Mechanism of an Organocatalytic Cope Rearrangement Involving Iminium Intermediates: Elucidating the Role of Catalyst Ring Size

Abstract: The mechanism of the organocatalytic Cope rearrangement is elucidated through a combined computational and experimental approach. As reported previously, hydrazides catalyze the Cope rearrangement of 1,5-hexadiene-2-carboxaldehydes via iminium ion formation, and seven- and eight-membered ring catalysts are more active than smaller ring sizes. In the present work, quantum mechanical computations and kinetic isotope effect experiments demonstrate that the Cope rearrangement step, rather than iminium formation, i… Show more

“…Microdynamic model analysis has been shown to be a helpful tool for analyzing the competing reaction networks in homogeneous catalysis. 89–97 The Eyring–Polanyi equation 98 was used to obtain the reaction rate constant k .where κ is the transmission factor, which was assumed to be 1.0 in homogeneous catalysis, k B is the Boltzmann constant, T is the temperature, h is the Planck constant, R is the ideal gas constant, and Δ G ≠ is the activation free energy.…”

Mechanism and selectivity of photocatalyzed CO₂reduction by a function-integrated Ru catalyst

“…Microdynamic model analysis has been shown to be a helpful tool for analyzing the competing reaction networks in homogeneous catalysis. 89–97 The Eyring–Polanyi equation 98 was used to obtain the reaction rate constant k .where κ is the transmission factor, which was assumed to be 1.0 in homogeneous catalysis, k B is the Boltzmann constant, T is the temperature, h is the Planck constant, R is the ideal gas constant, and Δ G ≠ is the activation free energy.…”

Mechanism and selectivity of photocatalyzed CO₂reduction by a function-integrated Ru catalyst

“…The firstly developed organocatalyzed Cope rearrangement was reported in 2016 by the Gleason's group (Scheme 35) [75,76] in the synthesis of α-substituted enals 168 from 1,5-hexadienyl-2-carboxyaldehydes 167, using the pair hydrazide 148/ TfOH as the catalyst. The reaction mechanism was elucidated through DFT calculation [77]. The authors found that the 7-membered hydrazide catalyst 169 was ten times more reactive than its 6-membered homologous.…”

Recent Advances in Catalytic [3,3]-Sigmatropic Rearrangements

“…Consequently, a correlation between the transition-state geometry and experimental KIEs has been well established . This combined experimental and theoretical approach has led to the resolution of several highly debated reaction mechanisms in organic chemistry …”

Rapid Evaluation of the Mechanism of Buchwald–Hartwig Amination and Aldol Reactions Using Intramolecular ¹³C Kinetic Isotope Effects