Synchrotron X-ray diffraction study of the tetragonal-cubic phase boundary of nanocrystalline ZrO2-CeO2 synthesised by a gel-combustion process

D.G. LAMAS; R.O. FUENTES; I.O. FÁBREGAS; M.E. FERNÁNDEZ DE RAPP; G.E. LASCALEA; J.R. CASANOVA; N.E. WALSÖE DE RECA; A.F. CRAIEVICH

JOURNAL OF APPLIED CRYSTALLOGRAPHY

Blackwell Publishing

Año: 2005 p. 867 - 873

0021-8898

<!--[endif]-->The crystal structure of a number of nanocrystalline ZrO2-CeO2 solid solutions, synthesised by a pH-controlled nitrate-glycine gel-combustion process, were studied. By using a synchrotron X-ray diffractometer, small peaks of the tetragonal phase, which correspond to forbidden reflections in the case of a perfect cubic fluorite structure, were clearly detected. By monitoring the most intense of these reflections, 112, as a function of the CeO2 content, the tetragonal-cubic phase boundary was found to be at (85±5) mol% CeO2. For a CeO2 content up to 68 mol%, a tetragonal phase with c/a > 1 was detected, whereas, between 68 and 85 mol% CeO2, the existence of a tetragonal phase with c/a = 1 and oxygen anions displaced from their ideal positions in the cubic phase was verified. Finally, solid solutions with higher CeO2 contents exhibit the cubic fluorite-type phase.<!--[endif]-->The crystal structure of a number of nanocrystalline ZrO2-CeO2 solid solutions, synthesised by a pH-controlled nitrate-glycine gel-combustion process, were studied. By using a synchrotron X-ray diffractometer, small peaks of the tetragonal phase, which correspond to forbidden reflections in the case of a perfect cubic fluorite structure, were clearly detected. By monitoring the most intense of these reflections, 112, as a function of the CeO2 content, the tetragonal-cubic phase boundary was found to be at (85±5) mol% CeO2. For a CeO2 content up to 68 mol%, a tetragonal phase with c/a > 1 was detected, whereas, between 68 and 85 mol% CeO2, the existence of a tetragonal phase with c/a = 1 and oxygen anions displaced from their ideal positions in the cubic phase was verified. Finally, solid solutions with higher CeO2 contents exhibit the cubic fluorite-type phase.