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Publications

Publications of Complex Electrophysic Investigations Laboratory


2025

  1. P.A. Russkikh, G.Sh. Boltachev, Increasing the threshold amplitude of the pulsed magnetic field causing irreversible deformation of a steel inductor // Russian Physics Journal. 2025. V. 68, Iss. 2. P. 333-340.
    doi: 10.1007/s11182-025-03437-9

  2. P.A. Russkikh, G.S. Boltachev, Increasing the Resistance of Magnetic Flux Concentrator During Generation of Strong Pulsed Magnetic Fields // International Research Journal. 2025. №5(155) (12 pages).
    doi: 10.60797/IRJ.2025.155.57


2024

  1. Elena G. Kalinina, Editorial for the Special Issue on Advanced Thin-Films: Design, Fabrication and Applications // Micromachines. 2024. V. 15(2). Article N 255 (5 pages).
    doi: 10.3390/mi15020255

  2. V.G. Ilves, M.E. Balezin, S.Yu. Sokovnin, A.S. Gerasimov, E.G. Kalinina, D.S. Rusakova, P.M. Korusenko, M.G. Zuev, M.A. Uimin, Radiation-chemical synthesis and characterization of ferrihydrite from iron (III) nitrate // Radiation Physics and Chemistry. 2024. V. 218. P. 111612 (10 pages).
    doi: 10.1016/j.radphyschem.2024.111612

  3. Kochurin E.A., Russkikh P.A. Correlation analysis of the interaction of plane capillary waves in the regime of developed wave turbulence // Technical Physics Letters. 2024. V. 50, No. 7. P. 28-31.
    doi: 10.61011/PJTF.2024.13.58165.19907

  4. Elena Kalinina, Elena Pikalova, Electrophoretic deposition of ceramic coatings from modified suspensions of microsized powders of doped BaCeO3 and BaCeO3-BaZrO3 proton-conducting electrolytes // Ceramics International. 2024. V. 50, Iss. 20, Part C. P. 40339-40349.
    doi: 10.1016/j.ceramint.2024.05.303

  5. S.A. Chaikovskii and G.Sh. Boltachev, Evolution of perturbations on conductor surface at the initial stage of skin electric explosion // Russian Physics Journal. 2024. V. 67, No. 9. P. 1316-1329.
    doi: 10.1007/s11182-024-03250-w

  6. G.Sh. Boltachev, P.A. Russkikh, S.A. Chaikovsky, Enhanced Joule heat release at surface irregularities // Curr. Appl. Phys. 2024. V. 68. P. 189-195.
    doi: 10.1016/j.cap.2024.09.013

  7. E.G. Kalinina, D.S. Rusakova, and T.V. Terzyan, Effect of Molecular Iodine on the Electrophoretic Properties of Suspensions for Electrophoretic Deposition // Russian Journal of Physical Chemistry A. 2024. V. 98, No. 11. P. 2650-2657.
    doi: 10.1134/S0036024424701851


2023

  1. Pikalova, E.Y.; Kalinina, E.G.; Pikalova, N.S. Recent Advances in Electrophoretic Deposition of Thin-Film Electrolytes for Intermediate-Temperature Solid Oxide Fuel Cells // Electrochemical Materials and Technologies. 2023. V. 2, N. 1. P. 20232011 (23 pages).
    doi: 10.15826/Elmattech.2023.2.011

  2. Elena G. Kalinina, Elena Yu. Pikalova, Electrophoretic deposition of dense anode barrier layers of doped ZrO2 and BaCeO3 on a supporting Ce0.8Sm0.2O2-δ solid electrolyte: Problems and search for solutions in SOFC technology // International Journal of Hydrogen Energy. 2023. V. 48, Iss. 59. P. 22610-22623.
    doi: 10.1016/j.ijhydene.2023.02.042

  3. Elena G. Kalinina, Darya S. Rusakova, Kirill S. Shubin, Larisa V. Ermakova, Elena Yu. Pikalova, CeO2-based thin-film electrolyte membranes for intermediate temperature SOFCs: Direct electrophoretic deposition on the supporting anode from additive-modified suspensions // International Journal of Hydrogen Energy. 2023. V. 48, Iss. 59. P. 22559-22572.
    doi: 10.1016/j.ijhydene.2023.01.159

