Abstract
Near-infrared (NIR) dyes which absorb and emit light within the range from 700 to 900 nm have several benefits in biological studies. However, because of short fluorescence lifetime in picosecond range, no significant efforts have been made to recognize the theory of these dyes in time-resolved polarization dynamics. For the first time, a set of first-order linear differential equations was developed to model fluorescence polarization dynamics of NIR dye in picoseconds range and verify it by the ultrafast spectra obtained by streak camera.
Published Version
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