Nanomaterials (Nov 2020)

Surface Enhanced Raman Scattering on Regular Arrays of Gold Nanostructures: Impact of Long-Range Interactions and the Surrounding Medium

  • Iman Ragheb,
  • Macilia Braïk,
  • Stéphanie Lau-Truong,
  • Abderrahmane Belkhir,
  • Anna Rumyantseva,
  • Sergei Kostcheev,
  • Pierre-Michel Adam,
  • Alexandre Chevillot-Biraud,
  • Georges Lévi,
  • Jean Aubard,
  • Leïla Boubekeur-Lecaque,
  • Nordin Félidj

DOI
https://doi.org/10.3390/nano10112201
Journal volume & issue
Vol. 10, no. 11
p. 2201

Abstract

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Long-range interaction in regular metallic nanostructure arrays can provide the possibility to manipulate their optical properties, governed by the excitation of localized surface plasmon (LSP) resonances. When assembling the nanoparticles in an array, interactions between nanoparticles can result in a strong electromagnetic coupling for specific grating constants. Such a grating effect leads to narrow LSP peaks due to the emergence of new radiative orders in the plane of the substrate, and thus, an important improvement of the intensity of the local electric field. In this work, we report on the optical study of LSP modes supported by square arrays of gold nanodiscs deposited on an indium tin oxyde (ITO) coated glass substrate, and its impact on the surface enhanced Raman scattering (SERS) of a molecular adsorbate, the mercapto benzoic acid (4-MBA). We estimated the Raman gain of these molecules, by varying the grating constant and the refractive index of the surrounding medium of the superstrate, from an asymmetric medium (air) to a symmetric one (oil). We show that the Raman gain can be improved with one order of magnitude in a symmetric medium compared to SERS experiments in air, by considering the appropriate grating constant. Our experimental results are supported by FDTD calculations, and confirm the importance of the grating effect in the design of SERS substrates.

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