还原态CeO₂(111)表面下氧空位有序排列的证据。

Evidence of subsurface oxygen vacancy ordering on reduced CeO2(111).

作者信息

Torbrügge Stefan, Reichling Michael, Ishiyama Atsushi, Morita Seizo, Custance Oscar

机构信息

Fachbereich Physik, Universität Osnabrück, Barbarastrasse 7, 49076 Osnabrück, Germany.

出版信息

Phys Rev Lett. 2007 Aug 3;99(5):056101. doi: 10.1103/PhysRevLett.99.056101. Epub 2007 Aug 1.

DOI:10.1103/PhysRevLett.99.056101

PMID:17930771

Abstract

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.

摘要

通过在80K下的原子分辨率动态力显微镜研究了轻度还原的CeO₂(111)表面的表面和次表面氧空位。通过将观察到的形貌特征与最近第一性原理计算预测的相应结构进行比较，明确识别了这两种类型的缺陷。通过结合两个同时采集的信号（形貌和悬臂振荡耗散的能量），我们能够明确地定位埋藏在第三表面原子层的次表面氧空位。我们报告了这些次表面缺陷局部有序的证据，这表明相邻次表面氧空位结构之间的微妙相互作用存在微妙的平衡。

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还原态CeO₂(111)表面下氧空位有序排列的证据。

Evidence of subsurface oxygen vacancy ordering on reduced CeO2(111).

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