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Plasmon‐Enhanced Fluorescence Resonance Energy Transfer
The Chemical Record, 2019AbstractIn this review, we firstly introduce physical mechanism of fluorescence resonance energy transfer (FRET), the methods to measure FRET efficiency, and the applications of FRET. Secondly, we introduce the principle and applications of plasmon‐enhanced fluorescence (PEF).
Huan Zong +4 more
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Cytometry of Fluorescence Resonance Energy Transfer
2004Publisher Summary luorescence resonance energy transfer (FRET) is a phenomenon in fluorescence spectroscopy where energy is transferred from an excited donor molecule to an acceptor molecule under favorable spectral, proximity, and orientational conditions.
György, Vereb +2 more
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Fluorescence Resonance Energy Transfer Microscopy (FRET)
2014FRET (Förster Resonance Energy Transfer) microscopy breaks the resolution limit of light to let us investigate the conformation and function of proteins within living cells. Intensity-based methods are the most popular and direct approach to detect FRET.
Katarzyna M, Kedziora, Kees, Jalink
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Single-Molecule Fluorescence Resonance Energy Transfer
Methods, 2001Fluorescent resonance energy transfer (FRET) is a powerful technique for studying conformational distribution and dynamics of biological molecules. Some conformational changes are difficult to synchronize or too rare to detect using ensemble FRET. FRET, detected at the single-molecule level, opens up new opportunities to probe the detailed kinetics of ...
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Fluorescence resonance energy transfer sensors
Research on Chemical Intermediates, 2001We describe the various implementations of fluorescence resonance energy transfer with respect to the kinetic design principles involved in fluorescence lifetime sensors. Applications to metal ion and glucose detection are discussed. The versatility and key developments for using timecorrelated single-photon counting in fluorescence lifetime based ...
Birch, D.J.S., Rolinski, O.J.
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Nonextensive kinetics of fluorescence resonance energy transfer
The Journal of Chemical Physics, 2008Some fluorescence dyes in complex media, such as those found in biology, demonstrate nonextensive kinetics, which implies representing their fluorescence decays in terms of lifetime distributions rather than simple exponentials. Complex kinetics usually discourage application to lifetime sensors, as it is believed, that additional molecular mechanisms ...
Rolinski, O.J., Birch, D.J.S.
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Deformation-enhanced fluorescence resonance energy transfer
Chemical Physics Letters, 2011Abstract This work reports the influence of mechanical deformation on the fluorescence resonance energy transfer (FRET) process. The mechanical deformation of an elastomer was achieved with atomic force microscopy, and the FRET efficiency with respect to the indentation depth was obtained from the measured fluorescence lifetime of the donor in the ...
Ah-Young Jee, Minyung Lee
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Fluorescence resonance energy transfer microscopy
1998none (reference article)
Bastiaens, P., Jovin, T.
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