  4. P.A. Russkikh, G.Sh. Boltachev, S.N. Paranin, Brittle fracture of a conductor in a strong pulsed magnetic field // Technical Physics. 2023. V. 68, No. 5. P. 611-621.
    doi: 10.21883/TP.2023.05.56067.243-22

  5. Pikalova, E.; Kalinina, E. Performance Enhancement of Ce0.8Sm0.2O1.9-Supported SOFC by Electrophoretic Formation of Modifying BaCe0.8Sm0.2O3 and Ce0.8Sm0.1Pr0.1O1.9 Layers // Membranes. 2023. V. 13, Iss. 5. Article N 484 (17 pages).
    doi: 10.3390/membranes13050484

  6. Lyalin E, Il’ina E, Kalinina E, Antonov B, Pankratov A, Pereverzev D. Electrophoretic Deposition and Characterization of Thin-Film Membranes Li7La3Zr2O12 // Membranes. 2023. V. 13, Iss. 5. Article N 468 (17 pages).
    doi: 10.3390/membranes13050468

  7. Elena Kalinina, Larisa Ermakova and Elena Pikalova. Electrophoretic Deposition and Characterization of Er-Doped Bi2O3 Cathode Barrier Coatings on Non-Conductive Ce0.8Sm0.2O1.9 Electrolyte Substrates // Coatings. V. 13, No. 6. Article N 1053 (17 pages).
    doi: 10.3390/coatings13061053

  8. Irina Vladimirovna Krutikova, Ksenia Valeryevna Nefedova. Synthesis of Nanostructured Yttrium Oxides Doped with Cerium Ions by Solution Combustion Synthesis // Materials. Technologies. Design. 2023. V. 5, No. 1(11). P. 64-70.
    doi: 10.54708/26587572_2023_511164

  9. P.A. Russkikh, G.Sh. Boltachev, and S.N. Paranin, Methods for Increasing the Threshold of a Pulsed Magnetic Field That Causes Steel Inductor Destruction under Repeated Impact // Bulletin of the Russian Academy of Sciences: Physics. 2023. V. 87, No. 11, pp. 1568-1574.
    doi: 10.3103/S1062873823703707

  10. Elena G. Kalinina, Nataliya D. Kundikova, Dmitrii K. Kuznetsov and Maxim G. Ivanov, Electrophoretic Deposition of One- and Two-Layer Compacts of Holmium and Yttrium Oxide Nanopowders for Magneto-Optical Ceramics Fabrication // Magnetochemistry. 2023. V. 9, Iss. 11. Article N 227 (13 pages).
    doi: 10.3390/magnetochemistry9110227

  11. Efim Lyalin, Evgeniya Ilʼina, Alexander Pankratov, Tamara Kuznetsova, Elena Kalinina, Effect of Substrates on the Physicochemical Properties of Li7La3Zr2O12 Films Obtained by Electrophoretic Deposition // Micromachines. 2023. V. 14, Iss. 12. Article N 2153 (12 pages).
    doi: 10.3390/mi14122153

  12. Krutikova I.V., Nefedova K.V. Scintillation Ceramic Nanoparticles Obtained by Solution Combustion Synthesis // Bulletin of the Russian Academy of Sciences: Physics. 2023. V. 87, Suppl. 1, pp. S82-S86.
    doi: 10.1134/S1062873823704440


2022

  1. Elena Kalinina, Kirill Shubin, and Elena Pikalova, Electrophoretic Deposition and Characterization of the Doped BaCeO3 Barrier Layers on a Supporting Ce0.8Sm0.2O1.9 Solid-State Electrolyte // Membranes. 2022. V. 12(3). P. 308 (19 pages).

  2. Elena Pikalova, Denis Osinkin, and Elena Kalinina, Direct Electrophoretic Deposition and Characterization of Thin-film Membranes Based on Doped BaCeO3 and CeO2 for Anode-supported Solid Oxide Fuel Cells // Membranes. 2022. V. 12(7). P. 682 (19 pages).

  3. Elena G. Kalinina, Darya S. Rusakova, Elena Yu. Pikalova, Peculiarities of electrophoretic deposition and morphology of deposited films in non-aqueous suspensions of Al2O3–Al nanopowder // Chimica Techno Acta. 2022. V. 9(2). P. 20229207 (8 pages).

