Issue 22, 2015
From the journal:

Nanoscale

Controlling the dynamics of Förster resonance energy transfer inside a tunable sub-wavelength Fabry–Pérot-resonator

Alexander Konrad,*a   Michael Metzger,a   Andreas M. Kern,a   Marc Brechtb  and  Alfred J. Meixner*a  

* Corresponding authors

a Universität Tübingen, Institut für Physikalische und Theoretische Chemie, Auf der Morgenstelle 18, 72076 Tübingen, Germany
E-mail: alexander.konrad@uni-tuebingen.de, alfred.meixner@uni-tuebingen.de

b Zürcher Hochschule für Angewandte Wissenschaften, Institute of Applied Mathematics and Physics, Technikumstrasse 13, 8401 Winterthur, Switzerland

Abstract

In this study we examined the energy transfer dynamics of a FRET coupled pair of chromophores at the single molecule level embedded in a tunable sub-wavelength Fabry–Pérot resonator with two silver mirrors and separations in the λ/2 region. By varying the spectral mode density in the resonator via the mirror separation we altered the radiative relaxation properties of the single chromophores and thus the FRET efficiency. We were able to achieve wavelength dependent enhancement factors of up to three for the spontaneous emission rate of the chromophores while the quenching due to the metal surfaces was nearly constant. We could show by confocal spectroscopy, time correlated single photon counting and time domain rate equation modeling that the FRET rate constant is not altered by our resonator.

Graphical abstract: Controlling the dynamics of Förster resonance energy transfer inside a tunable sub-wavelength Fabry–Pérot-resonator

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Article information

DOI
https://doi.org/10.1039/C5NR02027A
Article type
Paper
Submitted
30 Mar 2015
Accepted
30 Apr 2015
First published
05 May 2015
This article is Open Access
Creative Commons BY-NC license

Nanoscale, 2015,7, 10204-10209

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Controlling the dynamics of Förster resonance energy transfer inside a tunable sub-wavelength Fabry–Pérot-resonator

A. Konrad, M. Metzger, A. M. Kern, M. Brecht and A. J. Meixner, Nanoscale, 2015, 7, 10204 DOI: 10.1039/C5NR02027A

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