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Metallic Nanopillars: Selective Plasmonic Platforms Based on Nanopillars to Enhance Vibrational Sum‐Frequency Generation Spectroscopy (Advanced Optical Materials 3/2013)

Molecules adsorbed on metallic nanopillars give an enhanced vibrational sum‐frequency generation (SFG) signal when a localized surface plasmon resonance is excited. The metallic nanopillars, created on page 244 by D. Lis et al., possess two plasmon modes that can be selectively excited by either inc...

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Published in:	Advanced optical materials 2013-03, Vol.1 (3), p.274-274
Main Authors:	Lis, Dan, Caudano, Yves, Henry, Marie, Demoustier‐Champagne, Sophie, Ferain, Etienne, Cecchet, Francesca
Format:	Article
Language:	English
Subjects:	metallic nanopillars second‐order nonlinear optics surface plasmon resonances vibrational sum‐frequency generation spectroscopy
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container_title	Advanced optical materials
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creator	Lis, Dan Caudano, Yves Henry, Marie Demoustier‐Champagne, Sophie Ferain, Etienne Cecchet, Francesca
description	Molecules adsorbed on metallic nanopillars give an enhanced vibrational sum‐frequency generation (SFG) signal when a localized surface plasmon resonance is excited. The metallic nanopillars, created on page 244 by D. Lis et al., possess two plasmon modes that can be selectively excited by either incident visible or generated SFG polarized laser beams. Depending on which mode is excited, the molecules adsorb either onto the vertical nanopillar wall, on top of it, or on the flat substrate.
doi_str_mv	10.1002/adom.201370019
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subjects	metallic nanopillars second‐order nonlinear optics surface plasmon resonances vibrational sum‐frequency generation spectroscopy
title	Metallic Nanopillars: Selective Plasmonic Platforms Based on Nanopillars to Enhance Vibrational Sum‐Frequency Generation Spectroscopy (Advanced Optical Materials 3/2013)
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