Abstract
The reductive amination of ketones and aldehydes by ammonia is a highly attractive method for the synthesis of primary amines. The use of catalysts, especially reusable catalysts, based on earth‐abundant metals is similarly appealing. Here, the iron‐catalyzed synthesis of primary amines through reductive amination was realized. A broad scope and a very good tolerance of functional groups were observed. Ketones, including purely aliphatic ones, aryl–alkyl, dialkyl, and heterocyclic, as well as aldehydes could be converted smoothly into their corresponding primary amines. In addition, the amination of pharmaceuticals, bioactive compounds, and natural products was demonstrated. Many functional groups, such as hydroxy, methoxy, dioxol, sulfonyl, and boronate ester substituents, were tolerated. The catalyst is easy to handle, selective, and reusable and ammonia dissolved in water could be employed as the nitrogen source. The key is the use of a specific Fe complex for the catalyst synthesis and an N‐doped SiC material as catalyst support.
Highlights
The reductive amination of ketones and aldehydes by ammonia is a highly attractive method for the synthesis of primary amines
The reductive amination of ketones and aldehydes is the method of choice for the synthesis of alkyl amines from inexpensive and diversely available substrates.[1]
Beller and co-workers recently introduced a reusable cobalt catalyst for the general synthesis of primary amines from aldehydes or ketones and ammonia (Scheme 1),[10] and we discovered that a nickel catalyst sup
Summary
The reductive amination of ketones and aldehydes by ammonia is a highly attractive method for the synthesis of primary amines. The key is the use of a specific Fe complex and an N-doped SiC material as the catalyst support. The resulting (N)SiC support was impregnated with the Fe complex I (Figure 1 A) in acetonitrile.
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