“Fast” triplet excimer formation in fluid solutions of dinaphthylalkanes

TripIet-triplet interaction of oa-dinaphthyIa&ancs in fluid solutions leads to the qppearance of delayed fluorescence v&h two different lifetimes. The shorter-lived component is due to the triplet-triplet annihRation of monomers, while the Ioqer-Iived component is attributed to the intezaction of tw

The effects of temperature and solvent on tile magnetic field dependence of delayed monomer and excimer fiuorescence of ~OXIX&CS in solution are disc- The field effect data elucidate the mecbnism of excimer formation in triplet-triPlet a3lialSticn.

From the measurements of room-temperature time-resolved transient absorption spectra of phenyldibenzophosphole (PDP) in N,Ndimethylformamide (DMF) the formation of two types of triplet excimers, along with radical ions and monomeric triplet states, was inferred. It is suggested that formation of the

The triplet-triplet annihilation of the lowest-lying excited states of porphyrins and phthalocyanines has been investigated by laser flash photolysis. Spectroscopic and kinetic evtdence indicates that the lowest-lying triplet dimerizes into excimers at a rate less than diffusion controlled.

Solute triplet formation is observed in solutions of naphthalene in iso-propanol but not in those of camphorquinone. The cnmphorquinone triplet is formed if naphthalene is also present in the solutions. It is postulated that the efficiency of formation of the camphorquinone triplet depends upon the