E.G.Novitskii, V.P.Vasilevskii, V.I.Vasil’eva, E.A.Goleva, E.A.Grushevenko, A.V.Volkov. Effect of Composition and Structure of Aqueous Monoethanolamine Solutions on Carbon Dioxide Sorption and Desorption in Purification of Gas Mixtures. Russian Journal of Applied Chemistry, 91 №5 (2018) 813–821
  • E.A.Grushevenko, S.D.Bazhenov, V.P.Vasilevskii, E.G.Novitskii, A.V.Volkov. Two-step electrodialysis treatment of monoethanolamine to remove heat stable salts. Russian Journal of Applied Chemistry, 91 №4 (2018) 602-610
  • S.O.Ilyin, V.V.Makarova, T.S.Anokhina, V.Y.Ignatenko, T.V.Brantseva, A.V.Volkov, S.V.Antonov, Diffusion and phase separation at the morphology formation of cellulose membranes by regeneration from N-methylmorpholine N-oxide solutions, Cellulose, 25, 4 (2018) 2515-2530
  • A.Yushkin, V.Vasilevsky, V.Khotimskiy, A.Szymczyk, A.Volkov, Evaluation of liquid transport properties of hydrophobic polymers of intrinsic microporosity by electrical resistance measurement, Journal of Membrane Science, 554 (2018) 346–356
  • D.S.Bakhtin, L.A.Kulikov, S.A.Legkov, V.S.Khotimskiy, I.S.Levin, I.L.Borisov, A.L.Maksimov, V.V.Volkov, E.A.Karakhanov, A.V.Volkov, Aging of thin-film composite membranes based on PTMSP loaded with porous aromatic frameworks, Journal of Membrane Science, 554 (2018) 211–220
  • S.Bazhenov, A.Malakhov, D.Bakhtin, V.Khotimskiy, G.Bondarenko, V.Volkov, M.Ramdin, T.J.H.Vlugt, A.Volkov, CO2 stripping from ionic liquid at elevated pressures in gas-liquid membrane contactor, International Journal of Greenhouse Gas Control, 71 (2018) 293–302
  • A.O.Malakhov, T.S.Anokhina, D.A.Petrova, V.A.Vinokurov, A.V.Volkov. Nanocellulose as a component of ultrafiltration membranes. Petroleum Chemistry, 58 №11 (2018) 923–933
  • A.O.Malakhov, T.S.Anokhina, D.A.Petrova, V.A.Vinokurov, A.V.Volkov. Nanocellulose as a component of ultrafiltration membranes. Membranes and membrane technologies, 8 №5 (2018) 315–326 (In Russian)
  • D.S.Bakhtin, L.A.Kulikov, G.N.Bondarenko, V.P.Vasilevskii, A.L.Maksimov, A.V.Volkov. Stabilization of gas transport properties of composite membranes with a thin PTMSP selective layer by adding porous aromatic framework nanoparticles and simultaneous polymer crosslinking. Petroleum Chemistry, 58 №.9 (2018) 790-796
  • D.S.Bakhtin, L.A.Kulikov, G.N.Bondarenko, V.P.Vasilevskii, A.L.Maksimov, A.V.Volkov. Stabilization of gas transport properties of composite membranes with a thin PTMSP selective layer by adding porous aromatic framework nanoparticles and simultaneous polymer crosslinking. Membranes and membrane technologies, 8 №4 (2018) 272-279 (in Russian)
  • A.A.Yushkin, M.N.Efimov, A.A.Vasilev, V.I.Ivanov Yu.G.Bogdanova, V.D.Dolzhikova, G.P.Karpacheva, G.N.Bondarenko, A.V.Volkov. Effect of IR Radiation on the Properties of Polyacrylonitrile and Membranes on Its Basis. Polymer Science, Series A, V. 59, №6 (2017) 880–890
  • A.A.Yushkin, M.N.Efimov, A.A.Vasil’ev, V.I.Ivanov, Yu.G.Bogdanova, V.D.Dolzhikova, G.P.Karpacheva, G.N.Bondarenko, A.V.Volkov. Effect of IR Radiation on the Properties of Polyacrylonitrile and Membranes on Its Basis. Vysokomolekulyarnye soedineniya 59, №6 (2017) 548–558 (in Russian)
