Impact of cobalt substitutions on optical, magnetic, dielectric, and structural, properties of BaFe11.6-xAl0.4CoxO19 hexaferrites prepared by Co-precipitation process followed by rapid sonochemical synthesis
The dielectric along with magnetic features of hexaferrites could be remarkably improved by cationic substitutions. Therefore, in the current work we synthesized cobalt substituted BaFe11.6-xAl0.4CoxO19 (0 ≤ x ≤ 1.2) hexaferrites via co-precipitation process followed by rapid sonochemical procedure....
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Published in | Materials chemistry and physics Vol. 321; p. 129504 |
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Main Authors | , , , , |
Format | Journal Article |
Language | English |
Published |
Elsevier B.V
15.07.2024
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Online Access | Get full text |
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Summary: | The dielectric along with magnetic features of hexaferrites could be remarkably improved by cationic substitutions. Therefore, in the current work we synthesized cobalt substituted BaFe11.6-xAl0.4CoxO19 (0 ≤ x ≤ 1.2) hexaferrites via co-precipitation process followed by rapid sonochemical procedure. Structural analysis showed that, as the concentration of Co increased, the lattice-parameters ‘a’, ‘c’, crystallites-size, and volume increased. The SEM micrographs revealed the uniform and homogeneous distributions of particles in all samples. The two strong absorption bands indicated by FTIR analysis confirm the successful formation of M-type hexaferrites. The decreasing trend of optical band gape with cobalt doping is indicated by UV vis spectroscopy analysis. The dielectric-loss(ε''), dissipation factor, and dielectric-constant(ε′), increased as the content of cobalt is raised. The produced M-type hexaferrite exhibits increased AC electrical conductivity with frequency and doping concentration. Non-Debye-type relaxation is suggested by the cole–cole diagrams (Mʹ vs. Mʹʹ) for prepared samples. As Co concentrations increased, the magnetic moments per formula unit(mB) and saturation magnetization increased up to the optimal doping content of x = 0.9, after that these parameters showing decreasing trend. The magnetic anisotropy constant (K), coercivity (Hc), anisotropy-parameter(B), and anisotropy-field(Ha) were all showing increasing tendency with doping content. The investigations above revealed that Co replaced BaFe11.6-xAl0.4CoxO19 (0≤x ≤ 1.2) hexaferrites will be suitable for use as a permanent magnet, magnetic recording media, and other magnetic applications.
Properties of BaFe11.6-xAl0.4CoxO19 Hexaferrites Prepared by Co-Precipitation process followed by Rapid Sonochemical Synthesis. [Display omitted]
•Cobalt doped BaFe11.6-xAl0.4O19 samples were prepared via Co-Precipitation method followed by Sonochemical Synthesis.•The SEM analysis confirmed the homogenous distributions particles of the prepared samples.•VU-vis spectroscopy analysis indicated decrease in band gap of the prepared materials.•The dielectric properties showed an increase in dielectric constant ε′ as cobalt concentration increased.•Saturation magnetization, coercivity and remnant magnetization showed an increasing trend with cobalt content. |
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ISSN: | 0254-0584 1879-3312 |
DOI: | 10.1016/j.matchemphys.2024.129504 |