N-Heterocyclic Carbene-Photocatalyzed Tricomponent Regioselective 1,2-Diacylation of Alkenes Illuminates the Mechanistic Details of the Electron Donor–Acceptor Complex-Mediated Radical Relay Processes

Abstract: Progress in the development of photocatalytic reactions requires a detailed understanding of the mechanisms underpinning the observed reactivity, yet mechanistic details of many photocatalytic systems, especially those that involve electron donor–acceptor complexes, have remained elusive. We report herein the development and a combined mechanistic and computational study of photocatalytic alkene 1,2-diacylation that enables a regioselective installation of two different acyl groups, establishing direct, tricom… Show more

“…The Synopsis will be organized into two categories: examples of EDA complexes with catalytic donors and examples with catalytic acceptors. Recent progress has also been made in engaging catalytically generated intermediates in EDA complex formation, such as enamine- or iminium-ion-based intermediates produced in organocatalysis − or N -heterocyclic carbene catalyst-derived intermediates; however these examples will not be discussed herein.…”

Recent Advances in Employing Catalytic Donors and Acceptors in Electron Donor–Acceptor Complex Photochemistry

“…The Synopsis will be organized into two categories: examples of EDA complexes with catalytic donors and examples with catalytic acceptors. Recent progress has also been made in engaging catalytically generated intermediates in EDA complex formation, such as enamine- or iminium-ion-based intermediates produced in organocatalysis − or N -heterocyclic carbene catalyst-derived intermediates; however these examples will not be discussed herein.…”

Recent Advances in Employing Catalytic Donors and Acceptors in Electron Donor–Acceptor Complex Photochemistry

“…Ohmiya et al unmasked a new scheme for activating aldehydes, which can reduce a series of substrates by using Breslow intermediates as electron donors under light or heat induction. Based on the above strategy, Larionov (Scheme ) et al reported the development of a three-component, regioselective olefin 1,2-diacylation reaction through the formation of an EDA complex with photoinduced oxime ester and Breslow intermediate by the transfer of a single electron. Although these works are representative and prospective, the addition of olefin from different acyl sources is difficult to easily achieve, which limits its application in synthetic chemistry to a certain extent.…”

Cooperative NHC and Photoredox Catalysis for the Synthesis of 1,4-Dicarbonyl Compounds via Diacylation of Alkenes

“…25 Larionov developed a NHC-6 catalyzed regioselective 1, 2diacylation of alkenes with o-diketone derived oximes which afforded direct access to 1, 4-diketones in 42-99% yields (Scheme 14). 26 The requirement of light illumination makes it different from the previous protocols carried out under thermal condition. The author proposed that NHC-derived ketyl radical was formed via an inner-sphere electron-transfer process of the EDA complex between the Breslow intermediate and the oxime acceptor.…”

“…Scheme 13 NHC-catalyzed ring-opening conjugative cross-coupling of aldehydes with oxime derivatives 24 Scheme 14 NHC-catalyzed light-induced 1,2-diacylation of alkenes 26 1,5-Hydrogen atom transfer is a classic strategy for cleaving inert C(sp 3 )−H bond, which is used extensively for radical-based transformations. 27 Combining 1,5-hydrogen atom transfer and NHC-catalyzed radical cross-coupling, a N-fluorocarboxamidedirected remote benzylic C-H acylation with aldehydes in the presence of catalyst NHC-7 was established by Xu (Scheme 15).…”

“…(Scheme 14). 26 The requirement of light illumination makes it different from the previous protocols carried out under thermal conditions. It is proposed that the NHC-derived ketyl radical is formed via an inner-sphere electron-transfer process of the EDA complex between the Breslow intermediate and the oxime acceptor.…”

Research Progress on N-Heterocyclic Carbene Catalyzed Reactions for Synthesizing Ketones through Radical Mechanism