Evgeniy Boyko

582 total citations
37 papers, 404 citations indexed

About

Evgeniy Boyko is a scholar working on Biomedical Engineering, Fluid Flow and Transfer Processes and Computational Mechanics. According to data from OpenAlex, Evgeniy Boyko has authored 37 papers receiving a total of 404 indexed citations (citations by other indexed papers that have themselves been cited), including 22 papers in Biomedical Engineering, 16 papers in Fluid Flow and Transfer Processes and 15 papers in Computational Mechanics. Recurrent topics in Evgeniy Boyko's work include Rheology and Fluid Dynamics Studies (16 papers), Carbon Nanotubes in Composites (8 papers) and Graphene research and applications (7 papers). Evgeniy Boyko is often cited by papers focused on Rheology and Fluid Dynamics Studies (16 papers), Carbon Nanotubes in Composites (8 papers) and Graphene research and applications (7 papers). Evgeniy Boyko collaborates with scholars based in Israel, United States and Russia. Evgeniy Boyko's co-authors include Howard A. Stone, Moran Bercovici, Amir D. Gat, Ivan C. Christov, Federico Paratore, Ester Segal, E. J. Hinch, Govind V. Kaigala, Steffen Hardt and Д. В. Смовж and has published in prestigious journals such as Physical Review Letters, Journal of Fluid Mechanics and International Journal of Molecular Sciences.

In The Last Decade

Evgeniy Boyko

35 papers receiving 386 citations

Peers — A (Enhanced Table)

Peers by citation overlap · career bar shows stage (early→late) cites · hero ref

Name h Career Trend Papers Cites
Evgeniy Boyko Israel 13 215 131 122 80 77 37 404
Jeevanjyoti Chakraborty India 14 339 1.6× 116 0.9× 63 0.5× 221 2.8× 58 0.8× 38 570
Sayangdev Naha United States 8 71 0.3× 154 1.2× 134 1.1× 74 0.9× 167 2.2× 10 393
X. Xu United States 10 94 0.4× 26 0.2× 42 0.3× 72 0.9× 62 0.8× 23 401
Clarissa Schönecker Germany 11 156 0.7× 255 1.9× 24 0.2× 102 1.3× 62 0.8× 20 520
Zihua Liu China 11 82 0.4× 103 0.8× 69 0.6× 44 0.6× 97 1.3× 35 304
L. Elie United States 6 373 1.7× 120 0.9× 37 0.3× 79 1.0× 78 1.0× 9 1.0k
Olga M. Lavrenteva Israel 14 185 0.9× 355 2.7× 169 1.4× 109 1.4× 104 1.4× 54 534
Noriyasu Mori Japan 11 55 0.3× 165 1.3× 164 1.3× 24 0.3× 72 0.9× 69 356
Adolfo Vázquez-Quesada United Kingdom 15 162 0.8× 432 3.3× 251 2.1× 30 0.4× 214 2.8× 30 675
Zhou Yu China 11 42 0.2× 56 0.4× 54 0.4× 72 0.9× 176 2.3× 31 318

Countries citing papers authored by Evgeniy Boyko

Since Specialization
Citations

This map shows the geographic impact of Evgeniy Boyko's research. It shows the number of citations coming from papers published by authors working in each country. You can also color the map by specialization and compare the number of citations received by Evgeniy Boyko with the expected number of citations based on a country's size and research output (numbers larger than one mean the country cites Evgeniy Boyko more than expected).

Fields of papers citing papers by Evgeniy Boyko

Since Specialization
Physical SciencesHealth SciencesLife SciencesSocial Sciences

This network shows the impact of papers produced by Evgeniy Boyko. Nodes represent research fields, and links connect fields that are likely to share authors. Colored nodes show fields that tend to cite the papers produced by Evgeniy Boyko. The network helps show where Evgeniy Boyko may publish in the future.

Co-authorship network of co-authors of Evgeniy Boyko

This figure shows the co-authorship network connecting the top 25 collaborators of Evgeniy Boyko. A scholar is included among the top collaborators of Evgeniy Boyko based on the total number of citations received by their joint publications. Widths of edges represent the number of papers authors have co-authored together. Node borders signify the number of papers an author published with Evgeniy Boyko. Evgeniy Boyko is excluded from the visualization to improve readability, since they are connected to all nodes in the network.

