We 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 sensing are illustrated
Fluorescence lifetime imaging (FLIM) uses the fact that the fluorescence lifetime of a fluorophore d...
Single molecule (SM) techniques are relatively new additions to the field of biophysics that allow o...
A new method for determining the donor-acceptor distribution function in fluorescence resonance ener...
We describe the various implementations of fluorescence resonance energy transfer with respect to th...
Some fluorescence dyes in complex media, such as those found in biology, demonstrate nonextensive ki...
Before fluorescence sensing techniques can be applied to media as delicate and complicated as human ...
Current approaches and developments in the field of microscopy based on determinations of Fluorescen...
We present here the phasor approach to biosensor Förster resonance energy transfer (FRET) detection ...
International audienceGenetically encoded optical biosensors become a tool of choice for quantitativ...
Interactions between proteins can be demonstrated by fluorescence resonance energy transfer (FRET) [...
<div><p>Fluorescence Resonance Energy Transfer (FRET) using fluorescent protein variants is widely u...
In biology and medicine, how we make measurements is extremely crucial, and this is especially true ...
Fluorescence resonance energy transfer (FRET) from donor to acceptor molecules is one of the most po...
We have developed fluorescence resonance energy transfer (FRET) biosensors with red-shifted fluoresc...
We describe the fabrication and testing of an optical pH sensor based on fluorescence lifetime measu...
Fluorescence lifetime imaging (FLIM) uses the fact that the fluorescence lifetime of a fluorophore d...
Single molecule (SM) techniques are relatively new additions to the field of biophysics that allow o...
A new method for determining the donor-acceptor distribution function in fluorescence resonance ener...
We describe the various implementations of fluorescence resonance energy transfer with respect to th...
Some fluorescence dyes in complex media, such as those found in biology, demonstrate nonextensive ki...
Before fluorescence sensing techniques can be applied to media as delicate and complicated as human ...
Current approaches and developments in the field of microscopy based on determinations of Fluorescen...
We present here the phasor approach to biosensor Förster resonance energy transfer (FRET) detection ...
International audienceGenetically encoded optical biosensors become a tool of choice for quantitativ...
Interactions between proteins can be demonstrated by fluorescence resonance energy transfer (FRET) [...
<div><p>Fluorescence Resonance Energy Transfer (FRET) using fluorescent protein variants is widely u...
In biology and medicine, how we make measurements is extremely crucial, and this is especially true ...
Fluorescence resonance energy transfer (FRET) from donor to acceptor molecules is one of the most po...
We have developed fluorescence resonance energy transfer (FRET) biosensors with red-shifted fluoresc...
We describe the fabrication and testing of an optical pH sensor based on fluorescence lifetime measu...
Fluorescence lifetime imaging (FLIM) uses the fact that the fluorescence lifetime of a fluorophore d...
Single molecule (SM) techniques are relatively new additions to the field of biophysics that allow o...
A new method for determining the donor-acceptor distribution function in fluorescence resonance ener...
DOI
Add to ORKG