Vladimir V. Teplyakov
Professor, Dr.Sci. (Chemistry)
Cheif Research Officer
Tel.: +7 (495) 647-5927 ext. 346
Publictions
2023
V.V.Zhmakin, S.Yu.Markova, V.V.Teplyakov, M.G.Shalygin. Potential of Polymer Membranes for Xenon Recovery from Medical Waste Gas Mixtures // Membranes and Membrane Technologies, 2023, 5, 2, pp. 107-114. DOI: 10.1134/S2517751623020087
M.G.Shalygin, A.A.Kozlova, J.Heider, D.A.Sapegin, A.I.Netrusov, V.V.Teplyakov. Polymeric Membranes for Vapor-Phase Concentrating Volatile Organic Products from Biomass Processing // Membranes and Membrane Technologies, 2023, 5, 1, pp. 55–67. DOI: 10.1134/S2517751623010055
2022
D.Miroshnichenko, V.Teplyakov, M.Shalygin. Recovery of Methanol during Natural Gas Dehydration Using Polymeric Membranes: Modeling of the Process // Membranes, 2022, 12, 1176. https://doi.org/10.3390/membranes12121176
M.G.Shalygin, A.A.Kozlova, V.V.Teplyakov. Vapor Phase Separation of Water–Alcohol Mixtures with Industrial Nanofiltration Membrane NaRM // Membranes and Membrane Technologies, 2022, 4, pp.258-266. DOI: 10.1134/S2517751622040084
Marcello Monteleone, Alessio Fuoco, Elisa Esposito, Ian Rose, Jie Chen, Bibiana Comesaña-Gándara, C. Grazia Bezzu, Mariolino Carta, Neil B. McKeown, Maxim G. Shalygin, Vladimir V. Teplyakov, Johannes Carolus Jansen. Advanced methods for analysis of mixed gas diffusion in polymeric membranes // Journal of Membrane Science, 2022, 648, 120356. https://doi.org/10.1016/j.memsci.2022.120356
Markova, S.Y., Dukhov, A.V., Pelzer, M., Shalygin, M.G., Vad, T., Gries, T., Teplyakov, V.V. Designing 3D Membrane Modules for Gas Separation Based on Hollow Fibers from Poly(4-methyl-1-pentene) // Membranes, 2022, 12 (1), 36. https://doi.org/10.3390/membranes12010036
Dukhov, A.V., Pelzer, M., Markova, S.Y., Syrtsova, D.A., Shalygin, M.G., Gries, T., Teplyakov, V.V. Preparation of Hollow Fiber Membranes Based On Poly(4-methyl-1-pentene) for Gas Separation // Fibers, 2022, 10 (1), 1. https://doi.org/10.3390/fib10010001
D.Syrtsova, M.Piskarev, A.Zinoviev, A.Кuznetsov, E.Skryleva, A.Gilman, V.Теplyakov. The gas permeability properties of poly(vinyltrimethylsilane) treated by low‐temperature plasma // Journal of Applied Polymer Science, 2022, 139, e52821. https://doi.org/10.1002/app.52821
2021
S.Yu. Markova, M. Pelzer, M. G. Shalygin, Th. Vad, Th. Gries, V.V. Teplyakov. Gas separating hollow fibres from poly(4-methyl-1-pentene): a new development // Separation and Purification Technology, 2022, 278, 119534. https://doi.org/10.1016/j.seppur.2021.119534
D.Syrtsova, M.Shalygin, V.Teplyakov, K.Palanivelu, A.Zinoviev, M.Piskarev, A.Kuznetsov. Enhancement of Gas Separation Properties of Polyvinyltrimethylsilane by Low-Temperature Plasma Treatment for Carbon Dioxide Utilization in “Green Chemistry” Processes // Membranes and Membrane Technologies, 2021, 3, pp.43-51. DOI: 10.1134/S251775162101008X
2020
E.Kuriachan Sachin, A. Ramachandran P.Kandasamy, D.Syrtsova, V.Teplyakov, S. Kunalan. Waste Cooking Oil as an Efficient Solvent for Production of Urea Precursor Ammonium Carbamate from Carbon Dioxide // Greenhouse Gases: Science and Technology, 2020, 11 (2), p. 222-231. https://doi.org/10.1002/ghg.2036
Pelzer M., Vad T., Becker A., Gries T., Markova S., Teplyakov V. Melt spinning and characterization of hollow fibers from poly(4-methyl-1-pentene) // Journal of Appllied Polymer Science, 2020, 138(1), e49630. https://doi.org/10.1002/app.49630
S.Yu.Markova, V.V.Zhmakin, Th.Gries, V.V.Teplyakov. Combination of the experimental and theoretical approaches for the estimation of the C1–C4 alkane permeability parameters in poly(4-methyl-2-pentyne) and poly(4-methyl-1-pentene) // Applied Sciences, 2020, 10(5), 1735.
