Preparation and Characterization of La₂O₃ Doped Ba₀.₃.3Sr₀.₇TiO₃ Perovskite Ceramics of Varied Sintering Temperature and Doping

In order to explore new application opportunities of Barium Strontium Titanate (BST) ceramic composite by modifying the conventional ferroelectric properties of BST through La2O3 doping in BST matrix sintered at different temperature was investigated in this current study. Unadulterated Ba0.3Sr0.7TiO3 (BST) matrix was prepared from BaTiO3 (99.95%) and SrTiO3 (99.95%) taken in stoichiometric extents which later doped by La2O3 (99.99%) in varying extents (0.05 g, 0.10 g and 0.15 g) exploiting solid state reaction route. Doping caused drag effect for the penetration of impurities and sintering temperature helped the impurities migration to BST. Dielectric constant gets lower with rising of frequency, as electrons do not get enough time to polarize at high frequency. Dielectric constant and conductance are found maximum for the sample (0.1 g La2O3 doped BST) sintered at 1460°C and reverse is found in impedance analysis. These electrical properties showed visible frequency dependent response irrespective of sintering temperature and doping.