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Home » Archive » 2022 » issue #3 September 2022 » SMOOTH ELECTROLYTIC NANOWIRES BASED ON IRON

UNIV. NEWS. NORTH-CAUCAS. REG. TECHNICAL SCIENCES SERIES. 2022; 3: 75-78

 

http://dx.doi.org/10.17213/1560-3644-2022-3-75-78

 

SMOOTH ELECTROLYTIC NANOWIRES BASED ON IRON

Lyalko E.S., Naumenko J.A., Naumenko A.A.

Lyalko Elena S. – Graduate Student, Department «Physics and Photonics», elena.lialko@yandex.ru

Naumenko Jan A. – Candidate of Physical and Mathematical Sciences, Independent Researcher, alexander.a.naumenko@gmail.com

Naumenko Alexander A. – Candidate of Technical Sciences, Assistant Professor, Department «Physics and Photonics», alexander.a.naumenko@gmail.com

 

Abstract

The main goal of the article is the analysis of the composite materials based on the assembles of the ferromagnetic nanowires that are oriented coherently using a non-magnetic matrix. The nanowires are grown of iron-powders and varied chromium-zinc-nickel-iron alloys by the method of electrocrystallisation in multicomponent systems with surface-active agents. A conveniently simple and straightforward mathematical model of the nanowire’s growth is proposed, analyzed, experimentally tested and checked.

 

Keywords: ferromagnetic nanowire, surfactant, mathematical model of nanowire growth, coherent growth

 

Full text: [in elibrary.ru]

 

References

  1. Gubin S.P., Koksharov Yu.A., Khomutov G.B., Yurkov G.Yu. Magnetic nanoparticles: methods of preparation, structure and properties. Uspekhi khimii. 2005;(6):539-574 (In Russ.).
  2. Myung Jun Kim, Mutya A. Cruz, Feichen Yang, Benjamin J. Wiley. Accelerating electrochemistry with metal nanowires. Current Opinion in Electrochemistry. 2019;(16):19-27.
  3. Bondarenko A.V. et al. Electrocrystallization of metal powders. Rostov-on-Don: DGTU; 2013. 121 p.
  4. Bondarenko A. V., Bondarenko G.S., KulinichV.I. Method of obtaining filamentary powders of iron by electrolysis in a two-ply bath. A.S. 970898 USSR, 1982, no 1.
  5. Possin G.E. A method for forming very small diameter wires. Rev Sci Instrum.1970; (41):772-774. http://doi.org/10.1063/1.1684640.
  6. Baranov D.A., Gubin S.P. Magnetic nanoparticles: achievements and problems of chemical synthesis. Advances in Chemistry. 2009; (6):539-574. (In Russ.).
  7. Zakharov Yu.A., Popova A.N., Pugachev V.M., Dodonov V.G. Some properties of nanoscale powders of the iron-cobalt and iron–nickel system. Polzunovsky vestn. 2008; (3):79-83.
  8. Bublikov E.I. et al. Morphology features of nanoscale iron-cobalt alloy powders. News of higher educational institutions. Izv. vuzov. Sev.-Kavk. region. Techn. nauki=Bulletin of Higher Educational Institutions. North Caucasus Region. Technical Sciences. 2016; 2(190): 102-106. (In Russ.).
  9. Kulinich V.I. et al. Electrockistallization of nano-dimensional metal anisotropic powders. Smart Nanocomposite`s lettеrs. 2019;(3): 45-47.(In Russ.)
  10. Lyalko E.S., Naumenko A.A. Nanowires obtained Fe1-XNiX by the method of electrocrystallization. Research results-2020: materials of the V National Conf. Faculty and researchers. Novocherkassk: SRSPU (NPI); 2020. Pp.151-152
  11. Yalushev N.I. Study of electrolytic production of filamentous iron powders: dis. ... candidate of Technical Sciences. Novocherkassk: NPI; 1975.
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