Structural, dielectric and magnetic properties of Bi1−xYxFeO3 (0⩽x⩽0.2) obtained by acid–base co-precipitation

Abstract Bismuth–iron oxides with partial substitution of bismuth by yttrium, referred as (Bi 1 − x Y x )FeO 3 , were synthesized by simple-low cost acid–base co-precipitation method, which constitutes a difference with the currently used synthetic methods for obtaining BiFeO 3 -doped compounds (e.g. polymer assisted sol–gel, solid state, microwave, etc.) Samples were characterized by XRD, EDS, SEM, TEM, DSC and FTIR. The influence of yttrium (Y) substitution on magnetization curves of (Bi 1 − x Y x )FeO 3 powders were studied at room temperature by VSM. The particle size systematically decreases with the Y percentage. Ferromagnetic curves were obtained at room temperature for Y-percentage lower than 20% with relatively large values of the coercive field, H c , which increases with Y-substitution, while for 20% yttrium a superparamagnetic behavior is observed. The electrical impedance of compressed disks were investigated also by impedance analysis in the range 1Hz–1MHz and the results were successfully fitted by a simple parallel R–C model. The dc-leakage currents are lower than previously reported for (Bi 1 − x Y x )FeO 3 compounds and for most of the doped-BiFeO 3 ceramics. As a difference with the influence on the magnetic behavior, the doping with yttrium does not seem to have a large influence on the dielectrical properties. These results suggest that magnetization can be systematically modified by the relatively simple co-precipitation synthesis while keeping invariable the dielectrical properties.