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Methodologies in Amine Synthesis


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Therefore, 246a and 247a are simultaneously oxidized at the anode to afford radical cation 249a and radical 251a after deprotonation. The subsequent radical/radical cross‐coupling produces cationic species 252a, which turns into the final product 248a after further deprotonation. Shortly after the publication of this work, Song and Li and coworkers also disclosed their independent research, which is very close to Lei's work [56].

      3.4.1.2 Aryl C(sp2)—N Bond Formation Using Azoles

Chemical reaction depicts the selective C–H amination of heteroarenes with azoles via an organic photoredox system.

      Source: Modified from Samanta et al. [57].

Chemical reaction depicts the electrochemical oxidative C–H/N–H cross-couplings for C-N bond formation with hydrogen evolution.

      Source: Modified from Yu et al. [58].

      3.4.2 Other C—N Bond Formation via Radical Cross‐coupling

Chemical reaction depicts the electro-oxidative C–H azolation of phenol and aniline derivatives.

      Source: Modified from Feng et al. [59].

Chemical reaction depicts the enantioselective amination via PCET followed by stereo-controlled radical cross-coupling.

      Source: Modified from Zhou et al. [60].