Abstract
A new scanning technique for simultaneous recording of intensity, fluorescence lifetime, and spectral information with single molecule sensitivity is presented. We investigated and compared the photophysical parameters of single oxazine (JA242), rhodamine (JF9), and carbocyanine (Cy5) derivatives adsorbed on glass surfaces under air-equilibrated conditions. The obtained results demonstrate that spectrally resolved fluorescence lifetime imaging microscopy (SFLIM) is ideally suited to reveal subpopulations in inhomogeneous samples and mixtures. To obtain a more detailed insight into the underlying fluorescence dynamics of single molecules, the fluorescence characteristics of the three different chromophores were studied positioning isolated molecules in the laser focus. Two detectors with two PC plug-in cards for time-correlated single-photon counting (TCSPC) were utilized to monitor fluorescence intensity, lifetime, and spectral information simultaneously with single-molecule sensitivity and microseconds t...
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