氨氧化
化学
催化作用
腈
氨
键裂
有机化学
组合化学
钳子运动
劈理(地质)
有机合成
丙烯腈
高分子化学
氧化还原
化学合成
均相催化
多相催化
选择性
化学键
绿色化学
作者
Zhuang Ma,Nils Rockstroh,Zupeng Chen,Vishakha Goyal,Chakreshwara Kuloor,Stephan Bartling,Zdeňěk Baďura,Jabor Rabeah,Lin Dong,H. Lund,Bing Nan,Radek Zbořil,Rajenahally V. Jagadeesh,Professor Dr. M. Beller
标识
DOI:10.1038/s41929-026-01513-y
摘要
Abstract Ammoxidation of methylarenes using ammonia and air is the main method for the synthesis of aromatic nitriles in the chemical industry. Despite significant efforts in industry and academia, no general and selective catalyst based on less toxic and earth-abundant metals has been developed for this reaction. Here we report a single-atom iron-based material (Fe@BNC-800-L1) with Fe–N 5 –B x configuration as an efficient sp 3 -hybridized C–H- and C–C bond oxidation catalyst. Due to the presence of Fe 3+ , B and N species, which are co-embedded in the micro-mesoporous carbon matrix, these materials show excellent activity for ammoxidation of methyl-substituted (hetero)arenes. Furthermore, highly selective C–C bond cleavage reactions of alkylarenes are presented, which complement the toolbox for nitrile synthesis. The generality of this presented Fe-based ammoxidation methodology is showcased by the straightforward and selective synthesis of >60 functionalized and structurally diverse nitriles, which are important precursors and key intermediates in organic synthesis with many applications in life sciences and industry.
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