氧气
材料科学
空位缺陷
物理
凝聚态物理
量子力学
作者
Stefan Torbrügge,Michael Reichling,Atsushi Ishiyama,Seizo Morita,Óscar Custance
标识
DOI:10.1103/physrevlett.99.056101
摘要
Surface and subsurface oxygen vacancies on the slightly reduced CeO(2)(111) surface have been studied by atomic resolution dynamic force microscopy at 80 K. Both types of defect are clearly identified by the comparison of the observed topographic features with the corresponding structures predicted from recent first-principles calculations. By combining two simultaneously acquired signals (the topography and the energy dissipated from the cantilever oscillation), we are able to unambiguously locate subsurface oxygen vacancies buried at the third surface atomic layer. We report evidence of local ordering of these subsurface defects that suggests the existence of a delicate balance between subtle interactions among adjacent subsurface oxygen vacancy structures.
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