Iranian Journal of Materials Science and Engineering

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In this work, the different fuels (citric acid, glycine and urea) were used for solution combustion synthesis of CoFe₂O₄ powders. X-ray diffraction, Raman spectroscopy, electron microscopy and vibrating sample magnetometry techniques were employed for characterization of phase evolution, cation distribution, microstructure and magnetic properties of the as-combusted CoFe₂O₄ powders. Single phase CoFe₂O₄ powders with partially inverse structure in which the Co²⁺ cations are distributed in both tetrahedral and octahedral sites were synthesized by the citric acid, glycine and urea fuels. The as-combusted CoFe₂O₄ powders by the citric acid fuel exhibited the highest inversion coefficient. The crystallite size of the as-combusted CoFe₂O₄ powders synthesized by urea fuel was 15 nm, increased to 41 and 52 nm for the glycine and citric acid fuels, respectively. Furthermore, the solution combusted CoFe₂O₄ powders showed ferromagnetic behavior with saturation magnetization of 61.9, 63.6 and 41.6 emu/g for the citric acid, glycine and urea fuels, respectively. The high crystallinity and particle size of the as-combusted CoFe₂O₄ powders using glycine fuel led to the highest magnetization and the moderate coercivity.