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Surface-Enhanced Raman Scattering (SERS) Studies of Disc-on-Pillar (DOP) Arrays: Contrasting Enhancement Factor with Analytical Performance. | LitMetric

AI Article Synopsis

  • - The text discusses advancements in nanomachining techniques that have enhanced the development of plasmonic sensing devices, specifically for surface-enhanced Raman scattering (SERS) applications, by designing nano-arrayed structures with optimized interparticle distances.
  • - A study evaluates the improvement in analytical performance of silver/silicon dioxide/silicon disc-on-pillar arrays with varying pitches, comparing experimental results with simulations to optimize the array dimensions.
  • - The research found that densely packed arrays (160 nm pitch) provided better quantitation capabilities, even though the highest substrate enhancement factor was observed at a larger pitch (520 nm), highlighting the complexities of optimizing SERS substrates for reliable analysis.

Article Abstract

The use of nanomachining methods capable of reproducible construction of nano-arrayed devices have revolutionized the field of plasmonic sensing by the introduction of a diversity of rationally engineered designs. Significant strides have been made to fabricate plasmonic platforms with tailored interparticle gaps to improve their performance for surface-enhanced Raman scattering (SERS) applications. Over time, a dichotomy has emerged in the implementation of SERS for analytical applications, the construction of substrates, optimization of interparticle spacing as a means to optimize electromagnetic field enhancement at the localized surface plasmon level, and the substrate sensitivity over extended areas to achieve quantitative performance. This work assessed the enhancement factor of plasmonic Ag/SiO/Si disc-on-pillar (DOP) arrays of variable pitch with its analytical performance for quantitative applications. Experimental data were compared with those from finite-difference time-domain (FDTD) simulations used in the optimization of the array dimensions. A self-assembled monolayer (SAM) of benzenethiol rendered highly reproducible signals (RSD ∼4-10%) and SERS substrate enhancement factor (SSEF) values in the orders of 10-10 for all pitches. Spectra corresponding to rhodamine 6G (R6G) and 4-aminobenzoic acid demonstrated the advantages of using the more densely packed DOP arrays with a 160 nm pitch (gap = 40 nm) for quantitation in spite of the strongest SSEF was attained for a pitch of 520 nm corresponding to a 400 nm gap.

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Source
http://dx.doi.org/10.1177/0003702819846503DOI Listing

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