Preparation, phase stability, and magnetization behavior of high entropy hexaferrites

The polycrystalline SrFe12O19 samples deeply substituted up to at.67% by Al3+, Ga3+, In3+, Co3+, and Cr3+ cations with a high configurational mixing entropy were prepared by solid-phase synthesis. Phase purity and unit cell parameters were obtained from XRD and analyzed versus the average ionic radius of the iron sublattice. The crystallite size varied around ∼4.5 μm. A comprehensive study of the magnetization was realized in various fields and temperatures. The saturation magnetization was calculated using the Law of Approach to Saturation. The accompanying magnetic parameters were determined. The magnetic crystallographic anisotropy coefficient and the anisotropy field were calculated. All investigated magnetization curves turned out to be nonmonotonic. The magnetic ordering and freezing temperatures were extracted from the ZFC and FC curves. The average size of magnetic clusters varied around ∼350 nm. The high values of the configurational mixing entropy and the phenomenon of magnetic dilution were taken into account. [Display omitted] •Deeply substituted SrFe12O19 by 3d-cations with high mixing entropy were prepared•Unit cell parameters were analyzed versus average iron sublattice ionic radius•Saturation magnetization was calculated using the Law of Approach to Saturation•Magnetic ordering and freezing temperatures were extracted from ZFC and FC curves Condensed matter properties; Magnetic property; Magnetic materials