  • S.O.Iliyn, V.V.Makarova, T.S.Anokhina, A.V.Volkov, S.V.Antonov. Effect of the viscosity of the precipitant on the kinetics of formation, morphology and transport properties of cellulose nanofiltration membranes. Vysokomolekulyarnye soedineniya 59, №5 (2017) 437-446 (in Russian)
  • T.S.Anokhina, T.S.Pleshivtseva, V.Ya.Ignatenko, S.V.Antonov, A.V.Volkov. Fabrication of Composite Nanofiltration Membranes from Cellulose Solutions in an [Emim]OAc–DMSO Mixture. Petroleum Chemistry, 57 №6 (2017) 477-482
  • T.S.Anokhina, T.S.Pleshivtseva, V.Ya.Ignatenko, S.V.Antonov, A.V.Volkov. Fabrication of Composite Nanofiltration Membranes from Cellulose Solutions in an [Emim]OAc–DMSO Mixture. Membranes and membrane technologies 7, №3 (2017), 141–147 (in Russian)
  • E.A.Grushevenko, I.L.Borisov, D.S.Bakhtin, S.A.Legkov, G.N.Bondarenko, A.V.Volkov. Membrane material based on octyl-substituted polymethylsiloxane for separation of C3/C1 hydrocarbons. Petroleum Chemistry 57, №4 (2017) 334-340
  • E.G.Novitskii, V.P.Vasilevskii, E.A.Grushevenko, A.V.Volkov, V.I.Vasil’eva. The Effect of Monoethanolamine on Conductivity and Efficiency of Electrodialysis of Acid and Salt Solutions. Russian Journal of Electrochemistry, V.53 №4 (2017) 391–397
  • E.G.Novitskii, V.P.Vasilevskii, E.A.Grushevenko, A.V.Volkov, V.I.Vasil’eva. The Effect of Monoethanolamine on Conductivity and Efficiency of Electrodialysis of Acid and Salt Solutions. Russian Journal of Electrochemistry, V.53 №4 (2017) 445–451 (in Russian)
  • A.A.Yushkin, M.N.Efimov, A.A.Vasilev, Yu.G.Bogdanova, V.D.Dolzhikova, G.P.Karpacheva, A.V.Volkov. Modification of Polyacrylonitrile Membranes by Incoherent IR Radiation. Petroleum Chemistry, 57, №4 (2017) 341–346
  • A.Ovcharova, V.Vasilevsky, I.Borisov, S.Bazhenov, A.Volkov, A.Bildyukevich, V.Volkov. Polysulfone porous hollow fiber membranes for ethylene-ethane separation in gas-liquid membrane contactor. Separation and Purification Technology 183 (2017) 162–172
  • E.A.Grushevenko, I.L.Borisov, D.S.Bakhtin, S.A.Legkov, G.N.Bondarenko, A.V.Volkov. Membrane material based on octyl-substituted polymethylsiloxane for separation of C3/C1 hydrocarbons. Membranes and membrane technologies 7, №2 (2017) 117-124(in Russian)
  • A.A.Yushkin, M.N.Efimov, A.A.Vasilev, Yu.G.Bogdanova, V.D.Dolzhikova, G.P.Karpacheva, A.V.Volkov. Modification of Polyacrylonitrile Membranes by Incoherent IR Radiation. Membranes and membrane technologies 7, №2 (2017) 125-131 (in Russian)
  • I.Borisov, A.Ovcharova, D.Bakhtin, S.Bazhenov, A.Volkov, R.Ibragimov, R.Gallyamov, G.Bondarenko, R.Mozhchil, A.Bildyukevich, V.Volkov. Development of Polysulfone Hollow Fiber Porous Supports for High Flux Composite Membranes: Air Plasma and Piranha Etching. Fibers 5.1 (2017) 6
  • I.L.Borisov, G.S.Golubev, V.P.Vasilevsky, A.V.Volkov, V.V.Volkov. Novel hybrid process for bio-butanol recovery: Thermopervaporation with porous condenser assisted by phase separation. Journal of Membrane Science 523 (2017) 291–300
  • T.S.Anokhina, A.A.Yushkin, I.S.Makarov, V.Ya.Ignatenko, A.V.Kostyuk, S.V.Antonov, A.V.Volkov. Cellulose Composite Membranes for Nanofiltration of Aprotic Solvents. Petroleum Chemistry, 56, №11 (2016) 1085–1092
