Metal-enhanced fluorescence from zinc substrates can lead to spectral distortion and a wavelength dependence

Metal-enhanced fluorescence from zinc substrates can lead to spectral distortion and a wavelength dependence

Metal-enhanced fluorescence enhancement factors up to 7-fold have been observed for Basic Fuchsin (BF) in close proximity to Zinc nano particulate substrates. In addition, the emission spectra of BF close-to Zinc as compared to a control sample are heavily distorted, particularly on the red-edge, gi...

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Veröffentlicht in:Applied physics letters 2015-02, Vol.106 (8)
Hauptverfasser: Hamo, Hilla Ben, Karolin, Jan, Mali, Buddha, Kushmaro, Ariel, Marks, Robert, Geddes, Chris D.
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Applied physics
Dependence
Emission spectra
Fluorescence
Substrates
Zinc
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container_issue 8
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container_title Applied physics letters
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creator Hamo, Hilla Ben
Karolin, Jan
Mali, Buddha
Kushmaro, Ariel
Marks, Robert
Geddes, Chris D.
description Metal-enhanced fluorescence enhancement factors up to 7-fold have been observed for Basic Fuchsin (BF) in close proximity to Zinc nano particulate substrates. In addition, the emission spectra of BF close-to Zinc as compared to a control sample are heavily distorted, particularly on the red-edge, giving systematic trends in enhancement, anywhere from 3- to 7-fold. We discuss these remarkable wavelength dependent effects with regard to the mechanism of metal-enhanced fluorescence.
doi_str_mv 10.1063/1.4913671
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subjects Applied physics
Dependence
Emission spectra
Fluorescence
Substrates
Zinc
title Metal-enhanced fluorescence from zinc substrates can lead to spectral distortion and a wavelength dependence
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