Optically reconfigurable structures based on surface enhanced Raman scattering in nanorods

Amihai Meiri; Asaf Shahmoon; Luca Businaro; Zeev Zalevsky

doi:10.1016/j.mee.2013.04.029

Optically reconfigurable structures based on surface enhanced Raman scattering in nanorods

Amihai Meiri, Asaf Shahmoon, Luca Businaro, Zeev Zalevsky

Bar-Ilan University - The Alexander Kofkin Faculty of Engineering

Bar-Ilan University

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

Abstract

Three nanoparticle based structures are presented for the use of tunable surface enhanced Raman scattering effect. The tunability is obtained by change in the refractive index through illumination of silicon nanoparticles, and the result is a highly controllable enhancement factor and extinction cross section resonance wavelength. Intensity enhancements of up to 109 are demonstrated with induced modulation of enhancement of up to 48 dB for certain structures.

Original language	English
Pages (from-to)	251-255
Number of pages	5
Journal	Microelectronic Engineering
Volume	111
DOIs	https://doi.org/10.1016/j.mee.2013.04.029
State	Published - 2013

Keywords

Micro arrays
Microsensor chip
Nanoplasmonic sensor
Optical resonant
Plasmon resonance
Surface enhanced Raman scattering

All Science Journal Classification (ASJC) codes

Electronic, Optical and Magnetic Materials
Atomic and Molecular Physics, and Optics
Condensed Matter Physics
Surfaces, Coatings and Films
Electrical and Electronic Engineering

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10.1016/j.mee.2013.04.029

Cite this

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title = "Optically reconfigurable structures based on surface enhanced Raman scattering in nanorods",

abstract = "Three nanoparticle based structures are presented for the use of tunable surface enhanced Raman scattering effect. The tunability is obtained by change in the refractive index through illumination of silicon nanoparticles, and the result is a highly controllable enhancement factor and extinction cross section resonance wavelength. Intensity enhancements of up to 109 are demonstrated with induced modulation of enhancement of up to 48 dB for certain structures.",

keywords = "Micro arrays, Microsensor chip, Nanoplasmonic sensor, Optical resonant, Plasmon resonance, Surface enhanced Raman scattering",

author = "Amihai Meiri and Asaf Shahmoon and Luca Businaro and Zeev Zalevsky",

year = "2013",

doi = "10.1016/j.mee.2013.04.029",

language = "الإنجليزيّة",

volume = "111",

pages = "251--255",

journal = "Microelectronic Engineering",

issn = "0167-9317",

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T1 - Optically reconfigurable structures based on surface enhanced Raman scattering in nanorods

AU - Meiri, Amihai

AU - Shahmoon, Asaf

AU - Businaro, Luca

AU - Zalevsky, Zeev

PY - 2013

Y1 - 2013

N2 - Three nanoparticle based structures are presented for the use of tunable surface enhanced Raman scattering effect. The tunability is obtained by change in the refractive index through illumination of silicon nanoparticles, and the result is a highly controllable enhancement factor and extinction cross section resonance wavelength. Intensity enhancements of up to 109 are demonstrated with induced modulation of enhancement of up to 48 dB for certain structures.

AB - Three nanoparticle based structures are presented for the use of tunable surface enhanced Raman scattering effect. The tunability is obtained by change in the refractive index through illumination of silicon nanoparticles, and the result is a highly controllable enhancement factor and extinction cross section resonance wavelength. Intensity enhancements of up to 109 are demonstrated with induced modulation of enhancement of up to 48 dB for certain structures.

KW - Micro arrays

KW - Microsensor chip

KW - Nanoplasmonic sensor

KW - Optical resonant

KW - Plasmon resonance

KW - Surface enhanced Raman scattering

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U2 - 10.1016/j.mee.2013.04.029

DO - 10.1016/j.mee.2013.04.029

M3 - مقالة

SN - 0167-9317

VL - 111

SP - 251

EP - 255

JO - Microelectronic Engineering

JF - Microelectronic Engineering

ER -

Optically reconfigurable structures based on surface enhanced Raman scattering in nanorods

Abstract

Keywords

All Science Journal Classification (ASJC) codes

Access to Document

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