The lowest triplet state of 9, 10 diphenylanthracene

in tinal form 9 July 1983 hleasurumcnts of the quxttum yield for photoperoxidation of 9,10dipl~enylantl~racene as a function of dissolved oxygen concentration in 101ucne at 20°C. are consistent with gcncration of '02 from both the lowest singet and triplet states of the hydrocarbon.

The lowest triplet state cf 9,lOantbraquinone single crystals is assigned as 3B rg located at 22153 cm-r. The pure electronic transition to this state is forbidden in the centrosymmetric crystal, but is induced in an electric field. Combined Stark-Zeeman measurements provide an unambiguous symmetry

Ab initio SCF (self-consistent field) and Cl (configuration interaction) calculations on the 1 'B, and I 'B, states of (BH,)+ have been performed. The geometries, vibrational and rotational constants, as well aa the dissociation energies for optimized equilibrium geometries, are compare-d with DIM (

Cinnoline (1,2\_diazanaphtha:ene) and its 4-methyl derivative are shown to be non-phosphorescent in hydrocarbon rigid glass solvents, but to undergo dramatic phosphorescence activation in hydroxylic rigid glass sovents. These yellow phosphorescences (0, O-bands at 51.5 nm) are assigned as being of (

Dunng the photolysls of the enooperoxlde of 9.10-diphenylanthracene,two different reactlons are observed, dependmg on the u-radrntron wavelength: (I) Evcltatlon of the SI band causes a homolytlc cleavage of the peroxrde bridge wrth a quantum yield Qz = 0 08. (a) lrradlatlon of the Sz band leads to a