Improved Sensitivity of Surface-Enhanced Raman Scattering with Gold Nanoparticles-Insulator-Metal Sandwich Layers on Flat Sapphire Substrate

Abstract: Surface-enhanced Raman scattering (SERS) as a high sensitivity analytical method for molecule detection has attracted much attention in recent research. In this work, we demonstrated an improved SERS substrate, which has the gold nanoparticles randomly distributed on a SiO2 interception layer over a gold thin film layer on the flat sapphire substrate (AuNP/SiO2/Au/Sapphire), over the dispersed gold nanoparticles on a silicon substrate (AuNP/Si), for detection of R6G (1 × 10−6 M) in a Raman microscope. The fabr… Show more

“…Plasmonic metallic nano-antennas, such as metallic nanoparticles over a metal thin film with ultrathin nanogaps [1][2][3] or closely spaced nanoparticles with tiny nanogaps [4,5], can confine light waves at subwavelength volumes in the nano-cavities formed in the gaps, while the electric field of the incident photons interacts with the free electrons that are oscillating in the metallic nanostructure. At the resonance frequency of the nano-cavity formed in the nano-antenna, a highly enhanced localised field is trapped by the gap mode.…”

Parabola-Like Gold Nanobowtie on Sapphire Substrate as Nano-Cavity

“…Plasmonic metallic nano-antennas, such as metallic nanoparticles over a metal thin film with ultrathin nanogaps [1][2][3] or closely spaced nanoparticles with tiny nanogaps [4,5], can confine light waves at subwavelength volumes in the nano-cavities formed in the gaps, while the electric field of the incident photons interacts with the free electrons that are oscillating in the metallic nanostructure. At the resonance frequency of the nano-cavity formed in the nano-antenna, a highly enhanced localised field is trapped by the gap mode.…”

Parabola-Like Gold Nanobowtie on Sapphire Substrate as Nano-Cavity