Selected Publications
- Fedorets A., Dombrovsky L. Levitating droplet clusters: from the discovery to potential applications // Academia Engineering — 2023. — V. 1. — DOI: 10.20935/AcadEng6093
- Fedorets A.A., Kolmakov E.E., Medvedev D.N., Dombrovsky L.A. Fluorescence Profiles of Water Droplets in Stable Levitating Droplet Clusters // Physical Chemistry Chemical Physics — 2023. — V. 25. — P. 15000-15007. DOI: 10.1039/D3CP00542A
- Fedorets A.A., Medvedev D.N., Levashov V.Yu., Dombrovsky L.A. Stabilization of Levitating Clusters Containing Saltwater Droplets // International Journal of Thermal Sciences — 2023. — V. 188. — P. 108222. DOI: 10.1016/j.ijthermalsci.2023.108222
- Fedorets A.A., Shcherbakov D.V., Levashov V.Yu., Dombrovsky L.A. Self-Stabilization of Droplet Clusters Levitating over Heated Salt Water // International Journal of Thermal Sciences, — 2022. — V. 182. — P. 107822. DOI: 10.1016/j.ijthermalsci.2022.107822 (see preprint).
- Gabyshev D.N., Szakáll M., Shcherbakov D.V., Fedorets A.A., Dyachkov S.M. Oscillatory Signatures in the Raindrop Motion Relative to the Air Medium with Terminal Velocity // Atmosphere — 2022. — V. 13. — No. 7. — P. 1137. DOI: 10.3390/atmos13071137
- Fedorets A.A., Dombrovsky L.A., Shcherbakov D.V., Frenkel M., Bormashenko E., Nosonovsky M. Thermal conditions for the formation of self-assembled cluster of droplets over the water surface and diversity of levitating droplet clusters // Heat and Mass Transfer — 2022. DOI:
10.1007/s00231-022-03261-8
- Fedorets A.A., Dombrovsky L.A., Bormashenko E., Nosonovsky M. A hierarchical levitating cluster containing transforming small aggregates of water droplets // Microfluidics and Nanofluidics — 2022. — V. 26. — Article No. 52. DOI: 10.1007/s10404-022-02557-9 (see preprint).
- Nikolaychuk P.A. The potential—pH diagram for rhenium // Chemical Thermodynamics and Thermal Analysis — 2022. — V. 7. — P. 100068. DOI: 10.1016/j.ctta.2022.100068
- Frenkel M., Fedorets A.A., Shcherbakov D.V., Dombrovsky L.A., Nosonovsky M., Bormashenko E. Branched Droplet Clusters and the Kramers Theorem // Physical Review E — 2022. — V. 105. — P. 055104. DOI: 10.1103/PhysRevE.105.055104 (see preprint).
- Yang Y., Montserrat-Sisó G., Wickman B., Nikolaychuk P.A., Soroka I.L. Core–shell and heterostructured silver–nickel nanocatalysts fabricated by γ-radiation induced synthesis for oxygen reduction in alkaline media // Dalton Transactions — 2022. — V. 51. — P. 3604–3615. DOI: 10.1039/d1dt03897d
- Baumberger M., Breuer B., Lai Y.-J., Gabyshev D., Klemm O. Bidirectional Turbulent Fluxes of Fog at a Subtropical Montane Cloud Forest Covering a Wide Size Range of Droplets // Boundary-Layer Meteorology — 2022. — V. 182. — P. 309. DOI: 10.1007/s10546-021-00654-w
- Gabyshev D.N., Fedorets A.A., Shcherbakov D.V. Vertical Oscillations of Water Droplets in the Supporting Vapour-Air Flow // Physics of Wave Phenomena — 2021. — V. 29. — P. 352–362. DOI: 10.3103/S1541308X21040038
- Fedorets A.A., Dombrovsky L.A., Shcherbakov D.V., Frenkel M., Bormashenko E., Nosonovsky M. Thermal conditions for the formation of self-assembled cluster of droplets over the water surface // Journal of Physics: Conference Series — 2021. — V. 2116. — P. 012038. DOI: 10.1088/1742-6596/2116/1/012038
- Fedorets A.A., Gabyshev D.N., Shcherbakov D., Bormashenko E., Dombrovsky L., Nosonovsky M. Vertical oscillations of droplets in small droplet clusters // Colloids and Surfaces A: Physicochemical and Engineering Aspects — 2021. — V. 628. — P. 127271. DOI: 10.1016/j.colsurfa.2021.127271
- Gabyshev D.N., Fedorets A.A. Electrically Induced Coalescence of Droplet Clusters in External Electric Fields // Journal of Electrostatics — 2021. — V. 112. — P. 103596. DOI: 10.1016/j.elstat.2021.103596
- Gabyshev D.N., Medvedev D.N., Misiiuk K. Dynamics of Droplets Ejected over the Evaporating Water Surface // Technical Physics — 2021. — V. 66. — P. 1200–1207. DOI: 10.1134/S1063784221090061
- Bormashenko E., Fedorets A.A., Dombrovsky L.A., Nosonovsky M. Survival of Virus Particles in Water Droplets: Hydrophobic Forces and Landauer’s Principle // Entropy — 2021. — V. 23. — P. 181. DOI: 10.3390/e23020181 (see preprint).
