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Gusarov, Victor Vladimirovich
Statistics Math-Net.Ru
Total publications: 40
Scientific articles: 39

Number of views:
This page:587
Abstract pages:3844
Full texts:2053
References:2

https://www.mathnet.ru/eng/person98975
List of publications on Google Scholar
List of publications on ZentralBlatt

Publications in Math-Net.Ru Citations
2024
1. Olga V. Proskurina, Ksenia I. Babich, Kirill D. Martinson, Sofia M. Tikhanova, Vladimir N. Nevedomskiy, Valentin G. Semenov, Rufat Sh. Abiev, Victor V. Gusarov, “Magnetic and photocatalytic properties of BiFeO$_3$ nanoparticles formed during the heat treatment of hydroxides coprecipitated in a microreactor with intense swirling flows”, Nanosystems: Physics, Chemistry, Mathematics, 15:3 (2024),  369–379  mathnet
2023
2. Maria O. Enikeeva, Olga V. Proskurina, Evgeny Yu. Gerasimov, Vladimir N. Nevedomskiy, Victor V. Gusarov, “Synthesis under hydrothermal conditions and structural transformations of nanocrystals in the LaPO$_4$–YPO$_4$–(H$_2$O) system”, Nanosystems: Physics, Chemistry, Mathematics, 14:6 (2023),  660–671  mathnet  elib 2
3. Olga V. Proskurina, Ilke Diana Chetinel, Anna S. Seroglazova, Victor V. Gusarov, “Influence of the composition of the BiPO$_4$–BiVO$_4$ system on the phase formation, morphology, and properties of nanocrystalline composites obtained under hydrothermal conditions”, Nanosystems: Physics, Chemistry, Mathematics, 14:3 (2023),  363–371  mathnet  elib 1
4. Makariy S. Lomakin, Olga V. Proskurina, Victor V. Gusarov, “Pyrochlore phase in the Bi$_2$O$_3$–Fe$_2$O$_3$–WO$_3$–(H$_2$O) system: its formation by hydrothermal synthesis in the low-temperature region of the phase diagram”, Nanosystems: Physics, Chemistry, Mathematics, 14:2 (2023),  242–253  mathnet  elib
2022
5. Dmitry P. Elovikov, Olga V. Proskurina, Maria V. Tomkovich, Valery L. Ugolkov, Victor V. Gusarov, “Thermal stability of the waylandite-structured nanocrystalline BiAl$_{3}$(PO$_{4}$)$_{2}$(OH)$_{6}$”, Nanosystems: Physics, Chemistry, Mathematics, 13:6 (2022),  662–667  mathnet  elib 1
6. Maria E. Kotova, Tatiana P. Maslennikova, Valery L. Ugolkov, Victor V. Gusarov, “Formation, structure, composition in the dispersed state, and behavior of nanoparticles heated in the Mg(OH)$_2$ – Ni(OH)$_2$ system”, Nanosystems: Physics, Chemistry, Mathematics, 13:5 (2022),  514–524  mathnet  elib 2
7. Oksana V. Almjasheva, Vadim I. Popkov, Olga V. Proskurina, Victor V. Gusarov, “Phase formation under conditions of self-organization of particle growth restrictions in the reaction system”, Nanosystems: Physics, Chemistry, Mathematics, 13:2 (2022),  164–180  mathnet  elib 5
8. Anastasiya N. Sokolova, Olga V. Proskurina, Dmitry P. Danilovich, Victor V. Gusarov, “Photocatalytic properties of composites based on Y$_{1-x}$Bi$_x$FeO$_3$ (0$\le x\le$ 0.15) nanocrystalline solid solutions with a hexagonal structure”, Nanosystems: Physics, Chemistry, Mathematics, 13:1 (2022),  87–95  mathnet  elib 2
2021