  4. Elena Kalinina, Electrokinetic Properties of Nanopowder Suspensions Based on Aluminum Oxide, Obtained via the Electric Explosion of a Wire // Russian Journal of Physical Chemistry A. 2022. V. 96, Iss. 9. P. 2032-2037.

  5. E.G. Kalinina, E.Yu. Pikalova, Formation of a Single- and Two-Layer Solid Electrolyte by Electrophoresis on Anodic Substrates Metalized with Silver or Platinum // Russian Journal of Physical Chemistry A. 2022. V. 96, Iss. 12. P. 2763-2773.

  6. Elena Kalinina and Maxim Ivanov, The Electrophoretic Deposition of Nanopowders Based on Yttrium Oxide for Bulk Ceramics Fabrication // Inorganics. 2022. V. 10(12). P. 243 (12 pages).

  7. Elena Y. Pikalova, Elena G. Kalinina, Nadezhda S. Pikalova and Elena A. Filonova, High-Entropy Materials in SOFC Technology: Theoretical Foundations for Their Creation, Features of Synthesis, and Recent Achievements // Materials. 2022. V. 15(24). P. 8783 (43 pages).

  8. Renat R. Mansurov, Irina A. Pavlova, Alexander P. Safronov, Adhesion of Polymer to TiO2 Particles Decreases Photocatalytic Activity of Polyelectrolyte Hydrogel Photocatalyst // ChemistrySelect. 2022. V. 7(47). P. e202202775 (9 pages).


2021

  1. E.Yu. Pikalova, E.G. Kalinina, Solid oxide fuel cells based on ceramic membranes with mixed conductivity: improving efficiency // Russ. Chem. Rev. 2021. V. 90(6), pp. 703-749.

  2. E.G. Kalinina, D.S. Rusakova, E.Yu. Pikalova, Electrophoretic deposition of coatings and bulk compacts using magnesium-doped aluminum oxide nanopowders // Chimica Techno Acta. 2021. V. 8(2). P. 20218206 (6 pages).

  3. Elena Kalinina, Elena Pikalova, Larisa Ermakova, and Nina Bogdanovich, Challenges of Formation of Thin-Film Solid Electrolyte Layers on Non-Conductive Substrates by Electrophoretic Deposition // Coatings. 2021. V. 11(7). P. 805 (21 pages).

  4. E.G. Kalinina, D.S. Rusakova, A.S. Kaigorodov, A.S. Farlenkov, and A.P. Safronov, Formation of Bulk Alumina Ceramics by Electrophoretic Deposition from Nanoparticle Suspensions // Russian Journal of Physical Chemistry A. 2021. V. 95(8). P. 1519-1528.

  5. E.G. Kalinina and E.Yu. Pikalova, Modifying Suspensions for the Electrophoretic Deposition of BaCe0.5Zr0.3Y0.1Yb0.1O3–δ Solid Electrolyte // Russian Journal of Physical Chemistry A. 2021. V. 95(9). P. 1942-1947.

  6. Grey Sh. Boltachev, Vadim I. Filatov, and Stanislav A. Chaikovsky, Magnetic Field Measurement Features With a Miniature B-Dot Probe // IEEE Transactions on Electromagnetic Compatibility. 2021. V. 63(4). P. 970-978.

  7. P.A. Russkikh, G.S. Boltachev, S.N. Paranin and A.V. Kebets, Simulating the Conductor With a Nonuniform Resistance Under High-Pulsed Magnetic Fields // IEEE Transactions on Plasma Science. 2021. V. 49(9). P. 2463-2469.

  8. Elena Kalinina and Elena Pikalova, Opportunities, Challenges and Prospects for Electrodeposition of Thin-Film Functional Layers in Solid Oxide Fuel Cell Technology // Materials. 2021. V. 14(19). P. 5584 (37 pages).

  9. S.P. Nikulin, Generation of plasma in low-pressure discharge // Journal of Physics: Conference Series. 2021. V. 2064. No. 012040 (4 pages).


2020

  1. I. Krutikova, M. Ivanov, A. Murzakaev, K. Nefedova, Laser-synthesized Ce3+ and Pr3+ doped Y2O3 nanoparticles and their characteristics // Materials Letters. 2020. V. 265. P. 127435 (4 pages).

