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Bridging the Gap between SERS Enhancement and Reproducibility by Salt Aggregated Silver Nanoparticles

Sam Mehigan et al · SAGE Publishing · 2015

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Silver colloid based nanostructures are a very common means of achieving strong SERS signals. This is due to the hot spots that are formed in between the nanoparti‐ cles, as well as their ease of synthesis. They are frequent‐ ly dismissed, however, as irreproducible when compared to other metal nanostructures, due to the random nature of their formation in a solution. Silver nanoparticle substrates or carefully constructed arrays can be made to be uniform, but they often require a large amount of time to produce, as well as expensive equipment. We will show that by making some adjustments to the experimen‐ tal setup, silver colloids that have been aggregated to form large flakes can offer both the enhancement factor and reproducibility of many other more expensive and complicated SERS techniques. Silver colloids aggregated into large flake-like structures have been investigated for their surface-enhanced Raman spectroscopy (SERS) properties. These flakes have been imaged using scanning electron microscopy (SEM) and have also been characterized using UV/Vis spectroscopy. They have been highlighted as a cheap and simple means or achieving large Raman enhancement with strong reproducibility, especially when compared to many common methods of substrate fabrication that are more difficult to fabricate. Detection of Rhodamine 6G at a concentration of 5x10-13M has been achieved, as well as xanthopterin at a concentration of 5x10-9M.

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APA 7

al, S. M. E. (2015). Bridging the Gap between SERS Enhancement and Reproducibility by Salt Aggregated Silver Nanoparticles. https://doi.org/10.5772/60125

MLA

al, Sam Mehigan et. "Bridging the Gap between SERS Enhancement and Reproducibility by Salt Aggregated Silver Nanoparticles." 2015. https://doi.org/10.5772/60125.

Chicago

al, Sam Mehigan et. 2015. "Bridging the Gap between SERS Enhancement and Reproducibility by Salt Aggregated Silver Nanoparticles.". https://doi.org/10.5772/60125.

Harvard

al, S. M. E. 2015, Bridging the Gap between SERS Enhancement and Reproducibility by Salt Aggregated Silver Nanoparticles, SAGE Publishing, available at: https://doi.org/10.5772/60125 [Accessed 2 Jul. 2026].

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Título
Bridging the Gap between SERS Enhancement and Reproducibility by Salt Aggregated Silver Nanoparticles
Autor / colaboradores
Sam Mehigan et al
Editorial
SAGE Publishing
Año de publicación
2015
ISSN
1847-9804
ISSN
1847-9804
Idioma
eng

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