- Frenkel M., Fedorets A.A., Dombrovsky L.A., Nosonovsky M., Legchenkova I., Bormashenko E. Continuous Symmetry Measure vs Voronoi Entropy of Droplet Clusters // Journal of Physical Chemistry C — 2021. — V. 125. — P. 2431–2436. DOI: 10.1021/acs.jpcc.0c10384
- Aktaev N.E. Potential well formation over a locally heated water surface // Applied Mathematical Modelling — 2021. — V. 90. — P. 366. DOI: 10.1016/j.apm.2020.09.016
- Fedorets A.A., Gabyshev D.N., Marchuk I.V., Kabov O.A. Droplets Jump at the Cluster Coalescence with the Locally Heated Liquid Layer // Interfacial Phenomena and Heat Transfer — 2020. — V. 8. — P. 337–343. DOI: 10.1615/InterfacPhenomHeatTransfer.2020037059
- Dombrovsky L.A., Fedorets A.A., Levashov V.Yu., Kryukov A.P., Bormashenko E., Nosonovsky M. Modeling Evaporation of Water Droplets as Applied to Survival of Airborne Viruses // Atmosphere — 2020. — V. 11. — P. 965. DOI: 10.3390/atmos11090965 (see preprint).
- Fedorets A.A., Shcherbakov D., Dombrovsky L.A., Bormashenko E., Nosonovsky M. Impact of surfactants on the formation and properties of droplet clusters // Langmuir — 2020. — V. 36. — P. 11154. DOI: 10.1021/acs.langmuir.0c02241
- Gabyshev D.N., Fedorets A.A., Klemm O. Condensational Growth of Water Droplets in an External Electric Field at Different Temperatures // Aerosol Science and Technology — 2020. — V. 54. — P. 1556. DOI: 10.1080/02786826.2020.1804522 (see preprint).
- Dombrovsky L.A., Fedorets A.A., Levashov V.Yu., Kryukov A.P., Bormashenko E., Nosonovsky M. Stable cluster of identical water droplets formed under the infrared irradiation: Experimental study and theoretical modeling // International Journal of Heat and Mass Transfer — 2020. — V. 161. — P. 120255. DOI: 10.1016/j.ijheatmasstransfer.2020.120255 (see preprint).
- Fedorets A.A., Bormashenko E., Dombrovsky L.A., Nosonovsky M. Symmetry of small clusters of levitating water droplets // Physical Chemistry Chemical Physics — 2020. — V. 22. — P. 12239–12244. DOI: 10.1039/D0CP01804J (see preprint).
- Fedorets A.A., Dombrovsky L.A., Gabyshev D.N., Bormashenko E., Nosonovsky M. Effect of external electric field on dynamics of levitating water droplets // International Journal of Thermal Sciences — 2020. — V. 153. — P. 106375, 9 pp. DOI: 10.1016/j.ijthermalsci.2020.106375
- Bormashenko E., Fedorets A.A., Frenkel M., Dombrovsky L.A., Nosonovsky M. Clustering and self-organization in small-scale natural and artificial systems // Philosophical Transactions of the Royal Society A — 2020. — V. 378. — Article no. 20190443, 14 pp. DOI: 10.1098/rsta.2019.0443
- Fedorets A.A., Frenkel M., Legchenkova I., Shcherbakov D., Dombrovsky L.A., Nosonovsky M., Bormashenko E. Self-arranged levitating droplet clusters: a reversible transition from hexagonal to chain structure // Langmuir — 2019. — V. 35. — P. 15330–15334. DOI: 10.1021/acs.langmuir.9b03135
- Fedorets A.A., Aktaev N.E., Gabyshev D.N., Bormashenko E., Dombrovsky L.A., Nosonovsky M. Oscillatory Motion of a Droplet Cluster // Journal of Physical Chemistry C — 2019. — V. 123. — P. 23572–23576. DOI: 10.1021/acs.jpcc.9b08194
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Gabyshev D.N., Fedorets A.A., Aktaev N.E., Klemm O., Andreev S.N. Acceleration of the condensational growth of water droplets in an external electric field // Journal of Aerosol Science — 2019. — V. 135. — P. 103–112. DOI: 10.1016/j.jaerosci.2019.06.002 (see preprint).
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Fedorets A.A., Bormashenko E., Dombrovsky L.A., Nosonovsky M. Droplet clusters: nature-inspired biological reactors and aerosols // Philosophical Transactions of the Royal Society A
— 2019. — V. 377. — Article no. 20190121, 13 pp. DOI: 10.1098/rsta.2019.0121 -
Fedorets A.A., Dombrovsky L.A., Bormashenko E., Nosonovsky M. On relative contribution of electrostatic and aerodynamic effects to dynamics of a levitating droplet cluster // International Journal of Heat and Mass Transfer — 2019. — V. 133. — P. 712–717. DOI: 10.1016/j.ijheatmasstransfer.2018.12.160 (see preprint).
