Obtaining of Nanocrystalline Ferrites and Other Complex Oxides by Sol–Gel Method with Participation of Auto–Combustion
Authors: V. S. Bushkova
It is well known that in recent years magnetic materials have received increased attention due to their properties. For this reason a significant number of patents that were published during the last decade are oriented towards synthesis and study of such materials. The aim of this work is to create and study ferrite nanocrystalline materials with spinel structure, using sol-gel technology with participation of auto-combustion. This method is perspective in that it is a cheap and low-temperature technique that allows for the fine control on the product’s chemical composition.
Digital Object Identifier (DOI): doi.org/10.5281/zenodo.1100591Procedia APA BibTeX Chicago EndNote Harvard JSON MLA RIS XML ISO 690 PDF Downloads 1550
 A. V. Kopayev, V. S. Bushkova, “Application of the electron theory of sintering to the ferrite system,” Acta physica polonica A, vol. 117, no. 1, pp. 25–28, 2010.
 S. Krupichka, Physics of ferrites and related magnetic oxides. Moskov: World, 1976, 504 p.
 A. V. Kopayev, B. K. Ostafiychuk, I. P. Yaremiy, I. Y. Vylka, “Structure and magnetic properties of Ni-Al-ferrite powders, synthesized by sol-gel method of auto-combustion,” Surface. X-ray, synchrotron and neutron study, vol. 10, pp. 79-83, 2007.
 A. V. Kopayev, B. K. Ostafiychuk, I. Y. Vylka, D. L. Zadnipryannyy, “Peculiarities of nickel-aluminium ferrites nanopowder structure,” Mat.- wiss. u. Werkstofftech, vol. 40, no. 4, pp. 255–257, 2009.
 A. V. Kopayev, V. S. Bushkova, J. M. Tafiychuk, D. L. Zadnipryannyy, “Electro-magnetic properties and imperfectness of composite of xNiAl0,5Fe1,5O4–(1-x)BaTiO3,” in Proc. 11th Europhysical Conference on Defects in Insulating Materials PECS, Hungary, 2010, p. А53.
 V. S. Bushkova, A. V. Kopayev, “Study of electrical properties of composites (1-х) NiAl0,5Fe1,5O4–х BaTiO3,” Eastern-European Journal of Enterprise Technologies, vol. 10, no. 4/5, pp. 43-47, 2011.
 S. C. Chae, P. Murugavel, J. H. Lee, H. J. Ryu, T. W. Noh, “Growth and Characterization of Epitaxial Barium Titanate and Cobalt Ferrite Composite Film,” Journal of the Korean Physical Society, vol. 47, pp. 345-347, 2005.
 R. P. Mahajan, K. K. Patankar, M. B. Kothale, S. C. Chaudhari, V. L. Mathe, S. A. Patil Mahajan, “Magnetoelectric effect in cobalt ferrite–barium titanate composites and their electrical properties,” Pramana, vol. 58, pp. 1115-1124, 2002.
 A. G. Belous, E. V. Pashkov, V. A. Elshansky, V. P. Ivanitsky, “Influence of deposition conditions of iron hydroxides (III, II) on the phase composition, particle morphology and properties of the sediments,” Inorganic Materials, vol. 4, pp. 431-439, 2000.
 K.S. Martirosyan, P.B. Avakian, M.D. Nerseyan, “Phase formation in the process of self-propagating high temperature synthesis of ferrites,” Inorganic Materials, vol. 4, pp. 489-492, 2002.
 V.V. Popov, A.I. Gorbunov, “The hydrothermal crystallization of iron hydroxide (III) ,” Inorganic Materials, vol. 3, pp. 319-326, 2006.
 A. Kopaev, V. Bushkova, B. Ostafiychuk, “Sol-Gel Synthese und Eigenschaften der weichmagnetischen Nanoferritе und Verbundwerkstoffen. Physik und Technologie der Nanoferritе mit dem Bariumtitanat,” (monographie). Saarbrücken: Lap Lambert Academic Publishing, 2013, 154 p.
 S.S. Suryawanshi, V.V. Deshpande, U.B. Deshmukh, S.M. Kabur, N.D. Chaudhari, S.R. Sawant, “XRD analysis and bulk magnetic properties of Al3+ substituted Cu–Cd ferrites”, Mat. Chem. Phys., vol. 59, no. 3, pp. 199–203, 1999.
 A.T. Raghavender, R.G. Kulkarni, K.M. Jadhav, “Magnetic properties of nanocrystalline Al doped nickel ferrite synthesized by the sol–gel method”, Chinese Journal of Physics, vol. 46, no. 3, pp. 366–375, 2008.
 P.P. Hankare, V.T. Vader, U.B. Sankpal, L.V. Gavali, R. Sasikala, I.S. Mulla, “Effect of sintering temperature and thermoelectric power studies of the system MgFe2−xCrxO4”, Solid State Sci., vol. 11, no. 12, pp. 2075–2079, 2009.