Markova S.Yu., Thomas Gries, Teplyakov V.V. Poly(4-methyl-1-pentene) as a semicrystalline polymeric matrix for gas separating membranes // Journal of Membrane Science, 2020, 598, 117754. https://doi.org/10.1016/j.memsci.2019.117754
V.G.Polevaya, M.G.Shalygin, V.S.Khotimskiy, V.V.Teplyakov. Membrane Control of the Composition of Synthesis Gas Using Membranes Based on Modified 1,2-Disubstituted Polyacetylenes // Membr. Membr. Technol. 2020, 2, pp.181–188. DOI: 10.1134/S2517751620030063
I.N.Beckman, D.А.Syrtsova, M.G.Shalygin, P.Kandasamy, V.V.Teplyakov. Transmembrane gas transfer: Mathematics of diffusion and experimental practice // Journal of Membrane Science, 2020, 601, 117737. https://doi.org/10.1016/j.memsci.2019.117737
A.I.Netrusov, V.V.Teplyakov, M.V.Tsodikov, A.V.Chistjakov, P.A.Zharova, M.G.Shalygin. Laboratory-scale production of hydrocarbon motor fuel components from lignocellulose: combination of new developments of membrane science and catalysis // Biomass & Bioenergy, 2020, 135, 105506. https://doi.org/10.1016/j.biombioe.2020.105506
Markova S.Yu., Shalygin M.G., Martin Pelzer, Thomas Gries, Teplyakov V.V. Application prospects of dense gas separation hollow fibers based on poly(4-methyl-1-pentene) // Chemical Papers, 2020, 74, p.1917–1921. https://doi.org/10.1007/s11696-019-01043-x
2019
V.V. Zhmakin, M.G. Shalygin, V.S. Khotimskiy, S.M. Matson, V.V. Teplyakov. Non-additive separation selectivity enhancement in poly(4-methyl-2-pentyne) in relation to C1-C4-alkanes // Separation and Purification Technology, 2019, 212, p.877–886. https://doi.org/10.1016/j.seppur.2018.11.086
S.Yu.Markova V.V.Teplyakov. Gas selective properties of poly(4-methyl-1-pentene) modified by gas phase fluorination // Journal of Membrane Science and Research, 2019, 5, p.165-171. DOI: 10.22079/jmsr.2018.93171.1211
A.I.Netrusov, V.V.Teplyakov, M.V.Tsodikov, A.V.Chistyakov, P.A.Zharova, M.G.Shalygin. Production of Motor Fuel from Lignocellulose in a Three-Stage Process (Review and Experimental Article) // Petroleum Chemistry, 2019, Vol. 59, No. 1, pp. 11-23. DOI: 10.1134/S0965544119010110
M.G.Shalygin, A.A.Kozlova, D.A.Syrtsova, S.Yu.Markova, O.R.Ryabova, V.V.Teplyakov. Diffusion Transport of Water and Methanol Vapors in Polyvinyltrimethylsilane // Membranes and Membrane Technologies, 2019, Vol. 1, No. 3, pp. 183–189 DOI: 10.1134/S2517751619030053
2018
D.A.Syrtsova, M.G.Shalygin, V.V.Teplyakov. Fluorinated Hollow Fiber Membranes Based on Matrimid 5218 and Their Application in the Process of Helium Recovery from Natural Gas // Petroleum Chemistry, 2018, 58 (9), pp.760–769. DOI: 10.1134/S0965544118090098
V.V.Teplyakov, M.G.Shalygin, A.A.Kozlova, A.I.Netrusov. Composite Membranes with a Polyvinyltrimethylsilane Skin Layer for Separation of Water–Alcohol Mixtures // Petroleum Chemistry, 2018, 58(11), pp. 949-957. DOI: 10.1134/S0965544118110075
