Journal ArticleDOI
Anomalously intense Raman spectra of pyridine at a silver electrode
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Anomalously intense Raman spectra of pyridine at a silver electrode was reported in this article, where the Raman spectrum was shown to have a high Raman intensity.Abstract:
Journal of the American Chemical Society is published by the American Chemical Society. 1155 Sixteenth Street N.W., Washington, DC 20036 Anomalously intense Raman spectra of pyridine at a silver electrode M. Grant Albrecht, and J. Alan Creighton J. Am. Chem. Soc., 1977, 99 (15), 5215-5217• DOI: 10.1021/ja00457a071 • Publication Date (Web): 01 May 2002 Downloaded from http://pubs.acs.org on March 5, 2009read more
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Fiber-optic SERS sensor with optimized geometry
Andrea Lucotti,Giuseppe Zerbi +1 more
TL;DR: In this article, a fiber-optic surface enhanced Raman scattering (SERS) sensor has been developed and built, which uses an "optrode" configuration in which a single optical fiber transmits both the exciting laser radiation and the SERS signal from the molecules adsorbed onto the active substrate.
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Characterization of nanostructured plasmonic surfaces with second harmonic generation.
TL;DR: The influence of hot spots on the SHG response of nanostructured metal surfaces is discussed on both the microscopic and macroscopic levels.
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SERS-based detection in an optofluidic ring resonator platform.
TL;DR: The measured Raman signal in this case is likely generated by only a few hundred R6G molecules, which foreshadows the development of a SERS-based lab-on-a-chip bio/chemical sensor capable of detecting a low number of target analyte molecules.
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SERS-based detection of biomolecules
TL;DR: In this paper, a review of surface enhanced Raman spectroscopy (SERS) as an analytical tool in biomolecule detection is presented, where the molecular speci- ficity of SERS is combined with metallic nanoparticles as sensor platform, which enhances the SERS intensity by several orders of magnitude.
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Reproducible Deep-UV SERRS on Aluminum Nanovoids.
TL;DR: This work adopts a modified template stripping method utilizing a soluble template and self-assembled polymer spheres to create nanopatterned aluminum films and presents a novel straightforward scalable route to fabricate aluminum nanovoids for reproducible SERS in the deep-UV without the need of expensive lithographic techniques.
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