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Electronic and vibrational surface-enhanced Raman scattering: from atomically defined Au(111) and (100) to roughened Au

Motoharu Inagaki, Taichi Isogai, Kenta Motobayashi, Kai‐Qiang Lin, Bin Ren, Katsuyoshi Ikeda

2020Chemical Science43 citationsDOIOpen Access PDF

Abstract

, where the background signals dominate. Herein, we present a rigorous comparison of normal Raman and surface-enhanced Raman spectra for atomically defined surfaces of Au(111) or Au(100) with and without molecular adsorbates. It is clearly shown that the origin of the background continuum is well explained by a local field enhancement of electronic Raman scattering in the conduction band of Au. In the low Raman-shift region, electronic Raman scattering gains additional intensity, probably due to a relaxation in the conservation of momentum rule through momentum transfer from surface roughness. Based on the mechanism for generation of the spectral background, we also present a practical method to extract electronic and vibrational information at the metal/dielectric interface from the measured raw spectra by reducing the thermal factor, the scattering efficiency factor and the Purcell factor over wide ranges in both the Stokes and the anti-Stokes branches. This method enables us not only to analyse concealed vibrational features in the low Raman-shift region but also to estimate more reliable local temperatures from surface-enhanced Raman spectra.

Topics & Concepts

Raman scatteringRaman spectroscopyMaterials scienceDielectricSurface (topology)MetalX-ray Raman scatteringInterface (matter)Molecular physicsAnalytical Chemistry (journal)ChemistryOptoelectronicsOpticsPhysicsComposite materialOrganic chemistryMetallurgyGeometryCapillary numberMathematicsCapillary actionGold and Silver Nanoparticles Synthesis and ApplicationsNanocluster Synthesis and ApplicationsQuantum Dots Synthesis And Properties
Electronic and vibrational surface-enhanced Raman scattering: from atomically defined Au(111) and (100) to roughened Au | Litcius