9. V. B. Khabenskii, V. I. Almjashev, V. S. Granovskii, E. V. Krushinov, S. A. Vitol', S. Yu. Kotova, V. V. Gusarov, “Modeling of molten corium oxidation in the presence of an oxide crust on the melt surface”, Zhurnal Tekhnicheskoi Fiziki, 91:2 (2021),  232–239  mathnet  elib; Tech. Phys., 66:2 (2021), 221–228  scopus 1
10. M. O. Enikeeva, O. V. Proskurina, E. S. Motaylo, D. P. Danilovich, V. V. Gusarov, “The influence of condition of the monazite structured La$_{0.9}$Y$_{0.1}$PO$_4$ nanocrystals sintering on thermal and mechanical properties of the material”, Nanosystems: Physics, Chemistry, Mathematics, 12:6 (2021),  799–807  mathnet  isi  elib 3
11. A. B. Nikolskaia, M. F. Vildanova, S. S. Kozlov, O. V. Almjasheva, V. V. Gusarov, O. I. Shevaleevskiy, “High performance tandem perovskite-silicon solar cells with very large bandgap photoelectrodes”, Nanosystems: Physics, Chemistry, Mathematics, 12:2 (2021),  246–251  mathnet  isi  elib
2020
12. M. O. Enikeeva, O. V. Proskurina, D. P. Danilovich, V. V. Gusarov, “Formation of nanocrystals based on equimolar mixture of lanthanum and yttrium orthophosphates under microwave-assisted hydrothermal synthesis”, Nanosystems: Physics, Chemistry, Mathematics, 11:6 (2020),  705–715  mathnet  isi  elib 4
13. M. S. Lomakin, O. V. Proskurina, V. V. Gusarov, “Influence of hydrothermal synthesis conditions on the composition of the pyrochlore phase in the Bi$_{2}$O$_{3}$-Fe$_{2}$O$_{3}$-WO$_{3}$ system”, Nanosystems: Physics, Chemistry, Mathematics, 11:2 (2020),  246–251  mathnet  isi  elib 2
14. I. V. Pleshakov, M. P. Volkov, N. A. Lomanova, Yu. I. Kuzmin, V. V. Gusarov, “Magnetic characteristics of a nanocomposite based on bismuth ferrites”, Pisma v Zhurnal Tekhnicheskoi Fiziki, 46:21 (2020),  25–27  mathnet  elib; Tech. Phys. Lett., 46:11 (2020), 1072–1075 4
2019
15. N. A. Lomanova, M. V. Tomkovich, A. V. Osipov, V. V. Panchuk, V. G. Semenov, I. V. Pleshakov, M. P. Volkov, V. V. Gusarov, “Magnetic properties of Bi$_{1-x}$Ca$_{x}$FeO$_{3-\delta}$ nanocrystals”, Fizika Tverdogo Tela, 61:12 (2019),  2503–2509  mathnet  elib; Phys. Solid State, 61:12 (2019), 2535–2541 6
16. O. V. Almjasheva, N. A. Lomanova, V. I. Popkov, O. V. Proskurina, E. A. Tugova, V. V. Gusarov, “The minimum size of oxide nanocrystals: phenomenological thermodynamic vs crystal-chemical approaches”, Nanosystems: Physics, Chemistry, Mathematics, 10:4 (2019),  428–437  mathnet  isi  elib 24
17. O. V. Proskurina, E. V. Sivtsov, M. O. Enikeeva, A. A. Sirotkin, R. Sh. Abiev, V. V. Gusarov, “Formation of rhabdophane-structured lanthanum orthophosphate nanoparticles in an impinging-jets microreactor and rheological properties of sols based on them”, Nanosystems: Physics, Chemistry, Mathematics, 10:2 (2019),  206–214  mathnet  isi  elib 14
18. L. L. Larina, O. V. Alexeeva, O. V. Almjasheva, V. V. Gusarov, S. S. Kozlov, A. B. Nikolskaia, M. F. Vildanova, O. I. Shevaleevskiy, “Very wide-bandgap nanostructured metal oxide materials for perovskite solar cells”, Nanosystems: Physics, Chemistry, Mathematics, 10:1 (2019),  70–75  mathnet  isi  elib 5
2018
