Transparent SiO 2-Ag core-satellite nanoparticle assembled layer for plasmonic-based chemical sensors

Tsung Han Chen; Ren Der Jean; Kuo Chuang Chiu; Chun-Hua Chen; Dean-Mo LIu

doi:10.1063/1.4722583

Transparent SiO ₂-Ag core-satellite nanoparticle assembled layer for plasmonic-based chemical sensors

Tsung Han Chen
, Ren Der Jean
, Kuo Chuang Chiu
, Chun-Hua Chen^*
, Dean-Mo LIu

^*Corresponding author for this work

Department of Materials Science and Engineering

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

8 Scopus citations

Abstract

We discovered a promising sensing capability of SiO ₂@Ag core-satellite nanoparticles with respect to organic melamine when they were consolidated into a solid-type thin-film entity. A series of theoretical models were proposed which provided calculation outcomes superior to those of existing models for the localized surface plasmon resonance spectra of the solid-state assemblies. We envisioned not only that such a SiO ₂@Ag film is a potential candidate for a transparent solid-state optical nanosensor for the detection of organic molecules but also that the resulting plasmonic resonance model facilitates a better understanding of such a solid-state nanosensor used for a number of sensory applications.

Original language	English
Article number	223101
Journal	Applied Physics Letters
Volume	100
Issue number	22
DOIs	https://doi.org/10.1063/1.4722583
State	Published - 28 May 2012

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title = "Transparent SiO 2-Ag core-satellite nanoparticle assembled layer for plasmonic-based chemical sensors",

abstract = "We discovered a promising sensing capability of SiO 2@Ag core-satellite nanoparticles with respect to organic melamine when they were consolidated into a solid-type thin-film entity. A series of theoretical models were proposed which provided calculation outcomes superior to those of existing models for the localized surface plasmon resonance spectra of the solid-state assemblies. We envisioned not only that such a SiO 2@Ag film is a potential candidate for a transparent solid-state optical nanosensor for the detection of organic molecules but also that the resulting plasmonic resonance model facilitates a better understanding of such a solid-state nanosensor used for a number of sensory applications.",

author = "Chen, \{Tsung Han\} and Jean, \{Ren Der\} and Chiu, \{Kuo Chuang\} and Chun-Hua Chen and Dean-Mo LIu",

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T1 - Transparent SiO 2-Ag core-satellite nanoparticle assembled layer for plasmonic-based chemical sensors

AU - Chen, Tsung Han

AU - Jean, Ren Der

AU - Chiu, Kuo Chuang

AU - Chen, Chun-Hua

AU - LIu, Dean-Mo

PY - 2012/5/28

Y1 - 2012/5/28

N2 - We discovered a promising sensing capability of SiO 2@Ag core-satellite nanoparticles with respect to organic melamine when they were consolidated into a solid-type thin-film entity. A series of theoretical models were proposed which provided calculation outcomes superior to those of existing models for the localized surface plasmon resonance spectra of the solid-state assemblies. We envisioned not only that such a SiO 2@Ag film is a potential candidate for a transparent solid-state optical nanosensor for the detection of organic molecules but also that the resulting plasmonic resonance model facilitates a better understanding of such a solid-state nanosensor used for a number of sensory applications.

AB - We discovered a promising sensing capability of SiO 2@Ag core-satellite nanoparticles with respect to organic melamine when they were consolidated into a solid-type thin-film entity. A series of theoretical models were proposed which provided calculation outcomes superior to those of existing models for the localized surface plasmon resonance spectra of the solid-state assemblies. We envisioned not only that such a SiO 2@Ag film is a potential candidate for a transparent solid-state optical nanosensor for the detection of organic molecules but also that the resulting plasmonic resonance model facilitates a better understanding of such a solid-state nanosensor used for a number of sensory applications.

UR - https://www.scopus.com/pages/publications/84862116870

U2 - 10.1063/1.4722583

DO - 10.1063/1.4722583

M3 - Article

AN - SCOPUS:84862116870

SN - 0003-6951

VL - 100

JO - Applied Physics Letters

JF - Applied Physics Letters

IS - 22

M1 - 223101

ER -

Transparent SiO ₂-Ag core-satellite nanoparticle assembled layer for plasmonic-based chemical sensors

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