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1.
| Visotin M. A. Approach for prediction of orientation relationships and interface structures and its application to α-, β-, γ-FeSi2 and Si/M. A. Visotin, I. A. Tarasov // Nanostructures: physics and technology, 2020.- Ст.NC.13.-С.152-153
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2.
| Prediction of formation of competing phases during the growth of (Mn1-xCrx)2GaC thin films on MgO(111) with the use of effective heat of formation model and near coincidence site lattice approaches/Zoya Nazarova, Alexander Nazarov, Ivan Tarasov, Maxim Visotin, Sergey Varnakov and Sergey Ovchinnikov // An International Online Workshop on the properties of Functional MAX-materials (1st FunMAX Workshop 2020), 2020.-С.19
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3.
| Growth of α-FeSi2 nanocrystals on silicon surface: the impact of gold and the Si/Fe flux ratio, the origin and the prediction of α/Si orientation relationships and interface structures/Ivan Tarasov, Maxim Visotin, Sergey Varnakov and Sergey Ovchinnikov // An International Online Workshop on the properties of Functional MAX-materials (1st FunMAX Workshop 2020), 2020.-С.11
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4.
| Growth of α-FeSi2 nanocrystals on silicon surface: the impact of gold and the Si/Fe flux ratio, the origin and the prediction of α/Si orientation relationships and interface structures/I. A. Tarasov, M. A. Visotin, S. N. Varnakov [et al.] ; чл. орг. ком.: M. Farle [et al.] ; секр. орг. ком. T. E. Smolyarova // International workshop on functional MAX-materials (1st FunMax), 2020.-С.11
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5.
| Theoretical and experimental study of magnetic nanostructures by means of in situ magneto-optical ellipsometry/O. A. Maximova, S. A. Lyashchenko, M. A. Vysotin, S. G. Ovchinnikov // Труды XXV Международного симпозиума "Нанофизика и наноэлектроника". -Нижний Новгород, 2021. т.Т. 1,N Секция:Магнитные наноструктуры.-С.122-123
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6.
| Charge transfer plasmons in the arrays of nanoparticles connected by conductive linkers/A. S. Fedorov, M. A. Visotin, V. S. Gerasimov [et al.] // Journal of Chemical Physics, 2021. т.Vol. 154,N Is. 8.- Ст.012009
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7.
| Prediction of formation of competing phases during the growth of (Mn1-xCrx)2GaC thin films on MgO(111) with the use of effective heat of formation model and near coincidence site lattice approaches/Z. I. Nazarova, A. Nazarov, I. A. Tarasov [et al.] ; чл. орг. ком.: M. Farle [et al.] ; секр. орг. ком. T. E. Smolyarova // International workshop on functional MAX-materials (1st FunMax), 2020.-С.19
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8.
| Study of plasmons and thermoelectric properties of nanoparticles connected by thin conductive bridges/A. S. Fedorov, P. O. Krasnov, M. A. Visotin, H. Ågren // The Fifth Asian School-Conference on Physics and Technology of Nanostructured Materials. -VLadivostok:Dalnauka Publishing, 2020.- Ст.VI.30.03o.-С.168
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9.
| Stability and gas sensing properties of Ta2X3M8(X = Pd, Pt; M = S, Se) nanoribbons: a first-principles investigation/E. V. Sukhanova, M. A. Visotin, Z. I. Popov, P. B. Sorokin // Physical Chemistry Chemical Physics, 2020. т.Vol. 22,N Is. 26.-С.14651-14659
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10.
| Iron silicides formation on Si (100) and (111) surfaces through theoretical modeling of sputtering and annealing/I. V. Chepkasov, V. S. Baidyshev, E. V. Sukhanova [et al.] // Applied Surface Science, 2020. т.Vol. 527.- Ст.146736
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11.
| Prediction of orientation relationships and interface structures between α-, β-, γ-FeSi2 and Si phases/M. A. Visotin, I. A. Tarasov, A. S. Fedorov [et al.] // Acta Crystallographica Section B: Structural Science, Crystal Engineering and Materials, 2020. т.Vol. 76.-С.469-482
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12.
| Contribution of the multiplicity fluctuation in the temperature dependence of phonon spectra of rare-earth cobaltites/Y. S. Orlov, A. E. Sokolov, V. A. Dudnikov [et al.] // Molecules, 2020. т.Vol. 25,N Is. 18.- Ст.4316
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13.
| Iron disilicide lattice thermal expansion coefficients from first principle calculations/M. A. Pugachevskii, A. N. Chibisov, A. S. Fedorov // The Fifth Asian School-Conference on Physics and Technology of Nanostructured Materials. -VLadivostok:Dalnauka Publishing, 2020.- Ст.III.31.04o.-С.83
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14.
| Electronic structure and magnetic properties of iron silicides/S. G. Ovchinnikov, V. S. Zhandun, N. G. Zamkova [et al.] // The Fifth Asian School-Conference on Physics and Technology of Nanostructured Materials. -VLadivostok:Dalnauka Publishing, 2020.- Ст.PS.03.04i.-С.26
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15.
| Thermoelectric and Plasmonic Properties of Metal Nanoparticles Linked by Conductive Molecular Bridges/A. S. Fedorov, P. O. Krasnov, M. A. Visotin [et al.] // Physica status solidi B - Basic Solid State Physics, 2020. т.Vol. 257,N Is. 12.- Ст.2000249
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16.
| Trimetallic magnetite-Ti-Au nanoparticle formation: A theoretical approach/A. S. Fedorov, E. A. Kovaleva, A. E. Sokolov [et al.] // Materials Chemistry and Physics, 2021. т.Vol. 271.- Ст.124847
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17.
| Feature of the endohedral metallofullerene Y@C82 and Gd@C82 polymerization under high pressure/V. V. Zhukov, S. V. Erohin, V. D. Churkin [et al.] // Journal of Physical Chemistry C, 2022. т.Vol. 126,N Is. 40.-С.17366-17373
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18.
| О возможных магнитных свойствах ультратонких пленок Mn2GaC на подложках Al2O3/М. А. Высотин, И. А. Тарасов, А. С. Федоров [и др.] // Письма в "Журнал экспериментальной и теоретической физики", 2022. т.Т. 116,N Вып. 5.-С.318-323
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19.
| Charge-transfer plasmons of complex nanoparticle arrays connected by conductive molecular bridges/A. S. Fedorov, M. A. Visotin, E. V. Eremkin [et al.] // Physical Chemistry Chemical Physics, 2022. т.Vol. 24,N Is. 32.-С.19531-19540
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20.
| On the possible magnetic properties of ultrathin Mn2GaC films on Al2O3 substrates/M. A. Vysotin, I. A. Tarasov, A. S. Fedorov [et al.] // JETP Letters, 2022. т.Vol. 116,N Is. 5.-С.323-328
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