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Impact of Al<sup>3+</sup> substitution in M-type hexaferrite on structural, magnetic, and dielectric properties

Mahrous R. Ahmed, E.M.M. Ibrahim, Adel Hamazaoui, Abdalrahman M. Rayan, A. A. Azab, A.M. Abdel Hakeem

2024Physica Scripta11 citationsDOI

Abstract

Abstract Hexaferrites SrAl x Fe 12−x O 19 (x = 0, 1, 2, 3, and 4) doped by Al 3+ in an account of Fe 3+ were synthesized using microwave digestion. X-ray diffraction pattern analysis revealed that the compound is polycrystalline with a hexagonal M-type structure of SrAl x Fe 12−x O 19 and P63/mmc space group is predominant for all dopants of Al 3+ ion. The crystallite size of the SrAl x Fe 12−x O 19 phase has a maximum value for the un-doped sample (94.5 nm) and then decreases for all values of Al-doping. The SEM results showed that the average grain size increased with Al-doping till x = 2 and was almost stable. The magnetic properties were investigated by vibrating sample magnetometer. The results showed a continuous decrease in both saturation (Ms), and remnant (Mr), magnetization with Al-doping. At the same time, the coercive magnetic field, H c , increases continuously with Al-doping except for x = 4, H c slightly decreased. These results make these compound candidates to be used in data storage and magnetic memories. Dielectric properties investigation showed low-frequency dispersion in the dielectric results due to a space-charge effect. It has been demonstrated that enhancements in conductivity, dielectric constant ( ε ′), and dielectric loss ( ε ′′) rise with an increase in the concentration of Al 3+ ions, suggesting that SrAl x Fe 12−x O 19 can be used for microwave absorption and other high-frequency applications.

Topics & Concepts

Substitution (logic)Materials scienceDielectricType (biology)Composite materialCondensed matter physicsComputer sciencePhysicsOptoelectronicsGeologyProgramming languagePaleontologyMagnetic Properties and Synthesis of FerritesElectromagnetic wave absorption materials