Journal
ADVANCED FUNCTIONAL MATERIALS
Volume 23, Issue 47, Pages 5861-5867Publisher
WILEY-V C H VERLAG GMBH
DOI: 10.1002/adfm.201300527
Keywords
nanocrystalline ceria; thin films; proton transport; space charge effects; mesoporosity
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The electrical conductivity of ceria thin films (epitaxial as well as dense and porous nanocrystalline) is investigated in dry and wet atmosphere at temperatures below 500 degrees C. For the epitaxial and the fully dense nanocrystalline samples, no significant differences can be observed between dry and wet conditions. In marked contrast, the nanocrystalline porous films obtained via spin coating exhibit a considerable enhancement of the protonic conductivity below 300 degrees C in wet atmosphere. This outcome reveals that the residual open mesoporosity plays the key role for the enhancement of the proton transport at low temperatures and not the high density of grain boundaries. The quantitative analysis of the various pathways, along which the proton transport can take place, indicates that the observed proton conduction can arise not only from bulk water adsorbed in the open pores but also from the space charge zones on the water side of the water/oxide interface.
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