Influence of Co²⁺ distribution and spin–orbit coupling on the resultant magnetic properties of spinel cobalt ferrite nanocrystals

Abstract

Superparamagnetic properties of the cobalt ferrite nanocrystals have been demonstrated. The significance of the solgel autocombustion method in preparation of cobalt ferrite oxide in the nano range (30–40 nm) has been very well complimented with the structural, dimensional and morphological techniques, such as X-ray diffraction technique, Transmission Electron Microscopy and Scanning Electron Microscopy. The valence states of the metal ions and single phase formation of the polycrystalline oxide have been confirmed with the help of X-ray photoelectron spectroscopy and Raman spectroscopy. The distribution of the Fe³⁺ ions in the tetrahedral and octahedral lattice sites has been illustrated with the help of the Mössbauer spectroscopy that shows five sextets, indicating occupancies of one tetrahedral and four octahedral sites by Fe³⁺ ions. Hyperfine fields of 51.29, 48.74, 46.78, 43.58 and 48.59 Tesla, respectively in CoFe₂O₄ have been found for four octahedral and one tetrahedral site respectively, at ambient temperature. The magnetic measurements M–H and M–T demonstrate a change in the magnetic moment and a superparamagnetic–ferrimagnetic transition at 235 K in the ferrite system.