Deprotonation and transfer energetics of glycine in aqueous mixtures of urea and glycerol from emf measurements at different temperatures

Deprotonation constants, K a (RH 2 + ) and K a (RH ± ), of glycine (RH ± ) have been determined at five equidistant temperatures ranging from 15 to 35 °C by measuring the emf of galvanic cells comprising Pt/H 2 and Ag-AgCl electrodes in aqueous mixtures of protophilic protic urea (UH) and protophobic protic glycerol (GL). Medium effects on deprotonation of the acid: have been dissected into transfer free energies and entropies of the species involved as obtained by measuring the transfer energetics of RH ± from solubility measurements at different temperatures and of H + based on tetraphenylarsonium tetraphenylborate (TATB) reference electrolyte assumption determined earlier. The values obtained after due correction from the cavity effect based on scaled particle theory (SPT) and electrostatic effects including Born and ion-dipole effects for the charged species involved in the two deprotonation equilibria enable better understanding of the solvent effect on the deprotonation constants. Moreover, the -composition profiles are found to exhibit similar characteristic maxima and minima as for simple cations and anions in these solvent systems, thus providing useful information on the structural characteristic of these cosolvents. Keywords: deprotonation energetics, glycine, aqueous urea, aqueous glycerol, EMF measurements.