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The influence of deuteration of complex organic molecules on their fluorescence quantum yield (a review)

Data on the influence of deuteration of organic molecules and/or solvent on their fluorescence quantum yield are summarized. It is demonstrated that the effect of deuteration is normal, i.e., deuteration increases the fluorescence quantum yield due to decrease in the internal conversion probability,...

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Published in:Optics and spectroscopy 2016-10, Vol.121 (4), p.567-584
Main Author: Ermolaev, V. L.
Format: Article
Language:English
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Summary:Data on the influence of deuteration of organic molecules and/or solvent on their fluorescence quantum yield are summarized. It is demonstrated that the effect of deuteration is normal, i.e., deuteration increases the fluorescence quantum yield due to decrease in the internal conversion probability, for organic molecules exhibiting fluorescence in the red region of spectrum, in which the internal conversion competes with the emission of fluorescence. In the case in which the probability of internal conversion is low, i.e., energy of level S 1 ≥ 16000–20000 cm –1 , the intersystem crossing probability from the S 1 state to the set of triplet levels depends on the relative position of S 1 and the nearest triplet level. In so doing, the effect of deuteration can be either normal or anomalous, depending on whether the resonance between the S 1 level and the level nearest to it, the T n level, improves or deteriorates when these levels shift as a result of deuteration. In dilute vapors, cooled supersonic jets, and crystalline matrices, including Shpolskii matrices, the effect of deuteration at helium temperatures depends on exact resonance between the interacting levels. In the case of dilute vapors and cooled jets, the effect also depends on the vibronic level being excited. Deuteration of OH and NH groups, as a rule, slows proton transfer in the S 1 state of the molecule that occurs with their involvement, leading to normal effect of deuteration.
ISSN:0030-400X
1562-6911
DOI:10.1134/S0030400X16100064