Plasmonic metasurfaces for probing two-dimensional materials

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 du...

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Published inAIP conference proceedings Vol. 2359; no. 1
Main Authors Tselikov, G. I., Arsenin, A. V., Volkov, V. S.
Format Journal Article Conference Proceeding
LanguageEnglish
Published Melville American Institute of Physics 22.06.2021
Subjects
Dynamic characteristics
Heterostructures
Layered materials
Metamaterials
Metasurfaces
Optical properties
Optics
Photochemistry
Photoluminescence
Planar structures
Plasmonics
Raman spectra
Thin films
Two dimensional materials
Online AccessGet full text
ISSN0094-243X
1551-7616
DOI10.1063/5.0054931

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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.
AbstractList 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.
Author Volkov, V. S.
Tselikov, G. I.
Arsenin, A. V.
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Nikitin, Alexey
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Snippet Two-dimensional (2D) materials providing unique optical and electronic properties have been a subject of extensive research over the last decade. However,...
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SubjectTerms Dynamic characteristics
Heterostructures
Layered materials
Metamaterials
Metasurfaces
Optical properties
Optics
Photochemistry
Photoluminescence
Planar structures
Plasmonics
Raman spectra
Thin films
Two dimensional materials
Title Plasmonic metasurfaces for probing two-dimensional materials
URI http://dx.doi.org/10.1063/5.0054931
https://www.proquest.com/docview/2543883268
Volume 2359
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