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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 Владимир Васильевич


<< Назад
Волков Владимир Васильевич
Главный научный сотрудник (д.х.н., проф.)

Год рождения: 1947

ORCID: 0000-0003-1106-2947
ResearcherID: Q-3511-2019
Scopus Author ID: 57206284073
Scholar Google: Vladimir V. Volkov
SPIN: 7169-4789
IstinaResearcherID (IRID): 53610680



Образование
  • 1966-1970 – Кафедра радиохимии, Химический факультет Московский государственный университет имени М. В. Ломоносова.
  • 1970-1974 – младший научный сотрудник кафедры радиохимии, Химического факультета Московский государственный университет имени М. В. Ломоносова.
  • 1979 – научная степень к.х.н. (специальность: «Высокомолекулярные соединения»); Институт нефтехимического синтеза им. А.В. Топчиева РАН.
  • 1992 – научная степень д.х.н. (специальность: «Высокомолекулярные соединения»); Институт нефтехимического синтеза им. А.В. Топчиева РАН.
  • 1997 – звание профессор (специальность: химия высокомолекулярных соединений); Решение ВАК.
  • 1993-н.в. – научный руководитель 13 диссертационных работ на степень к.х.н., выполненных аспирантами и соискателями ИНХС РАН по специальности «Мембраны и мембранные технологии».

Профессиональная карьера
  • 1970-1974 – младший научный сотрудник (Химический факультет Московский государственный университет имени М. В. Ломоносова).
  • 1974-1979 – младший научный сотрудник (Лаборатория синтеза селективно-проницаемых полимеров, ИНХС РАН).
  • 1979 – научная степень к.х.н. (специальность: «Высокомолекулярные соединения»); Институт нефтехимического синтеза им. А.В. Топчиева РАН.
  • 1988-1989 – приглашенный учёный (6 месяцев); Лаборатория проф. T.Kajiyama, Университет Кюсю (Япония). Тема: «Первапорация».
  • 1992 – научная степень д.х.н. (специальность: «Высокомолекулярные соединения»); Институт нефтехимического синтеза им. А.В. Топчиева РАН.
  • 1992-1997 – заместитель директора ИНХС РАН.
  • 1997-2018 – заведующий лабораторией полимерных мембран ИНХС РАН.
  • 1997-н.в. – руководитель Мембранного научного центра ИНХС РАН
  • 2009-2018 – Внештатный профессор Московского инженерно-физического института (МИФИ).
  • 2009-2018 – руководитель научно-образовательного центра ИНХС РАН и МИФИ.
  • 2018-н.в. – главный научный сотрудник (Лаборатория полимерных мембран, ИНХС РАН).

Награды
  • Почетный деятель Науки и Техники города Москвы (2021).
  • Награда ректора Университета Николая Коперника в научных коллективах за достижения в исследовательской сфере (2019).
  • Премия Правительства Российской Федерации в области науки и технологий (1995).

Области интересов
  • Полимерные мембраны, каталитические мембраны, стеклообразные полимеры с большим свободным объемом, мембранное газоразделение, первапорация, органофильные первапорационные мембраны, мембранные биореакторы, мембранная абсорбция, низкотемпературные каталитические мембранные реакторы, мембранные контакторы, нанопористые материалы и мембраны, устойчивые к растворителям нанофильтрационные мембраны , нанофильтрация органических растворителей, характеристика нанопористой структуры мембран, сорбция газов и паров, полимерные нанокомпозиты.

Патенты
  • 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
  • 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
  • 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
  • И.Л.Борисов, В.П.Василевский, В.В.Волков. Термопервапорационный модуль. Патент РФ №135533 от 20.12.2013
  • 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
  • В.И.Быков, И.В.Петрова, Н.Ю.Климачев, В.В.Волков, В.И.Лебедева, Г.Ф.Терещенко. Способ нанесения металлического палладия на внешнюю поверхность полимерной гидрофобной пористой мембраны. Патент РФ №2411987 от 20.02.2011
  • 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
  • P.H.M.Feron, V.V.Volkov, V.S.Khotimsky, V.V.Teplyakov. Membrane gas separation. Patent NL1026537 (PCT/NL2005/000465)
  • В.В.Волков, О.И.Бузин, Н.В.Ушаков, Е.Ш.Финкельштейн, В.С.Хотимский, Е.Г.Литвинова. Композиция на основе поликарбосиланов для изготовления мембраны и способ изготовления мембраны на основе этой композиции. Патент РФ №2263691 от 10.11.2005
  • R.van der Vaart, A.V.Elizarova, V.V.Volkov, V.I.Lebedeva, V.M.Gryaznov. Polymeren voorzien van metaal. Patent NL1023364 (2004)
  • А.П.Солдатов, Е.И.Школьников, М.И.Рогайлин, И.А.Родионова, О.П.Паренаго, В.В.Волков. Способ модификации пористой структуры неорганических мембран пироуглеродом. Патент РФ №2179064 от 10.02.2002
  • Е.И.Школьников, И.Б.Елкина, В.В.Волков. Способ анализа пористой структуры. Патент РФ №2141642 от 17.04.1998
  • Е.И.Школьников, В.В.Волков. Поромер. Патент РФ №2097742 от 04.01.1995

Публикации
  • D.N.Matveev, T.S.Anokhina, V.V.Volkov, I.L.Borisov, A.V.Volkov. Fabrication of Hollow Fiber Membranes: Effect of Process Parameters (Review). Membranes and Membrane Technologies, 5 №Suppl. (2023) S1-S21
  • D.N.Matveev, I.L.Borisov, E.A.Grushevenko, V.P.Vasilevsky, T.S.Anokhina, V.V.Volkov. Hollow fiber PSF fine porous supports with ultrahigh permeance for composite membrane fabrication: Novel inert bore liquid (IBL) spinning technique. Separation and Purification Technology, 330 Part B (2024) 125363
