Manipulation of ferroelectric and magnetic properties properties of single phase Bi4Ti3O12-3BiFeO3 solid solution through La substitution (2212.09325v1)

Abstract: In this work, the potential to exploit Aurivillius higher order composition (n=6) given by Bi4Ti3O12-3BiFeO3 as single phase and high temperature magnetoelectric materials are well explored by elaborately studying the concerned structure and physical properties. Bi4Ti3O12-3Bi1-xLaxFeO3 (x=0, 0.01, 0.05, 0.1, 0.2) was synthesized via solid-state reaction route and X-ray diffraction data revealed that the lattice parameters associated with orthorhombic cell (space group P21am) decrease with increase in La3+ content confirming the incorporation of La. In the frequency dependent dielectric measurements, the ferroelectric to paraelectric transition temperature (Tc) corresponding to the parent (x=0) had two phase transitions vis., 803 K (broader) and 983 K (sharper) whereas phase transitions are single that progressively becomes sharper with increase in La substitution. Ferroelectric switching behavior (polarization (P) versus electric field (E)) was demonstrated for Bi4Ti3O12-3BiFeO3 and remnant polarization decreased significantly for La substituted compositions reflecting weaker ferroelectric ordering. In detailed Zero Field-cooled and Field cooled temperature dependent magnetization measurements, Bi4Ti3O12-3BiFeO3 exhibited Tc around 296 K. Though a marginal increase in the magnetization values for La substituted compositions (x=0.1 and x=0.2), the overall temperature dependent magnetization curves indicate overall paramagnetic nature. The results are more reflective of the switching off of the possibilities of long range ferromagnetic ordering with A-site rare earth doping in these Aurivillius layered compounds.