Davy Gérard scite author profile

We present an overview of "aluminium plasmonics," i.e. the study of both fundamental and practical aspects of surface plasmon excitations in aluminium structures, in particular thin films and metal nanoparticles. After a brief introduction noting both some recent and historical contributions to aluminium plasmonics, we discuss the optical properties of aluminium and aluminium nanostructures, and highlight a few selected studies in a host of areas ranging from fluorescence to data storage.

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Emission and excitation contributions to enhanced single molecule fluorescence by gold nanometric apertures

Wenger¹,

Gérard²,

Dintinger³

et al. 2008

Opt. Express

125

185

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We detail the role of single nanometric apertures milled in a gold film to enhance the fluorescence emission of Alexa Fluor 647 molecules. Combining fluorescence correlation spectroscopy and lifetime measurements, we determine the respective contributions of excitation and emission in the observed enhanced fluorescence. We characterize a broad range of nanoaperture diameters from 80 to 310 nm, and highlight the link between the fluorescence enhancement and the local photonic density of states. These results are of great interest to increase the effectiveness of fluorescence-based single molecule detection and to understand the interaction between a quantum emitter and a nanometric metal structure.

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Lattice modes and plasmonic linewidth engineering in gold and aluminum nanoparticle arrays

Khlopin¹,

Laux²,

Wardley³

et al. 2017

J. Opt. Soc. Am. B

174

143

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Crucial Role of the Adhesion Layer on the Plasmonic Fluorescence Enhancement

et al. 2009

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A nanoscale layer of chromium or titanium is commonly used in plasmonic nanoantennas to firmly adhere a gold film to a glass substrate, yet the influence of this layer on the antenna performance is often ignored. As a result, the need for the use of potentially better materials is not widely recognized. Using a single aperture milled in a gold film with 120 nm diameter as a nanobench for these investigations, we present the first experimental report of the strong dependence of the plasmonic enhancement of single-molecule fluorescence on the nature of the adhesion layer. By combining fluorescence correlation spectroscopy and fluorescence lifetime measurements, we show that this structure is very sensitive to the properties of the adhesion layer, and we detail the respective contributions of excitation and emission gains to the observed enhanced fluorescence. Any increase in the absorption losses due to the adhesion layer permittivity or thickness is shown to lower the gains in both excitation and emission, which we relate to a damping of the energy coupling at the nanoaperture. With this nanobench, we demonstrate the largest enhancement factor reported to date (25×) by using a TiO(2) adhesion layer. The experimental data are supported by numerical simulations and argue for a careful consideration of the adhesion layer while designing nanoantennas for high-efficiency single-molecule analysis.

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Davy Gérard

Aluminium plasmonics

Emission and excitation contributions to enhanced single molecule fluorescence by gold nanometric apertures

Lattice modes and plasmonic linewidth engineering in gold and aluminum nanoparticle arrays

Crucial Role of the Adhesion Layer on the Plasmonic Fluorescence Enhancement

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