  • D.S.Bakhtin, S.E.Sokolov, I.L.Borisov, V.V.Volkov, A.V.Volkov, V.O.Samoilov. Mitigation of Physical Aging of Polymeric Membrane Materials for Gas Separation: A Review. Membranes, 13 №5 (2023) 519
  • D.Matveev, A.Raeva, I.Borisov, V.Vasilevsky, Y.Matveeva, A.Zhansitov, S.Khashirova, V.Volkov. Effect of Molecular Weight and Chemical Structure of Terminal Groups on the Properties of Porous Hollow Fiber Polysulfone Membranes. Membranes, 13 №4 (2023) 412
  • I.L.Borisov, D.N.Matveev, T.S.Anokhina, K.T.Shakhmurzova, A.A.Zhansitov, A.L.Slonov, Zh.I.Kurdanova, S.Yu.Khashirova, V.V.Volkov. Properties of Polysulphones Synthetized for Forming of Porous Hollow-Fiber Membranes. Membranes and Membrane Technologies, 13 №3 (2023) 248–256 (in Russian)
  • A.O.Malakhov, S.E.Sokolov, E.A.Grushevenko, V.V.Volkov. Temperature Dependence of Light Hydrocarbons Sorption and Transport in Dense Membranes Based on Tetradecyl Substituted Silicone Rubber. Membranes, 13 №2 (2023) 124
  • S.A.Legkov, G.N.Bondarenko, J.V.Kostina, E.G.Novitsky, S.D.Bazhenov, A.V.Volkov, V.V.Volkov. Structural Features of Monoethanolamine Aqueous Solutions with Various Compositions: A Combined Experimental and Theoretical Study Using Vibrational Spectroscopy. Molecules, 28 №1 (2023) 403
  • S.E.Sokolov, V.V.Volkov. High Pressures Gas Adsorption in Porous Media and Polymeric Membrane Materials. Membranes and Membrane Technologies, 4 (2022) 455–469
  • Е.А.Grushevenko, I.V.Petrova, V.V.Volkov, А.V.Volkov. Prospects for the application of membrane reactors for the hydroformylation process. Proceedings of the Academy of Sciences: Chemical Series, 72 №2 (2023) 393-403 (in Russian)
  • D.Matveev, I.Borisov, V.Vasilevsky, G.Karpacheva, V.Volkov. Spinning of Polysulfone Hollow Fiber Membranes Using Constant Dope Solution Composition: Viscosity Control via Temperature. Membranes, 12 №12 (2022) 1257
  • S.E.Sokolov, E.A.Grushevenko, V.V.Volkov, I.L.Borisov, S.Yu.Markova, M.G.Shalygin, A.V.Volkov. A Composite Membrane Based on Polydecylmethylsiloxane for the Separation of Hydrocarbons Mixtures at Reduced Temperatures. Membranes and Membrane Technologies, 12 №6 (2022) 430-437 (in Russian)
  • S.E.Sokolov, E.A.Grushevenko, V.V.Volkov, I.L.Borisov, S.Yu.Markova, M.G.Shalygin, A.V.Volkov. A Composite Membrane Based on Polydecylmethylsiloxane for the Separation of Hydrocarbons Mixtures at Reduced Temperatures. Membranes and Membrane Technologies, 4 (2022) 377-384
  • Е.А.Grushevenko, Т.N.Rohmanka, G.А.Dibrov, V.V.Volkov, А.V.Volkov. Evaluation of the Efficiency of Polydecylmethylsiloxane in the Separation of a 1-Hexene–Heptanal Mixture. Membranes and Membrane Technologies, 12 №6 (2022) 409-419 (in Russian)
  • E.A.Grushevenko, T.N.Rohmanka, G.A.Dibrov, V.V.Volkov, A.V.Volkov. Evaluation of the Efficiency of Polydecylmethylsiloxane in the Separation of a 1-Hexene–Heptanal Mixture. Membranes and Membrane Technologies, 4 (2022) 357-366
  • A.L.Didenko, A.G.Ivanov, V.E.Smirnova, G.V.Vaganov, T.S.Anokhina, I.L.Borisov, V.V.Volkov, A.V.Volkov, V.V.Kudryavtsev. Selective Destruction of Soluble Polyurethaneimide as Novel Approach for Fabrication of Insoluble Polyimide Films. Polymers, 14 (2022) 4130
  • 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 №5 (2022) 980
  • 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
  • A.O.Malakhov, V.V.Volkov. Mixed-Gas Selectivity Based on Pure Gas Permeation Measurements: An Approximate Model. Membranes, 11 №11 (2021) 833
  • 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
  • T.V.Plisko, A.V.Bildyukevich, L.Zhao, W.Huang, V.V.Volkov, Z.Huang. Formation of Polysulfone Hollow Fiber Membranes Using the Systems with Lower Critical Solution Temperature. Fibers, 9 №5 (2021) 28
  • I.Borisov, E.Grushevenko, E.Buinova, V.Volkov. Development of a Coating Method for Polydecylmethylsiloxane Selective Layer on Polysulfone Hollow Fiber Support. Key Engineering Materials, 899 (2021) 275-280
  • 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
  • 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
  • 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
  • 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
  • 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
  • I.L.Borisov, N.Ushakov, E.Grushevenko, E.Finkel’stein, V.Volkov. Gas Separation Membranes Based on Germanium Containing Polyalkylenesiloxane. Key Engineering Materials, 869 (2020) 45-50
  • N.V.Ushakov, E.Sh.Finkel’shtein, E.A.Grushevenko, V.V.Volkov, I.L.Borisov. Synthesis of Monomers for Promising Membrane Materials, Polyalkylenesiloxanes. Russian Journal of Applied Chemistry, 93 №11 (2020) (in Russian) 1543-1552
  • N.V.Ushakov, E.Sh.Finkel’shtein, E.A.Grushevenko, V.V.Volkov, I.L.Borisov. Synthesis of Monomers for Promising Membrane Materials, Polyalkylenesiloxanes. Russian Journal of Applied Chemistry, 93 №11 (2020) 1646–1654
  • 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 №6 (2020) (in Russian) 863-874
  • 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
