2023   04   en   p.33-34 I.F. Yusibova1, Sh.N. Aliyeva2,
IR analysis of copper doped Ni-Zn nanoferrites		  pdf 

ABSTRACT

Nanocrystalline ferrites Ni0.4Zn0.6-xCuxFe2O4 (x=0-0.6) were synthesized by a high-temperature method based on metal oxides. The IR measurements showed the presence of noticeable bands caused by vibrations of metal ions and which are a feature of the formation of the spinel ferrite phase. A shift in the IR bands due to doping concentration was observed.

Keywords: nanoferrit, IR analysis, sublattice
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AUTHORS & AFFILIATIONS

1. Institute of Physics, Ministry of Science and Education of Azerbaijan Republic, Az-11143 Baku, Azerbaijan
2. Departament of Physics, Azerbaijan State Oil and Industry University, Az-1010 Baku, Azerbaijan
E-mail: yusibova78@mail.ru 		REFERENCIES

[1]   N.N. Sholtz, K.A. Piskarev. Ferrites for radio frequencies, Moscow 1966, 131 p.
[2]   M. Usakova, J. Lukac, R. Dosoudil, V. Jancarik, A. Gruskova, E. Usak, J. Slama, J. Subrt. J. Mater Sci: Mater Electron. 2007, 18: p.1183-1189.
[3]   A.S. Padampalle, A.D. Suryawanshi, D.D.Suryawanshi, S.S. Patil and S.K. Gurav. 2018: Special Issue A2:168-171.
[4]   E.V. Gorter. УФН, т. LVII, вып. 2, 1955, pp. 279-346
[5]   Sh.N. Aliyeva. Azerbaijan Journal of Physics, vol. XVII, N 1, Section: Az, March, 2011
[6]   M.F. Huq, D.K. Saha, R. Ahmed and Z.H. Mahmood. Ni-Cu-Zn Ferrite Research: A Brief Review. J. Sci. Res., 2013, 5(2), 215-233.
[7]   S. Akhter, D.R. Paul, Md.A. Judge, D. Kumar Saha, Al-Mamun Md., A. Parveen. Materials Sciences and Applications, 2011, 2, 1675-1681.
[8]   S.N. Aliyeva, A.M. Kerimova, R.B. Abdullayev, T.R. Mehdiyev. Physics of the Solid States 2017, v. 59, ISSUE 3, p. 543-549.
[9]   Sh.N. Aliyev, A.M. Kerimova, R.B. Abdullaev, T.R. Mekhtiev. ФТТ, т. 59 вып. 3, p. 528-533.
[10]  M. Molaahmadi1, S. Baghshahi1, A. Ghasemi. J Mater Sci: Mater Electron 27, 2016, p.11447- 11456.
[11]  R.D. Waldron. Phys. Rev., 1955, 99, 1727.
[12]  S.T. Hafner, J.Kristallogr. 115 (1961) 331.
[13]  T. Suto, K. Haneda, T. Iijima, M. Seki. J. Appl. Phys. A 50 (1990) 13.