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Methodologies in Amine Synthesis


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IrIII* species and a proton abstraction by the base provides the key amidyl radical 2, which then cyclizes onto the attached C=C bonds to form a new C—N bond with an adjacent C‐centered radical (3). Subsequently, the nucleophilic radical 3 can further add onto an electrophilic olefin acceptor to deliver the carboamination product 4 after a tandem electron/proton transfer process. On the other hand, in the presence of catalytic thiophenol, radical 3 can also undergo a HAT process with the hydrogen donor to furnish the hydroamination product 5, while the resulting PhS· is then engaged in a SET process with the IrII species to afford PhS and regenerate ground‐state photocatalyst IrIII. The following protonation of PhS by the conjugate acid of the phosphate base indicates the closure of both catalytic cycles.

Chemical reaction depicts the PCET-mediated intramolecular carbo/hyrdroamination of alkenes.

      Source: Modified from Gentry and Knowles [9].

Chemical reaction depicts the PCET-mediated intra/intermolecular amination of alkenes. (a) Hydroamination of alkenes with primary or secondary sulfonamides. (b) Tandem amination/C–H alkylation.

      Source: Modified from Zhu et al. [12].

Chemical reaction depicts the electrocatalytic intramolecular hydroamination of alkenes.

      Source: Modified from Zhu et al. [13].