2017
S.Yu. Markova, I.N. Beckman, V.V. Teplyakov. Diffusion of C1-C3 Alkanes in Semicrystalline Poly(4-Methyl-1-Pentene) as a Two-Phase Polymeric System // International Journal of Membrane Science and Technology, 2017, V. 4, No. 1, pp. 28-36. http://dx.doi.org/10.15379/2410-1869.2017.04.01.04
V.V. Zhmakin, V.V. Teplyakov. The evaluation of the C1–C4 hydrocarbon permeability parameters in the thin film composite membranes // Separation and Purification Technology, 2017, V. 186, pp. 145-155. https://doi.org/10.1016/j.seppur.2017.06.004
E.A. Efimova, D.A. Syrtsova, V.V. Teplyakov. Separation Gas permeability through graphite foil: The infuence of physical density, membrane orientation and temperature // Separation and Purification Technology, 2017, V. 179, pp. 467-474. https://doi.org/10.1016/j.seppur.2017.02.023
V.V.Teplyakov, M.G.Shalygin, A.A.Kozlova, A.V.Chistyakov, M.V.Tsodikov, A.I.Netrusov. Membrane technology in bioconversion of lignocellulose to motor fuel components // Petroleum Chemistry, 2017, 57(9), pp. 747-762. DOI: 10.1134/S0965544117090080
S.Yu. Markova, I. N. Beckman, V.V. Teplyakov. Heterogeneous membranes for gas separation // Recents Progres en Genie des Procedes, 2017, Numero 110, pp.2.11-1-2.11-7.
2016
Zhmakin, V. V., Teplyakov, V. V. Permeability of C1-C3 Hydrocarbons through MDK Membranes under Nonisothermal Conditions at Lower Temperatures // Petroleum Chemistry, 2016, 56, pp.335-343.
A.A.Kozlova, M.G.Shalygin, V.V.Teplyakov. On the Relationship between the Permeability Parameters of Gases and Vapors of C1-C4 Aliphatic Alcohols in Hydrophobic Polymeric Membranes // International Journal of Membrane Science and Technology, 2016, 3, pp. 56-63. DOI: 10.15379/2410-1869.2016.03.01.06
М.Г.Шалыгин, А.А.Козлова, А.И.Нетрусов, В.В.Тепляков. Парофазное мембранное концентрирование биоэтанола и биобутанола с применением гидрофобных мембран на основе стеклообразных полимеров // Мембраны и мембранные технологии, 2016, Т. 6, № 3, с. 313-324. DOI: 10.1134/S221811721603010X
S. Yu. Markova, N.M. Smirnova, V.V. Teplyakov. Gas Permeability through Poly(4Methyl-1-Pentene) at Temperatures Above and Below the Glass Transition Point // Petroleum Chemistry. 2016. Vol. 56. No. 10, pp. 948-955.
2015
Shalygin M.G., Abramov S.M., Netrusov A.I., Teplyakov V.V. Membrane recovery of hydrogen from gaseous mixtures of biogenic and technogenic origin // International Journal of Hydrogen Energy, 2015, V. 40 (8), pp. 3438-3451. https://doi.org/10.1016/j.ijhydene.2014.12.078
V. I. Isaeva, M. I. Barkova, L. M. Kustov, D. A. Syrtsova, E. A. Efimova and V. V. Teplyakov. In situ synthesis of novel ZIF-8 membranes on polymeric and inorganic supports //Journal of Materials Chemistry A, 2015, V.3, pp. 7469–7476.
