Combustion synthesis of nanostructured Ba0.8(Ca,Sr)0.2TiO3 ceramics and their dielectric properties

Ba-0.8(Ca,Sr)(0.2)TiO3 nanostructured ceramics were synthesized by a facile and glycine-assisted auto-combustion method using stable solid TiO2, which is better than other several chemical routes reported earlier involving expensive alkoxides, oxynitrates, or chlorides of titanium as the titanium sources. TGA/DSC analysis of precursor powder gives pre-information about formation of final product around 950 degrees C. XRD analysis confirms the formation of single-phase of the BCT and BST ceramics on sintering at 950 degrees C for 15 h. TEM image of the ceramics show nanocrystalline particles in the range 40-90 nm. Surface morphology indicates that the average grain size is in range of 55-140 nm and 45-120 nm for BCT and BST, respectively. Energy dispersive X-ray spectroscopy and X-ray photoelectron spectroscopy confirmed the purity and stoichiometry. The value of the dielectric constant of BST (epsilon(r) similar to 368) ceramic is higher than BCT (epsilon(r) similar to 255) at 100 Hz at 308 K. The dielectric constant BST is higher than BCT at all measured temperatures and frequency ranges due to higher crystallinity and high grain-boundary resistance, as confirmed by impedance analysis. (C) 2015 Elsevier Ltd and Techna Group S.r.l. All rights reserved.