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Full-Text Articles in Materials Science and Engineering
Evolution Of Structural And Magnetic Parameters Of Nickel Nanotubes Under Irradiation Of Fe7+ Ions, A. Shumskaya, E. Kaniukov, D. Shlimas, M. Zdorovets, A. Kozlovskiy
Evolution Of Structural And Magnetic Parameters Of Nickel Nanotubes Under Irradiation Of Fe7+ Ions, A. Shumskaya, E. Kaniukov, D. Shlimas, M. Zdorovets, A. Kozlovskiy
Eurasian Journal of Physics and Functional Materials
This work is devoted to investigations of nickel nanotubes behavior under influence of swift heavy ion irradiation. High-energy irradiation initiates damage process inside nanostructures and can cause the appearance of new phases with interesting properties. To understand the basic principles of the evolution of structural and magnetic parameters of nanostructures under the influence of high-energy processes, detailed study of nickel nanotubes irradiated with various fluences of Fe 7+ ions was carried out.
The Study Of The Applicability Of Invar Nanostructures For The Reduction Of P-Nitrophenyl Compounds, D. B. Borgekov, M. V. Zdorovets, D. I. Shlimas, A. L. Kozlovskiy, N. A. Khlebnikov, E. Yu. Kaniukov
The Study Of The Applicability Of Invar Nanostructures For The Reduction Of P-Nitrophenyl Compounds, D. B. Borgekov, M. V. Zdorovets, D. I. Shlimas, A. L. Kozlovskiy, N. A. Khlebnikov, E. Yu. Kaniukov
Eurasian Journal of Physics and Functional Materials
The results of the study of the phase composition of iron-nickel nanostructures susceptible to electron irradiation on the catalytic reduction of p-nitrophenyl compounds are presented. In the course of the studies, it was found that the nanostructures irradiated with a dose of 250 kGy, which are characterized by the presence of two phases, with the domination of the FeNi phase, have the highest recovery rate. In this case, nanostructures irradiated with a dose of 250 kGy, which showed the highest catalytic reaction rate, have a fairly short lifetime, which may be due to the rapid degradation of the surface of …