Adsorbed xenon atoms as local surface structure probes: The initial growth of thin Ag films on Ru(001)

A. Jablonski , S. Eder, K. Wandelt
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引用次数: 3

Abstract

Photoemission of Adsorbed Xenon (PAX) is shown to provide valuable information on the initial growth mode of a thin, 0.2 monolayer silver film on Ru(001) at 50 K on an atomic scale. By taking advantage of the fact that the Xe(5p32,12) UPS spectra of adsorbed xenon allow a clear distinction between Xe atoms being adsorbed on Ag sites, on Ru sites, and at mixed Ag-Ru sites, a model is proposed, according to which the amount of 0.2 ML silver is distributed on the Ru(001) in the form of small islands without alloying. From the 5p UPS intensities of the various Xe adsorption states the radius as well as the number of these islands (assumed to be circular) could be calculated. The number of these islands agrees remarkably well with the number of defects on the original Ru(001) substrate, which was again “titrated” by means of xenon adsorption. These defects are therefore regarded as nucleation centers for the incipient Ag island formation. This model is supported by accompanying AES, LEED, Xe desorption and work function measurements.

吸附氙原子作为局部表面结构探针:Ru(001)上银薄膜的初始生长
吸附氙(PAX)的光发射显示了在50 K原子尺度上Ru(001)上薄的0.2单层银膜的初始生长模式的有价值的信息。利用吸附氙的Xe(5p32,12) UPS光谱可以清楚地区分Xe原子吸附在Ag位点、Ru位点和Ag-Ru混合位点上,提出了一个模型,根据该模型,0.2 ML的银以小岛的形式分布在Ru(001)上,没有合金化。根据各种Xe吸附状态的5p UPS强度,可以计算出这些岛(假设为圆形)的半径和数量。这些岛的数量与原始Ru(001)衬底上的缺陷数量非常吻合,原始Ru(001)衬底再次通过氙吸附“滴定”。因此,这些缺陷被认为是早期银岛形成的成核中心。该模型由附带的AES, LEED, Xe解吸和功函数测量支持。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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