Ferroelectricity of lanthanum-modified lead titanate thin films obtained by a diol-based sol-gel method

Abstract

Lanthanum-modified lead titanate thin films have been prepared by a diol-based sol-gel method from precursor solutions with a growing excess of PbO. The films were crystallized with thermal treatments at 650 °C and heating rates of 10 °C min-1 and higher than 500 °C min-1 by direct insertion in a pre-heated furnace. The structure, microstructure, and composition of the films were studied by grazing-incidence X-ray diffraction, electron microscopies, and energy-dispersive X-ray spectroscopy. A 20 mole % excess of PbO must be included in the precursor solution in order to compensate PbO volatilization occurring during the thermal treatment and, thus, obtain single-phase perovskite-type structure films. Non-textured porous films were obtained when a 10 °C min-1 rate is used, whereas [001]/[100] oriented films without porosity were obtained when rapid heating was used. Dielectric permittivity, ac current density, hysteresis loops, and switching curves were measured in the films. Values of remanent polarization and coercive field are comparable to those reported for similar films. The effects on the ferroelectric properties of an electrical and a post-crystallization thermal treatments were characterised.