  • 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)
  • 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
  • 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)
  • 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
  • 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
  • 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
  • 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
  • I.L.Borisov, N.V.Ushakov, E.A.Grushevenko, E.S.Finkel’stein, V.V.Volkov. Synthesis and Formation of Gas Separation Membranes Based on Polyalkylenesiloxanes. Key Engineering Materials, 816 (2019) 233-237
  • D.N.Matveev, T.V.Plisko, V.V.Volkov, V.P.Vasilevskii, S.D.Bazhenov, A.A.Shustikov, E.V.Chernikova, A.V.Bildyukevich. Ultrafiltration Membranes Based on Various Acrylonitrile Copolymers. Membranes and Membrane Technologies, 9 №6 (2019) 451-459 (in Russian)
  • D.N.Matveev, T.V.Plisko, V.V.Volkov, V.P.Vasilevskii, S.D.Bazhenov, A.A.Shustikov, E.V.Chernikova, A.V.Bildyukevich. Ultrafiltration Membranes Based on Various Acrylonitrile Copolymers. Membranes and Membrane Technologies, 1 №6 (2019) 386–393
  • M.Yu.Chaika, V.V.Volkov, T.A.Kravchenko, D.V.Konev, V.S.Gorshkov, V.A.Krysanov, A.A.Bosyachenko. Oxygen Electroreduction on the Anthraquinone-Modified Thin-Film Carbon–Polymer Composite in Alkaline Solution. Russian Journal of Electrochemistry, 55 №12 (2019) 1560–1568 (in Russian)
  • M.Yu.Chaika, V.V.Volkov, T.A.Kravchenko, D.V.Konev, V.S.Gorshkov, V.A.Krysanov, A.A.Bosyachenko. Oxygen Electroreduction on the Anthraquinone-Modified Thin-Film Carbon–Polymer Composite in Alkaline Solution. Russian Journal of Electrochemistry, 55 №12 (2019) 1560–1568
  • 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)
  • 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.O.Karpov, D.S.Bakhtin, M.V.Bermeshev, I.L.Borisov, B.A.Bulgakov, V.V.Volkov, E.S.Finkelstein. Synthesis and Metathesis Polymerization of Cycloadduct Based on Quadricyclane and Perfluoro-1-octene. Polymer Science, Series B, 61 №3 (2019) 233-240 (in Russian)
  • G.O.Karpov, D.S.Bakhtin, M.V.Bermeshev, I.L.Borisov, B.A.Bulgakov, V.V.Volkov, E.S.Finkelstein. Synthesis and Metathesis Polymerization of Cycloadduct Based on Quadricyclane and Perfluoro-1-octene. Polymer Science, Series B, 61 №3 (2019) 387-394
  • 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 (Review) (in Russian)
  • 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 (Review)
  • S.D.Bazhenov, A.V.Bildyukevich, A.V.Volkov. Gas-Liquid Hollow Fiber Membrane Contactors for Different Applications. Fibers, 6 №4 (2018) 76 (Review)
  • G.O.Karpov, M.V.Bermeshev, I.L.Borisov, S.R.Sterlin, A.A.Tyutyunov, N.P.Yevlampieva, B.A.Bulgakova, V.V.Volkov, E.Sh.Finkelshtein. Metathesis-type poly-exo-tricyclononenes with fluoroorganic side substituents: Synthesis and gas-transport properties. Polymer, 153 (2018) 626-636
  • T.V.Plisko, A.V.Bildyukevich, Ya.A.Karslyan, A.A.Ovcharova, V.V.Volkov. Development of high flux ultrafiltration polyphenylsulfone membranes applying the systems with upper and lower critical solution temperatures: Effect of polyethylene glycol molecular weight and coagulation bath temperature. Journal of Membrane Science, 565 (2018) 266–280
  • I.L.Borisov, A.Kujawska, K.Knozowska, V.V.Volkov, W.Kujawski. Influence of feed flow rate, temperature and feed concentration on concentration polarization effects during separation of water-methyl acetate solutions with high permeable hydrophobic pervaporation PDMS membrane. Journal of Membrane Science, 564 (2018) 1–9
  • 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.Ovcharova, S.Bazhenov, V.Volkov, T.Plisko, A.Bildyukevich. Fabrication of composite hollow fiber membranes with thin film selective layers from highly permeable polymers. Journal of Physics: Conf. Series, 1099 (2018) 012037
  • G.S.Golubev, I.L.Borisov, V.V.Volkov. Performance of Commercial and Laboratory Membranes for Recovering Bioethanol from Fermentation Broth by Thermopervaporation. Journal of Applied Chemistry, 91 №8 (2018) 1198-1205 (in Russian)
  • G.S.Golubev, I.L.Borisov, V.V.Volkov. Performance of Commercial and Laboratory Membranes for Recovering Bioethanol from Fermentation Broth by Thermopervaporation. Journal of Applied Chemistry, 91 №8 (2018) 1376-1382
  • G.S.Golubev, I.L.Borisov, V.V.Volkov. Thermopervaporative Removal of Isopropanol and Butanol from Aqueous Media Using Membranes Based on Hydrophobic Polysiloxanes. Membranes and Membrane Technologies, 8 №5 (2018) 370-378 (in Russian)
  • G.S.Golubev, I.L.Borisov, V.V.Volkov. Thermopervaporative Removal of Isopropanol and Butanol from Aqueous Media Using Membranes Based on Hydrophobic Polysiloxanes. Petroleum Chemistry, 58 №11 (2018) 975-982
  • E.A.Grushevenko, I.A.Podtynnikov, G.S.Golubev, V.V.Volkov, I.L.Borisov. Polyheptylmethylsiloxane - a novel material for removal of oxygenates from water by pervaporation. Membranes and Membrane Technologies, 8 №5 (2018) 334–342 (in Russian)
  • E.A.Grushevenko, I.A.Podtynnikov, G.S.Golubev, V.V.Volkov, I.L.Borisov. Polyheptylmethylsiloxane - a novel material for removal of oxygenates from water by pervaporation. Petroleum Chemistry 58 №11 (2018) 941–948
