Partially
Hydrated Electrons at the Air/Water Interface
Observed by UV-Excited Time-Resolved Heterodyne-Detected Vibrational
Sum Frequency Generation Spectroscopy
Hydrated
electrons are the most fundamental anion species, consisting
only of electrons and surrounding water molecules. Although hydrated
electrons have been extensively studied in the bulk aqueous solutions,
even their existence is still controversial at the water surface.
Here, we report the observation and characterization of hydrated electrons
at the air/water interface using new time-resolved interface-selective
nonlinear vibrational spectroscopy. With the generation of electrons
at the air/water interface by ultraviolet photoirradiation, we observed
the appearance of a strong transient band in the OH stretch region
by heterodyne-detected vibrational sum-frequency generation. Through
the comparison with the time-resolved spectra at the air/indole solution
interface, the transient band was assigned to the vibration of water
molecules that solvate electrons at the interface. The analysis of
the frequency and decay of the observed transient band indicated that
the electrons are only partially hydrated at the water surface, and
that they escape into the bulk within 100 ps