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Structure, magnetic, and electrodynamic properties of SrIn <i> <sub>x</sub> </i> Fe <sub>12‐</sub> <i> <sub>x</sub> </i> O <sub>4</sub> /Ni <sub>0.5</sub> Zn <sub>0.5</sub> Fe <sub>2</sub> O <sub>4</sub> composites at low temperature

M.A. Almessiere, N.A. Algarou, Y. Slimani, D.S. Klygach, A. Baykal, A. Demir Korkmaz, T.I. Zubar, Maxim V. Silibin, Maxim G. Vakhitov, Anwar UI‐Hamid, Sergey V. Trukhanov, А.В. Труханов

2024Journal of the American Ceramic Society55 citationsDOIOpen Access PDF

Abstract

Abstract Exchange‐coupled hard–soft bi‐magnetic ferrites can be used as isolators, microwave absorption materials, filters, hyperthermia materials, and biosensors with improved energy properties. The nanocomposites with the chemical composition SrIn x Fe 12‐ x O 4 /Ni 0.5 Zn 05 Fe 2 O 4 (where x varies from 0.00 to 0.04) have the advantages of both materials: spinel and hexaferrite. The combination of Sr‐hexaferrate with spinel ferrite results in proximity effects, reversal of magnetization in two stages, and blocking temperatures that can be tuned in bi‐magnetic hard and soft ferrites. It was found an anomalius kink in the hysteresis loops and two peaks in the switching field distribution at x ≤ 0.02. The exchange interaction on the surfaces of hard and soft nanoparticles explains the behavior of the magnetic characteristics.

Topics & Concepts

Materials scienceX-ray crystallographyCrystallographyCondensed matter physicsMineralogyPhysicsChemistryDiffractionOpticsMagnetic Properties and Synthesis of FerritesMultiferroics and related materialsElectrical and Thermal Properties of Materials
Structure, magnetic, and electrodynamic properties of SrIn <i> <sub>x</sub> </i> Fe <sub>12‐</sub> <i> <sub>x</sub> </i> O <sub>4</sub> /Ni <sub>0.5</sub> Zn <sub>0.5</sub> Fe <sub>2</sub> O <sub>4</sub> composites at low temperature | Litcius