  • A.V.Bildyukevich, T.V.Plisko, V.V.Usosky, A.A.Ovcharova, V.V.Volkov. Hydrophobization of Polysulfone Hollow Fiber Membranes. Membranes and Membrane Technologies, 8 №2 (2018) 75–84 (in Russian)
  • A.V.Bildyukevich, T.V.Plisko, V.V.Usosky, A.A.Ovcharova, V.V.Volkov. Hydrophobization of Polysulfone Hollow Fiber Membranes. Petroleum Chemistry, 58 No.4 (2018) 279–288
  • 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
  • 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
  • A.V.Bildyukevich, T.V.Plisko, A.S.Liubimova, V.V.Volkov , V.V.Usosky. Hydrophilization of polysulfone hollow fiber membranes via addition of polyvinylpyrrolidone to the bore fluid. Journal of Membrane Science, 524 (2017) 537–549
  • 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
  • G.S.Golubev I.L.Borisov, E.G.Litvinova, V.S.Khotimsky, D.S.Bakhtin, A.V.Pastukhov, V.A.Davankov, V.V.Volkov. Novel Hybrid Material Based on Polytrimethylsilylpropyne and Hypercrosslinked Polystyrene for Membrane Gas Separation and Thermopervaporation. Membranes and Membrane Technologies, 7 №3 (2017) 165-178 (in Russian)
  • G.S.Golubev I.L.Borisov, E.G.Litvinova, V.S.Khotimsky, D.S.Bakhtin, A.V.Pastukhov, V.A.Davankov, V.V.Volkov. Novel Hybrid Material Based on Polytrimethylsilylpropyne and Hypercrosslinked Polystyrene for Membrane Gas Separation and Thermopervaporation. Petroleum Chemistry, 57 №6 (2017) 498-510
  • S.D.Bazhenov, I.L.Borisov, D.S.Bakhtin, A.N.Rybakova, V.S.Khotimskiy, S.P.Molchanov, V.V.Volkov. High-permeance crosslinked PTMSP thin-film composite membranes as supports for CO2 selective layer formation. Green Energy & Environment, 1 (2016) 235-245
  • P.Chapala, M.Bermeshev, L.Starannikova, I.Borisov, V.Shantarovich, V.Lakhtin, V.Volkov, E.Finkelshtein. Synthesis and Gas-Transport Properties of Metathesis Polytricyclononenes Bearing Three Me3Si Groups per Monomer Unit. Macromolecular Chemistry and Physics, 217 (2016) 1966–1976
  • 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
  • V.A.Kirsch, V.I.Roldugin, A.V.Bildyukevich, V.V.Volkov. Simulation of convective-diffusional processes in hollow fiber membrane contactors. Separation and Purification Technology, 167 (2016) 63–69
  • I.V.Petrova, T.S.Anokhina, R.S.Borisov, V.V.Volkov, A.B.Yaroslavtsev. Removal of trichloroethylene from water in the catalytic membrane reactor. Catalysis Today, 268 (2016) 150–155
  • I.L.Borisov, T.R.Akmalov, A.O.Ivanov, V.V.Volkov, E.Sh.Finkelshtein, M.V.Bermeshev. A new cycloadduct based on quadricyclane and perfluorocyclohexene: synthesis, metathesis polymerization and gas-transport properties of the obtained polymer. Mend. Commun., 26 2 (2016) 124–126
  • A.M.Grekhov, Yu.S.Eremin, D.S.Bakhtin, V.V.Volkov. Effect of agglomeration of carbon nanotubes on gas permeability of PVTMS/CNT mixed matrix membranes. Journal of Physics: Conference Series, 751 (2016) 012048
  • V.V.Makarova, S.V.Antonov, T.S.Anokhina, V.V.Volkov. Optical microinterferometry method for evaluation of phase state and diffusion in ternary systems: phase separation in cellulose/N-Methylmorpholine-N-oxide/non-solvent mixtures. Journal of Physics: Conference Series, 751 (2016) 012045
  • A.A.Yushkin, A.A.Kossov, V.V.Volkov. Nanofiltration properties of PTMSP in binary organic solvents mixtures. Journal of Physics: Conference Series, 751 (2016) 012044
  • V.V.Volkov, R.G.Ibragimov, I.Sh.Abdullin, R.T.Gallyamov, A.A.Ovcharova, A.V.Bildyukevich. Modification of polysulfone porous hollow fiber membranes by air plasma treatment. Journal of Physics: Conference Series, 751 (2016) 012028
  • S.D.Bazhenov, T.V.Plisko, V.A.Kirsch, А.V.Volkov, A.V.Bildyukevich, V.V.Volkov. Hollow fiber and flat membrane gas-liquid contactors. Nizhny Novgorod: Nizhny Novgorod State Technical University named after R.E. Alekseev, 2016. 400 с. (in Russian)
  • A.A.Ovcharova, V.P.Vasilevsky, I.L.Borisov, V.V.Usosky, V.V.Volkov. Porous Hollow Fiber Membranes with Varying Hydrophobic–Hydrophilic Surface Properties for Gas–Liquid Membrane Contactors. Membranes and Membrane Technologies, 6 №4 (2016) 418–426 (in Russian)
  • A.A.Ovcharova, V.P.Vasilevsky, I.L.Borisov, V.V.Usosky, V.V.Volkov. Porous Hollow Fiber Membranes with Varying Hydrophobic–Hydrophilic Surface Properties for Gas–Liquid Membrane Contactors. Petroleum Chemistry, 11 №11 (2016) 1066–1073
  • I.L.Borisov, N.V.Ushakov, V.V.Volkov, E.Sh.Finkelstein. Polydimethylsildimethylen and polydimethylsiltrimethylendimethylsiloxanes – materials for sorbtion selective membranes. Russian Chemical Bulletin, 10 №4 (2016) 1020-1022 (in Russian)
  • I.L.Borisov, N.V.Ushakov, V.V.Volkov, E.Sh.Finkelstein. Polydimethylsildimethylen and polydimethylsiltrimethylendimethylsiloxanes – materials for sorbtion selective membranes. Russian Chemical Bulletin. International edition, 10 №4 (2016) 1020-1022
  • I.L.Borisov, N.V.Ushakov, V.V.Volkov, E.Sh.Finkel’shtein. Polydimethylsilalkylene-Dimethylsiloxanes as Advanced Membrane Materials for Thermopervaporative Recovery of Oxygenates from Aqueous Reaction Media. Petroleum Chemistry, 56 №6 (2016) 578-583 (in Russian)
