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aromatic C–H amination.

      Source: Modified from Paudyal et al. [47].

Schematic illustration of the problems with uncatalyzed electrophilic amination. Chemical reaction depicts the TM-free electrophilic amination of arylboronic acids. .

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

Chemical reaction depicts the TM-free electrophilic amination of arylmetals using NH-oxaziridines.

      Source: Modified from Gao et al. [49].

Chemical reaction depicts the TM-free Prilezhaev reaction.

      Source: Modified from Farndon et al. [51].

Chemical reaction depicts the TM-free Rubottom oxidation. Chemical reaction depicts the TM-free NH-aziridination of unactivated olefins.

      Source: Modified from Cheng et al. [53].

      Two sets of conditions for the synthesis of primary α‐aminoketones from silyl enol ethers were developed. Electron‐rich substrates can be α‐aminated without transition metal catalysis, while substrates bearing electron‐withdrawing substituents can undergo α‐amination with the help of Rh or Cu catalysts.

      By using a chiral nonracemic ketone as the organocatalyst, the reaction can give enantiomerically enriched products.

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