Journal of Physical Chemistry B, Vol.119, No.35, 11540-11547, 2015
Metal Free Azide-Alkyne Click Reaction: Role of Substituents and Heavy Atom Tunneling
Metal free click reactions provide an excellent noninvasive tool to modify and understand the processes in biological systems. Release of ring strain in cyclooctynes on reaction with azides on the formation of triazoles results in small activation energies for various intermolecular Huisgen reactions (1-9). Substitution of difluoro groups at the alpha, alpha' position of the cyclooctyne ring enhances the rates of cycloadditions by 10 and 20 times for methyl azide and benzyl azide respectively at room temperature. The computed rate enhancement on difluoro substitution using direct dynamical calculations using the canonical variational transition state theory (CVT/CAG) with small curvature tunneling (SCT) corrections are in excellent agreement with the experimental results. For the intramolecular click reaction (10) notwithstanding its much higher activation energy, quantum mechanical tunneling (QMT) enhances the rate of cycloaddition significantly and increases the N-14/N-15 primary kinetic isotope effect at 298 K. QMT is shown to be rather efficient in 10 due to a thin barrier of similar to 2.4 angstrom. The present study shows that tunneling effects can be significant for intramolecular click reactions.