American Journal of Nano Research and Applications

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The Induction Method of Production of Nanocrystalline Particles

Received: 03 February 2017    Accepted: 04 February 2017    Published: 28 February 2017
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Abstract

Currently a lot of methods of production of nanoparticles, allowing the quite precisely control size, shape and structure of the nanoparticles have been developed. In particular, in the condensation method of production of nanocrystalline particles (powders and films), the initial macrobodies are first evaporated, and then the resultant vapor is condensed until the nanoparticles of the desired size are formed. All methods of production of nanoparticles require a powerful flow of energy from the external source. For this very reason we could use the method of induction heating for production of nanoparticles, a version of this method is considered in this paper. The induction method has a number of advantages such as rapid heating, high concentration and exact localization of energy with heating, high and uniform quality, etc., which allows exact automatic controlling the process and avoiding the complex maintenance.

DOI 10.11648/j.nano.s.2017050301.22
Published in American Journal of Nano Research and Applications (Volume 5, Issue 3-1, May 2017)

This article belongs to the Special Issue Nanotechnologies

Page(s) 56-59
Creative Commons

This is an Open Access article, distributed under the terms of the Creative Commons Attribution 4.0 International License (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted use, distribution and reproduction in any medium or format, provided the original work is properly cited.

Copyright

Copyright © The Author(s), 2024. Published by Science Publishing Group

Keywords

Induction Method, Nanoparticles, Heating Effect, Nanocrystalline Films, Condensed State

References
[1] D. M. Cox, D. J. Tevor, R. L. Whetten, E. A. Rohlfing, and A. Kaldor, “Magnetic behavior of free-iron and iron oxide clusters,” Phys. Rev. B, vol. 32, p. 7290, 1985.
[2] W. A. de Heer, P. Milani, and A. Chatelain, “Spin relaxation in small free iron clusters,” Phys. Rev. Lett., vol. 65, p. 488, 1990.
[3] F. Fendrych, L. Kraus, O. Chayka, P. Lobotka, I. Vavra, J. Tous, V. Studnicka, and Z. Frait, “Preparation of nanostructured magnetic films by the plasma jet technique,” Chem. Monthly, vol. 133, p. 773, 2002.
[4] B. Martínez, A. Roig, X. Obradors, and E. Molins. “Magnetic properties of γ-Fe2O3 nanoparticles obtained by vaporization condensation in a solar furnace,” J. Appl. Phys., vol. 79, p. 2580, 1996.
[5] Eds. L. Maissell and R. Glang, “Thin Film Technology. Handbook, vols. 1 & 2,” Moscow, Soviet Radio, 1977.
[6] V. N. Chernyaev, “Physicochemical Processes and Radio Electronic Technologies,” Moscow: Higher School, 1987.
[7] Z. M. Gamishidze, “Determination of parameters of the induction melting method for synthesis of nanocrystalline particles,” In: “Abs. 3rd Int. Conf. Nanotechnol.,” Tbilisi: Georg. Tech. Univ., p. 40, 2014.
[8] E. Fromm and E. Gebhardt, “Gases and Carbon in Metals,” Moscow, Metallurgy, 1980.
[9] A. S. Zolkin, “Metal vapor source for thin film research and technology: Review,” J. Vac. Sci. Technol. A, vol. 15, p. 1026, 2016.
Author Information
  • Department of Physics, Batumi Shota Rustaveli State University, Batumi, Georgia

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  • APA Style

    Zaur Gamishidze. (2017). The Induction Method of Production of Nanocrystalline Particles. American Journal of Nano Research and Applications, 5(3-1), 56-59. https://doi.org/10.11648/j.nano.s.2017050301.22

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    ACS Style

    Zaur Gamishidze. The Induction Method of Production of Nanocrystalline Particles. Am. J. Nano Res. Appl. 2017, 5(3-1), 56-59. doi: 10.11648/j.nano.s.2017050301.22

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    AMA Style

    Zaur Gamishidze. The Induction Method of Production of Nanocrystalline Particles. Am J Nano Res Appl. 2017;5(3-1):56-59. doi: 10.11648/j.nano.s.2017050301.22

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  • @article{10.11648/j.nano.s.2017050301.22,
      author = {Zaur Gamishidze},
      title = {The Induction Method of Production of Nanocrystalline Particles},
      journal = {American Journal of Nano Research and Applications},
      volume = {5},
      number = {3-1},
      pages = {56-59},
      doi = {10.11648/j.nano.s.2017050301.22},
      url = {https://doi.org/10.11648/j.nano.s.2017050301.22},
      eprint = {https://download.sciencepg.com/pdf/10.11648.j.nano.s.2017050301.22},
      abstract = {Currently a lot of methods of production of nanoparticles, allowing the quite precisely control size, shape and structure of the nanoparticles have been developed. In particular, in the condensation method of production of nanocrystalline particles (powders and films), the initial macrobodies are first evaporated, and then the resultant vapor is condensed until the nanoparticles of the desired size are formed. All methods of production of nanoparticles require a powerful flow of energy from the external source. For this very reason we could use the method of induction heating for production of nanoparticles, a version of this method is considered in this paper. The induction method has a number of advantages such as rapid heating, high concentration and exact localization of energy with heating, high and uniform quality, etc., which allows exact automatic controlling the process and avoiding the complex maintenance.},
     year = {2017}
    }
    

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