posted on 2021-11-28, 16:03authored byWowa Stroek, Martin Keilwerth, Daniel M. Pividori, Karsten Meyer, Martin Albrecht
The
synthesis of N-heterocycles is of paramount importance for
the pharmaceutical industry. They are often synthesized through atom
economic and environmentally unfriendly methods, generating significant
waste. A less explored, but greener, alternative is the synthesis
through the direct intramolecular C–H amination utilizing organic
azides. Few examples exist by using this method, but many are limited
due to the required use of stoichiometric amounts of Boc2O. Herein, we report a homoleptic C,O-chelating mesoionic carbene–iron
complex, which is the first iron-based complex that does not require
the addition of any protecting groups for this transformation and
that is active also in strong donor solvents such as THF or even DMSO.
The achieved turnover number is an order of magnitude higher than
any other reported catalytic system. A variety of C–H bonds
were activated, including benzylic, primary, secondary, and tertiary.
By following the reaction over time, we determined the presence of
an initiation period. Kinetic studies showed a first-order dependence
on substrate concentration and half-order dependence on catalyst concentration.
Intermolecular competition reactions with deuterated substrate showed
no KIE, while separate reactions with deuterium-labeled substrate
resulted in a KIE of 2.0. Moreover, utilizing deuterated substrate
significantly decreased the initiation period of the catalysis. Preliminary
mechanistic studies suggest a unique mechanism involving a dimeric
iron species as the catalyst resting state.