Oxygen-induced surface reconstructions on curved Ag(111)

Journal of Vacuum Science and Technology Pub Date : 2021-07-13 DOI:10.1116/6.0001167

Marie E. Turano, L. Juurlink, Maxwell Z. Gillum, E. Jamka, G. Hildebrandt, Faith Lewis, D. R. Killelea

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引用次数: 3

Abstract

The adsorption of oxygen and the resultant O-induced surface reconstructions are key components in heterogeneously catalyzed reactions on silver metal surfaces. O uptake and reconstructions on planar Ag(111) are well-characterized, and in this paper, we show that curved Ag(111) features similar O adsorption and reconstructions. Through a systematic scanning tunneling microscope study of a curved Ag(111) single crystal exposed to gas-phase atomic oxygen at a temperature of 525 K, we observed O a d and, upon higher coverages, saw p( 4 × 4) and p( 4 × 5 √ 3) reconstructions form on both the A-type and B-type steps. Exposures at low temperatures (< 500 K) resulted in the formation of subsurface oxygen and the appearance of a stripe pattern and amorphous phase on the surface. Upon heating, stable surface reconstructions were formed. Although the geometric arrangement of atoms along the steps were different, A-type and B-type steps formed the same reconstructions. In addition, the B-type steps also saw the formation of several different features atop the oxygen reconstructions.

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弯曲Ag(111)表面的氧诱导重构

氧的吸附和由此产生的氧诱导表面重构是银金属表面非均相催化反应的关键组成部分。Ag(111)在平面上的O吸附和重构得到了很好的表征，在本文中，我们发现弯曲Ag(111)具有类似的O吸附和重构。通过系统扫描隧道显微镜对Ag(111)单晶在525 K下暴露于气相原子氧中，我们观察到O a d，并且在更高的覆盖率下，在a型和b型台阶上都形成了p(4 × 4)和p(4 × 5√3)重构。低温(< 500 K)暴露导致表面下氧的形成，表面出现条纹图案和非晶态相。加热后，形成稳定的表面重构。虽然原子沿台阶的几何排列不同，但a型和b型阶梯形成了相同的重建。此外，b型台阶在氧重建的顶部也形成了几个不同的特征。

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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Journal of Vacuum Science and Technology

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