<p>The donor molecule is excited to a higher energy state by an adsorbed photon. The donor relaxes back to its ground state either by emitting a photon or transferring energy to the acceptor molecule. The excited state of the acceptor molecule relaxes by emitting photons. Shown are the two widely used donor-acceptor dyes <i>Cy</i>3 and <i>Cy</i>5.</p
Resonance energy transfer is the primary mechanism for the migration of electronic excitation in the...
We theoretically analyze the excitation energy transfer between two closely spaced linear molecular ...
Spontaneous emission by an excited molecule strongly depends upon the available density of states in...
A method has been developed for the quantitative determination of fluorescence resonance energy tran...
FRET within a donor-acceptor composite photochromic molecule was investigated in a dye-doped sol-gel...
FRET within a donor-acceptor composite photochromic molecule was investigated in a dye-doped sol-gel...
Förster type resonance energy transfer (FRET) in donor-acceptor peryleneimide-terrylenediimide dendr...
We show that direct coupling of a dye-labelled DNA ( acceptor) to a quantum dot (QD) donor significa...
Förster resonance energy transfer from a two-photon absorber to a photochromic spirooxazine are inve...
We have employed diheteroarylethenes as acceptors for photochromic FRET (pcFRET), a technique introd...
The process of radiationless energy transfer from a chromophore in an excited electronic state (the ...
Förster resonance energy transfer (FRET) is the dominant nonradiative energy transfer mechanism betw...
Abstract: We describe the preparation and photophysical characterization of two model compounds desi...
Keywords: dyes · fluorophores · FRET (fluorescence resonant energy transfer) · nanoparticles · quant...
Förster resonance energy transfer (FRET) has attracted much attention for its wide applications in ...
Resonance energy transfer is the primary mechanism for the migration of electronic excitation in the...
We theoretically analyze the excitation energy transfer between two closely spaced linear molecular ...
Spontaneous emission by an excited molecule strongly depends upon the available density of states in...
A method has been developed for the quantitative determination of fluorescence resonance energy tran...
FRET within a donor-acceptor composite photochromic molecule was investigated in a dye-doped sol-gel...
FRET within a donor-acceptor composite photochromic molecule was investigated in a dye-doped sol-gel...
Förster type resonance energy transfer (FRET) in donor-acceptor peryleneimide-terrylenediimide dendr...
We show that direct coupling of a dye-labelled DNA ( acceptor) to a quantum dot (QD) donor significa...
Förster resonance energy transfer from a two-photon absorber to a photochromic spirooxazine are inve...
We have employed diheteroarylethenes as acceptors for photochromic FRET (pcFRET), a technique introd...
The process of radiationless energy transfer from a chromophore in an excited electronic state (the ...
Förster resonance energy transfer (FRET) is the dominant nonradiative energy transfer mechanism betw...
Abstract: We describe the preparation and photophysical characterization of two model compounds desi...
Keywords: dyes · fluorophores · FRET (fluorescence resonant energy transfer) · nanoparticles · quant...
Förster resonance energy transfer (FRET) has attracted much attention for its wide applications in ...
Resonance energy transfer is the primary mechanism for the migration of electronic excitation in the...
We theoretically analyze the excitation energy transfer between two closely spaced linear molecular ...
Spontaneous emission by an excited molecule strongly depends upon the available density of states in...
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