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Detection of surface enhanced Raman scattering active hotspot using near field scanning optical microscopy

Mohammad Kamal Hossain

2024Scientific Reports14 citationsDOIOpen Access PDF

Abstract

Hotspots are high-intensity electromagnetic zones that form, for example, at the interstitials of plasmonic nanoaggregates, resulting in a considerable rise in the enhancement factor. However, it is inevitable to achieve specific nanometric geometry as well as a suitable technique to capture the details of hotspots. We report near-field surface-enhanced Raman scattering (SERS) spectroscopy of a well-defined gold nanoaggregate of a few nanoparticles adsorbed with a small number of target analytes. A spectrally and spatially resolved SERS measurement setup using an aperture near-field scanning optical microscope (a-NSOM) facilitated the direct observation of localized electromagnetic (EM) fields at the interstitials through SERS. Correlated optical image and corresponding nanometric geometry were captured through the home-built a-NSOM setup. Near-field SERS spectra were recorded at different sites of interest. It was evident that the interstitial positioned at the center of the tetramer provided the most intense Raman scattering, implying the possibility of a SERS-active hotspot therein. SERS bands of the spectrum of the Raman-active dye Rhodamine 6G recorded at the same hotspot coincided well with those reported so far. It was noteworthy that most of the SERS bands in such scenery got enhanced. Such direct observation with high spatial resolution is indispensable to understanding the origin of localized EM fields at "hotspots" and the EM enhancement factor in the SERS process. A finite-difference time-domain (FDTD) analysis was carried out to validate the results.

Topics & Concepts

Near-field scanning optical microscopeRaman scatteringMaterials scienceFinite-difference time-domain methodPlasmonRaman spectroscopyNear and far fieldOpticsMicroscopyScatteringRhodamine 6GOptical microscopeElectromagnetic fieldOptoelectronicsScanning electron microscopePhysicsFluorescenceQuantum mechanicsGold and Silver Nanoparticles Synthesis and ApplicationsNanoparticles: synthesis and applicationsPlasmonic and Surface Plasmon Research
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