Structural and microstructural evolution due to increasing Co substitution in Ni1−xCoxFe2O4: An X-ray diffraction study using the Rietveld method

X-ray diffraction studies employing the Rietveld analysis is reported on the influence of increasing Co substitution on the structural and microstructural evolution in AB2O4 type spinel ferrites: Ni1−xCoxFe2O4 (x = 0.0, 0.2, 0.4, 0.6, 0.8 and 1.0). The specimens were synthesized by the organic precursor method. Structure refinement reveals that the pure NiFe2O4 is not an exact inverse spinel and about 11% of Ni2+ ions occupy the tetrahedral (A) sites. Increasing Co concentrations had the effect of increasing the ratio of image and gradual expansion of the ferrite unit cell. The microstructure refinement estimates that the particle size values are in the order of ∼nm, ranging from 31 to 61 nm, which gradually increase with increasing Co doping accompanied by almost negligible lattice micro strains (∼10−4). The corresponding particle size distribution for each specimen was obtained from the X-ray diffraction data from the basic assumption that the spherical nanoparticles follow the log-normal distribution. The size distribution for the pure NiFe2O4 was also estimated from transmission electron microscope and agreed well with that obtained by the diffraction data analysis.