I. N. Beckman, V. V. Teplyakov. Selective gas transfer through binary polymeric systems based on block-copolymers // Advances in Colloid and Interface Science, 2015, V. 222, pp. 70–78. https://doi.org/10.1016/j.cis.2014.10.004
2013
A. Syrtsova, E.A. Efimova, V.V. Teplyakov, S.G. Ionov, D. Roizard. Permeability of Foil Based on Exfoliated Graphite to C1–C6 Alkanes // Petroleum Chemistry. 2013. Vol. 53. No. 8. P. 612-618.
I. N. Beckman, A. Yu. Golub, A. V. Yakovlev, and V. V. Teplyakov. Noble Gases as Indicators of Molecular Selective Gas Transport in Polymeric Membranes // ISSN 0965_5441, Petroleum Chemistry. 2013. Vol. 53. No. 7. pp. 460–470.
A.V. Yakovlev, M.G. Shalygin, S.M. Matson, V.S. Khotimskiy, V.V. Teplyakov. Separation of diluted butanol–water solutions via vapor phase by organophilic membranes based on high permeable polyacetylenes // Journal of Membrane Science. 2013. V. 434, pp. 99–105. DOI: 10.1016/J.MEMSCI.2013.01.061
I. Luk’yanova, A.A. Kirsankin, M.V. Tsodikov, V.V. Teplyakov. Structure and Gas Permeability of Nanoporous Metal Oxide Coatings Produced by the Alkoxide Method // Petroleum Chemistry. 2013. Vol. 53. No. 8. P. 596-608.
2012
A.V.Yakovlev, M.G.Shalygin, S.M.Matson, E.G.Litvinova, V.S.Khotimsky, V.V.Teplyakov. The Recovery of Lower Alcohols from Dilute Aqueous Solutions by Vapor Phase Membrane Separation Method // Procedia Engineering, 2012, V. 44, pp. 1060-1062. DOI: 10.1016/j.proeng.2012.08.677
2011
Shalygin M.G., Yakovlev A.V., Khotimskii V.S., Gasanova L.G., Teplyakov V.V. Membrane contactors for biogas conditioning // Petroleum Chemistry, 2011, V. 51, Is. 8, pp.601-609. DOI: 10.1134/S096554411108010X
O.V. Malykh, A.Yu. Golub, V.V. Teplyakov. Polymeric membrane materials: New aspects of empirical approaches to prediction of gas permeability parameters in relation to permanent gases, linear lower hydrocarbons and some toxic gases // Advances in Colloid and Interface Science. 2011, Vol. 164. Iss. 1-2, pp. 89-99. https://doi.org/10.1016/j.cis.2010.10.004
M.V. Tsodikov, V.V. Teplyakov, A.S. Fedotov, N.Yu. Kozitsyna, V.Yu. Bychkov, V.N. Korchak, I.I. Moiseev. Dry reforming of methane on porous membrane catalytic systems. // Russian Chemical Bulletin. International Edition. 2011, Vol. 60. No. 1. P. 55-62.
A.P. Soldatov, M.V. Tsodikov, V.Yu. Bichkov, O.P. Parenago, V.N. Korchak, V.V. Teplyakov. From micro- to nano-size catalytic membrane hydrogenation reactors with accumulated hydrogen // International Journal of Hydrogen energy. 2011, 36, pp.1264-1270. https://doi.org/10.1016/j.ijhydene.2010.06.125
M.V. Tsodikov, V.V. Teplyakov, A.S. Fedotov, V.I. Uvarov, D. Roizard, A. Kiennemann, C. Courson, I.I. Moiseev. Structural studies of nanosized porous membrane catalytic systems high-active in dry reforming processes of biomass conversion products // Russian Chemical Bulletin. International Edition. 2011. Vol. 12.
