Solvent effects on SN2 transition state structure. II: The effect of ion pairing on the solvent effect on transition state structure

Abstract

Identical secondary α-deuterium kinetic isotope effects (transition state structures) in the S_N2 reaction between n-butyl chloride and a free thiophenoxide ion in aprotic and protic solvents confirm the validity of the Solvation Rule for S_N2 Reactions. These isotope effects also suggest that hydrogen bonding from the solvent to the developing chloride ion in the S_N2 transition state does not have a marked effect on the magnitude of the chlorine (leaving group) kinetic isotope effects. Unlike the free ion reactions, the secondary α-deuterium kinetic isotope effect (transition state structure) for the S_N2 reaction between n-butyl chloride and the solvent-separated sodium thiophenoxide ion pair complex is strongly solvent dependent. These completely different responses to a change in solvent are rationalized by an extension to the Solvation Rule for S_N2 Reactions. Finally, the loosest transition state in the reactions with the solvent-separated ion pair complex is found in the solvent with the smallest dielectric constant. Keywords: ion pairs, transition state, solvent effects, nucleophilic substitution, isotope effects.