Infrared spectroscopy of molecules with nanorod arrays: A numerical study

Clément Tardieu; Grégory Vincent; Riad Haïdar; Stéphane Collin

doi:10.1364/OL.41.001744

Infrared spectroscopy of molecules with nanorod arrays: A numerical study

Clément Tardieu
, Grégory Vincent
, Riad Haïdar
, Stéphane Collin

ONERA Office National d'Etudes et Recherches Aerospatiales
Centre de Nanosciences et de Nanotechnologies

Résultats de recherche: Contribution à un journal › Article › Revue par des pairs

Résumé

Nanorod arrays with diameters much smaller than the wavelength exhibit sharp resonances with strong electric-field enhancement and angular dependence. They are investigated for enhanced infrared spectroscopy of molecular bonds. The molecule 3-cyanopropyldimethylchlorosilane (CS) is taken as a reference, and its complex permittivity is determined experimentally in the 3-5 μm wavelength range. When grafted on silicon nitride nanorods, we show numerically that its weak absorption bands due to chemical bond vibrations can be enhanced by several orders of magnitude compared with unstructured thin film. We propose a figure of merit (FoM) to assess the performance of this spectroscopic scheme, and we study the impact of the nano-rod cross section on the FoM.

langue originale	Anglais
Pages (de - à)	1744-1747
Nombre de pages	4
journal	Optics Letters
Volume	41
Numéro de publication	8
Les DOIs	https://doi.org/10.1364/OL.41.001744
état	Publié - 15 avr. 2016
Modification externe	Oui

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title = "Infrared spectroscopy of molecules with nanorod arrays: A numerical study",

abstract = "Nanorod arrays with diameters much smaller than the wavelength exhibit sharp resonances with strong electric-field enhancement and angular dependence. They are investigated for enhanced infrared spectroscopy of molecular bonds. The molecule 3-cyanopropyldimethylchlorosilane (CS) is taken as a reference, and its complex permittivity is determined experimentally in the 3-5 μm wavelength range. When grafted on silicon nitride nanorods, we show numerically that its weak absorption bands due to chemical bond vibrations can be enhanced by several orders of magnitude compared with unstructured thin film. We propose a figure of merit (FoM) to assess the performance of this spectroscopic scheme, and we study the impact of the nano-rod cross section on the FoM.",

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AU - Tardieu, Clément

AU - Vincent, Grégory

AU - Haïdar, Riad

AU - Collin, Stéphane

PY - 2016/4/15

Y1 - 2016/4/15

N2 - Nanorod arrays with diameters much smaller than the wavelength exhibit sharp resonances with strong electric-field enhancement and angular dependence. They are investigated for enhanced infrared spectroscopy of molecular bonds. The molecule 3-cyanopropyldimethylchlorosilane (CS) is taken as a reference, and its complex permittivity is determined experimentally in the 3-5 μm wavelength range. When grafted on silicon nitride nanorods, we show numerically that its weak absorption bands due to chemical bond vibrations can be enhanced by several orders of magnitude compared with unstructured thin film. We propose a figure of merit (FoM) to assess the performance of this spectroscopic scheme, and we study the impact of the nano-rod cross section on the FoM.

AB - Nanorod arrays with diameters much smaller than the wavelength exhibit sharp resonances with strong electric-field enhancement and angular dependence. They are investigated for enhanced infrared spectroscopy of molecular bonds. The molecule 3-cyanopropyldimethylchlorosilane (CS) is taken as a reference, and its complex permittivity is determined experimentally in the 3-5 μm wavelength range. When grafted on silicon nitride nanorods, we show numerically that its weak absorption bands due to chemical bond vibrations can be enhanced by several orders of magnitude compared with unstructured thin film. We propose a figure of merit (FoM) to assess the performance of this spectroscopic scheme, and we study the impact of the nano-rod cross section on the FoM.

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DO - 10.1364/OL.41.001744

M3 - Article

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SN - 0146-9592

VL - 41

SP - 1744

EP - 1747

JO - Optics Letters

JF - Optics Letters

IS - 8

ER -

Infrared spectroscopy of molecules with nanorod arrays: A numerical study

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