Aluminum as a competitive plasmonic material for the entire electromagnetic spectrum: A review

Q3 Physics and Astronomy

Results in Optics Pub Date : 2024-11-21 DOI:10.1016/j.rio.2024.100760

S. Shukla , P. Arora

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Abstract

With plasmonics taking the lead in most sensing applications, research has geared towards alternative, cost-effective materials that can strive for large-scale production along with CMOS compatibility. Aluminum (Al) is among those competitive plasmonic metal films that have seen unprecedented research in recent years. The ability to exhibit appreciable plasmonic response in the entire electromagnetic spectrum has been reported along with improved performance sensing parameters. This review article covers different aspects of Al-based nanostructures, nano-films, and nano-particles in different wavelength regimes, displaying efficient plasmonic sensing for myriad purposes. A comprehensive review is conducted to explore the diverse and exciting possibilities emerging from Al-based tunable plasmons at the metal-dielectric interface. Al has already entered many applications, from on-chip plasmonic integration to point-of-care diagnosis. Thus, the application of Al in wide applications (heath, fluorescence, image-filtering techniques, and many more) is discussed here, along with the corresponding limitations and future scope associated with them.

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铝作为一种具有竞争力的等离子材料，适用于整个电磁波谱：综述

随着等离子体技术在大多数传感应用中占据领先地位，研究工作已转向可大规模生产并与 CMOS 兼容的具有成本效益的替代材料。铝（Al）是近年来研究力度空前的具有竞争力的等离子金属膜之一。据报道，铝在整个电磁频谱中都能表现出明显的等离子响应，同时还能改善传感参数的性能。这篇综述文章涵盖了不同波长范围内铝基纳米结构、纳米薄膜和纳米颗粒的各个方面，展示了用于各种用途的高效等离子传感技术。文章通过全面综述，探讨了铝基可调等离子体在金属-电介质界面上出现的各种令人兴奋的可能性。从芯片上的等离子集成到护理点诊断，铝已经进入了许多应用领域。因此，本文讨论了铝的广泛应用（健康、荧光、图像过滤技术等），以及与之相关的相应限制和未来发展空间。

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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