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Growth of single- and bilayer ZnO on Au(111) and interaction with copper

机译：Growth of single- and bilayer ZnO on au(111) and interaction with copper

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The stoichiometric single- and bilayer ZnO(0001) have been prepared by reactive deposition of Zn on Au(111) and studied in detail with X-ray photoelectron spectroscopy, scanning tunneling microscopy, and density functional theory calculations. Both single- and bilayer ZnO(0001) adopt a planar, graphite-like structure similar to freestanding ZnO(0001) due to the weak van der Waals interactions dominating their adhesion with the Au(111) substrate. At higher temperature, the single-layer ZnO(0001) converts gradually to bilayer ZnO(0001) due to the twice stronger interaction between two ZnO layers than the interfacial adhesion of ZnO with Au substrate. It is found that Cu atoms on the surface of bilayer ZnO(0001) are mobile with a diffusion barrier of 0.31 eV and likely to agglomerate and form nanosized particles at low coverages; while Cu atoms tend to penetrate a single layer of ZnO(0001) with a barrier of 0.10 eV, resulting in a Cu free surface.

机译：通过在Au（111）上反应性沉积Zn制备化学计量的单层和双层ZnO（0001），并通过X射线光电子能谱，扫描隧道显微镜和密度泛函理论计算进行了详细研究。单层和双层ZnO（0001）均采用类似于独立式ZnO（0001）的平面石墨状结构，这是由于弱的范德华相互作用决定了它们与Au（111）基板的粘附性。在较高温度下，单层ZnO（0001）逐渐转变为双层ZnO（0001），这是因为两个ZnO层之间的相互作用比ZnO与Au基底的界面粘合力强两倍。已发现双层ZnO（0001）表面的Cu原子可移动，扩散势垒为0.31 eV，并可能在低覆盖率下团聚并形成纳米级颗粒。而Cu原子倾向于以0.10 eV的势垒穿透ZnO（0001）的单层，从而形成无Cu的表面。

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Deng, Xingyi; Yao, Kim; Sun, Keju; Li, Wei-Xue; Lee, Junseok; Matranga, Christopher;
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年度 2013
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正文语种英语
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Growth of single- and bilayer ZnO on Au(111) and interaction with copper

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