Iron-catalyzed direct amination of azoles using formamides or amines as nitrogen sources in air

Abstract: A new iron-catalyzed, direct C-H amination of azoles at C2 has been developed by using formamides or amines as nitrogen sources. Imidazole is the only additive in the catalyst system and oxygen in air is employed during the transformation process.

“…[30] Imidazole was used as an additive in this catalytic system and oxygen in air was employed during the transformation process. A plausible mechanism was proposed and is presented in Scheme 17.…”

N,N‐Dimethylformamide: A Multipurpose Building Block

“…[30] Imidazole was used as an additive in this catalytic system and oxygen in air was employed during the transformation process. A plausible mechanism was proposed and is presented in Scheme 17.…”

N,N‐Dimethylformamide: A Multipurpose Building Block

“…Iron-catalyzed direct amination was developed in 2011 by Yu and co-workers (213). They used FeCl 3 -benzoxazoles with formamide and different secondary amines as nitrogen sources via decarbonylation (Table XXXI).…”

Iron Catalysis in Synthetic Chemistry

“…The palladium-catalyzed cross-coupling of aryl amine with aryl halide and pseudo halide is most popular method in this transformation [18,19]. Besides palladium, other catalytic systems using manganese [20], iron [21], cobalt [22], nickel [23,24], copper [25,26], indium [27], gold [28] and rhodium [29] have also been reported for the same purpose. However, among these transition metal complexes, cadmium complexes with oxazoline-based ligands have not received much attention [30].…”

Two cadmium(II) complexes with oxazoline-based ligands as effective catalysts for C–N cross-coupling reactions