Revealing excess protons in the infrared spectrum of liquid water

Abstract

The most common species in liquid water, next to neutral H2O molecules, are the H3O+ and OH- ions. In a dynamic picture, their exact concentrations depend on the time scale at which these are probed. Here, using a spectral-weight analysis, we experimentally resolve the fingerprints of the elusive fluctuations-born short-living H3O+, DH2O+, HD2O+, and D3O+ ions in the IR spectra of light (H2O), heavy (D2O), and semi-heavy (HDO) water. We find that short-living ions, with concentrations reaching 2\% of the content of water molecules, coexist with long-living pH-active ions on the picosecond timescale, thus making liquid water an effective ionic liquid in femtochemistry.