All Works

20 of 20 papers shown
1.
2.
Boyko, Evgeniy, et al.. (2025). Transient rod climbing in a viscoelastic fluid. Journal of Fluid Mechanics. 1021.
3.
Boyko, Evgeniy, et al.. (2024). Flow rate–pressure drop relations for shear-thinning fluids in deformable configurations: Theory and experiments. Physical Review Fluids. 9(4). 6 indexed citations
4.
Boyko, Evgeniy. (2024). Interplay between complex fluid rheology and wall compliance in the flow resistance of deformable axisymmetric configurations. Journal of Non-Newtonian Fluid Mechanics. 336. 105380–105380. 3 indexed citations
5.
Boyko, Evgeniy, et al.. (2024). Translation of a sphere towards a rigid plane in an Oldroyd-B fluid. Physical Review Fluids. 9(8). 1 indexed citations
6.
Stone, Howard A., Michael Shelley, & Evgeniy Boyko. (2023). A note about convected time derivatives for flows of complex fluids. Soft Matter. 19(28). 5353–5359. 10 indexed citations
7.
Boyko, Evgeniy, Howard A. Stone, & Ivan C. Christov. (2022). Flow rate-pressure drop relation for deformable channels via fluidic and elastic reciprocal theorems. arXiv (Cornell University). 9 indexed citations
8.
Boyko, Evgeniy & Howard A. Stone. (2021). Flow rate–pressure drop relation for shear-thinning fluids in narrow channels: approximate solutions and comparison with experiments. Journal of Fluid Mechanics. 923. 25 indexed citations
9.
Boyko, Evgeniy, et al.. (2021). Microscale Hydrodynamic Cloaking and Shielding via Electro-Osmosis. Physical Review Letters. 126(18). 184502–184502. 36 indexed citations
10.
Mareev, Semyon, Natalia Pismenskaya, В. В. Сарапулова, et al.. (2020). How Electrical Heterogeneity Parameters of Ion-Exchange Membrane Surface Affect the Mass Transfer and Water Splitting Rate in Electrodialysis. International Journal of Molecular Sciences. 21(3). 973–973. 27 indexed citations
11.
Boyko, Evgeniy, et al.. (2020). Mass Transfer Limitations of Porous Silicon-Based Biosensors for Protein Detection. ACS Sensors. 5(10). 3058–3069. 39 indexed citations
12.
Boyko, Evgeniy, et al.. (2020). Nonuniform Electro-osmotic Flow Drives Fluid-Structure Instability. Physical Review Letters. 124(2). 24501–24501. 15 indexed citations
13.
Boyko, Evgeniy, et al.. (2020). Investigation of the influence of 3D printing modes with ceramics and sintering on the shrinkage process of thin-walled models. IOP Conference Series Materials Science and Engineering. 826(1). 12006–12006.
14.
Смовж, Д. В., et al.. (2020). SYNTHESIS OF GRAPHENE BY CHEMICAL VAPOR DEPOSITION AND ITS TRANSFER TO POLYMER. Journal of Applied Mechanics and Technical Physics. 61(5). 888–897. 8 indexed citations
15.
Paratore, Federico, Evgeniy Boyko, Govind V. Kaigala, & Moran Bercovici. (2019). Electroosmotic Flow Dipole: Experimental Observation and Flow Field Patterning. Physical Review Letters. 122(22). 224502–224502. 20 indexed citations
16.
Boyko, Evgeniy, et al.. (2019). The effect of grains crystallographic orientations of copper substrate on graphene growth. Journal of Physics Conference Series. 1359. 12102–12102. 1 indexed citations
17.
Boyko, Evgeniy, et al.. (2018). The main sources of graphene damage at transfer from copper to PET/EVA polymer. Materials Chemistry and Physics. 219. 67–73. 17 indexed citations
18.
Boyko, Evgeniy, et al.. (2018). Formation of graphene on the surface of copper under the conditions of chemical deposition from the gas phase. Journal of Physics Conference Series. 1105. 12139–12139. 1 indexed citations
19.
Boyko, Evgeniy, et al.. (2017). Physiological Stress Standards at Manual Labour in High Latitudes. 5(1). 25–36. 6 indexed citations
20.
Boyko, Evgeniy, Moran Bercovici, & Amir D. Gat. (2017). Viscous-elastic dynamics of power-law fluids within an elastic cylinder. Physical Review Fluids. 2(7). 17 indexed citations

Rankless uses publication and citation data sourced from OpenAlex, an open and comprehensive bibliographic database. While OpenAlex provides broad and valuable coverage of the global research landscape, it—like all bibliographic datasets—has inherent limitations. These include incomplete records, variations in author disambiguation, differences in journal indexing, and delays in data updates. As a result, some metrics and network relationships displayed in Rankless may not fully capture the entirety of a scholar's output or impact.

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