  • T.S.Anokhina, A.A.Yushkin, I.S.Makarov, V.Ya.Ignatenko, A.V.Kostyuk, S.V.Antonov, A.V.Volkov. Cellulose Composite Membranes for Nanofiltration of Aprotic Solvents. Membranes and membrane technologies 6, №4 (2016), 439–448 (in Russian)
  • S.D.Bazhenov, T.V.Plisko, V.A.Kirsch, A.V.Volkov, A.V.Bildukevich, V.V.Volkov. Hollow fiber and flat-sheet gas liquid membrane contactors. Nizhny Novgorod: Nizhny Novgorod State Techical University n.a. R.E.Alekseev, 2016. 400 P. ISBN 978-5-502-00731-3 (in Russian)
  • Yu.S.Eremin, A.A.Belogorlov, A.M.Grekhov, A.V.Volkov. Rapid measurement of permeability of the solvent through the nanoporous membrane materials and barrier films by method of registration of dynamic pressure dacay. Izmeritelnaya Technika 10 (2016) 30-35 (in Russian)
  • A.M.Grekhov, A.A.Belogorlov, Yu.S.Eremin, E.V.Pastukhova, A.A.Yushkin, A.V.Volkov. Effect of temperature on the transport of solvents through PTMSP under ultra-high pressures. Journal of Physics: Conference Series 751 (2016) 012049
  • A.V.Volkov, E.G.Novitsky, I.L.Borisov, V.P.Vasilevsky, V.V.Volkov. Porous condenser for thermally driven membrane processes: Gravity independent operation. Separation and Purification Technology 171 (2016) 191–196
  • A.V.Volkov, D.S.Bakhtin, L.A.Kulikov, M.V.Terenina, G.S.Golubev, G.N.Bondarenko, S.A.Legkov, G.A.Shandryuk, V.V.Volkov, V.S.Khotimskiy, A.A.Belogorlov, A.L.Maksimov, E.A.Karakhanov. Stabilization of gas transport properties of PTMSP with porous aromatic framework: Effect of annealing. J. Membr. Sci. 517 (2016) 80-90
  • A.A.Kossov, A.A.Yushkin, V.S.Khotimskiy, A.V.Volkov. Study of accessible free volume and transport properties of TFPS-co-TMSP copolymer. Petroleum Chemistry. V.55, №10, (2015), 783–790
  • T.S.Anokhina, A.A.Yushkin, P.M.Budd, A.V.Volkov. Application of PIM-1 for solvent swing adsorption and solvent recovery by nanofiltration. Separation and Purification Technology. 156, (2015), 683-690
  • A.A.Yushkin, T.S.Anokhina, A.V.Volkov. Application of cellophane films as nanofiltration membranes. Petroleum Chemistry. V.55, №9, (2015), 746–752
  • A.V.Volkov, S.E.Tsarkov, E.L.V.Goetheer, V.V.Volkov. Amine-based solvents regeneration in gas-liquid membrane contactor based on asymmetric PVTMS. Petroleum Chemistry. V.55, №9, (2015), 716–723
  • D.N.Gorbunov, A.V.Volkov, Yu.S.Kardasheva, A.L.Maksimov, E.A.Karakhanov. Hydroformylation in Petroleum Chemistry and Organic Synthesis: Implementation of the Process and Solving the Problem of Recycling Homogeneous Catalysts (Review). Petroleum Chemistry. V.55, №8, (2015) 587–603
  • D.N.Gorbunov, A.V.Volkov, Yu.S.Kardasheva, A.L.Maksimov, E.A.Karakhanov. Hydroformylation in Petroleum Chemistry and Organic Synthesis: Implementation of the Process and Solving the Problem of Recycling Homogeneous Catalysts (Review). Neftekhimiya, V. 55, №6, (2015), 443–459 (in Russian)
  • A.A.Kossov, A.A.Yushkin, V.S.Khotimskiy, A.V.Volkov Study of Free Accessible Volume and Transport Properties of TFPS-co-TMSP Copolymer. Membranes and membrane technologies, V.5, № 4, (2015), 269–277 (in Russian)
  • T.S.Anokhina, A.A.Yushkin, V.V.Volkov, S.V.Antonov, A.V.Volkov. Cellulose-Based Membranes for Solutes Fractionation. Physics Procedia 72 (2015) 171–174