19. O. V. Almjasheva, A. A. Krasilin, V. V. Gusarov, “Formation mechanism of core-shell nanocrystals obtained via dehydration of coprecipitated hydroxides at hydrothermal conditions”, Nanosystems: Physics, Chemistry, Mathematics, 9:4 (2018),  568–572  mathnet  isi  elib 5
20. V. B. Khabenskii, A. L. Sirotkina, V. I. Almjashev, E. D. Fedorovich, V. V. Sergeev, V. V. Gusarov, “Experimental studies of impact on a critical heat flux the parameters of nanoparticle layer formed at nanofluid boiling”, Nanosystems: Physics, Chemistry, Mathematics, 9:2 (2018),  279–289  mathnet  isi  elib 2
2017
21. A. A. Krasilin, V. V. Gusarov, “Redistribution of Mg and Ni cations in crystal lattice of conical nanotube with chrysotile structure”, Nanosystems: Physics, Chemistry, Mathematics, 8:5 (2017),  620–627  mathnet  isi 11
2016
22. A. A. Krasilin, V. V. Gusarov, “Energy model of radial growth of a nanotubular crystal”, Pisma v Zhurnal Tekhnicheskoi Fiziki, 42:2 (2016),  1–8  mathnet  elib; Tech. Phys. Lett., 42:1 (2016), 55–58 11
2015
23. V. I. Popkov, O. V. Almjasheva, V. N. Nevedomskiy, V. V. Sokolov, V. V. Gusarov, “Crystallization behavior and morphological features of YFeO$_3$ nanocrystallites obtainedby glycine-nitrate combustion”, Nanosystems: Physics, Chemistry, Mathematics, 6:6 (2015),  866–874  mathnet  isi  elib 11
2014
24. V. V. Sokolov, N. A. Petrov, M. V. Tomkovich, V. V. Gusarov, “Porous structure of carbon nanoparticles prepared by chlorination of nanoparticles of silicon carbid”, Nanosystems: Physics, Chemistry, Mathematics, 5:6 (2014),  849–853  mathnet  elib
25. O. V. Almjasheva, V. V. Gusarov, “Metastable clusters and aggregative nucleation mechanism”, Nanosystems: Physics, Chemistry, Mathematics, 5:3 (2014),  405–416  mathnet  elib
26. O. A. Rodygina, S. A. Chivilikhin, I. Yu. Popov, V. V. Gusarov, “Crystallite model for flow in nanotube caused by wall soliton”, Nanosystems: Physics, Chemistry, Mathematics, 5:3 (2014),  400–404  mathnet  elib
2013
27. N. A. Lomanova, V. V. Gusarov, “Influence of synthesis temperature on BiFeO$_{3}$ nanoparticles formation”, Nanosystems: Physics, Chemistry, Mathematics, 4:5 (2013),  696–705  mathnet  elib
28. E. A. Tugova, V. V. Gusarov, “Structure peculiarities of nanocrystalline solid solutions in GdAlO$_{3}$ – GdFeO$_{3}$ system”, Nanosystems: Physics, Chemistry, Mathematics, 4:3 (2013),  352–356  mathnet  elib
2012
29. N. A. Lomanova, V. V. Gusarov, “Impedance spectroscopy of polycrystalline materials based on the Aurivillius phase system Bi$_4$Ti$_{3}$O$_{12}$–BiFeO$_3$”, Nanosystems: Physics, Chemistry, Mathematics, 3:6 (2012),  112–122  mathnet  elib
30. V. V. Ivanov, V. M. Talanov, V. V. Gusarov, “Symbolical description of structural types of crystals”, Nanosystems: Physics, Chemistry, Mathematics, 3:4 (2012),  82–100  mathnet  elib
31. S. A. Kirillova, V. I. Almjashev, V. V. Gusarov, “Spinodal decomposition in the SiO$_2$–TiO$_2$ system and hierarchically organized nanostructures formation”, Nanosystems: Physics, Chemistry, Mathematics, 3:2 (2012),  100–115  mathnet  elib
32. S. A. Chivilikhin, V. V. Gusarov, I. Yu. Popov, “Flows in nanostructures: hybrid classical-quantum models”, Nanosystems: Physics, Chemistry, Mathematics, 3:1 (2012),  7–26  mathnet  elib
