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Methodologies in Amine Synthesis. Группа авторовЧитать онлайн книгу.

Methodologies in Amine Synthesis - Группа авторов


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2018, Lei's group developed a metal‐ and oxidant‐free electrochemical protocol for the oxidative C–H amination of unprotected phenols (Scheme 3.23) [35]. Various phenothiazine derivatives 126 generally couple at the ortho‐position of electron‐rich phenols 125, affording N‐aryl phenothiazines 127 in good to excellent yields. Low yields of 127 are achieved using phenols with an electron‐withdrawing group (127b) or electron‐neutral diaryl amines (127g, 127h). When both ortho‐positions of the phenol are occupied, the amination occurs at the para‐position instead (127f). The reaction is believed to proceed via an N‐radical cation addition to the aromatic ring of the phenol (Scheme 3.23b). Taking 127a as an example, phenothiazine 126a is first oxidized at the anode to generate a radical cation intermediate 128a, which then undergoes electrophilic addition to 125a, affording the hydroxyl carbon radical 129a. Subsequent anodic oxidation and deprotonation of 129a gives the final C(sp2)—N bond formation product 127a. Simultaneously, the reduction of protons at the cathode releases hydrogen gas during the process. In the following year, these authors have also applied the protocol to the modification of biomolecules [36].

Chemical reaction depicts the anodic N-H bond cleavage for aromatic C-H bond amination.

      Source: Modified from Zhao et al. [34].

Chemical reaction depicts the electrochemical oxidative C–H amination of phenols.

      Source: Modified from Tang et al. [35].

      3.3.1 Aromatic C(sp2)—H Bond Amination

      As documented in the literature precedents, direct oxidation of (hetero)arenes is feasible under photo‐ or electrochemical conditions, and the resulting radical cation intermediates could then be attacked by nucleophiles such as –NHR, –OH, and –CN. Yet, among the electrochemical amination reactions via arene radical cation intermediates, methods directly employing simple N–H nucleophiles are still not common. Nevertheless, notable progress has been advanced via photoredox catalysis, wherein strongly nucleophilic azoles usually serve as the amine partners.

Chemical reaction depicts the site-selective aromatic C–H amination via photoredox catalysis.

      Source: Modified from Romero et al. [37].


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