posted on 2018-11-02, 00:00authored byJohan Hummert, Geert Reitsma, Nicola Mayer, Evgenii Ikonnikov, Martin Eckstein, Oleg Kornilov
Time-resolved
valence photoelectron spectroscopy is an established
tool for studies of ultrafast molecular dynamics in the gas phase.
Here we demonstrate time-resolved XUV photoelectron spectroscopy from
dilute aqueous solutions of organic molecules, paving the way to application
of this method to photodynamics studies of organic molecules in natural
environments, which so far have only been accessible to all-optical
transient spectroscopies. We record static and time-resolved photoelectron
spectra of a sample molecule, quinoline yellow WS, analyze its electronic
structure, and follow the relaxation dynamics upon excitation with
400 nm pulses. The dynamics exhibit three time scales, of which a
250 ± 70 fs time scale is attributed to solvent rearrangement.
The two longer time scales of 1.3 ± 0.4 and 90 ± 20 ps can
be correlated to the recently proposed ultrafast excited-state intramolecular
proton transfer in a closely related molecule, quinophthalone.