Time dependence of dissociation in the excited state of β-naphthol

A dissociation process of p-naphtha1 in the excited state has been investigated by measuring the fluorescence decay and the time-resolved spectra. A significant isotope effect on the rate of dissociation has been observed, and the activation energies for the proton transfer are determined. The exper

Excitation to the lowest singlet state of &naphtholate ion in aqueous solution, @y the ahsorptirm of the 3371A light from a 7 nsec pulse of an N laser) is followed within61 nsec by formation of a hydrated electron, e&. This process precedes the ormation of the fluorescent excited state and competes

The 2-naphthol-triethylamine (2NP-TEA) system in a nonpolar hydrogen bonding solvent, 1,4-dioxane, has been found to show weak exciplex emission. The excited state hydrogen bonding reaction has been found to be reversible. The quenching of exciplex emission with increasing TEA concentration has also

The electron-impact excltahon of water ha been remves~.~gated over the energy range 9-180 eV Energy-dependent pressure effects have been observed It IS suggested that these are due to production of one or more mplet states of water which udergo coU~s~onally ass~s~cd prtissoclatlon Threshold energxs

Ternpernture dependent ESR relaxation measurements made on the excited triplet state of pyrene-d-10 show ;L decrease in Tie with decrease in temperature from 300°K to SOOK. Optical measurements suggest the relnxation arises from exciton motion in the host crystal fluorene.