pH-jumps in a Protic Ionic Liquid Proceed by Vehicular Proton Transport

The dynamics of excess protons in the protic ionic liquid ethylammonium formate (EAF) have been investigated from femtosecond to microseconds using visible pump mid-infrared probe spectroscopy. The pH-jump following visible photoexcitation of a photoacid (8-hydroxypyrene-1,3,6-trisulfonic acid trisodium salt, HPTS) results in proton transfer to the formate of the EAF. The proton transfer predominantly occurs over picoseconds through a pre-formed hydrogen-bonded complex between HPTS and EAF. We investigate the longer range and longer timescale proton transport processes in the ionic liquid by obtaining the ground-state conjugate base (RO-) dynamics from the congested transient-infrared spectra. The spectral kinetics indicate that the protons diffuse only a few solvent shells from the parent photoacid before recombining with RO-. A kinetic isotope effect of near unity (kH/kD~1) suggests vehicular transfer and transport of excess protons in this ionic liquid. Our findings provide a comprehensive insight into the complete photoprotolytic cycle of excess protons in a protic ionic liquid.