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Showing results 1 to 20 of 26  next >
Issue DateTitleAuthor(s)
2018Application of a hybrid model for the numerical study of the generation of runaway electrons and the formation of high-pressure gas dischargeLisenkov, V. V.; Mamontov, Y. I.
2013AYPT-1M accelerator for radiation technologiesSokovnin, S. Yu.; Balezin, M. E.; Shcherbinin, S. V.
2016Characterization of LiMn2O4 cathodes by electrochemical strain microscopyAlikin, D. O.; Ievlev, A. V.; Luchkin, S. Y.; Turygin, A. P.; Shur, V. Y.; Kalinin, S. V.; Kholkin, A. L.; Шур, В. Я.
2019Comparative study of electrophoretic deposition of doped BaCeO3-based films on La2NiO4+δ and La1.7Ba0.3NiO4+δ cathode substratesKalinina, E.; Pikalova, E.; Kolchugin, A.; Pikalova, N.; Farlenkov, A.
2019Correlative confocal Raman and scanning probe microscopy in the ionically active particles of LiMn 2 O 4 cathodesAlikin, D.; Slautin, B.; Abramov, A.; Rosato, D.; Shur, V.; Tselev, A.; Kholkin, A.; Шур, В. Я.
2013Dependence of electrolytic cell voltage on the structure of cathode deposits of PMS11 and PML0 powdersOsipova, M. L.; Savel'ev, A. M.; Osipov, D. L.
2019Design of materials for solid oxide fuel cells cathodes and oxygen separation membranes based on fundamental studies of their oxygen mobility and surface reactivitySadykov, V.; Sadovskaya, E.; Eremeev, N.; Pikalova, E.; Bogdanovich, N.; Filonova, E.; Fedorova, Y.; Krasnov, A.; Skriabin, P.; Lukashevich, A.
2020Determination of the Growth Time Period of Loose Zinc Deposit Using Interval Analysis MethodsNikitin, V. S.; Ostanina, T. N.; Kumkov, S. I.; Rudoy, V. M.; Ostanin, N. I.
2019Development of the Nickel-Refining Production at Norilsk Nickel Harjavalta Oy in GMK Norilsk NickelNaftal’, M. N.; Kuznetsov, N. S.; Naboichenko, S. S.; Solntsev, K. A.; Bryukvin, V. A.
2014Electrical and electrochemical properties of La2NiO4+δ-based cathodes in contact with Ce0.8Sm0.2O2-δ electrolytePikalova, E. Yu.; Bogdanovich, N. M.; Kolchugin, A. A.; Osinkin, D. A.; Bronin, D. I.
2013Electrochemical characteristics, thermal and chemical compatibility in the La0.7Sr0.3CoO3 electrode-γ-BIFEVOX electrolyte systemBuyanova, E. S.; Shafigina, R. R.; Morozova, M. V.; Emel'yanova, Yu. V.; Khisametdinova, V. V.; Zhukovskii, V. M.; Petrova, S. A.; Tarakina, N. V.
2019High-Energy and High-Power-Density Potassium Ion Batteries Using Dihydrophenazine-Based Polymer as Active Cathode MaterialObrezkov, F. A.; Ramezankhani, V.; Zhidkov, I.; Traven, V. F.; Kurmaev, E. Z.; Stevenson, K. J.; Troshin, P. A.
2013Investigation of GdBaCo2-xFexO6-δ (x = 0, 0.2) - Ce0.8Sm0.2O2 composite cathodes for intermediate temperature solid oxide fuel cellsTsvetkova, N. S.; Zuev, A. Y.; Tsvetkov, D. S.
2018Investigation of the conditions for the formation of SiCN-based coatings in arc discharge with self-heated hollow cathodeMenshakov, A. I.; Emlin, D. R.; Surkov, Yu. S.; Cholakh, S. O.
2022Layered Oxygen-Deficient Double Perovskites as Promising Cathode Materials for Solid Oxide Fuel CellsKlyndyuk, A. I.; Chizhova, E. A.; Kharytonau, D. S.; Medvedev, D. A.
2015Li transport in fresh and aged LiMn2O4 cathodes via electrochemical strain microscopyLuchkin, S. Y.; Romanyuk, K.; Ivanov, M.; Kholkin, A. L.
2019Modeling of plasma jet of vacuum arc with copper-chromium cathode under action of strong axial magnetic fieldShmelev, D. L.; Uimanov, I. V.; Frolova, V. P.
2022Octahydroxytetraazapentacenedione: New Organic Electrode Material for Fast and Stable Potassium BatteriesRamezankhani, V.; Yakuschenko, I. K.; Mumyatov, A. V.; Vasil'ev, S. G.; Zhidkov, I. S.; Kurmaev, E. Z.; Shestakov, A. F.; Troshin, P. A.
2019On the nature of charged particle flow of vacuum arcMuzyukin, I. L.; Mikhailov, P. S.
2021Phase Transition, Radio- and Photoluminescence of K3Lu(PO4)2 Doped with Pr3+ IonsIvanovskikh, K. V.; Pustovarov, V. A.; Omelkov, S.; Kirm, M.; Piccinelli, F.; Bettinelli, M.