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Plasma amplifiers: multiscale light-enhanced uniform SERS composite substrates for breaking through resonance limitations.

Jinqiao LuFen YangZhen WangJie HuangShangzhong JinPei Liang
Published in: Physical chemistry chemical physics : PCCP (2024)
A phenomenon known as plasmon resonance constitutes a unique optical effect that can induce an enhancement in localized electromagnetic fields, resulting in a substantial increase in the electromagnetic field intensity surrounding metallic nanostructures. In this work, the coupling effect of excitation of surface plasmon polaritons and local surface plasmons in nanoparticles is deeply studied under the background of nanoparticles/one-dimension grating composite structures through grating matching. By employing finite-difference time-domain simulations as our methodological approach, we discern gratings with a periodicity of 1.5 μm support surface plasmon bound states between the gratings. Furthermore, the modulation of SPs along the vertical sidewalls of the grating due to standing wave effects exhibits oscillatory behavior with varying grating heights. Experimental results obtained from the nanoparticle/grating composite SERS substrate validate theoretical predictions, demonstrating higher enhanced Raman signals at 633 nm compared to 532 nm. Remarkably, this structure exhibits good performance, with R6G detection sensitivity down to concentrations as low as 10 -10 M and mapping achieving a relative standard deviation of 7.79%, underscoring its uniformity and capability of electromagnetic field enhancement.
Keyphrases
  • energy transfer
  • high frequency
  • high resolution
  • label free
  • gold nanoparticles
  • photodynamic therapy
  • quantum dots
  • raman spectroscopy
  • molecular dynamics
  • mass spectrometry
  • ionic liquid