Dr. Yevhen Yu. Kalishyn
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Dr. Yevhen Yu. Kalishyn

Assistant Professor
L.V. Pisarzhevsky Institute of Physical Chemistry of National Academy of Sciences, Ukrain

Highest Degree
Ph.D. in Physical Chemistry from L. V. Pisarzhevsky Institute, Ukraine

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Area of Interest:

Chemistry
100%
Chemical Kinetics
62%
Nano Materials
90%
Solid State Chemistry
75%
Catalysis
55%

Research Publications in Numbers

Books
0
Chapters
0
Articles
0
Abstracts
0

Selected Publications

  1. Strizhak, P.E., Y.I. Pyatnitsky, L.Y. Dolgikh, G.R. Kosmambetova, A.I. Trypolskyi, Y.Y. Kalishyn and I.B. Bychko, 2017. Nanosize effect in heterogeneous catalytic processes over copper, iron and zirconium oxides. Theor. Exp. Chem., 53: 305-314.
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  2. Kalishyn, Y.Y., V.V. Ordynskyi, I.B. Bychko, Z. V. Kaidanovych, A.I. Trypolskyi and P.E. Strizhak, 2017. Size effect in ethylene hydrogenation over palladium catalysts supported on γ-Al2 O3. Theor. Exp. Chem., 52: 364-368.
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  3. Kalishyn, Y.Y., I.B. Bychko, A.I. Trypolskyi and P.E. Strizhak, 2017. Catalytic cracking of triglycerides on α-FeOOH nanoparticles. Theor. Exp. Chem., 53: 199-203.
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  4. Lemesh, N.V., I.B. Bychko, E.Y. Kalishin and P.E. Strizhak, 2016. Heterogeneous catalytic production of nitrogen-containing macrotubes from acetonitrile using iron nanoparticles. Theor. Exp. Chem., 52: 170-174.
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  5. Kaidanovych, Z.V., Y.Y. Kalishyn, V.I. Grytsenko, G.R. Kosmambetova, D.A. Zyuzin, E.M. Moroz and P.E. Strizhak, 2015. Effect of the carbon support on the catalytic activity of platinum nanoparticles in the water gas shift reaction. Theor. Exp. Chem., 51: 236-242.
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  6. Bychko, I.B., Y.Y. Kalishyn and P.E. Strizhak, 2015. Effect of the size of iron nanoparticles on the catalytic activity and selectivity of Fe/Cnt nanocomposites in hydrogenolysis of ethylene. Theor. Exp. Chem., 51: 115-121.
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  7. Kalishyn, Y.Y., I.B. Bychko, T.M. Kameneva, E.V. Polunkin and P.E. Strizhak, 2014. Size effect in the inhibition of the liquid-phase oxidation of benzyl alcohol by iron (III) oxide-hydroxide nanoparticles. Theor. Exp. Chem., 50: 304-310.
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  8. Kaidanovych, Z.V., I.V. Deinega, Y.Y. Kalishyn, A.I. Trypolsky and P.E. Strizhak, 2014. Influence of size of platinum nanoparticles supported on γ-Al2O3 on their catalytic properties in CO hydrogenation. Theor. Exp. Chem., 50: 232-236.
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  9. Kaidanovych, Z.V., Y.Y. Kalishyn and P.E. Strizhak, 2013. Size-controlled synthesis of platinum nanoparticles supported on γ-Al2O3 and their thermal stability. Theor. Exp. Chem., 48: 376-380.
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  10. Kaidanovych, Z., Y. Kalishyn and P. Strizhak, 2013. Deposition of monodisperse platinum nanoparticles of controlled size on different supports. Adv. Nanoparticles, 2: 32-38.
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  11. Bychko, I.B., Y.Y. Kalishyn and P.E. Strizhak, 2012. Size effect of Fe nanoparticles supported on carbon nanotubes on their activity and selectivity in the hydrogenation of crotonaldehyde. Theor. Exp. Chem., 48: 194-198.
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  12. Bychko, I., Y. Kalishyn and P. Strizhak, 2012. TPR study of core-shell Fe@Fe3O4 nanoparticles supported on activated carbon and carbon nanotubes. Adv. Mater. Phys. Chem., 2: 17-22.
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  13. Bychko, I.B., E.Y. Kalishin and P.E. Strizhak, 2011. Effect of the size of Fe@ Fe3O4 nanoparticles deposited on carbon nanotubes on their oxidation-reduction characteristics. Theor. Exp. Chem., Vol. 47. 10.1007/s11237-011-9207-9.
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  14. Strizhak, P.E., V.N. Vasilievna, K.Y. Nickolaevich, K.Y. Yurievich and T.G. Michailovich, 2010. Genesis of H-ZSM-11 acidity under hydrogen and water vapor treatment. J. Chem. Chem. Eng., 4: 24-28.
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  15. Kalishyn, Y.Y., M. Rachwalska and P.E. Strizhak, 2010. Stirring effect on the Belousov-Zhabotinsky oscillating chemical reactions in a batch. Exp. Model. Zeitschrift Naturforschung A, 65: 132-140.
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  16. Kalishyn, Y.Y., M. Rachwalska, V.O. Khavrus and P.E. Strizhak, 2005. The effect of oxygen on time-dependent bifurcations in the Belousov-Zhabotinsky oscillating chemical reaction in a batch. Phys. Chem. Chem. Phys., 7: 1680-1686.
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  17. Kalishyn, Y.Y., V.O. Khavrus, P.E. Strizhak, M. Seipel and A.F. Munster, 2002. Macroscopically structured polymer formation governed by spatial patterns in the Belousov-Zhabotinsky reaction. Chem. Phys. Lett., 363: 534-539.
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