The synthesis of iron nanoparticles in the hydro-alcoholic solution of ferric chloride

Authors

  • Kh.А. Аbdullin National Nanolaboratory of Open Type, Al-Farabi KazNU, Almaty, Kazakhstan
  • М.Т. Gabdullin National Nanolaboratory of Open Type, Al-Farabi KazNU, Almaty, Kazakhstan
  • Т.S. Ramazanov IETP, Al-Farabi Kazakh National University, Kazakhstan, Almaty
  • D.G. Batryshev National Nanolaboratory of Open Type, Al-Farabi KazNU, Almaty, Kazakhstan
  • D.V. Ismailov National Nanolaboratory of Open Type, Al-Farabi KazNU, Almaty, Kazakhstan
  • D.V. Schur I.N. Frantsevich Institute of Problems of Materials Science, Kiev, Ukraine
  • D.S. Kerimbekov National Nanolaboratory of Open Type, Al-Farabi KazNU, Almaty, Kazakhstan
        83 78

Keywords:

arc discharge, nanoparticles, synthesis, scanning electron microscopy

Abstract

In this work the method of nano- and microparticles synthesis in plasma of arc discharge in the liquid phase is considered. Nano- and microparticles of various chemical compositions can be synthesized under proposed method.  The mechanism and scheme of combination of the chemical composition of electrode material and liquid medium were suggested. The advantages of proposed method are simplicity of the method, no bulky control systems and electrical power, absence of strongly heated elements in the plasma chemical process, no need to use of harmful gases and reactor cooling system, high temperature of the arc (above 4000 K) and high speed cooling vaporized product, synthesis of nanostructured materials without vacuumization procedure. On the basis of this method in the hydro-alcoholic solution of ferric chloride the samples of iron nano- and microparticles were obtained. The influence of magnetic field on a synthesis process is studied. The different iron nanoparticle fractions were obtained using additional magnetic field in the area of plasma chemical reaction. The obtained nanoparticles at Н = 0 have sizes 1¸100 nm and at Н≠0 have 25¸250 nm. The chemical composition analysis, morphology and geometric size estimation of synthesized samples were carried out on a scanning and transmission electron microscopes.

References

1. Andriyevskiy R.A., Poroshkovoye materialovedeniye. – M.: Metallurgiya, – 1991. – S. 207.

2. Adadurov G.A., Fiziko-khimicheskiye prevrashcheniya veshchestv v udarnykh volnakh s uchastiyem gazov // Zhurnal Vsesoyuz. khimicheskogo obshchestva im. D.I. Mendeleyeva. – 1990. – T. 35. – №. 5. – S. 595-599.

3. Beloshapko A.G., Bukayemskiy A.A., Staver A.M., Obrazovaniye ul'tradispersnykh soyedineniy pri udarnovolnovom nagruzhenii poristogo alyuminiya. Issledovaniye poluchennykh chastits // Fizika goreniya i vzryva. – 1990. – T. 26. – №. 4. – S. 93-98.

4. Andriyevskiy R.A., Polucheniye i svoystva nanokristallicheskikh tugoplavkikh soyedineniy // Uspekhi khimii. – 1994. – T. 63. – №. 5. – S. 431-448.

5. Tsvetkov YU.V., Panfilov S.A., Nizkotemperaturnaya plazma v protsessakh vosstanovleniya. – M.: Nauka, – 1980. – S. 284.

6. Saburov V.P., Cherepanov A.N., Zhukov M.F. i dr., Plazmokhimicheskiy sinteza ul'tradispersnykh poroshkov i ikh primeneniye dlya modifitsirovaniya metallov i splavov // Nizkotemperaturnaya plazma. – Novosibirsk: Nauka. Sibirskaya izdatel'skaya firma RAN. – 1995. – T. 12. – S. 312.

7. Boufendi L. and Bouchoule A. Particle nucleation and growth in a low-pressure argon-silane discharge // Plasma Sources Sci. Technol. – 1994. – V. 3. – P. 262.

8. Vershok B.A., Dormashev A.B., Margulev I.YA., Martynenko YU.V., Obrezkov O.I., Smirnov V.P., Polucheniye nanoporoshka vakuumnym impul'sno-dugovym metodom // Voprosy atomnoy nauki i tekhniki. – 2006. – Vyp. 2. – S. 31-40.

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How to Cite

Аbdullin K., Gabdullin М., Ramazanov Т., Batryshev, D., Ismailov, D., Schur, D., & Kerimbekov, D. (2015). The synthesis of iron nanoparticles in the hydro-alcoholic solution of ferric chloride. Recent Contributions to Physics (Rec.Contr.Phys.), 52(1), 46–51. Retrieved from https://bph.kaznu.kz/index.php/zhuzhu/article/view/960

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Section

Condensed Matter Physics and Materials Science Problems. NanoScience

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