Design and 3D printing of a stainless steel reactor for continuous difluoromethylations using fluoroform

The design and 3D printing of a stainless steel reactor for reaction with a gaseous reagent is described.

Biocatalytic production of adiponitrile and related aliphatic linear α,ω-dinitriles

Linear α,ω-dinitriles are important precursors for the polymer industry. Most prominently, adiponitrile is produced on an annual scale of ca. 1 million tons. However, a drawback of today’s dominating process is the need for large amounts of highly toxic hydrogen cyanide. In this contribution, an alternative approach towards such linear dinitriles is presented based on dehydration of readily available α,ω-dialdoximes at ambient conditions by means of aldoxime dehydratases. In contrast to existing production routes this biocatalytic route enables a highly regio- and chemoselective approach towards dinitriles without the use of hydrogen cyanide or harsh reaction conditions. In addition, a selective synthesis of adiponitrile with substrate loadings of up to 100 g/L and high yields of up to 80% was achieved. Furthermore, a lab scale process on liter scale leading to > 99% conversion at 50 g/L underlines the potential and robustness of this method for technical applicability.

Typically, preparation of the polymer precursors α,ω-dinitriles requires hydrogen cyanide. Here, the authors use aldoxime hydratase to produce adiponitrile and related aliphatic linear dinitriles under ambient conditions starting from readily available substrates without needing hydrogen cyanide.