The in-plane band bending effect around Au islands grown on the Bi2Te3 topological insulator

IF 1.8 4区化学 Q3 CHEMISTRY, PHYSICAL Surface Science Pub Date : 2024-07-01 Epub Date: 2024-03-30 DOI:10.1016/j.susc.2024.122490

Andrii Naumov , Maciej Chrobak , Artur Trembułowicz , Michał Jurczyszyn , Krzysztof Maćkosz , Joanna Stępień , Marcin Sikora , Marek Przybylski

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Abstract

We have utilized scanning tunneling microscopy and spectroscopy (STM/STS) as well as x-ray linear dichroism (XLD) along with DFT calculations to determine the structural and electronic changes of the gold-covered nonstoichiometric Bi₂Te₃ single crystal surface. XLD spectra supported by a numerical simulation of several configurations show that at low coverage (< 1.0 ML) gold forms insoluble islands, while for higher coverage (> 1.0 ML) mixing at the Au/Bi₂Te₃ interface may occur. For local electronic characterization around stand-alone Au islands, small coverages were selected for which the inter-island distance is large enough to avoid overlapping island-wide effects. STS spectra reveal that for small coverages the topological surface states (TSS) are preserved. However, at a distance of about 10 nm from an Au island, by approaching the islands, the electronic structure gradually changes. This is manifested by a gradual shift of the STS spectra to more negative energies with respect to the pristine surface. The results are discussed in view of possible Au-Bi₂Te₃ mixing, a local charge transfer and the presence of in-plane downward band bending.

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生长在 Bi2Te3 拓扑绝缘体上的金岛周围的面带弯曲效应

我们利用扫描隧道显微镜和光谱学（STM/STS）以及 X 射线线性二色性（XLD）和 DFT 计算来确定金覆盖的非全原子 Bi2Te3 单晶表面的结构和电子变化。通过对几种配置进行数值模拟而得到的 XLD 光谱显示，在低覆盖率（1.0 ML）条件下，金会形成不溶解的孤岛，而在较高覆盖率（1.0 ML）条件下，金/Bi2Te3 界面可能会发生混合。为了对独立金岛周围的局部电子特性进行分析，我们选择了较小的覆盖率，其岛间距离足够大，以避免全岛效应的重叠。STS 光谱显示，在较小的覆盖范围内，拓扑表面态 (TSS) 得以保留。然而，在距离金岛约 10 nm 时，通过接近金岛，电子结构会逐渐发生变化。与原始表面相比，这表现为 STS 光谱逐渐转向更负的能量。我们从可能的 Au-Bi2Te3 混合、局部电荷转移和存在面内向下带弯曲的角度讨论了这些结果。

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来源期刊

Surface Science 化学-物理：凝聚态物理

CiteScore

3.30

自引率

5.30%

发文量

137

审稿时长

25 days

期刊介绍： Surface Science is devoted to elucidating the fundamental aspects of chemistry and physics occurring at a wide range of surfaces and interfaces and to disseminating this knowledge fast. The journal welcomes a broad spectrum of topics, including but not limited to: • model systems (e.g. in Ultra High Vacuum) under well-controlled reactive conditions • nanoscale science and engineering, including manipulation of matter at the atomic/molecular scale and assembly phenomena • reactivity of surfaces as related to various applied areas including heterogeneous catalysis, chemistry at electrified interfaces, and semiconductors functionalization • phenomena at interfaces relevant to energy storage and conversion, and fuels production and utilization • surface reactivity for environmental protection and pollution remediation • interactions at surfaces of soft matter, including polymers and biomaterials. Both experimental and theoretical work, including modeling, is within the scope of the journal. Work published in Surface Science reaches a wide readership, from chemistry and physics to biology and materials science and engineering, providing an excellent forum for cross-fertilization of ideas and broad dissemination of scientific discoveries.