Plasmonic metasurfaces for probing two-dimensional materials

PROCEEDINGS OF INTERNATIONAL CONGRESS ON GRAPHENE, 2D MATERIALS AND APPLICATIONS (2D MATERIALS 2019) Pub Date : 2021-06-22 DOI:10.1063/5.0054931

G. Tselikov, A. Arsenin, V. Volkov

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Abstract

Two-dimensional (2D) materials providing unique optical and electronic properties have been a subject of extensive research over the last decade. However, conventional optical methods such as Raman, photoluminescence, and absorption spectroscopy have obstacles in gathering dynamic characteristics due to the difficulty of signal collection from atomically thin layers. One of the ways to improve optical properties of 2D materials consists in coupling them with specifically tailored single resonant optical nanocavities and arrays of them, in the form of metasurfaces. Plasmonic metamaterials enabling manipulations of light phase in 2D plane are of particular importance as they could provide breakthrough tools for studying properties of planar structures and functional interfaces, including newly emerging 2D materials and van der Waals heterostructures that promise appealing applications in electronics, optics, photochemistry, biomedicine, etc. Here we demonstrate the optical properties of phase-responsive plasmonic metasurfaces and show its potential for studying surface-enhanced Raman scattering over single-layered materials.

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探测二维材料的等离子体超表面

二维(2D)材料具有独特的光学和电子特性，在过去十年中一直是广泛研究的主题。然而，传统的光学方法，如拉曼、光致发光和吸收光谱，由于难以从原子薄层收集信号，在收集动态特性方面存在障碍。改善二维材料光学特性的方法之一是将它们与专门定制的单共振光学纳米腔和它们的阵列耦合在一起，以超表面的形式。等离子体超材料能够在二维平面上操纵光相，因为它们可以为研究平面结构和功能界面的性质提供突破性的工具，包括新兴的二维材料和范德华异质结构，它们有望在电子、光学、光化学、生物医学等领域得到吸引人的应用。在这里，我们展示了相位响应等离子体超表面的光学特性，并展示了它在单层材料表面增强拉曼散射研究中的潜力。

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PROCEEDINGS OF INTERNATIONAL CONGRESS ON GRAPHENE, 2D MATERIALS AND APPLICATIONS (2D MATERIALS 2019)

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