Phosphorescence from triplet excimers of aromatic compounds in fluid solution

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

## Molecular excimer phosphorescence observed in fluid media for naphthalene and I,n-di-a-naphthylalkanes has recently been attributed to the sensitized phosphorescence of biacetyl-like impurities. While there is remarkable spectral similarity between the two emissions, experiments m this laborato

The triplet lifetime of aromatic hydrocarbons in liquid solution is relativc:jr short compared with the lifetime in a rigid solution. Until now this difference has been exphined by an impurity quenching mechanism. An alternative explanation is given, assuming quenching of a triplet molecule by B sin

From liquid solutions of aromatic hydrocarbons in alkanes three types of delayed luminescence (DL) can be observed: delayed monomer fluorescence, delayed excimer fluorescence and phosphorescence from the aromatic hydrocarbon. According to Lim and co-workers a fourth type of DL (DL4) from solutions o

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