Electron-impact-induced phosphorescence and mechanism of triplet-state formation in biacetyl

Luminescence from acetone and acetone-d, has been investigated at pressures of 3.4-13 mTorr under electron impact. The decay curves of both compounds are found to be composed of two or three components depending on pressure. The decay rates and time-resolved spectra have been measured for the respec

## Abstract The mechanisms for elimination of H~2~O from acenaphthenol and of AcOH from acetoxyacenaphthene under low energy conditions have been determined, using regiospecific and stereospecific deuterium labeling probes, and by measurement of ionization and appearance potentials for alternative

It is shown that miscd electron transfer tluorescencc quenching espcriments in which formation of the fluorcscer triplet state is effectively inhibited ullow new electron transfer reactions to bc invcstigatcd. The rate constants obtaincd are discussed with rcspcct to the free-energy changes involved