  • I.L.Borisov, N.V.Ushakov, V.V.Volkov, E.Sh.Finkel’shtein. Polydimethylsilalkylene-Dimethylsiloxanes as Advanced Membrane Materials for Thermopervaporative Recovery of Oxygenates from Aqueous Reaction Media. Petroleum Chemistry, 56 №9 (2016) 798–804
  • T.V.Plisko, A.V.Bildyukevich, V.V.Usosky, V.V.Volkov. Influence of the concentration and molecular weight of polyethylene glycol on the structure and permeability of polysulfone hollow fiber membranes. Membranes and Membrane Technologies, 6 №1 (2016) 48–57 (in Russian)
  • T.V.Plisko, A.V.Bildyukevich, V.V.Usosky, V.V.Volkov. Influence of the concentration and molecular weight of polyethylene glycol on the structure and permeability of polysulfone hollow fiber membranes. Petroleum Chemistry, 56 №4 (2016) 321–329
  • 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.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
  • I.L.Borisov, V.V.Volkov. Thermopervaporation concept for biobutanol recovery: The effect of process parameters. Separation and Purification Technology 146 (2015), 33-41
  • 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
  • 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
  • D.Bakhtin, Yu.S.Eremin, A.M.Grekhov, V.V.Volkov. Gas Permeability of PVTMS/CNT Mixed Matrix Membranes. Physics Procedia 72 (2015) 166–170
  • V.A.Kirsch, V.V.Volkov, A.V.Bildukevich. Modeling the Transverse Shell-side Mass Transfer in Hollow Fiber Membrane Contactors at Low Reynolds Numbers. Physics Procedia 72 (2015) 162–165
  • E.S.Liubimova, A.V.Bildyukevich, G.B.Melnikova, V.V.Volkov. Modification of Hollow Fiber Ultrafiltration Membranes by Interfacial Polycondensation: Monomer Ratio Effect. Membranes and Membrane Technologies, 5 №4, (2015) 282–290 (in Russian)
  • E.S.Liubimova, A.V.Bildyukevich, G.B.Melnikova, V.V.Volkov. Modification of Hollow Fiber Ultrafiltration Membranes by Interfacial Polycondensation: Monomer Ratio Effect. Petroleum Chemistry. 55 №10 (2015) 795–802
  • 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, 5 №3 (2015) 192-201 (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. Petroleum Chemistry. 55 №9 (2015) 716–723
  • A.N.Filippov, V.I.Ivanov, A.A.Yushkin, V.V.Volkov, Yu.G.Bogdanova, V.D.Dolzhikova. Simulation of the Onset of Flow through a PTMSP-Based Polymer Membrane during Nanofiltration of Water-Methanol Mixture. Membranes and Membrane Technologies, 5 №2 (2015) 103-119 (in Russian)
  • A.N.Filippov, V.I.Ivanov, A.A.Yushkin, V.V.Volkov, Yu.G.Bogdanova, V.D.Dolzhikova. Simulation of the Onset of Flow through a PTMSP-Based Polymer Membrane during Nanofiltration of Water-Methanol Mixture. Petroleum Chemistry, 55 №5 (2015) 347–362
  • T.V.Plisko, A.V.Bildyukevich, V.V.Volkov, N.N.Osipov. Formation of Hollow Fiber Membranes Doped with Multiwalled Carbon Nanotube Dispersions. Membranes and Membrane Technologies, 5 №1 (2015) 69-84 (in Russian)
  • T.V.Plisko, A.V.Bildyukevich, V.V.Volkov, N.N.Osipov. Formation of Hollow Fiber Membranes Doped with Multiwalled Carbon Nanotube Dispersions. Petroleum Chemistry, 55 №4 (2015) 318–332
  • V.V. Volkov, Yu.P. Yampolskii, Free volume and microporousity in polymeric gas separation membrane materials and sorbents, In book Yu.M. Volfkovich, A.N.Filippov, V.S. Bagotsky “Structural Properties of Porous Materials and Powders Used in Different Fields of Science and Technology”, Chapter 7, 2014, pp.135-158
  • 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
  • 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
  • I.L. Borisov, A.O. Malakhov, V.S. Khotimsky, E.G. Litvinova, E.Sh. Finkelshtein, N.V. Ushakov, V.V. Volkov. Novel PTMSP-based membranes containing elastomeric fillers: Enhanced 1-butanol/water pervaporation selectivity and permeability. Journal of Membrane Science. 466 (2014), 322-330
  • 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.D.Bazhenov, G.A.Dibrov, E.G.Novitsky, V.P.Vasilevsky, V.V.Volkov. Effect of absorbent vapor on stability of characteristics of a composite PTMSP membrane on nonwoven polyester support during regeneration of diethanolamine solution in membrane contactor. Membranes and Membrane Technologies, 4 №3 (2014) 202-207 (in Russian)
  • S.D.Bazhenov, G.A.Dibrov, E.G.Novitsky, V.P.Vasilevsky, V.V.Volkov. Effect of absorbent vapor on stability of characteristics of a composite PTMSP membrane on nonwoven polyester support during regeneration of diethanolamine solution in membrane contactor. Petroleum Chemistry, 54 №8 (2014) 617-621
  • 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, 4 №2 (2014) 156-160 (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. 54 №7 (2014) 539–543
  • G.A.Dibrov, E.G.Novitsky, V.P.Vasilevsky, V.V.Volkov. Cold Rolling for Controllable Narrowing of Pore Size and Pore Size Distribution of Commercial Fluoroplastic Microfiltration Membrane. Membranes and Membrane Technologies, 4 №1 (2014) 60-65 (in Russian)
  • G.A.Dibrov, E.G.Novitsky, V.P.Vasilevsky, V.V.Volkov. Cold Rolling for Controllable Narrowing of Pore Size and Pore Size Distribution of Commercial Fluoroplastic Microfiltration Membrane. Petroleum Chemistry. 54 №7 (2014) 568–572
