General model of nonradiative excitation energy migration on a spherical nanoparticle with attached chromophores

General model of nonradiative excitation energy migration on a spherical nanoparticle with attached chromophores

Theory of multistep excitation energy migration within the set of chemically identical chromophores distributed on the surface of a spherical nanoparticle is presented. The Green function solution to the master equation is expanded as a diagrammatic series. Topological reduction of the series leads...

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Bibliographic Details
Published in:Scientific reports Vol. 14; no. 1; pp. 5479 - 8
Main Authors: Kułak, L., Schlichtholz, A., Bojarski, P.
Format: Journal Article
Language:English
Published: London Nature Publishing Group UK 05-03-2024
Nature Publishing Group
Nature Portfolio
Subjects:
639/705
639/766
639/925
Anisotropy
Chromophores
Decay
Emissions
Fluorophores
Humanities and Social Sciences
multidisciplinary
Nanoparticles
Science
Science (multidisciplinary)
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Summary:Theory of multistep excitation energy migration within the set of chemically identical chromophores distributed on the surface of a spherical nanoparticle is presented. The Green function solution to the master equation is expanded as a diagrammatic series. Topological reduction of the series leads to the expression for emission anisotropy decay. The solution obtained behaves very well over the whole time range and it remains accurate even for a high number of the attached chromophores. Emission anisotropy decay depends strongly not only on the number of fluorophores linked to the spherical nanoparticle but also on the ratio of critical radius to spherical nanoparticle radius, which may be crucial for optimal design of antenna-like fluorescent nanostructures. The results for mean squared excitation displacement are provided as well. Excellent quantitative agreement between the theoretical model and Monte–Carlo simulation results was found. The current model shows clear advantage over previously elaborated approach based on the Padé approximant.
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ISSN:2045-2322
2045-2322
DOI:10.1038/s41598-024-55193-4