1 September 2010 Plasmonic platforms of self-assembled silver nanostructures in application to fluorescence
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Abstract
Fluorescence intensity changes were investigated theoretically and experimentally using self-assembled colloidal structures on silver semitransparent mirrors. Using a simplified quasi-static model and finite element method, we demonstrate that near-field interactions of metallic nanostructures with a continuous metallic surface create conditions that produce enormously enhanced surface plasmon resonances. The results were used to explain the observed enhancements and determine the optimal conditions for the experiment. The theoretical parts of the studies are supported with reports on detailed emission intensity changes which provided multiple fluorescence hot spots with 2-3 orders of enhancements. We study two kinds of the fluorophores: dye molecules and fluorescent nanospheres characterized with similar spectral emission regions. Using a lifetime-resolved fluorescence/reflection confocal microscopy technique, we find that the largest rate for enhancement (~1000-fold) comes from localized areas of silver nanostructures.
Rafal Luchowski, Rafal Luchowski, Nils Calander, Nils Calander, Tanya Shtoyko, Tanya Shtoyko, Elisa Apicella, Elisa Apicella, Julian Borejdo, Julian Borejdo, Zygmunt K. Gryczynski, Zygmunt K. Gryczynski, Ignacy Gryczynski, Ignacy Gryczynski, } "Plasmonic platforms of self-assembled silver nanostructures in application to fluorescence," Journal of Nanophotonics 4(1), 043516 (1 September 2010). https://doi.org/10.1117/1.3500463 . Submission:
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