Title of article
The synthesis of nanocrystalline YIG in an ammonium nitrate melt
Author/Authors
Hüseyin S?zeri، نويسنده , , Nader Ghazanfari، نويسنده ,
Issue Information
دوهفته نامه با شماره پیاپی سال 2009
Pages
5
From page
977
To page
981
Abstract
Yttrium iron garnet particles were synthesized in two different ways: first, in an ammonium nitrate melt (ANM) and second, via a solid-state reaction (SSR) route. The structural and magnetic properties of the samples were compared using XRD, SEM and dc magnetization measurements. It was observed for the ANM technique that the phase formation of YIG starts at 1000 °C and then develops with increasing temperature and sintering times. The saturation magnetization, Ms, increases sharply with increasing annealing temperature and then saturates at around 23 emu g−1 above 1100 °C, while the coercivity decreases due to the increasing particle size. An almost single-phase sample was obtained through ANM route by annealing for 2 h at 1300 °C, after which the YIG fraction in the SSR sample was only 0.34, with Ms = 7.08 emu g−1. The average particle sizes of the ANM samples were calculated using experimentally determined Ms values. It appeared that they vary from the sub-micron to the micron range, depending on the sintering temperature, and this coincides with the values determined from the SEM micrographs. These samples have homogeneous structures, small grains, good magnetic properties, and do not contain massive agglomerates. Therefore, the synthesis of YIG via the ANM technique represents another alternative to the SSR route.
Keywords
Magnetic materials , Magnetic properties , Chemical synthesis
Journal title
Materials Chemistry and Physics
Serial Year
2009
Journal title
Materials Chemistry and Physics
Record number
1061458
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