  2. G.Sh. Boltachev, M.G. Ivanov, Effect of nanoparticle concentration on coagulation rate of colloidal suspensions // Heliyon. 2020. V. 6, Iss. 2. P. e03295 (7 pages).

  3. G.Sh. Boltachev, E.A. Chingina, N.B. Volkov, K.E. Lukyashin, Elastic properties, yield surface and flow rule of nanopowder compacts // Materials Physics and Mechanics. 2020. V. 44(1), pp. 137-158.

  4. E.G. Kalinina, E.Yu. Pikalova, Preparation and Properties of Stable Suspensions of ZrO2 – Y2O3 Powders with Different Particle Sizes for Electrophoretic Deposition // Inorganic Materials. 2020. V. 56, No. 9, pp. 941-948.

  5. Elena Kalinina, Alexander Kolchugin, Kirill Shubin, Andrei Farlenkov, and Elena Pikalova, Features of Electrophoretic Deposition of a Ba-Containing Thin-Film Proton-Conducting Electrolyte on a Porous Cathode Substrate // Applied Sciences. 2020. V. 10, Iss. 18. P. 6535 (20 pages).

  6. Elena Kalinina, Features of the Electrophoretic Formation of Bulk Compacts Based on Zirconium Oxide Nanopowder // Russian Journal of Physical Chemistry A. 2020. V. 94, No. 10, pp. 2096-2102.

  7. Pavel Russkikh, Grey Boltachev, Sergey Paranin, and Alexandr Kebets, Durability of Inductor Material with Inhomogenious Resistance under High Pulsed Magnetic Field Generation // 7th International Congress on Energy Fluxes and Radiation Effects (EFRE), Tomsk, Russia. 2020, pp. 154-159.

  8. P.A. Russkikh, G.Sh. Boltachev, and S.N. Paranin, A Conductor with Space-Variable Resistivity under High Pulsed Magnetic Field // AIP Conference Proceedings. 2020. V. 2313. P. 030028 (6 pages).


2019

  1. E.G. Kalinina, N.M. Bogdanovich, D.I. Bronin, E.Yu. Pikalova, and A.A. Pankratov, Formation of Thin-Film Electrolyte by Electrophoretic Deposition onto Modified Multilayer Cathode // Russian Journal of Applied Chemistry. 2019. V. 92(2), pp. 191-198.

  2. S.P. Nikulin. The Influence of Primary Electrons on the Mechanism of Plasma Generation // Russian Physics Journal. 2019. V. 62, No. 3, pp. 547-552.

  3. G.Sh. Boltachev, E.A. Chingina, A.V. Spirin, N.B. Volkov. Densification rate influence on nanopowder compactibility // Materials Physics and Mechanics. 2019. V. 42(2), pp. 165-177.

  4. E.Yu. Pikalova, E.G. Kalinina. Place of electrophoretic deposition among thin-film methods adapted to the solid oxide fuel cell technology: a short review // International Journal of Energy Production and Management. 2019. V. 4, No. 1, pp. 1-27.

  5. S.S. Balabanov, S.V. Filofeev, M.G. Ivanov, E.G. Kalinina, D.K. Kuznetsov, D.A. Permin, E.Y. Rostokina. Self-propagating high-temperature synthesis of (Ho1-xLax)2O3 nanopowders for magneto-optical ceramics // Heliyon. 2019. V. 5, Iss. 4. P. e01519.

  6. Elena Kalinina, Elena Pikalova, Alexandr Kolchugin, Nadezhda Pikalova, Andrey Farlenkov, Comparative study of electrophoretic deposition of doped BaCeO3-based films on La2NiO4+δ and La1.7Ba0.3NiO4+δ cathode substrates // Materials. 2019. V. 12, Iss. 16. P. 2545.

  7. E.G. Kalinina, E.Yu. Pikalova. New trends in the development of the method of electrophoretic deposition in the SOFC technology: theoretical approaches, experimental solutions and development perspectives // Russ. Chem. Rev. 2019. V. 88, Iss. 12, pp. 1179-1219.

  8. E.Yu. Pikalova, E.G. Kalinina, Electrophoretic deposition in the solid oxide fuel cell technology: Fundamentals and recent advances // Renewable and Sustainable Energy Reviews. 2019. V. 116. P. 109440.
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