Abstract
Pulsed-laser, time-resolved photoacoustic calorimetry is a technique which provides information on nonradiative channels of deactivation of molecular excited states. It is thus complementary to fluorescence techniques, and can provide information on fluorescent quantum yields. This paper describes pulsed photoacoustic calorimetry, how the data can be deconvolved to give dynamic and enthalpic information, and how this information can be used to determine fluorescent quantum yields.
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