A mechanically tunable plasmonic structure composed of a monolayer array of metal-capped colloidal spheres on an elastomeric substrate

Xiaolong Zhu; Lei Shi; Xiaohan Liu; Jian Zi; Zhenlin Wang

doi:10.1007/s12274-010-0048-y

A mechanically tunable plasmonic structure composed of a monolayer array of metal-capped colloidal spheres on an elastomeric substrate

Xiaolong Zhu
, Lei Shi
, Xiaohan Liu^*
, Jian Zi
, Zhenlin Wang

^*Corresponding author for this work

Fudan University
Nanjing University

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

70 Scopus citations

Abstract

A highly stretchable plasmonic structure composed of a monolayer array of metal-capped colloidal spheres on an elastomeric substrate has been fabricated using simple and inexpensive self-assembly and transfer-printing techniques. This composite structure supports coupled surface plasmons whose wavelengths are sensitive to the arrangement of the metal-capped colloidal spheres. Upon stretching, the lattice of metal-capped colloidal spheres will be deformed, leading to a large wavelength shift of surface plasmon resonances and simultaneously an obvious color change. This stretchable plasmonic structure offers a promising approach to tune surface plasmon resonances and might be exploited in realizing flexible plasmonic devices with tunability of mechanical strain.

Original language	English
Pages (from-to)	807-812
Number of pages	6
Journal	Nano Research
Volume	3
Issue number	11
DOIs	https://doi.org/10.1007/s12274-010-0048-y
State	Published - 2010
Externally published	Yes

Keywords

Elastomeric substrate
Metal-capped colloidal spheres
Plasmonic structure
Tunable surface plasmon resonance

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10.1007/s12274-010-0048-y

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title = "A mechanically tunable plasmonic structure composed of a monolayer array of metal-capped colloidal spheres on an elastomeric substrate",

abstract = "A highly stretchable plasmonic structure composed of a monolayer array of metal-capped colloidal spheres on an elastomeric substrate has been fabricated using simple and inexpensive self-assembly and transfer-printing techniques. This composite structure supports coupled surface plasmons whose wavelengths are sensitive to the arrangement of the metal-capped colloidal spheres. Upon stretching, the lattice of metal-capped colloidal spheres will be deformed, leading to a large wavelength shift of surface plasmon resonances and simultaneously an obvious color change. This stretchable plasmonic structure offers a promising approach to tune surface plasmon resonances and might be exploited in realizing flexible plasmonic devices with tunability of mechanical strain.",

keywords = "Elastomeric substrate, Metal-capped colloidal spheres, Plasmonic structure, Tunable surface plasmon resonance",

author = "Xiaolong Zhu and Lei Shi and Xiaohan Liu and Jian Zi and Zhenlin Wang",

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doi = "10.1007/s12274-010-0048-y",

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T1 - A mechanically tunable plasmonic structure composed of a monolayer array of metal-capped colloidal spheres on an elastomeric substrate

AU - Zhu, Xiaolong

AU - Shi, Lei

AU - Liu, Xiaohan

AU - Zi, Jian

AU - Wang, Zhenlin

PY - 2010

Y1 - 2010

N2 - A highly stretchable plasmonic structure composed of a monolayer array of metal-capped colloidal spheres on an elastomeric substrate has been fabricated using simple and inexpensive self-assembly and transfer-printing techniques. This composite structure supports coupled surface plasmons whose wavelengths are sensitive to the arrangement of the metal-capped colloidal spheres. Upon stretching, the lattice of metal-capped colloidal spheres will be deformed, leading to a large wavelength shift of surface plasmon resonances and simultaneously an obvious color change. This stretchable plasmonic structure offers a promising approach to tune surface plasmon resonances and might be exploited in realizing flexible plasmonic devices with tunability of mechanical strain.

AB - A highly stretchable plasmonic structure composed of a monolayer array of metal-capped colloidal spheres on an elastomeric substrate has been fabricated using simple and inexpensive self-assembly and transfer-printing techniques. This composite structure supports coupled surface plasmons whose wavelengths are sensitive to the arrangement of the metal-capped colloidal spheres. Upon stretching, the lattice of metal-capped colloidal spheres will be deformed, leading to a large wavelength shift of surface plasmon resonances and simultaneously an obvious color change. This stretchable plasmonic structure offers a promising approach to tune surface plasmon resonances and might be exploited in realizing flexible plasmonic devices with tunability of mechanical strain.

KW - Elastomeric substrate

KW - Metal-capped colloidal spheres

KW - Plasmonic structure

KW - Tunable surface plasmon resonance

UR - https://www.scopus.com/pages/publications/79955712541

U2 - 10.1007/s12274-010-0048-y

DO - 10.1007/s12274-010-0048-y

M3 - 文章

AN - SCOPUS:79955712541

SN - 1998-0124

VL - 3

SP - 807

EP - 812

JO - Nano Research

JF - Nano Research

IS - 11

ER -

A mechanically tunable plasmonic structure composed of a monolayer array of metal-capped colloidal spheres on an elastomeric substrate

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Keywords

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