Intramolecular Nucleophilic Assistance in the Solvolyses of Benzyl Derivatives: Solvolyses of O-nitrobenzyl Bromide and Tosylate

The specific rates of solvolysis of o-nitrobenzyl p-toluenesulfonate (1) have been measured in a wide range of solvents. Comparison with the previously studied para-isomer (2) indicates very similar behaviour (dominant S_N2 pathway) in solvents without fluoroalcohol content. With an appreciable fluoroalcohol component, the specific rates are considerably higher than those predicted based on the comparison with the solvolysis of 2 and intramolecular participation by the ortho-nitro group is implicated. Consistent with this postulate, in 97% 2,2,2-trifluoroethanol, the entropy of activation for the solvolysis is considerably less negative for 1 than for 2. Measurements in four representative solvents of the specific rates of solvolysis of the bromides led to k_OTs/k_Br ratios of 10 to 30, consistent with appreciable nucleophilic assistance (by either solvent or nitro group) in the rate-determining step. For the solvents with an appreciable fluoroalcohol content, an analysis using the extended Grunwald–Winstein equation shows a negligible sensitivity towards changes in solvent nucleophilicity and a low (m = 0.27 ± 0.02) sensitivity towards changes in solvent ionising power. The low m value may result from a favourable solvation of the leaving group being partially counterbalanced by an unfavourable solvation of the nucleophilic nitro group.