MULTIFERROICS – PREPARATION METHOD AND PHYSICAL PROPERTIES

Authors

  • Svetoslav Kolev Institute of electronics, Bulgarian Academy of Sciences
  • Tatyana Koutzarova Institute of electronics, Bulgarian Academy of Sciences
  • Borislava Georgieva Institute of electronics, Bulgarian Academy of Sciences
  • Todor Cholakov Neofit Rilski South - Western University
  • Lan Maria Tran Institute of Low Temperature and Structure Research, Polish Academy of Sciences
  • Michal Babij Institute of Low Temperature and Structure Research, Polish Academy of Sciences

DOI:

https://doi.org/10.59957/jctm.v61.i1.2026.13

Keywords:

multiferroics, magnetic properties, preparation method, nanoparticles, low temterature

Abstract

Polycrystalline Ba0.5Sr1.5MgNiFe11Al1O22 powder materials were synthesized by modified citric acid - assisted sol - gel auto - combustion method. To enhance its crystallinity and phase purity, the material was sintered at 1190°C in air for five hours under ambient atmospheric conditions. The structural and magnetic properties of the prepared samples were evaluated by various techniques in view of understanding the correlations between their functional properties and crystal structure. Further, the magnetic measurement performed showed a decrease in the blocking temperature when the strength of the external magnetic field was increased. Such behavior indicates the presence of a spin - frozen or a spin - glass - like state, which we observed for the first time in this type of composite samples. 

References

I. Mohammed, M.E. El Sayed, A. Shawabkeh, M.N. Murshed, I.F. Alshdoukhi, Z.M. El-Bahy, J. Mohammed, A.K. Srivastava, Effects of rare-earth Pr3+-Dy3+ doping on structural, magnetic, optical and dielectric properties of Zn2Y hexaferrite, J. Rare Earths, 43, 2, 2024 329-336.

J.P. Martínez-Pérez, F. Sánchez-De Jesús, C.A. Cortés-Escobedo, A.M Bolarín-Miró, Magnetocapacitance on the transition fields in Ni2+ doped Y-type hexaferrite Ba0.6Sr1.4Co2Fe11AlO22 obtained by high-energy ball milling, Ceramics International, 49, 2, 2023, 2663-2669.

P. Li, M. Yu, L. Yang, Q. Duan, Y. Wu, A. Zhang, M. Zeng, M. Liu, X. Gao, Mutual control of electric and magnetic orders near room temperature in Al doped Y-type hexaferrite single crystals, Journal of Materiomics, 11, 2, 2025, 100867.

S. Kanwal, M. Irfan, R.T. Rasool, M.N. Akhtar, F. Naheed, A. Almohammedi, M. Alelyani, S. Gulbadan, G.A. Ashraf, M.A. Khan, Study of structural, spectral and dielectric properties of Dy substituted Sr2Co2Fe12-хDyxO22 Y-type hexaferrites via sol-gel auto-combustion method for microwave absorption application, Materials Chemistry and Physics, 322, 2024, 129558.

D.V. Wagner, V.A. Zhuravlev, K.V. Kareva, R.V. Minin, K.I. Baskakova, O.A. Dotsenko, A.S. Suraev, Ba2Co2-xZnxFe12O22 Hexaferrites produced by the method of self-propagating high-temperature synthesis: Structure, properties, application, J. Alloys Compd., 977, 2024, 173437.

S.R. Batool, M.A. Malana, N. Alfryyan, M.N. Ashiq, F. Aftab, S. Aman, S.A. Khan, Z.A. Alrowaili, M.S. Al-Buriahi, S. Alomairy, Synthesis, characterization, dielectric and magnetic properties of substituted Y-type hexaferrites, Journal of Materials Science: Materials in Electronics, 33, 20, 2022,16183-16196.

A. Paray, N. AlMasoud, K.M. Al-Ahmary, T.S. Alomar, M.R. Alrahili, J. Mohammed, Z.M. El-Bahy, A.K. Srivastava, High frequency enhancement of dielectric constant, crystal structure analysis, and magnetic properties of Pr3+- Zn2+ substituted Co2Y-type barium hexagonal ferrites, Materials Chemistry and Physics, 322, 2024, 129505.

R. Ang, Y.P. Sun, X. Luo, C.Y. Hao, X.B. Zhu, W.H. Song, The evidence of the glassy behavior in the layered cobaltites, Appl. Phys. Lett., 92, 2008, 162508.

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Published

2026-01-03

Issue

Vol. 61 No. 1 (2026)

Section

Articles

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