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

D. Lis; Y. Caudano; Marie Henry; S. Demoustier-Champagne; E. Ferain; F. Cecchet

doi:10.1002/adom.201370019

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

D. Lis, Y. Caudano, Marie Henry, S. Demoustier-Champagne, E. Ferain, F. Cecchet

Research output: Contribution to journal › Article › peer-review

Abstract

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.

Original language	English
Pages (from-to)	274-274
Number of pages	1
Journal	Advanced Optical Materials
Volume	1
Issue number	3
DOIs	https://doi.org/10.1002/adom.201370019
Publication status	Published - 1 Mar 2013

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10.1002/adom.201370019

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abstract = "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.",

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AU - Caudano, Y.

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AU - Ferain, E.

AU - Cecchet, F.

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N2 - 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.

AB - 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.

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

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Optics, Lasers and spectroscopy

Third Annual Conference on Optical Nanospectroscopy

Biointerfaces Symposium

Action Nationale de Formation du CNRS en "Spectroscopie et Imagerie d’interfaces materiaux- molecules du vivant"

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

Abstract

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Optics, Lasers and spectroscopy

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Third Annual Conference on Optical Nanospectroscopy

Biointerfaces Symposium

Action Nationale de Formation du CNRS en "Spectroscopie et Imagerie d’interfaces materiaux- molecules du vivant"

Cite this