Formation of complex alkoxides to control layer structure in Sr-Bi-M-O (M: Ta or Nb) perovskite thin films

Abstract

Precursors for layer-structured perovskite thin films of Sr2Bi2Ta3O12.5 or SBT223 and Sr2Bi2Nb3O12.5 or SBN223 were prepared by the reactions of Sr-Bi (2:2) double methoxyethoxide and Ta or Nb methoxyethoxide, followed by partial hydrolysis. By several analytical techniques, such as 1H-, 13C- and 93Nb-NMR (nuclear magnetic resonance) and FT-IR (Fourier transform infrared) the molecular structure of the precursors was found to be similar to the layer-structured perovskite crystal sub-lattice. As a result, the onset of crystallization in the sol-gel derived SBT223 thin films was at a low temperature of 550 °C. By rapid thermal annealing in an oxygen atmosphere, the single-phase perovskite films exhibited preferred (1 1 7) orientation. In contrast to the SBT system, the observed number of the pseudo-perovskite layers of TaO6 octahedral units between Bi2O22+ layers in the SBT223 was three. Despite the elongation of the unit cell along the c-axis, 700 °C-heated SBT223 thin film did not exhibit a saturated hysteresis loop due to the small crystallite size. © 1998 Kluwer Academic Publishers.