Nanosized powders of cerium dioxide with controlled physical properties were prepared by the precipitation technique using ammonium hydroxide or oxalic acid as precipitating agent. The calcined precursors were studied by nitrogen adsorption to determine the specific surface area, X-ray diffraction for structural phase characterization and crystallite size determination, Fourier transform infrared spectroscopy and by laser scattering for particle size distribution. The morphology of powder particles was observed by scanning electron microscopy. It is shown that both precipitating materials may be used for the preparation of nanocrystalline powders (< 10 nm) with high values of specific surface area (> 90 m².g-1). The observed differences between powders prepared from hydroxides or oxalates rely on the distribution of particle sizes, on the morphology of the agglomerated particles, and on the densification behavior. Impedance spectroscopy experiments were carried out in the 5 Hz-13 MHz frequency range under controlled partial pressure of oxygen from 10-6 to 1 atm. The analysis of these results allowed for the determination of the charge carriers responsible for the electrical transport in the ceria sintered pellets.
ceria; nanocrystalline powders; characterization techniques; electrical conductivity
