Role of the Triplet State in the Photoreduction of Chlorophyll

The general pattern of chlorophyll photooxidation is considered. The conclusion is made that the reaction of photooxidation occurs exclusively via the chlorophyll triplet state.

Chlorophyll-b in glassy solution has a spin-polarized lowest triplet state at and above 7? K. Ths magnitude of the .).'\_, .: effect is different for MTHF and ethanol as soIvents, in contrast to what is found for the porphin free base. Chloro-\_-phyla-a does not exhibit spa-polar~ation under identi

Laser evcltation at 4579 and 514.5 nm of a frozen solution of chlorophyll a m n-oc~;mc products two ~IUOWS.C~~CC peak maxima at 2 K lhat may be assigned to IWO dlainct monomenc chlorophyll species Ucd~~rng zero-Geld fluorcsccncrdetected mxgetuz resorunce the triplet state properks of the IWO chlorop

Electroluminescence was obtained under conditions where the energy of the reaction was clearly insufficient to produce rubrene in the excited singlet state. These reactions involved rubrene radical-anions and an acceptor of less positive potential than the rubrene cation, as well as the correspondin