Synthesis of nanometer-sized particles of barium orthotitanate prepared through a modified reverse micellar route: structural characterization, phase stability and dielectric properties

Abstract

Nanoparticles of barium orthotitanate (Ba₂TiO₄) was obtained using microemulsions (avoiding Ba-alkoxide). Powder x-ray diffraction studies of the powder after calcining at 800 °C resulted in a mixture of orthorhombic (70%) and monoclinic (30%) phases. The high-temperature orthorhombic form present at 800 °C was due to the small size of particles obtained by the reverse micellar route. Pure orthorhombic Ba₂TiO₄ was obtained on further sintering at 1000 °C with lattice parameters a = 6.101(2) Å, b =22.94(1) Å, c = 10.533(2) Å (space group, P2₁nb). The particle size obtained from x-ray line broadening studies and transmission electron microscopic studies was found to be 40-50 nm for the powder obtained after heating at 800 °C. Sintering at 1000 °C showed increase in grain size up to 150 nm. Our studies corroborate well with the presence of a martensitic transition in Ba₂TiO₄. The dielectric constant was found to be 40 for Ba₂TiO₄ (at 100 kHz) for samples sintered at 1000 °C. The dielectric loss obtained was low (0.06) at 100 kHz.