  • 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, 4 №1 (2014) 47-54 (in Russian)
  • 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. 54 №7 (2014) 507–514
  • 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
  • I.B.Elkina, A.B.Gilman, V.V.Ugrozov, V.V.Volkov. Separation of Mineral Acid Solutions by Membrane Distillation and Thermopervaporation through Porous and Nonporous Membranes. Ind. Eng. Chem. Res. 52 (2013), 8856-8863
  • I.L.Borisov, V.A.Kirsch, V.V.Volkov. Separation of liquids by pervaporation. Membranes and Membrane Technologies. Scientific world, (2013) 580-609 (in Russian)
  • V.V.Volkov, T.A.Kravchenko, V.I.Roldugin. Metal nanoparticles in polymeric catalytic membranes and ion-exchange systems for deep purification of water from molecular oxygen. Russian Chemical Reviews, 82 (2013), 465-482 (Review) (in Russian)
  • V.A.Ostrovsky, R.E.Trifonov, V.V.Volkov. Polyvinyltetrazoles as the basis of polymeric membranes. I. 2-Methyl-5-vinyltetrazole. Chemical industry, 90 № 7 (2013) 321-324 (in Russian)
  • G.B.Vasilyev, M.V.Mironova, E.G.Litvinova, V.V.Volkov, V.S.Khotimskii, V.G.Kulichikhin. Rheological Properties of Poly(1-trimethylsilyl-1-propyne) Solutions. Polymer Science, Ser. A, 55 №8 (2013) 1078–1085 (in Russian)
  • G.B.Vasilyev, M.V.Mironova, E.G.Litvinova, V.V.Volkov, V.S.Khotimskii, V.G.Kulichikhin. Rheological Properties of Poly(1-trimethylsilyl-1-propyne) Solutions. Polymer Science, Ser. A, 55 №8 (2013) 510–517
  • V.A.Kirsh, I.L.Borisov, V.V.Volkov. Hydrodynamics of a Thermopervaporation Flow Membrane Module with Cylindrical Spacers. Membranes and Membrane Technologies, 3 №4 (2013) 269-276 (in Russian)
  • V.A.Kirsh, I.L.Borisov, V.V.Volkov. Hydrodynamics of a Thermopervaporation Flow Membrane Module with Cylindrical Spacers. Petroleum Chemistry, 53 №8 (2013) 578–584
  • V.V.Volkov, A.V.Bildukevich, G.A.Dibrov, V.V.Usoskiy, V.P.Kasperchik, V.P.Vasilevsky, E.G.Novitsky. Elaboration of Composite Hollow Fiber Membranes with Selective Layer from Poly[1-(Trimethylsylil)1-Propyne] for Regeneration of Aqueous Alkanolamine Solutions. Membranes and Membrane Technologies, 3 №4 (2013) 252 (in Russian)
  • V.V.Volkov, A.V.Bildukevich, G.A.Dibrov, V.V.Usoskiy, V.P.Kasperchik, V.P.Vasilevsky, E.G.Novitsky. Elaboration of Composite Hollow Fiber Membranes with Selective Layer from Poly[1-(Trimethylsylil)1-Propyne] for Regeneration of Aqueous Alkanolamine Solutions. Petroleum Chemistry, 53 №8 (2013) 619–626
  • A.M.Grekhov, Y.S.Eremin, G. A.Dibrov, V.V.Volkov. Percolation of composite poly (vinyltrimethylsilane) membranes with carbon nanotubes. Membranes and Membrane Technologies, 3 №3 (2013) 168-174 (in Russian)
  • A.M.Grekhov, Y.S.Eremin, G. A.Dibrov, V.V.Volkov. Percolation of composite poly (vinyltrimethylsilane) membranes with carbon nanotubes. Petroleum chemistry, 53 №8 (2013) 549-553
  • 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
  • V.V.Volkov, A.Basile, N.V.Orekhova, J.Sanchez-Marcano, Preface, Cat.Tod. 193 (2012), 1
  • V.V. Volkov, E.G. Novitskii, G.A. Dibrov, P.V. Samokhin, M.A. Kipnis, A.B. Yaroslavtsev, Catalytic conversion of methanol to dimethyl ether on polymer/ceramic composite membranes, Cat. Tod. 193 (2012), 31–36
  • V.V.Volkov, G.A.Dibrov, A.O.Malakhov, E.G.Novitsky, V.P.Vasilevsky, R.E.Trifonov, N.A.Povarov, V.A.Ostrovsky. Polymeric membranes based on poly-2-methyl-5-vinyltetrazole: production and gas transport properties. Chemical industry, 89 (2012) 321-326 (in Russian)
  • V.V.Volkov, A.V.Bildyukevich, A.N.Filippov, I.V.Vorotyntsev, G.A.Dibrov, V.V.Ussosky, V.V.Kasperchik, V.P.Vasilevsky, E.G.Novitsky. Composite hollow fiber membranes with diffusion layers of polytrimethylsilylpropyne. Proceedings of the Nizhny Novgorod State Technical University. R.E. Alekseeva, 78 №97 (2012) 280-286 (in Russian)
  • 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. Membranes and Membrane Technologies, 2 №3 (2012) 209-220 (in Russian)
  • 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
  • V.V.Volkov, I.V.Petrova, V.I.Lebedeva, V.I.Roldughin and G.F.Tereshchenko, Palladium-Loaded Polymeric Membranes for Hydrogenation in Catalytic Membrane Reactors, in book “Membranes for Membrane Reactors: Preparation, Optimization and Selection”, Edited by A.Basile and F.Gallucci, Chapter 24, 2011, p.531-548
  • E.I.Shkolnikov, E.V.Sidorova, A.O.Malakhov, V.V.Volkov, A.Julbe, A.Ayral. Estimation of pore size distribution in MCM-41-type silica using a simple desorption technique. Adsorption, 17 (2011) 911-918
  • V.V.Volkov, V.I.Lebedeva, I.V.Petrova , A.V.Bobyl, S.G.Konnikov, V.I.Roldughin, J. van Erkel and G.F. Tereshchenko Adlayers of palladium particles and their aggregates on porous polypropylene hollow fiber membranes as hydrogenization contractors/reactors, Advances in Colloid and Interface Science 164 (2011) 144–155
  • I.L.Borisov, V.V.Volkov, V.A.Kirsh, V.I.Roldugin. Simulation of thermopervaporation of dilute aqueous solutions of 1-butanol through a PTMSP membrane in a flow module. Membranes and Membrane Technologies, 1 №2 (2011) 98-110 (in Russian)
