Materials Research Express (Jan 2020)
Influence of Ba and Mo co-doping on the structural, electrical, magnetic and optical properties of BiFeO3 ceramics
Abstract
In this work, ${{\rm{Bi}}}_{0.8}{{\rm{Ba}}}_{0.2}{{\rm{Fe}}}_{1-x}{{\rm{Mo}}}_{x}{{\rm{O}}}_{3}$ (x = 0, 0.5, 0.10 and 0.15) ceramics were synthesized by conventional solid-state reaction to evaluate the influence of Ba ^2+ and Mo ^6+ co-doping on the structure, morphology, electrical, magnetic and optical properties of ${{\rm{BiFeO}}}_{3}$ ceramic. Rietveld refinement of x-ray diffraction data was done to obtain the subtle structural information. A tetragonal structure of P4mm type was revealed for ${{\rm{Bi}}}_{0.8}{{\rm{Ba}}}_{0.2}{{\rm{FeO}}}_{3}$ (x = 0) ceramic. Evolution of rhombohedral (R3c) phase was observed with Mo ^6+ doping and a complete transformation to R3c phase from P4mm was found for 15 wt% Mo ^6+ doping. This type of transformation causes distortion in the structure and results in changing bond angle. Magnetization was found to be improved with increasing the percentage of Mo ^6+ up to 10 wt%. Canting of spin due to the change in Fe-O-Fe bond angle is believed to be the main reason behind this improvement. One secondary phase ${{\rm{BaMoO}}}_{4}$ was found and becomes prominent with Mo ^6+ doping. Possible formation of this impurity and its correlation with properties are explained. Microstructural analysis was done to observe the Ba ^2+ and Mo ^6+ co-doping effect on grain size and distribution. A correlation of grain size with electric and magnetic properties is drawn and elucidated. Dielectric constant shows an increasing trend with Mo ^6+ doping. Reduction in oxygen vacancy, due to charge compensation upon high charged Mo ^6+ addition, believed to be the staple reason behind the dielectric constant increment. Lastly, optical band gap energy found to be decreased with the addition of Mo ^6+ and possible reasons behind this are evaluated. Overall, co-doping of Ba ^2+ and Mo ^6+ found to have a positive influence over materials electrical, optical as well as magnetic property.
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