Intermolecular energy transfer of the spin polarized triplet state in frozen SDS micelles

The triplet-triplet energy-transfer process from xanthone to naphthalene was studied in a r-cyclodextrin system at 77 K using a time-resolved ESR method. The efficient inclusion of these two molecules and the formation of a fixed configuration between them in a y-cyclodextrin cavity were found with

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

## Electron spin polarization in the photoescitrd triplet state of tetraphenyl porphyrin was detected at 100°K using EPR technique. The zero Iield splitting parameters IDland IEI for the free base porphyrin were found to be 0.0369 ? 0.0005 and 0.0082 ? 0.0005 WI-'. respectively. ## Detection o

Fluorescence quenching in chlorophyll-a induced by radiationless intermolecular singlet-triplet energy transfer is reported. The process may have important photochemical implications. A two-laser excitation procedure is employed to observe the quenching. The method complements fluorescence spectrosc

An expression is developed for the probability of intermolecular energy transfer Pin polar molecules for particular orientations on the basis of the Lennard-Jones-dipole-quadrupole interaction energy. The temperature dependence of P is briefly discussed. In calculating the probability of intermolec