Journal
PLASMONICS
Volume 16, Issue 5, Pages 1613-1621Publisher
SPRINGER
DOI: 10.1007/s11468-021-01405-w
Keywords
Localized surface plasmon resonance; Gold nanowires; 2D materials; Transition metal dichalcogenides
Funding
- program FINCOME Centre National pour la Recherche Scientifique et Technique, Morocco
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The biggest challenge in smart city technology is providing autonomous energy, with metamaterials serving as an important research area for creating unique properties and functions. By combining simple layered surfaces and appropriate material selection, new types of solar cells can be manufactured to work across a wide frequency range.
One of the biggest challenges in relation to the modernistic vision of smart city technology is to provide confident autonomous energy, notably in terms of power storage. If you want to change an existing lifestyle, you cannot ignore the basic concepts collected from basic physics. The subject of Metamaterials stands for an important research area that can be explored and used to come up with unparalleled ideas about the properties and functions that are completely absent from natural materials. In contrast to other bold technologies, combining a simple layered surface with appropriate material selection makes it possible to pattern and manufacture new types of solar cells that work in a wide frequency range. In this article, we propose a simple method to boost the coupling interaction between metallic gold nanowires with multiple MoS2 layers. The innovation of this work is that the thickness layer changes have great stability in the influence of the absorption performance and electric field distribution in the visible light and near-infrared spectra. Therefore, this new design can be seen as very important in many fields from sensing to solar cell applications.
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