  • V.V.Volkov, I.V.Petrova, V.I.Lebedeva, L.M.Plyasova, N.A.Rudina, J.van Erkel, R.van der Vaart, G.F.Tereshchenko, Catalytic nanoclusters of palladium on the surface of polypropylene hollow fiber membranes: Removal of dissolved oxygen from water, in book: "Nanoscience: Colloidal and Interfacial Aspects", Chapter 40, Starov V.M (Ed.), Taylor & Francis Group, 2010, 1173-1188
  • I.L.Borisov, P.Yu.Temnikov, V.V.Volkov. Influence of the air gap value on the thermopervaporation release of 1-butanol from model fermentation mixtures. Critical technologies. Membranes, 2010 №4(48) 16-20. (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, V.V.Volkov, V.S.Khotimsky. Membranes based on poly-1-trimethylsilyl-1-propyne for liquid separation. Polymer Science, 51 №11 (2009) 2113-2128. (Review) (in Russian)
  • N.V.Peganova, V.A.Matalin, A.A.Lyudikainen, N.V.Puzanova, T.V.Mikhailova, N.B.Lesnevskaya, G.I. Kaurova, V.I.Bykov, I.V.Petrova, V.I.Lebedeva, V.V.Volkov, G.F.Tereshchenko. Electrochemical synthesis of perfluoropolyethers by the Kolbe method. Russian Journal of Applied Chemistry, 82 №12 (2009) 1976-1984 (in Russian)
  • V.P.Vasilevskii, E.G.Novitskii, V.V.Volkov. Electromembrane regeneration of amine solutions from gas processing industries. Krit. technol. Membrany 44 (2009) 14-17 (in Russian)
  • V.V.Volkov, G.F.Tereshchenko. Water without oxygen. The Chemical Journal, № 6-7 (2009) 46–48 (in Russian)
  • D.E.Vitkina, E.I.Shkolnikov, I.V.Petrova, V.I.Lebedeva, V.V.Volkov. Investigation of Hollow Fiber Polypropylene Pd-Containing Membrane by Dynamic Desorption Porosimetry. Proceedings of the Moscow Institute of Physics and Technology, 1 №1 (2009) 30-35 (in Russian)
  • V.V.Volkov, B.V.Mchedlishvili, V.I.Roldugin, S.S.Ivanchev, A.B.Yaroslavtsev. Membranes and nanotechnologies. Russian nanotechnologies, 3, №11-12 (2008) 67-99 (Review) (in Russian)
  • G.F.Tereshchenko, A.A.Malygin, M.M.Ermilova, N.V.Orekhova, V.V.Volkov, V.I.Lebedeva, I.V.Petrova, M.V.Tsodikov, V.V.Teplyakov, L.I.Trusov, I.I.Moiseev. Catalytic nanostructured membrane reactors of new generation, Catalysis in industry, Special issue “Nanotechnology in catalysis – perspective of XXI centure breakthrough innovation”, (2008), p. 36-43 (in Russian)
  • R.van der Vaart, V.I.Lebedeva, I.V.Petrova, L.M.Plyasova, N.A.Rudina, D.I.Kochubey, G.F.Tereshchenko, V.V.Volkov and J.van Erkel. Preparation and characterisation of palladium-loaded polypropylene porous hollow fibre membranes for hydrogenation of dissolved oxygen in water. J.Membr.Sci. 299 (2007), 38-44
  • A.V.Pastukhov, V.A.Davankov, E.V.Sidorova, E.I.Shkolnikov, V.V.Volkov. Deformation of copolymers of styrene with divinylbenzene and hypercrosslinked polystyrenes in the processes of absorption and desorption of solvents. Russian Chemical Bulletin, №3 (2007) 467-476 (in Russian)
  • I.A.Romanova, I.V.Petrova, V.I.Lebedeva, V.V.Volkov, G.F.Tereshchenko, R. van der Vaart, J. van Erkel. Single hollow fiber catalytic membrane contactor/reactor for removal of dissolved oxygen from water. Krit.technol.Membrany, 35 (2007) 3-10 (in Russian)
  • A.O.Malakhov, V.V.Volkov. Phase behavior of polymer mixtures with hard spheres non-additive potential. Vysokomolek. Soed. A, 49 (2007) 1098–1112 (in Russian)
  • R. van der Vaart, I. Petrova, V. Lebedeva, V. Volkov, D. Kochubey, G. Tereshchenko. In-situ application of catalytic phase to commercial membrane contactor for removal of dissolved oxygen from water. Desalination 199 (2006), 424-425
  • A.V. Volkov, D.F. Stamatialis, V.S. Khotimsky, V.V. Volkov, M. Wessling and N.A. Plate. Poly[1-(trimethylsilyl)-1-propyne] as a solvent resistance nanofiltration membrane material. J.Membr.Sci. 281 (2006), 351–357
  • A.V. Volkov, D.F. Stamatialis, V.S. Khotimsky, V.V. Volkov, M. Wessling and N.A. Plate. New membrane material for SRNF applications. Desalination 199 (2006), 251-252
  • V.I.Lebedeva, V.M.Gryaznov, I.V.Petrova, V.V.Volkov, G.F.Tereshchenko, E.I.Shkol'nikov, L.M.Plyasova, D.I.Kochubey, R. van der Vaart, E.L.J. van Soest-Verecammen. Porous Pd-Containing Polypropylene Membranes for Catalytic Water Deoxygenation. Kinetics and Catalysis, 47 (2006) 867-872
  • 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) 14-24 (in Russian)
  • I.A. Rodionova, E.I. Shkolnikov, V.V. Volkov. Influence of fluid properties on the coefficient of hydrodynamic permeability. Colloid Journal, 67 №4 (2005) 1-9 (in Russian)
  • V.V.Volkov, A.G.Fadeev, V.S.Khotimsky, E.G.Litvinova, Ya.A.Selinskaya, J.D.McMillan, S.S.Kelley. Effects of Synthesis Conditions on the Pervaporation Properties of Poly[1-(trimethylsilyl)-1-propyne] Useful for Membrane Bioreactors, J. Appl. Polym. Sci. 2004, 91, 2271-2277
  • A.P.Soldatov, I.A.Rodionova, E.I.Shkolnikov, O.P.Parenago, V.V.Volkov. Pyrocarbon modification of composite inorganic membranes. Russian Journal of Applied Chemistry, 78 №9 (2004) 1659-1664 (in Russian)
