Formation and Structural Properties of Ce-Zr Mixed Oxide Nanotubes

R.O. FUENTES; L.M. ACUÑA; M.G. ZIMICZ; D. LAMAS; J.G. SACANELL; A.G. LEYVA; R.T. BAKER

CHEMISTRY OF MATERIALS

AMER CHEMICAL SOC

Año: 2008 vol. 20 p. 7356 - 7363

0897-4756

In this work, ZrO2-CeO2 mixed oxide nanotubes with 50, 70, and 90 mol % CeO2 were synthesized following a very simple, high yield procedure, and their properties were characterized by synchrotron radiation XRD and by high resolution electron microscopy. The 50, 70, and 90 mol % CeO2 nanotubes exhibited the tetragonal phase (t´-form and t´´-form, P42/nmc space group) or the cubic phase (Fm3m space group). The nanotube walls were composed of nanoparticles with an average crystallite size ranging from 4.7 to 7.6 nm. Electron microscopy observations confirmed the size of these nanoparticles by direct observation. The SEM and TEM results showed that individual nanotubes were composed of a curved sheet of these nanoparticles. By SEM analysis, the nanotubes were found to have lengths of around 1-8 μm, diameters of around 500 nm, and wall thicknesses of 20 nm. Elemental analysis showed that Ce:Zr ratios appeared to be constant across space, suggesting compositional homogeneity in the samples. The 90 mol % CeO2 nanotubes exhibited the highest value of specific surface area, 101 m2 · g-1, which compared with about 28 m2 · g-1 for the other two compositions.