2013
DOI: 10.1364/oe.21.014816
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Cytometric sorting based on the fluorescence lifetime of spectrally overlapping signals

Abstract: Flow cytometry is a well-established and powerful high- throughput fluorescence measurement tool that also allows for the sorting and enrichment of subpopulations of cells expressing unique fluorescence signatures. Owing to the reliance on intensity-only signals, flow cytometry sorters cannot easily discriminate between fluorophores that spectrally overlap. In this paper we demonstrate a new method of cell sorting using a fluorescence lifetime-dependent methodology. This approach, referred to herein as phase-f… Show more

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Cited by 36 publications
(39 citation statements)
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References 31 publications
(43 reference statements)
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“…To name a few, these processes are: internal conversion, vibrational relaxation, intersystem crossing, F€ orster resonance energy transfer (FRET), dynamic quenching, solvent relaxation, charge transfer, and photolysis (photobleaching); and most of these processes involve interactions of the excited fluorophore with its local environment (1,3). For this reason fluorescence lifetime can be used to monitor locally the concentrations of ions and molecules, electric field and polarity, temperature, viscosity, and refractive index (1)(2)(3)(6)(7)(8)(9). By spanning a much larger range than the wavelength of the emitted fluorescence, it is more amenable for multiplexing than wavelength (8,10).…”
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“…To name a few, these processes are: internal conversion, vibrational relaxation, intersystem crossing, F€ orster resonance energy transfer (FRET), dynamic quenching, solvent relaxation, charge transfer, and photolysis (photobleaching); and most of these processes involve interactions of the excited fluorophore with its local environment (1,3). For this reason fluorescence lifetime can be used to monitor locally the concentrations of ions and molecules, electric field and polarity, temperature, viscosity, and refractive index (1)(2)(3)(6)(7)(8)(9). By spanning a much larger range than the wavelength of the emitted fluorescence, it is more amenable for multiplexing than wavelength (8,10).…”
mentioning
confidence: 99%
“…By spanning a much larger range than the wavelength of the emitted fluorescence, it is more amenable for multiplexing than wavelength (8,10). It can be used as a contrast parameter, for example, for discriminating between emitters having overlapping emission spectra (9). It is also a state parameter, meaning that it is independent of conditions of excitation such as wavelength, intensity, and polarization of the exciting light.…”
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confidence: 99%
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