Abstract
A series of nano-sized Zn–Al substituted cobalt ferrite Co(1−x)Zn(x)Fe2−xAlxO4 with 0.0⩽x⩽1.0 have been synthesized by chemical co-precipitation technique. The XRD spectra revealed the single phase spinel structure of Co(1−x)Zn(x)Fe2−xAlxO4 with average size of nanoparticles are estimated to be 17–30nm. These are small enough to achieve the suitable signal to noise ratio, which is important in the high-density recording media. The FTIR spectra show the characteristic of two strong absorption bands at 560–600cm−1 corresponds to the intrinsic stretching vibrations of the metal at the tetrahedral site and lowest band is observed at 370–410cm−1 corresponds to octahedral site. The crystalline structures of nanoparticles composite were characterized by Field Emission Scanning Electron Microscopy (FE-SEM). The magnetic properties such as saturation magnetization, remanence magnetization, and coercivity were calculated from the hysteresis loops. Saturation magnetization were found to increase up to x=0.4 while remanence magnetization and coercivity continuously decrease with increasing Zn–Al concentration. The stability in coercivity while increase in saturation magnetization confirms that the Co0.6Zn0.4Fe1.6Al0.4O4 ferrite sample is suitable for applications in high-density recording media.
Published Version
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