Microstructure effect on dielectric Properties of MgO-doped BaTiO3-BiYO3 ceramics

MgO-doped 0.97BaTiO(3)-0.03BiYO(3) (0.97BT-0.03BY) polycrystalline ceramics were prepared by the solid-state sintering method. Then the structural, dielectric and resistant properties were investigated as functions of MgO addition. Microstructure was studied using scanning electron microscopy (SEM), transmission electron microscopy (TEM) and energy dispersive spectrometry (EDS). The results show that Bi3+, Y3+ and Mg2+ ions exhibit nonuniform distribution behavior in BT-BY ceramics, demonstrating the existence of a "core shell" structure, which plays important roles in the capacitance-temperature characteristics, where 0.97BT-0.03BY with the addition 2.2-2.8 at% MgO meets the Electronic Industries Association (ETA) X8R (-55 to 150 degrees C, Delta C/C-25 degrees C = +/- 15% or less) specification. Moreover, the fine-grained samples with core shell structure show much higher bulk resistance than the coarse-grained samples over the studied temperature range, which is attributed to the higher proportion of grain boundaries and the lower concentration of the effective acceptor. (C) 2015 Elsevier Ltd and Techna Group S.r.l. All rights reserved.