  • E.I.Shkolnikov, I.A.Rodionova, A.P.Soldatov, A.Julbe, V.V.Volkov. Relationship between transport porous structure and hydrodynamic permeability of inorganic membranes. Russian Journal of Applied Chemistry, 78 №5 (2004) 943-947 (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) 23-30
  • A.G. Fadeev, S.S. Kelley, J.D. McMillan, Ya.A. Selinskaya, V.S. Khotimsky, V.V. Volkov, Effect of yeast fermentation by-products on poly[1-trimethylsilyl)-1-propyne] pervaporation performance, J. Membr. Sci, 2003, 214, 229-238
  • V.V.Volkov, A.G.Fadeev, V.S.Khotimsky, O.I.Buzin, M.V.Tsodikov, F.A.Yandieva, I.I.Moiseev. Ecologically clean fuel from biomass. Russian Journal of Applied Chemistry, 47 №6 (2003) 71-82 (Review) (in Russian)
  • 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) 158-162
  • A.G.Fadeev, Ya.A.Selinskaya, S.S.Kelley, M.M.Meagher, E.G.Litvinova, V.S.Khotimsky, V.V.Volkov, Extraction of butanol from aqueous solutions by pervaporation through poly(1-trimethylsilyl-1-propyne), J. Membr. Sci., 186 (2) (2001) 205-217
  • E.I.Shkolnikov, V.V.Volkov. Obtaining vapor desorption isotherms without pressure measurement. Doklady Physical Chemistry, 378 №4 (2001) 507-510 (in Russian)
  • V.V.Volkov, A.G.Fadeev, G.N.Bondarenko, T.Kajiyama, N.A.Plate. Study of conformational nature and molecular mobility in comb-shaped polymers with fluoroalkyl side groups by means of IR-spectroscopy and quantum chemistry. Polym.Sci.Ser.А, 43 №2 (2001) 269-281 (in Russian)
  • A.G.Fadeev, M.M.Meagher, S.S.Kelley, V.V.Volkov, Fouling of poly[-1-(trimethylsilyl)-1-propyne] membranes in pervaporative recovery of butanol from aqueous solutions and ABE fermentation broth by pervaporation, J. Membr. Sci., 173 (2000), 133-144
  • V.V.Vashuk, S.I.Pytlev, O.P.Olshanskaya, L.V.Kokhanovsky, E.I.Shkolnikov, N.V.Saratovskaya, V.V.Volkov, Oxygen permeability of ceramic membranes of composition Sr1-xCexFe0 .8Co0.2O0-d. Inorganic Materials, 36 №8 (2000) 1-7 (in Russian)
  • A.O.Malakhov, V.V.Volkov. Cooperative multimolecular sorption equation: application to an alcohol–poly(1-trimethylsiyl-1-propyne) system. Polym. Sci. A, 42 (2000) 1120-1126
  • A.B.Gilman, V.V.Volkov, A.I.Drachev, Ya.A.Selinskaya. Changes in the surface properties of poly[1-(trimethylsilyl)-1-propyne] under the influence of a direct current discharge. High Energy Chemistry, 34 №4 (2000) 320-324 (in Russian)
  • V.V.Volkov, V.V.Teplyakov, I.S.Kalashnikova, L.I.Valuev, N.A.Plate, Membrane science in the next decade, Green Chemistry, October 1999, 131-133 (Обзор)
  • N.N.Oleinikov, V.A.Ketsko, P.N.Oleinikov, G.P.Muravieva, N.V.Saratovskaya, V.V.Volkov, N.T.Kuznetsov. Synthesis and transport properties of oxygen-containing ceramics based on substituted lanthanum cobaltites. Doklady Physical Chemistry, 369 (1999) 207-209 (in Russian)
  • A.Alentiev, E.Drioli, M.Gokzhaev, G.Golemme, O.Ilinich, A.Lapkin, V.Volkov, Yu.Yampolski. Gas permeation properties of phenylene oxide polymers. Journal of Membrane Science, 138 №1 (1998) 99–107
  • V.V.Volkov, V.S.Khotimsky, M.B.Gokzhaev, E.G.Litvinova, A.G.Fadeev, S.S.Kelly. Density and free volume of solid polytrimethylsilylpropyne membranes used for ethanol concentration by the method organophilic pervaporation. Russian Journal of Physical Chemistry, 71 №9 (1997) 1556-1559 (in Russian)
  • A.V.Seregin, V.I.Bondar, B.R.Mattes, Yu.P.Yampolsky, V.V.Volkov. Generalized theory of the dual mechanism of equilibrium sorption in polymer systems. Polym.Sci.Ser.А, 38 №3 (1996) 535 (in Russian)
  • V.V.Volkov, A.G.Fadeev, N.A.Plate, N.Amaya, Y.Murata, A.Takahara, T.Kajiyama, Effect of thermal molecular motion on pervaporation behavior of comb-shaped polymers with fluorocarbon side groups, Polym. Bull., v.32, 1994, p.193
  • V.V.Volkov. Separation of liquids by evaporation through polymer membranes. Russian Chemical Bulletin, 2 (1994) 208 (in Russian)
  • V.V.Volkov. Separation of liquids by pervaporation through polymeric membranes, Russian Chemical Bulletin, V.43, №2, (1994), 187-198 (Обзор)
  • V.V.Volkov, N.A.Plate, A.Takahara, N.Amaya, Y.Murata, T.Kajiyama, Aggregation state and mesophase structure of comb-shaped polymers with fluorocarbon side groups, Polymer, v.33, N6, 1992, p.1316-1320
  • V.V.Volkov. Free volume structure and transport properties of glassy polymers - materials for separating membranes, Polymer J., v.23, N5, 1991 457-466 (Обзор)
  • Yu.P.Yampolskii, V.V.Volkov, Studies in gas permeability and membrane gas separation in the Soviet Union, J. Membr. Sci., v.64, 1991, 191-228 (Обзор)
  • N.A.Plate, A.K.Bokarev, N.E.Kaliuzhnyi, E.G.Litvinova, V.S.Khotimskii, V.V.Volkov, Yu.P.Yampolskii, Gas and vapor permeation and sorption in poly(trimethylsilylpropyne), J. Membr. Sci., v.60, 1991 p.13-24
  • V.V.Volkov, A.V.Goldansky, S.G.Durgaryan, V.A.Onishchuk, V.P.Shantorovich, Yu.P.Yampolsky. Study of the microstructure of polymers and its connection with their diffusion properties by the method of positron annihilation. Polym.Sci.Ser.А, 29 N1 (1987) 192-197 (in Russian)
  • V.V.Volkov, S.G.Durgaryan. Selectivity of gas permeability of polymers. Polym.Sci.Ser.А, 25 N1 (1983) 30-36 (in Russian)


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