Hydrogen bonding interactions of pyridine.+ with water: Stepwise solvation of distonic cations

Abstract

The solvation energies of the pyridine.+ radical cation by 1 -4 H2O molecules were determined by equilibrium measurements in a drift cell. The binding energies of the pyridine.+(H2O) n clusters are similar to the binding energies of protonated pyridine-water clusters, (C5H5NH+)(H 2O)n which involve NH+..OH2 bonds and different from those of the solvated benzene radical cation-water clusters, C6H6.+(H2O)n which involve CHδ+..OH2 bonds. These relations indicate that the observed pyridine.+ ions have the distonic .C 5H4NH+ structures that can form NH +..OH2 bonds. The observed thermochemistry and ab initio calculations show that these bonds are not affected significantly by an unpaired electron at another site of the ion. Similar observations also identify the 2-fluoropyridine.+ distonic ion. The distonic structure is also consistent with the reactivity of pyridine.+ in H atom transfer, intra-cluster proton transfer and deprotonation reactions. The results present the first measured stepwise solvation energies of distonic ions, and demonstrate that cluster thermochemistry can identify distonic structures. © 2007 American Chemical Society.