Size and distance dependent fluorescence enhancement of nanoporous gold

Chao Chen; Ling Zhang; Min Yang; Chunxian Tao; Zhaoxia Han; Bin Chen; Heping Zeng

doi:10.1364/OE.25.009901

Size and distance dependent fluorescence enhancement of nanoporous gold

Chao Chen
, Ling Zhang
, Min Yang
, Chunxian Tao
, Zhaoxia Han
, Bin Chen
, Heping Zeng

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

17 Scopus citations

Abstract

Nanoporous gold (NPG) has been reported to provide remarkable fluorescence enhancement of adjacent fluorophores due to the metal-enhanced fluorescence phenomenon (MEF), and the enhancement is related with the characteristic length of nanoporosity. To fully understand the effect of NPG on nearby fluorophores, it is desirable to study systems with well-defined metal-fluorophore distances. In this study we investigated the distance effect by using silica as the spacing layer between fluorophores and NPG. Originating from competition between plasmonic amplifying and metallic quenching, the dye molecule rhodamine 6G was best enhanced by 20-nm SiO₂ coated nanoporous gold with the pore size of 36 nm, while the protein phycoerythrin was best enhanced by 15-nm SiO₂ coated nanoporous gold with the pore size of 42 nm and the quantum dots were best enhanced by 20- nm SiO₂ coated nanoporous gold with the pore size of 42 nm.

Original language	English
Pages (from-to)	9901-9910
Number of pages	10
Journal	Optics Express
Volume	25
Issue number	9
DOIs	https://doi.org/10.1364/OE.25.009901
State	Published - 1 May 2017
Externally published	Yes

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title = "Size and distance dependent fluorescence enhancement of nanoporous gold",

abstract = "Nanoporous gold (NPG) has been reported to provide remarkable fluorescence enhancement of adjacent fluorophores due to the metal-enhanced fluorescence phenomenon (MEF), and the enhancement is related with the characteristic length of nanoporosity. To fully understand the effect of NPG on nearby fluorophores, it is desirable to study systems with well-defined metal-fluorophore distances. In this study we investigated the distance effect by using silica as the spacing layer between fluorophores and NPG. Originating from competition between plasmonic amplifying and metallic quenching, the dye molecule rhodamine 6G was best enhanced by 20-nm SiO2 coated nanoporous gold with the pore size of 36 nm, while the protein phycoerythrin was best enhanced by 15-nm SiO2 coated nanoporous gold with the pore size of 42 nm and the quantum dots were best enhanced by 20- nm SiO2 coated nanoporous gold with the pore size of 42 nm.",

author = "Chao Chen and Ling Zhang and Min Yang and Chunxian Tao and Zhaoxia Han and Bin Chen and Heping Zeng",

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TY - JOUR

T1 - Size and distance dependent fluorescence enhancement of nanoporous gold

AU - Chen, Chao

AU - Zhang, Ling

AU - Yang, Min

AU - Tao, Chunxian

AU - Han, Zhaoxia

AU - Chen, Bin

AU - Zeng, Heping

PY - 2017/5/1

Y1 - 2017/5/1

N2 - Nanoporous gold (NPG) has been reported to provide remarkable fluorescence enhancement of adjacent fluorophores due to the metal-enhanced fluorescence phenomenon (MEF), and the enhancement is related with the characteristic length of nanoporosity. To fully understand the effect of NPG on nearby fluorophores, it is desirable to study systems with well-defined metal-fluorophore distances. In this study we investigated the distance effect by using silica as the spacing layer between fluorophores and NPG. Originating from competition between plasmonic amplifying and metallic quenching, the dye molecule rhodamine 6G was best enhanced by 20-nm SiO2 coated nanoporous gold with the pore size of 36 nm, while the protein phycoerythrin was best enhanced by 15-nm SiO2 coated nanoporous gold with the pore size of 42 nm and the quantum dots were best enhanced by 20- nm SiO2 coated nanoporous gold with the pore size of 42 nm.

AB - Nanoporous gold (NPG) has been reported to provide remarkable fluorescence enhancement of adjacent fluorophores due to the metal-enhanced fluorescence phenomenon (MEF), and the enhancement is related with the characteristic length of nanoporosity. To fully understand the effect of NPG on nearby fluorophores, it is desirable to study systems with well-defined metal-fluorophore distances. In this study we investigated the distance effect by using silica as the spacing layer between fluorophores and NPG. Originating from competition between plasmonic amplifying and metallic quenching, the dye molecule rhodamine 6G was best enhanced by 20-nm SiO2 coated nanoporous gold with the pore size of 36 nm, while the protein phycoerythrin was best enhanced by 15-nm SiO2 coated nanoporous gold with the pore size of 42 nm and the quantum dots were best enhanced by 20- nm SiO2 coated nanoporous gold with the pore size of 42 nm.

UR - https://www.scopus.com/pages/publications/85018962157

U2 - 10.1364/OE.25.009901

DO - 10.1364/OE.25.009901

M3 - 文章

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SN - 1094-4087

VL - 25

SP - 9901

EP - 9910

JO - Optics Express

JF - Optics Express

IS - 9

ER -

Size and distance dependent fluorescence enhancement of nanoporous gold

Abstract

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