Influence of triplet—triplet excitation transfer on the decay function of donor luminescence

The useftdness of spectral data in estim;tting intermolecuhr triplet eacitation transfer mtes is found to be rather limited and to depend explicitly on the mechanisms which allow the optical transitions\_ Necessar& conditions for the validiry of such use of spectra are given, and the othen\ise requi

Due to a significant discrepancy between theoretical calculations and euperimcntal exit&on data, the position of the low-lying triplet state df water has been much debated in recent years. WC now report that the corresponding transition (= 4.0 eV) can be observed also in emission upon charge neutral

C\ idence of a one-electron transfer process in a carbene reaction has been observed for the first time. The exunple is the quench;ng of the photoescited triplet state of diphenylcarbene (3\*DPC) by electron donors. Measurement of the fluorescence lifetime as a function of donor concentration yielde

Phosphoresccncc decay functions and decay funcllons of the trlplet stale of orgamc molcculcs in the presence of mndomly dlslrlbuled pcrlurbcrs ax dewed. The intlucncc orpcrlurbcrson intersystem crossing IS taken ducctly into account. The formulnc are cwct and valid for my time and any pcrturbcr conc

Data on the rate of triplet-triplet energy transfer to stilbenes are reinterpreted in terms of the overlap of the TI H So transition bands in the sensitizer and acceptor. So-called 'non-vertical" excitation follows closely the Franck-Condon probabilities in the spectra, the "phantom triplet" being i