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Bormashenko E., Frenkel M., Vilk A., Legchenkova I., Fedorets A.A., Aktaev N.E., Dombrovsky L.A. Characterization of Self-Assembled 2D Patterns with Voronoi Entropy // Entropy — 2018. — V. 20. — P. 956–968. DOI: 10.3390/e20120956 (see preprint).
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Fedorets A.A., Aktaev N.E., Dombrovsky L.A. Suppression of the condensational growth of droplets of a levitating cluster using the modulation of the laser heating power // International Journal of Heat and Mass Transfer — 2018. — V. 127 A. — P. 660–664. DOI: 10.1016/j.ijheatmasstransfer.2018.07.055
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Aktaev N.E., Fedorets A.A., Bormashenko E., Nosonovsky M. Langevin Approach to Modeling of Small Levitating Ordered Droplet Clusters // Journal of Physical Chemistry Letters — 2018. — V. 9. — P. 3834–3838. DOI: 10.1021/acs.jpclett.8b01693
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Fedorets A.A., Frenkel M., Bormashenko E., Nosonovsky M. Small Levitating Ordered Droplet Clusters: Stability, Symmetry, and Voronoi Entropy // Journal of Physical Chemistry Letters — 2017. — V. 8. — P. 5599–5602. DOI: 10.1021/acs.jpclett.7b02657 (see preprint).
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Fedorets A.A., Frenkel M., Shulzinger E., Dombrovsky L.A, Bormashenko E., Nosonovsky M. Self-assembled levitating clusters of water droplets: Pattern-formation and stability // Scientific Reports — 2017. — V. 7. — Article no. 1888, 6 pp. DOI: 10.1038/s41598-017-02166-5
- Fedorets A.A., Dombrovsky L.A., Ryumin P.I. Expanding the temperature range for generation of droplet clusters over the locally heated water surface // International Journal of Heat and Mass Transfer — 2017. — V. 113. — P. 1054–1058. DOI: 10.1016/j.ijheatmasstransfer.2017.06.015
- Mendeleyev V.Ya., Kachalov V.V., Kurilovich A.V., Dombrovsky L.A. Abnormally strong decrease in reflectance of molten copper due to possible generation of levitating sub-micron melt droplets // International Journal of Heat and Mass Transfer — 2017. — V. 113. — P. 53–58. DOI: 10.1016/j.ijheatmasstransfer.2017.05.056
- Fedorets A.A., Dombrovsky L.A. Generation of levitating droplet clusters above the locally heated water surface: A thermal analysis of modified installation // International Journal of Heat and Mass Transfer – 2017. — V. 104. — P. 1268–1274. DOI: 10.1016/j.ijheatmasstransfer.2016.09.087
- Barakhovskaia E.V., Marchuk I.V., Fedorets A.A. Thermocapillary deformation in a locally heated layer of silicone oil // Journal of Physics: Conference Series — 2016. — V. 754. — P. 032002. DOI: 10.1088/1742-6596/754/3/032002
- C1 2580176 RU 7 G01F 13/00. A method for stabilizing the size of microdroplets forming a dissipative structure «Droplet Cluster» / Fedorets A.A. (University of Tyumen). — No. 2015110381/28; Appl. 23.03.2015 // Inventions. Useful models. — 2016. — Bull. No.10. — 3 p. URL: freepatent.ru/images/img_patents/2/2580/2580176/patent-2580176.pdf
- Cheverda V.V., Fedorets A.A., Marchuk I.V., Kabov O.A. Thermocapillary deformation of a water layer at local heating // Thermophysics and Aeromechanics — 2016. — V. 23, No. 2. — P. 231–236. DOI: 10.1134/S0869864316020098
- Dombrovsky L.A., Fedorets A.A., Medvedev D.N. The use of infrared irradiation to stabilize levitating clusters of water droplets // Infrared Physics and Technology — 2016. — Vol. 75. — P. 124–132. DOI: 10.1016/j.infrared.2015.12.020
- Fedorets A.A., Dombrovsky L.A., Medvedev D.N. Effect of infrared irradiation on the suppression of the condensation growth of water droplets in a levitating droplet cluster // JETP Letters — 2015. — V. 102. — P. 452–454. URL: jetpletters.ac.ru/ps/2091/article_31449.shtml, DOI: 10.1134/S0021364015190042
- Fedorets A.A., Marchuk I.V., Strizhak P.A., Kabov O.A. Capillary Waves at Microdroplet Coalescence With a Liquid Layer // Thermophysics and Aeromechanics — 2015. — V. 22. No. 4. — P. 535–538. URL: http://www.sibran.ru/journals/issue.php?ID=164798&ARTICLE_ID=164811, DOI: 10.1134/S0869864315040137
- Fedorets A.A., Dombrovsky L.A., Smirnov A.M. The use of infrared self-emission measurements to retrieve surface temperature of levitating water droplets. // Infrared Physics and Technology — 2015. — V. 69. — P. 238–243. DOI: 10.1016/j.infrared.2015.02.005
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