Y.V. Kiryukhina, V.S. Khotimskiy, V.V. Tepliakov, D. Roizard, D. Barth. Synthesis and CO2 sorption in poly(1-trimethylsilyl-1-propyne) and Polyvinyltrimethylsilane containing ethylene oxide groups and N-butylimidazol-based “ionic liquids” groups // Desalination and Water Treatment. 2011, V. 35, pp. 255–262. https://doi.org/10.5004/dwt.2011.2481
Netrusov A.I., Abramov S.M., Sadraddinova E.R., Mitrofanova T.I., Glazunova E.V., Shestakov A.I., Karyakin A.A., Voronin O.G., Teplyakov V.V., Shalygin M.G. Foundations of a Technology for the Microbiological Conversion of Organic Cellulose-Containing Wastes into Electrical Energy through the Intermediate Formation of Biohydrogen // Catalysis in Industry, 2011, V.3, №1, pp. 47-52.
Teplyakov V.V., Khotimskii V.S., Yakovlev A.V., Shalygin M.G., Gasanova L.G., Zen'kevich V.B., Netrusov A.I. Membrane Systems for the Recovery of Energy Carriers from Products of Organic Waste Recycling // Catalysis in Industry, 2011, V.3, №1, pp. 62-69.
1990-2010
Yakovlev A.V., Shalygin M.G., Khotimsky V.S., Gasanova L.G., Zenkevich V.B., Netrusov A.I., Teplyakov V.V. The membrane systems for biofuels recovery from waste treatment products // Catalysis in industry. 2010. № 5. P.94-102.
D.A. Syrtsova, A.P.Kharitonov, V.V.Teplyakov, G.-H.Koops. Improving gas separation properties of polymeric membranes based on glassy polymers by gas phase fluorination // Desalination, 2004, 163, pp. 273-279. https://doi.org/10.1016/S0011-9164(04)90200-7
V. V. Teplyakov L. G. Gassanova, M. Modigell, A. I. Netrusov. Lab-scale bioreactor integrated with active membrane system for hydrogen production: experience and prospects // International Journal of Hydrogen Energy, 2002, 27 (11- 2) , pp. 1149-1155. https://doi.org/10.1016/S0360-3199(02)00093-9
N. Nishiyama, L. Gora, V. V. Teplyakov, F. Kapteijn, D.A. Mulijn. Evaluation of reproducible high flux silicalite-1 membranes: gas permeation and separation characterization // Separation and Purification Technology, 2001, 22-23, pp. 295-307. https://doi.org/10.1016/S1383-5866(00)00152-0
V.D.Borman V. I. Tronin, I. V. Tronin, V. I. Trayan, V. V. Teplyakov. Molecular transfer and dynamics of sorption in subnanometer channels // Journal of Exp.&Theor. Physics, 2000, 90 (6), pp. 950-963.
R. E. Aliev, L. E. Starannikova, V. V. Teplyakov, G. Burillo. Radiation-induced crosslinking of polyvinyltrimethylsilane in the presence of ethylene glycol dimethacrylate and allyl methacrylate // Radiat. Phys. and Chem., 1998, 53 (5), pp. 533-538. https://doi.org/10.1016/S0969-806X(98)00210-2
A.P.Kharitonov V. V. Teplyakov, D. A. Syrtsova, V.P.Badyal, H.Strathmann, A.P.Pud. Direct fluorination of polymers: fundamental features and possible industrial applications // Polymer Preprints, 1998, 39 (2), pp. 918-919.
E. V. Talantseva, N. I. Laguntsov , V. V. Teplyakov. Optimization of membrane separation of air // Theor. Basis of Chemical Technology, 1997, 31 (5), pp. 510-515.
L. E. Starannikova, V. V. Teplyakov. Gaspermeability of poly[1-(trimethylsilyl)-1-propyne]:estimation of experimental data and predicted parameters // Vysokomolek. Soed., 1997, A, 39 (10), pp. 1690-1696.
