Journal
SURFACE SCIENCE
Volume 602, Issue 6, Pages 1199-1206Publisher
ELSEVIER
DOI: 10.1016/j.susc.2008.01.013
Keywords
density functional calculations; DFT plus U; atomic structure; electronic structure; Zr-doped ceria
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The effects of Zr doping on the atomic and electronic properties of the ceria(l 1 1) surface are studied using first-principles density functional theory with the inclusion of on-site Coulomb interaction. The atomic structures, electronic structure, and the vacancy formation energies of the Zr-doped and undoped ceria(111) surfaces are compared. It is found that (i) Zr doping induces a severe distortion of the unreduced surface structure; (ii) at the reduced Zr-doped ceria(l 11) surface, the oxygen anions around the oxygen vacancy show much larger displacements than those on the pure CeO2(111) surface; (iii) an oxygen vacancy is more easily formed around the Zr dopant, and the reduction energy is lowered by about 0.5 eV,- (iv) the excess electrons left by the removed oxygen atom localize on the two Cc cations neighboring the vacancy and thus brings about the reduction of the two Ce4+ ions; and (v) the atomic structure modification induced by the Zr- doping plays L vital role in facilitating the reduction of the ceria-zirconia solid solution as compared to the pure ceria. (c) 2008 Elsevier B.V. All rights reserved.
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