  • S.Bazhenov, A.Rieder, B.Schallert, V.Vasilevsky, S.Unterberger, E.Grushevenko, V.Volkov, A.Volkov. Reclaiming of degraded MEA solutions by electrodialysis: Results of ED pilot campaign at post-combustion CO2 capture pilot plant. International Journal of Greenhouse Gas Control. 42 (2015), 593–601
  • A. Malakhov, A. Volkov. Application of Coupled Solution-Diffusion Model in Organic Solvent Nanofiltration: Positive and Negative Rejection of Solutes. Separation Science and Technology, 50, (2015), 2198–2210
  • A.V. Volkov, S.E. Tsarkov, A.B. Gilman, V.S. Khotimsky, V.I. Roldughin, V.V. Volkov. Surface modification of PTMSP membranes by plasma treatment: Asymmetry of transport in organic solvent nanofiltration. Advances in Colloid and Interface Science. 222, (2015), 716-727
  • A.A. Yushkin, T.S. Anokhina, A.V. Volkov. Application of Cellophane Films as Nanofiltration Membranes. Membranes and membrane technologies. V.5, №3, (2015), 226-231 (in Russian)
  • A.V. Volkov, S.E. Tsarkov, E.L.V. Goetheer, V.V. Volkov. Amine-Based Solvents Regeneration in Gas-Liquid Membrane Contactor Based on Asymmetric PVTMS. Membranes and membrane technologies. V.5, №3, (2015), 192-201 (in Russian)
  • A. Yushkin, A. Grekhov, S. Matson, M. Bermeshev, V. Khotimsky, E. Finkelstein, P.M. Budd, V. Volkov, T.J.H. Vlugt, A. Volkov. Study of glassy polymers fractional accessible volume (FAV) by extended method of hydrostatic weighing: Effect of porous structure on liquid transport. Reactive and Functional Polymers, 86 (2015) 269-281
  • S. Bazhenov, V. Vasilevsky, A. Rieder, S. Unterberger, E. Grushevenko, V. Volkov, B. Schallert, A. Volkov. Heat stable salts (HSS) removal by Electrodialysis: reclaiming of MEA used in post-combustion CO2-capture. Energy Procedia, 63, (2014), 6349–6356
  • E.G. Novitsky, V.P. Vasilevsky, S.D. Bazhenov, E.A. Grushevenko, V.I. Vasilyeva, A.V. Volkov. Influence of the composition of concentrate solutions on the efficiency of carbon dioxide removal from monoethanolamine aqueous solution by electrodialysis. Petroleum Chemistry. 54 (№8) (2014), 680–685
  • E.G. Novitsky, V.P. Vasilevsky, S.D. Bazhenov, E.A. Grushevenko, V.I. Vasilyeva, A.V. Volkov. Influence of the composition of concentrate solutions on the efficiency of carbon dioxide removal from monoethanolamine aqueous solution by electrodialysis. Membranes and membrane technologies. V.4, №4, (2014), 280-286 (in Russian)
  • G.A. Dibrov, E.G. Novitskii, A.V. Volkov, R.E. Trifonov, V.A. Ostrovskii, V.V. Volkov. Investigation of Gas Transport Properties of Poly(2-methyl-5-vinyltetrazole) Membranes. Petroleum Chemistry. V. 54, №7 (2014), 539–543
  • G.A. Dibrov, E.G. Novitskii, A.V. Volkov, R.E. Trifonov, V.A. Ostrovskii, V.V. Volkov. Investigation of Gas Transport Properties of Poly(2-methyl-5-vinyltetrazole) Membranes. Membranes and membrane technologies. V.4, №2, (2014), 156-160 (in Russian)
  • A.A. Shutova, A.N. Trusov, M.V. Bermeshev, S.A. Legkov, M.L. Gringolts, E.Sh. Finkelstein, G.N. Bondarenko and A.V. Volkov. Regeneration of Alkanolamine Solutions in Membrane Contactor Based on Novel Polynorbornene. Oil & Gas Science and Technology – Rev. IFP Energies nouvelles, V. 69, №6 (2014), 1059-1068
  • V.I. Roldugin, A.A. Shutova, A.V. Volkov, E.L.V. Goetheer, V.V. Volkov. Kinetics of Carbon Dioxide Removal from Water in Flat Membrane Contactor. Petroleum Chemistry. V.54, №7 (2014), 507–514
