Metal Enhanced Fluorescence Solution-based Sensing Platform 2: Fluorescent Core-Shell Ag@SiO2 Nanoballs

被引:0
|
作者
Kadir Aslan
Meng Wu
Joseph R. Lakowicz
Chris D. Geddes
机构
[1] University of Maryland Biotechnology Institute,Institute of Fluorescence, Laboratory for Advanced Medical Plasmonics, Medical Biotechnology Center
[2] University of Maryland School of Medicine,Center for Fluorescence Spectroscopy
来源
Journal of Fluorescence | 2007年 / 17卷
关键词
Metal-enhanced fluorescence; Radiative decay engineering; Plasmon enhanced luminescence; Plasmon enhanced fluorescence; Surface enhanced fluorescence; Fluorescence; Plasmon; Plasmonics; Nanoparticles; Silver nanoparticles; Silver colloids; Solution sensing platform;
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学科分类号
摘要
In this Rapid Communication, we present the development of monodisperse core-shell (silver core-silica shell) nanoparticles with various shell thicknesses featuring a fluorophore, subsequently named Metal-Enhanced Fluorescence (MEF) nanoballs. MEF nanoballs consist of a ≈130 nm silver nanoparticle core, a silica shell with up to 35 nm thickness and fluorophores doped within the silica shell. Fluorescent nanobubbles where the silver core is removed by chemical etching are used as control samples to show the benefits of using silver nanoparticles, i.e, Metal-Enhanced Fluorescence. Finally, we demonstrate the broad potential biological applications of MEF nanoballs by employing near-infra red emitting probes (Rhodamine 800) within the silica shell, for potential applications in cellular imaging and solution-based sensing.
引用
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页码:127 / 131
页数:4
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