Add to ORKGThe observed rate of reaction in the dysprosium triflate catalyzed aza-Piancatelli rearrangement is controlled by a key off-cycle binding between aniline and catalyst. Deconvoluting the role of these ancillary species greatly broadens our understanding of factors affecting the productive catalytic pathway. We demonstrate that the rate of reaction is controlled by initial competitive binding between the furylcarbinol and nitrogen nucleophile using either a Brønsted or Lewis acid catalyst and that the resulting rearrangement proceeds without involving the Brønsted and Lewis acid catalyst. This shows conclusively that the rate-controlling step and selectivity of reaction are decoupled
The title reaction has been studied in dioxane/water in a large (0.1-14.9) pS+ range, evidencing, to...
The mechanism of the palladium-catalysed asymmetric aza-Michael addition of aniline to α,β-unsaturat...
4-Hydroxycyclopentenones represent a privileged scaffold in chemical synthesis. A dysprosium(III) tr...
The observed rate of reaction in the dysprosium triflate catalyzed aza-Piancatelli rearrangement is ...
The acid-catalyzed rearrangement of furylcarbinols is utilized to access 4,5-substituted cyclopenten...
Harnessing the Power of Furfuryl Cations:The Aza-Piancatelli Rearrangement and BeyondbyGesine Kersti...
Continuing developments in the elucidation techniques of complex catalytic processes is of foremost ...
Nitrogen containing compounds are ubiquitous in nature, and this element plays a critical role in th...
Continuing developments in the elucidation techniques of complex catalytic processes is of foremost ...
Continuing developments in the elucidation techniques of complex catalytic processes is of foremost ...
Controlling the regioselectivity of ambident nucleophiles towards electrophilic functionalisation is...
The paper deals with the kinetics of Bamberger rearrangement of N-phenylhydroxylamine to 4-aminophen...
The aza-Morita–Baylis–Hillman (azaMBH) reaction has been studied for electronically and sterically d...
The title reaction has been studied in dioxane/water in a large (0.1-14.9) pS+ range, evidencing, to...
The mechanism of the palladium-catalysed asymmetric aza-Michael addition of aniline to α,β-unsaturat...
4-Hydroxycyclopentenones represent a privileged scaffold in chemical synthesis. A dysprosium(III) tr...
The observed rate of reaction in the dysprosium triflate catalyzed aza-Piancatelli rearrangement is ...
The acid-catalyzed rearrangement of furylcarbinols is utilized to access 4,5-substituted cyclopenten...
Harnessing the Power of Furfuryl Cations:The Aza-Piancatelli Rearrangement and BeyondbyGesine Kersti...
Continuing developments in the elucidation techniques of complex catalytic processes is of foremost ...
Nitrogen containing compounds are ubiquitous in nature, and this element plays a critical role in th...
Continuing developments in the elucidation techniques of complex catalytic processes is of foremost ...
Continuing developments in the elucidation techniques of complex catalytic processes is of foremost ...
Controlling the regioselectivity of ambident nucleophiles towards electrophilic functionalisation is...
The paper deals with the kinetics of Bamberger rearrangement of N-phenylhydroxylamine to 4-aminophen...
The aza-Morita–Baylis–Hillman (azaMBH) reaction has been studied for electronically and sterically d...
The title reaction has been studied in dioxane/water in a large (0.1-14.9) pS+ range, evidencing, to...
The mechanism of the palladium-catalysed asymmetric aza-Michael addition of aniline to α,β-unsaturat...
4-Hydroxycyclopentenones represent a privileged scaffold in chemical synthesis. A dysprosium(III) tr...