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Methodologies in Amine Synthesis. Группа авторовЧитать онлайн книгу.

Methodologies in Amine Synthesis - Группа авторов


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nickel catalysis (Scheme 2.15) [43]. This dual catalytic process used alkyl bromides as coupling partners and enabled a site‐selective C–H alkylation delivering products 55. Mechanistically, the trifluoroacetic acid (TFA)‐amide was oxidized through PCET by the excited Ir(III) catalyst upon visible light irradiation to form the amidyl radical 56. This species underwent 1,5‐HAT, delivering the carbon radical 57. At the same time, oxidative addition of a nickel(I) complex 58 to the alkyl bromide resulted in an alkyl–Ni(III) complex 59 that was proposed to undergo SET with the reduced photocatalyst. This event would close the photoredox cycle and generate an alkyl–Ni(II) species 60 that could be intercepted by 57. This radical transmetalation enabled access to a dialkyl–Ni(III) intermediate 61 from which reductive elimination is facile. This final step would forge the key sp3–sp3 C—C bond and close the nickel cycle. Although this reactivity is restricted to the use of primary alkyl bromides as coupling partners, the authors demonstrated its ability to construct a broad range of remotely alkylated products.

Chemical reaction depicts the remote amide allylation using allyl chlorides and Ni(0) cocatalyst.

      Source: Modified from Xu and Tambar [42].

Chemical reaction depicts the regioselective cross-coupling of C(sp3)-H bonds and alkyl bromides under a combination of photoredox and nickel catalysis.

      2.3.3 Photoinduced Bond Homolysis

      The weak nature of N—X (X = halogen) bonds has historically been of fundamental importance for the development of HLF reactions. However, the requirement for prior synthesis of N‐iodo or N‐bromo amines, which are sometimes unstable, represented a significant limitation.

Chemical reaction depicts the iodine-catalyzed visible-light mediated C–H aminations.

      Source: Zhang and Muniz [44], Becker et al. [45], Martinez and Muniz [46].

      More recently, this reactivity could also be triggered by catalytic generation of the corresponding N‐bromo–N‐Ts amine, which represents a catalytic version of the original HLF reactivity [47].

      The same authors later published a thermal, catalytic variant of the radical chaperone strategy, allowing them to generate analogous amino alcohols, however with less oxidant, which suppressed unwanted side reactions [49]. The side reactions occur from radicals derived from homolysis of excess AcOI, which can oxidize α‐aminyl C—H bonds, thereby competing with the desired 1,5‐HAT process.

Chemical reaction depicts the imidate radical mediated β-C–H amination of alcohols.

      Source: Modified from Wappes et al. [48].

Chemical reaction depicts the remote heteroarylation of amides via sulfonamidyl radicals.

      Source: Gomez‐Suarez et al. [50], Hernandez et al. [51], Francisco et al. [52], Francisco et al. [53],


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