Vacancy association energy in scandium doped ceria: 45Sc MAS NMR and 2D exchange spectroscopy study

Oxygen vacancy exchange between Sc ions in 0.5% Sc-doped ceria Sc0.005Ce0.995O0.9975 is investigated by means of 2D exchange spectroscopy (EXSY). 45Sc NMR spectrum of Sc-doped ceria contains two peaks—one corresponding to Sc ions coupled with an oxygen vacancy (Sc-7), and the other corresponding to...

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Bibliographic Details
Published in:Solid state ionics 2014-12, Vol.267, p.49-53
Main Authors: Põder, Reio, Subbi, Juhan, Kooskora, Helgi, Heinmaa, Ivo
Format: Article
Language:English
Subjects:
Ceria
EXSY
Oxygen dynamics
Scandium
Solid state NMR
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Summary:Oxygen vacancy exchange between Sc ions in 0.5% Sc-doped ceria Sc0.005Ce0.995O0.9975 is investigated by means of 2D exchange spectroscopy (EXSY). 45Sc NMR spectrum of Sc-doped ceria contains two peaks—one corresponding to Sc ions coupled with an oxygen vacancy (Sc-7), and the other corresponding to Sc ions in a regular lattice site surrounded by eight oxygen ions (Sc-8). The vacancy exchange between these two Sc sites generates the cross-peaks in the EXSY spectrum. Relative amplitudes of the cross-peaks provide direct values of the exchange frequency at a given temperature. Arrhenius analysis of the exchange frequency gives the activation energy Ea=1.18eV for the vacancy hopping between Sc sites. Most of this energy barrier is due to association energy which binds the vacancy to Sc3+. Large dopant–vacancy association energy in Sc doped ceria is demonstrated by 45Sc NMR spectrum of La/Sc doubly doped sample, ScxLaxCe1−2xO2−x, x=0.005, where the only line of Sc-7 site shows that all vacancies are bound by Sc3+ ions. •Vacancy exchange in Sc-doped ceria is studied by 2D NMR EXSY spectra.•45Sc NMR shows large vacancy association energy in Sc doped ceria.•In nano-powder of ScDC all the vacancies are bound by the surface of the grains.
ISSN:0167-2738
1872-7689
DOI:10.1016/j.ssi.2014.09.010