2011
33. V. V. Ivanov, V. M. Talanov, V. V. Gusarov, “Information and structures: modular design of nanostructures and the fractal structures into 2D space”, Nanosystems: Physics, Chemistry, Mathematics, 2:3 (2011),  121–134  mathnet  elib
34. N. A. Lomanova, V. V. Gusarov, “On the limiting thickness of the Perovskite-like block in the Aurivillius phases in the Bi$_2$O$_3$–Fe$_2$O$_3$–TiO$_2$ system”, Nanosystems: Physics, Chemistry, Mathematics, 2:3 (2011),  93–101  mathnet  elib
35. S. A. Chivilikhin, I. Yu. Popov, V. V. Gusarov, “Planar flows in nanoscale regions”, Nanosystems: Physics, Chemistry, Mathematics, 2:3 (2011),  49–52  mathnet  elib
36. I. A. Nyapshaev, B. O. Shcherbin, A. V. Ankudinov, Yu. A. Kumzerov, V. N. Nevedomskiy, A. A. Krasilin, O. V. Almjasheva, V. V. Gusarov, “Mechanical properties of nanoscrolls based on Mg$_3$Si$_2$O$_5$(OH)$_4$”, Nanosystems: Physics, Chemistry, Mathematics, 2:2 (2011),  48–57  mathnet  elib
37. M. V. Tomkovich, E. R. Andrievskaya, V. V. Gusarov, “Formation under hydrothermal conditions and structural features of nanoparticles based on the system ZrO$_2$–Gd$_2$O$_3$”, Nanosystems: Physics, Chemistry, Mathematics, 2:2 (2011),  6–14  mathnet  elib
2010
38. O. V. Almjasheva, B. A. Fedorov, A. V. Smirnov, V. V. Gusarov, “Size, morphology and structure of the particles of zirconia nanopowder obtained under hydrothermal conditions”, Nanosystems: Physics, Chemistry, Mathematics, 1:1 (2010),  26–36  mathnet  elib
2007
39. V. G. Asmolov, A. A. Sulatskii, S. V. Beshta, V. S. Granovskii, V. B. Khabenskii, E. V. Krushinov, S. A. Vitol', V. I. Al'myashev, V. V. Gusarov, V. F. Strizhev, “The interaction of nuclear reactor core melt with oxide sacrificial material of localization device for a nuclear power plant with water-moderated water-cooled power reactor”, TVT, 45:1 (2007),  28–37  mathnet  elib; High Temperature, 45:1 (2007), 22–31  isi  elib  scopus 13
2021
40. A. M. Sergeev, Yu. Yu. Balega, I. A. Shcherbakov, E. B. Aleksandrov, V. M. Andreev, A. L. Aseev, A. M. Bykov, I. V. Grekhov, V. V. Gusarov, A. V. Dvurechenskii, A. V. Ivanchik, E. L. Ivchenko, N. N. Kazansky, A. A. Kaplyanskii, V. V. Kveder, N. N. Kolachevsky, S. G. Konnikov, P. S. Kop'ev, Z. F. Krasil'nik, A. G. Litvak, S. V. Medvedev, Yu. V. Natochin, V. N. Parmon, E. E. Son, R. A. Suris, V. B. Timofeev, V. V. Ustinov, V. M. Ustinov, S. V. Ivanov, A. N. Aleshin, M. V. Arkhipov, P. N. Brunkov, A. I. Veinger, A. K. Vershovskii, E. A. Volkova, S. A. Gurevich, V. K. Gusev, V. A. Dergachev, A. G. Deryagin, O. V. Dudnik, V. V. Zhdanov, N. L. Istomina, A. M. Kalashnikova, E. S. Kornilova, E. V. Kustova, A.A. Lebedev, E.V. Lipatova, A. V. Nashchekin, R. V. Parfen'ev, M. P. Petrov, G. V. Skornyakov, E. M. Smirnov, G. S. Sokolovskii, A. V. Solomonov, M. G. Sushkova, E. I. Terukov, E. A. Chaban, O. L. Chagunava, A. P. Shergin, E. V. Shestopalova, M. L. Shmatov, A. A. Shmidt, V. L. Shubin, “Андрей Георгиевич Забродский, к 75-летию со дня рождения”, Zhurnal Tekhnicheskoi Fiziki, 91:6 (2021),  893–894  mathnet

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