  • V.I. Roldugin, A.A. Shutova, A.V. Volkov, E.L.V. Goetheer, V.V. Volkov. Kinetics of carbon dioxide removal from water in flat membrane contactor. Membranes and membrane technologies. V.4, №1, (2014), 47-54 (in Russian)
  • A. Volkov, V. Vasilevsky, S. Bazhenov, V. Volkov, A. Rieder, S. Unterberger, B. Schallert. Reclaiming of Monoethanolamine (MEA) Used in Post-Combustion CO2-capture with Electrodialysis. Energy Procedia. 51 (2014), 148-153
  • G.A. Dibrov, V.V. Volkov, V.P. Vasilevsky, A.A. Shutova, S.D.Bazhenov, V.S. Khotimsky, A.V. Volkov. Robust high-permeance PTMSP composite membranes for CO2 membrane gas desorption at elevated temperatures and pressures. Journal of Membrane Science. 470 (2014), 439-450
  • S. Bazhenov, M. Ramdin, A. Volkov, V. Volkov, T.J.H. Vlugt, T.W. de Loos. CO2 Solubility in Biodegradable Hydroxylammonium-Based Ionic Liquids. Journal of Chemical & Engineering Data, 59 (2014) 702-708
  • A. Volkov, A. Yushkin, Yu. Kachula, V. Khotimsky, V. Volkov. Application of negative retention in organic solvent nanofiltration for solutes fractionation. Separation and Purification Technology, 124 (2014) 43–48
  • S.E. Tsaкkov, A.A. Yushkin, A.V. Volkov. Organic solvent nanofiltration: in Membranes and membrane technologies [Ed. A.B. Yaroslavtsev]. Moscow: Nauchniy mir, (2013) 539-579 (in Russian)
  • A. Volkov, A. Yushkin, A. Grekhov, A. Shutova, S. Bazhenov, S. Tsarkov, V. Khotimsky, T.J.H. Vlugt, V. Volkov. Liquid permeation through PTMSP: One polymer for two different membrane applications. J. Membr. Sci. 440 (2013), 98-107
  • A.O. Malakhov, S.E. Tsarkov, A.V. Volkov, Modeling of organic solute retention by swollen polymeric membranes. Membranes and membrane technologies, V.3, № 2, (2013), 151–160 (in Russian)
  • S.E. Tsarkov, A.O. Malakhov, E.G. Litvinova, A.V. Volkov, Nanofiltration of Dye Solutions through Membranes Based on Poly(trimethylsilylpropyne). Petroleum Chemistry, V. 53, № 7, (2013), 537–545
  • A. Grekhov, A. Belogorlov, A. Yushkin, A. Volkov. New express dynamic technique for liquid permeation measurements in a wide range of trans-membrane pressures. J. Membr. Sci. 390-391 (2012), 160–163
  • S. Tsarkov, V. Khotimsky, P.M. Budd, V. Volkov, J. Kukushkina, A. Volkov. Solvent nanofiltration through high permeability glassy polymers: effect of polymer and solute nature. J. Membr. Sci. 423-424 (2012), 65-72
  • A.V. Volkov, S.E. Tsarkov, M.B. Gokzhaev, G.N. Bondarenko, S.A. Legkov, Yu.A. Kukushkina, V.V. Volkov. Nanofiltration and Sorption of Organic Solvents in Poly(1-Trimethylsilyl-1-Propyne) Samples of Different Microstructures. Petroleum Chemistry, 52 (2012), 598-608
  • A.A. Lysenko, S.D. Bazhenov, V.P. Vasilevsky, E.G. Novitsky, A.V. Volkov. Membrane regeneration of water solution of monoethanolamine. Membranes and membrane technologies, V.2, №4, (2012), 1–6 (in Russian)
  • A. Trusov, S. Legkov, L.J.P. van den Broeke, E. Goetheer, V. Khotimsky, A. Volkov, Gas/liquid membrane contactors based on disubstituted polyacetylene for CO2 absorption liquid regeneration at high pressure and temperature. J. Membr. Sci. 383 (2011), 241–249
