Effect of hydrophobic side‐chains on the solvation of imidazolium salts

The chemical shifts of the aromatic hydrogens of 12 symmetrical imidazolium salts were determined in different deuterated solvents. Based on the magnitude of the chemical shift change for the hydrogens of the imidazolium ion in the various solvents, relationships were developed to determine the relative solute/solvent interactions for these compounds. Owing to different degrees of interactions involving the aromatic hydrogens of the imidazolium cations and anions, there is a variation in the interaction of the hydrogens with the solvent molecules. The intimate interaction that exists between the hydrogens of the imidazolium cation and the BF   4 −anion results in the BF   4 −salts being less solvated compared with salts containing BF   6 −and SbF   6 −anions. For imidazolium salts that contain C 2 H 5 , C 4 H 9 and C 8 H 17 side‐chains bonded in the 1 and 3 positions, the interaction between H2 and the solvents was observed to be greater than for imidazolium salts with C 16 H 33 substituents. On the other hand, for imidazolium salts that have C 16 H 33 substituents the interaction between H2 and the solvents is similar to that for H4 and H5. Copyright © 2005 John Wiley & Sons, Ltd.