Effect of aluminum substitution on microstructure and magnetic properties of electrospun Ba[Fe.sub.12][O.sub.19] nanofibers

Ba[Fe.sub.12-x][Al.sub.x][O.sub.19] nanofibers (x = 0-2.0) with average diameter 110 nm have been prepared via the electro-spinning and subsequent heat treatment at 1100 °C for 2 h. Individual Ba[Fe.sub.12][O.sub.19] nanofibers were composed of numerous nanocrystallites stacking alternatively along...

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Bibliographic Details
Published in:Journal of materials science 2013-02, Vol.48 (4), p.1702
Main Authors: Li, Cong-Ju, Huang, Bo-Neng, Wang, Jiao-Na
Format: Article
Language:English
Subjects:
Analysis
Barium
Magnetic properties
Magnetization
Nanotechnology
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Summary:Ba[Fe.sub.12-x][Al.sub.x][O.sub.19] nanofibers (x = 0-2.0) with average diameter 110 nm have been prepared via the electro-spinning and subsequent heat treatment at 1100 °C for 2 h. Individual Ba[Fe.sub.12][O.sub.19] nanofibers were composed of numerous nanocrystallites stacking alternatively along the long axis of fiber and the single crystallites on each nanofibers had random orientations. With increasing [Al.sup.3+] ions substitution contents from 0 to 2.0, the diameter and morphology of nanofibers were almost no change. However, the lattice parameters decreased due to [Fe.sup.3+] ions substituted by smaller [Al.sup.3+] ions and the average grain size calculated by the Scherrer's equation reduced from 47 to 42 nm. The crystallites possessed a hexagonal plate-like shape at x = 0 while they became rod-like with various [Al.sup.3+] ions substitution. The X-ray diffraction patterns show that single-phase barium hexaferrite was formed when [Al.sup.3+] ions substitution contents were less than and equal to 1.0, while other impurity phases were detected when they were more than 1.0. The chemical analysis shows that the element Al was all incorporated into the lattice of Ba[Fe.sub.12][O.sub.19] and evenly distributed throughout the Ba[Fe.sub.12-x] [Al.sub.x][O.sub.19] nanofibers. The magnetic testing shows that the saturation magnetization (Ms) decreased obviously from 63.92 to 29.70 A m2/kg, while coercivity ([H.sub.c]) increased significantly from 288.2 to 740.7 kA/m with increasing [Al.sup.3+] ions substitution.
ISSN:0022-2461
1573-4803
DOI:10.1007/s10853-012-6928-7