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Methodologies in Amine Synthesis


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as the heteroarene partner, with R1 and R2 being aromatic or aliphatic moieties (100e100h). Furthermore, attempts to apply this protocol to intramolecular C2‐amination/cyclization of indoles succeeded in building fused indole derivatives (100i, 100j). The proposed mechanism is depicted in Scheme 3.18b. After excitation of the photocatalyst IrIII under visible light irradiation, the excited IrIII* is then oxidized by NaClO to its higher valence state IrIV, as demonstrated by fluorescence quenching experiments. The resulting IrIV is capable of directly oxidizing sulfonamide 99 into N‐centered radical 101, meanwhile regenerating IrIII to complete the photocatalytic cycle. The subsequent addition of N‐radical 101 onto the C2 position of heteroarene 98 forms benzylic radical 102, which undergoes further oxidation/deprotonation sequence to deliver the desired product 100 via cationic intermediate 103.

Chemical reaction depicts the visible-light-induced direct C–H amination of heteroarenes with sulfonamides.

      Source: Modified from Tong et al. [30].

Chemical reaction depicts the visible-light-mediated C–H amination of heteroarenes.

      Source: Modified from Yamaguchi et al. [31].

Chemical reaction depicts the photocatalytic dehydrogenative C–H imidation of arenes with sulfonimides.

      Source: Modified from Ito et al. [32].

Chemical reaction depicts the photocatalytic aryl C–H amination using primary aliphatic amines.

      Source: Modified from Margrey et al. [33].