Article ID | Journal | Published Year | Pages | File Type |
---|---|---|---|---|
1297358 | Solid State Ionics | 2011 | 4 Pages |
The chemomechanical properties and microstructural stability of nanocrystalline PrxCe1 − xO2 − δ solid solutions are studied as a function of temperature by in situ X-ray diffraction measurements under oxidizing conditions at P(O2) ~ 200 mbar. The chemical expansion coefficient of nanocrystalline powder specimens, operative at intermediate temperatures during which Pr4+ is reduced to Pr3+, is found to be similar to that obtained for coarse-grained PrxCe1 − xO2 − δ. This is contrary to reports regarding variation of physical and chemical properties with crystallite size. The thermal expansion coefficient, measured under conditions for which PrxCe1 − xO2 − δ is highly oxygen deficient, was found to be greater than that measured for fully oxidized PrxCe1 − xO2 − δ, with potential sources of these changes discussed. Moreover, the microstructure of nanocrystalline PrxCe1 − xO2 − δ is observed to have excellent stability at working temperatures below 800 °C, enabled by the inherent microstrain in the structure, highlighting the potential application of this material for solid state electrochemical devices.
Research highlights► The chemomechanical properties of PrxCe1 − xO2 − δ (PCO) were studied by in-situ XRD. ► The properties of nanocrystalline and coarse-grained PCO were similar. ► The thermal expansion showed different characteristics below 400 and above 1000 °C. ► The microstructure of the nanocrystalline powders was stable up to 800 °C in air.