Iron photocatalysis via Brønsted acid-unlocked ligand-to-metal charge transfer
Xiaoyu Jiang,
Yu Lan,
Yudong Hao
et al.
Abstract:Reforming sustainable 3d-metal-based visible light catalytic platforms for inert bulk chemical activation is highly desirable. Herein, we demonstrate the use of a Brønsted acid to unlock robust and practical iron ligand-to-metal charge transfer (LMCT) photocatalysis for the activation of multifarious inert haloalkylcarboxylates (CnXmCOO−, X = F or Cl) to produce CnXm radicals. This process enables the fluoro-polyhaloalkylation of non-activated alkenes by combining easily available Selectfluor as a fluorine sou… Show more
Selective S-C bond cleavage of disulfides presents a significant challenge due to the fact that S-S bonds are weaker than S-C bonds. In this study, we present a novel chloride-induced...
Selective S-C bond cleavage of disulfides presents a significant challenge due to the fact that S-S bonds are weaker than S-C bonds. In this study, we present a novel chloride-induced...
We reported here a photoinduced iron-catalyzed fluoroalkylation-peroxidation of activated and/or unactivated alkenes with fluoroalkyl carboxylic acids and hydroperoxide. The ligand-to-iron charge transfer strategy effectively overcomes the high redox potential of...
It is undoubtedly more in line with the requirements of a future sustainable society to replace fossil resources with biomass. A main challenge lies in convert biomass into useful chemicals...
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