Autoionization of water: does it really occur?

Abstract

The ionization constant of water Kw is currently determined on the proton conductivity sigma1 which is measured at frequencies lower than 107 Hz. Here, we develop the idea that the high frequency conductivity sigma2 (~1011 Hz), rather than sigma1 represents a net proton dynamics in water, to evaluate the actual concentration c of H3O+ and OH- ions from sigma2. We find c to be not dependent on temperature to conclude that i) water electrodynamics is due to a proton exchange between H3O+ (or OH-) ions and neutral H2O molecules rather than spontaneous ionization of H2O molecules, ii) the common Kw (or pH) reflects the thermoactivation of the H3O+ and OH- ions from the potential of their interaction, iii) the lifetime of a target water molecule does not exceed parts of nanosecond.