Density effect of gold nanodisks on the SERS intensity for a highly sensitive detection of chemical molecules View Full Text


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Article Info

DATE

2015-10

AUTHORS

Jean-François Bryche, Raymond Gillibert, Grégory Barbillon, Mitradeep Sarkar, Anne-Lise Coutrot, Frédéric Hamouda, Abdelhanin Aassime, Julien Moreau, Marc Lamy de la Chapelle, Bernard Bartenlian, Michael Canva

ABSTRACT

Surface-enhanced Raman scattering (SERS) is a sensitive and widely used as spectroscopic technique for chemical and biological structure analysis. One of the keys to increase the sensitivity of SERS sensors is to use nanoparticles/nanostructures. Here, we report on the density effect of gold nanodisks on SERS intensity for a highly sensitive detection of chemical molecules. Various densities of gold nanodisks with a height of 30 nm on gold/glass substrate were fabricated by electron beam lithography in order to have a good uniformity and reproducibility. The evolution of the enhancement factor (EF) with nanodisk density was quantified and compared to numerical calculations. An EF as high as 2.6×107 was measured for the nanodisk with a diameter of 110 nm and a periodicity of 150 nm which corresponds to the highest density (42.2 %). More... »

PAGES

6601-6607

References to SciGraph publications

Identifiers

URI

http://scigraph.springernature.com/pub.10.1007/s10853-015-9203-x

DOI

http://dx.doi.org/10.1007/s10853-015-9203-x

DIMENSIONS

https://app.dimensions.ai/details/publication/pub.1018912052


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32 schema:description Surface-enhanced Raman scattering (SERS) is a sensitive and widely used as spectroscopic technique for chemical and biological structure analysis. One of the keys to increase the sensitivity of SERS sensors is to use nanoparticles/nanostructures. Here, we report on the density effect of gold nanodisks on SERS intensity for a highly sensitive detection of chemical molecules. Various densities of gold nanodisks with a height of 30 nm on gold/glass substrate were fabricated by electron beam lithography in order to have a good uniformity and reproducibility. The evolution of the enhancement factor (EF) with nanodisk density was quantified and compared to numerical calculations. An EF as high as 2.6×107 was measured for the nanodisk with a diameter of 110 nm and a periodicity of 150 nm which corresponds to the highest density (42.2 %).
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