V. V. Teplyakov, E. G. Sostina, I. N. Beckman, A. I. Netrusov. Integrated membrane systems for gas separation in biotechnology: potential and prospects // World Journal of Biotechnology, 1996, 12, pp. 1-9. https://doi.org/10.1007/BF00419461
D. R. Paul, V. V. Teplyakov, E. Sh. Finkelstain, N. B. Bespalova. Gas permeation in a fluorine-containing polynorbornene // Macromolecules, 1992, 25 (16), pp. 4218-4219. https://doi.org/10.1021/ma00042a027
D. G. Bessarabov, V. V. Teplyakov I. N. Beckman. Selective membrane valve for ternary gas mixture separation: model of mass transfer and experimental test // Ind.Eng.Chem.Res., 1993, 32, pp. 2017-2022. https://doi.org/10.1021/ie00021a025
A. B. Shelekhin, V. V. Teplyakov I. N. Beckman. Separation of gas mixtures in unsteady-state conditions // Journal of Membrane Science, 1991, 55, pp. 283-297. https://doi.org/10.1016/S0376-7388(00)80583-9
V. V. Teplyakov. Membrane gas separation in petrochemistry: problems of the polymeric membrane selection, EFFECTIVE INDUSTRIAL MEMBRANE PROCESSES, ed. by M.K.Turner, Elsevier Applied Science, London & New York (1991) pp.401-417.
N. A. Plate, V. S. Khotimsky, S. G. Durgaryan, V. V. Teplyakov, Yu. P. Yampolskii. Novel poly(siliconolefins) for gas separations // Journal of Membrane Science, 1990, 52 (3), pp. 289-304. https://doi.org/10.1016/S0376-7388(00)85133-9
V. V. Teplyakov. The thermodiffusion analysis of thin polymer films // Thermochimica Acta, 1991,190, pp. 65-76. https://doi.org/10.1016/0040-6031(91)87139-N
V. V. Teplyakov, P. Meares. Correlation aspects of the selective gas permeabilities of polymeric materials and membranes // Gas Separation & Purification, 1990, 4(2), pp. 68-72. https://doi.org/10.1016/0950-4214(90)80030-O
Monographies:
V.Teplyakov. New perspectives on hydrogen production, separation and utilization. Chapter 12: Polymeric Membranes for Hydrogen Separation/Purification / Ed. by A. Basile, A.Iulianelli, Elsevier Inc., 2020 c. 281-304 ISBN: 978-0-12-817384-8.
V.V. Teplyakov, M.G. Shalygin, D.A. Syrtsova, A.I. Netrusov, Current Trends and Future Developments on (Bio-) Membranes Renewable Energy Integrated with Membrane Operations, Chapter 13: Membrane Gas Separation Combined With Renewable Energy Systems / Ed. by Angelo Basile, Alfredo Cassano, Alberto Figoli, 2019 Elsevier Inc., с. 319-354., ISBN: 978-0-12-813545-7, doi.org/10.1016/C2016-0-02618-9
Hydrogen Production, Separation and Purification for Energy, eds.: Angelo Basile, Francesco Dalena, Jianhua Tong and T. Nejat Veziroğlu: Chapter 7: Biofuels starting materials for hydrogen production, S.Abramov, M.Shalygin, V.Teplyakov, A.Netrusov, 29 p. Publisher: Institution of Engineering & Technology, 2017. 488 pp. ISBN: 978-1-78561-100-1. Book DOI:10.1049/PBPO089E. Chapter DOI:10.1049/PBPO089E_ch7
V. Teplyakov, M. Shalygin. Pervaporation, Vapour Permeation and Membrane Distillation. Principles and Applications. Chapter 7 – Integrated systems involving membrane vapor permeation and applications // A volume in Woodhead Publishing Series in Energy: A volume in Woodhead Publishing Series in Energy, 2015, 177–201, ISBN 978-1-78242-4.
Particularities of membrane gas separation under unsteady state conditions, I.N.Beckman, M.G.Shalygin, V.V.Tepliakov, in: Mass transfer in chemical engineering processes, ed.: Josef Markos, InTech, November 2011, 306 p. (p. 205–233). ISBN 978-953-307-619-5. DOI: 10.5772/24112 (10.5772/659
V. Teplyakov, M. Tsodikov. Porous Inorganic Membrane Reactor, in: Simulation of membrane reactors, Nova Science Publishers: New York 2009, 117-158.
Davydovа S.L, Teplyakov V.V. Global Contamination by Petrometals, Novapublishers, USA, 2008.