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W2892212681 startingPage "411" @default.
W2892212681 abstract "In this report, we observed that YOYO-1 immobilized on a glass surface is much brighter when dried (quantum yield 16 ± 4% in the ambient air) or in hexane than in water (quantum yield ∼0%). YOYO-1 is a typical cyanine dye that has a photo-isomerization reaction upon light illumination. In order to understand this quenching mechanism, we use femtosecond transient absorption spectroscopy to measure YOYO-1's electron dynamics after excitation directly. By deconvoluting the hot-ground-state absorption and the stimulated emission, the dynamics of electronic relaxation and balance are revealed. The results support the intermolecular charge transfer mechanism better than the intramolecular relaxation mechanism that has been widely believed before. We believe that the first step of the relaxation involves a Dexter charge transfer between the photo-excited YOYO-1 molecule and another guest molecule that is directly bound to the YOYO-1 giving two radicals with opposite signs of charges. The charges are recombined either directly between these two molecules, or both molecules start to rotate and separate from each other. Eventually, the two charges recombined non-radiatively via various pathways. These pathways are reflected on the complicated multi-exponential decay curves of YOYO-1 fluorescence lifetime measurements. This charge transfer mechanism suggests that (1) electrical insulation may help improve the quantum yield of YOYO-1 in polar solutions significantly and (2) a steric hindrance for the intramolecular rotation may have a less significant effect." @default.
W2892212681 created "2018-09-27" @default.
W2892212681 creator A5024193013 @default.
W2892212681 creator A5059849929 @default.
W2892212681 creator A5073216396 @default.
W2892212681 creator A5088937367 @default.
W2892212681 date "2018-12-01" @default.
W2892212681 modified "2023-10-03" @default.
W2892212681 title "Ultrafast transient absorption spectra of photoexcited YOYO-1 molecules call for additional investigations of their fluorescence quenching mechanism" @default.
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W2892212681 doi "https://doi.org/10.1016/j.jphotochem.2018.09.012" @default.
W2892212681 hasPubMedCentralId "https://www.ncbi.nlm.nih.gov/pmc/articles/6217845" @default.
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