Electron-spin-lattice relaxation of photoexcited triplet states in disordered organic solids

The orlentatlon and temperature dependence of the spm-lattwze relauatlon rate m the photoevnted tnplet sfafe of pyrene-d,,, m a Ruorene cr)istaI was measured usrng the Saturalmn method The onenfafmn dependence supports the hypothesis rhat the relaxarlon arises from strong amsotropx hbratlons coupled

## 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

A transient nuclear Overhauser effect (NOE) makes measurements of the 13C spin-lattice relaxation times in organic solids complicated. Extended Solomon equations are applied in order to describe 13C spin-lattice relaxation with 'H r.f. field irradiation. Spin-lattice relaxation under r.f. irradiatio

A techniqvc is reported for me&wing triplet spin-lattice relaxatioc times in fluid solution. It is based on the observation of phemically induced electrob spin polarizstion, in the prewlce'of a triplet quencher. Spin-lattice relaxation times of the order of 10 ns are repWed for the dilroquinone trip