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Methodologies in Amine Synthesis


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such as esters, epoxides, and unsaturated carbonyl compounds.

Chemical reaction depicts the Cu-catalyzed electrophilic amino-lactonization.

      Source: Modified from Hemric et al. [26].

Chemical reaction depicts the Cu-catalyzed ring-opening amination.

      Source: Modified from Ye and Dai [27].

Chemical reaction depicts the Cu-catalyzed C–H amination of heterocycles.

      Source: Matsuda et al. [28].

Chemical reactions depict the electrophilic amination catalyzed by other transition metals.

      Source: Johnson and Berman [31], Barker and Jarvo [32], and Lutter et al. [33].

Chemical reaction depicts the Pd-catalyzed aromatic C–H amination via electrophilic amination.

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

Chemical reaction depicts the Pd-catalyzed aliphatic C–H amination via electrophilic amination.

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

Chemical reactions depict the Ru-catalyzed C–H amination.

      Source: Modified from Shang et al. [36].

Chemical reaction depicts the Pd-catalyzed Catellani-type C–H electrophilic amination.

      Source: Modified from Dong and Dong et al. [37].

      Nitrene intermediates can be generated from various precursors. Pioneering studies by Khan and Kwart in the 1960s showed that elemental copper can catalyze the decomposition of a sulfonyl azide, and the resulting reaction mixture can aminate cyclohexene and give aziridine as one of the products [42]. This result is consistent with the participation of metallanitrene intermediates. However, because of the instability and toxicity of organic azides,