Reverse micellar route to nanocrystalline titanates (SrTiO₃, Sr₂TiO₄, and PbTiO₃): structural aspects and dielectric properties

Abstract

Nanoparticles of strontium titanates (SrTiO₃, Sr₂TiO₄) and lead titanate (PbTiO₃) have been obtained using reverse micelles as nanoreactors. Powder X-ray diffraction studies of the powders after calcining at 800°C show monophasic SrTiO₃, Sr₂TiO₄, and PbTiO₃. X-ray line broadening studies and transmission electron microscopic studies show spherical grains of 30-40 nm size for strontium titanates, while PbTiO₃ is obtained in the form of nanorods. The dielectric constant of SrTiO₃ and Sr₂TiO₄ is found to be 90 and 30, respectively, (at 100 kHz) for samples sintered at 1000°C. PbTiO₃ shows a dielectric constant of 160 (at 100 kHz) after sintering at 900°C. The dielectric constant of Sr₂TiO₄ (with temperature) is highly stable. The temperature variation studies of the dielectric constant of PbTiO₃ show a ferroelectric phase transition at 490°C (1 kHz). The T_c varies with frequency and is found to decrease to 470°C at 100 kHz.