Abstract

Thin films of SrTiO3 were grown by pulsed laser deposition on Si and SiO2/Si at 35 and 650°C in a 50 mTorr oxygen discharge (300 V). The effect of introducing a SiO2 buffer layer between the Si substrate and the complex oxide on the crystallinity and microstructure of the SrTiO3 films was investigated at both deposition temperatures. All films grown at 35°C were amorphous. Surface morphology examination by scanning electron microscopy (SEM) showed that these films were continuous and homogeneous when grown on Si, but were porous and had low-density noninterconnecting lines when grown on SiO2/Si. Films prepared at 650°C were polycrystalline and their x-ray-diffraction patterns exhibited peaks corresponding to the (001), (110), (111), and (002) reflections of the SrTiO3 cubic phase (a = 3.904 Å). The films deposited on SiO2/Si were found to grow with a high degree of preferred orientation along the (110) direction. SEM studies on the surface morphology of the films grown at high temperature showed the presence of a "rosette" structure. The mean size of the rosettes was ?80 nm in 40-nm-thick films grown on Si and ?100 nm in films of similar thickness grown on SiO2/Si. Additional atomic force microscopy studies on the topography of these samples indicated that the rosettes were constituted by ?35-nm-diam grains. Typical peak-to-valley surface roughness of these films was 0.5-2 nm. © 1996 American Institute of Physics.