Ultrafast relaxation dynamics of solvated electrons in water

Abstract

AbstractThe relaxation dynamics of excess electrons in a water jet between 5 and 70°C have been investigated on an ultrashort timescale. We have probed the transient absorption of the system immediately after UV multiphoton‐ionization with a 266 nm ultrashort laser pulse and a time resolution of about 50 fs. Probe wavelengths ranging from 450 to 1000 nm have been provided by a generated white‐light continuum. The data suggest a superposition of geminate recombination of the solvated electrons with their original counter‐ions and of relaxation into thermal equilibrium. Relaxation into thermal equilibrium is the much faster process and is completed after about 6 ps while the geminate recombination is much slower, temperature independent, and prevails for at least 100 ps. The here postulated interpretation of the data clearly shows that no other transient states than “hot solvated electrons” are required for an understanding of the observed ultrafast dynamics within our time resolution.