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Abstract:
Nickel photoredox catalysis has resulted in a rich development of transition-metal-catalysed transformations for carbon–heteroatom bond formation. By harnessing light energy, the transition metal can attain oxidation states that are difficult to achieve through thermal chemistry in a catalytic manifold. For example, nickel photoredox reactions have been reported for both the synthesis of anilines and aryl ethers from aryl(pseudo)halides. However, oxidative addition to simple nickel systems is often sluggish in the absence of special, electron-rich ligands, leading to catalyst decomposition. Electron-rich aryl electrophiles therefore currently fall outside the scope of many transformations in the field. Here we provide a conceptual solution to this problem and demonstrate nickel-catalysed C–heteroatom bond-forming reactions of arylthianthrenium salts, including amination, oxygenation, sulfuration and halogenation. Because the redox properties of arylthianthrenium salts are primarily dictated by the thianthrenium, oxidative addition of highly electron-rich aryl donors can be unlocked using simple NiCl2 under light irradiation to form the desired C‒heteroatom bonds.