  • A.M. Grekhov, A.A. Yushkin, S.E. Tsarkov, A.V. Volkov. Modern models of organic solvent nanofiltration processes. Krit.technol.Membrany, 47 (2010), p.18-40 (in Russian)
  • A.A. Lysenko, A.N. Trusov, A.V. Volkov. PVTMS-membranes for high pressure carbon dioxide absorbents regeneration. Series critical technologies. Membranes №2 (46) 2010, 32-36 (in Russian)
  • S.E. Tsaкkov, A.A. Yushkin, V.S. Khotimsky, A.V. Volkov, Nanofiltration of binary and triple systemson the basis of aqueous ethanol mixtures through hydrophobic PTMSP-membranes, Krit.technol.Membrany 45 (2010), p.22-26 (in Russian)
  • M.V. Bermeshev, M.L. Gringolts, L.E. Starannikova, A.V. Volkov, E.Sh. Finkelstein. New Membrane Materials Via Catalytic Polymerization of Bis(Trimethylsilyl)-Substituted Norbornene Type Monomers in Book «New Smart Materials via Metal Mediated Macromolecular Engineering», Eds.E.Khosravi, Yu.Yagci, Yu.Savelyev, 2010, p.319-326
  • A.V. Volkov, V.V. Volkov, V.S. Khotimskii. Membranes based on poly[(1-trimethylsilyl)-1-propyne] for liquid-liquid separation, Polym.Sci.Ser.A 51 (2009), 1367-1382
  • A.Yu. Okunev, N.I. Laguntsov, A.V. Volkov, S.D. Demchenko, A.A. Krivomaz, L.P. Fefilatiev. Artificial respiratory atmospheres generation and maintenance system based on membrane technologies. Krit.technol.Membrany 41 (2009), p.11-17 (in Russian).
  • A. V. Volkov, V. V. Parashchuk, D. F. Stamatialis, V.S. Khotimsky, V.V. Volkov, M. Wessling. High permeable PTMSP/PAN composite membranes for solvent nanofiltration. J. Membr. Sci. 333 (2009) 88–93.
  • A.V. Volkov, G.A. Korneeva, G.F. Tereshchenko. Organic solvent nanofiltration: prospects and applications. Uspekhi khimii. 77 (2008), p. 1053-1064 (in Russian).
  • V.V. Parashchuk, A.V. Volkov. Polymeric materials and membranes for organic solvent nanofiltration. Krit.technol.Membrany 37 (2008), p.25-35 (in Russian).
  • A.V. Volkov, V.S. Khotimsky, V.V. Parashchuk, D. Stamatialis, M. Wessling, V.V. Volkov, N.A. Plate. The method of nanofiltration separation of organic liquids. RF patent 2297975 (2007).
  • A. Volkov, D. Stamatialis, V. Khotimsky, V. Volkov, M. Wessling, N. Plate. Poly[1- (trimethylsilyl)-1-propyne] as a solvent resistant nanofiltration membrane material. J.Membr.Sci. 281 (2006), p. 351-357.
  • A.V. Volkov, D.F. Stamatialis, V.S. Khotimsky, V.V. Volkov, M. Wessling, N.A. Plate. New membrane material for SRNF applications. Desalination 199 (2006), p. 251-252 (presented at Euromembrane 2006 as an oral presentation).
  • A.V. Volkov, V.V. Parashchuk, Yu.P. Kuznetsov, S.V. Kononova, D.V. Dmitriev, L.I. Trusov, V.V. Volkov. Organic solvent nanofiltration membranes based on poly(diphenyloxideamide-N-phenylphthalimide). Krit.technol.Membrany 31 (2006), p.14-24 (in Russian).
  • A.O. Malakhov, E.Y. Sorokina, V.G. Berezkin, A.V. Volkov, V.V. Volkov. Poly(1-trimethylsilyl-1-propyne) as a stationary phase in capillary gas-solid chromatography of alcohols: Effect of carrier gas humidity. Polym.Sci.Ser.B 46 (2004), p. 23-30.
  • A.V. Volkov, E.V. Fedorov, A.O. Malakhov, V.V. Volkov. Vapor sorption and dilation of poly[(1-trimethylsilyl)-1-propyne] in methanol, ethanol and propanol. Polym.Sci.Ser.B 44 (2002), p. 158-162.


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