化学
亚胺
表面改性
惰性
惰性气体
非热等离子体
等离子体
烷烃
可持续生产
生产(经济)
小学(天文学)
有机化学
化学工程
组合化学
催化作用
物理化学
工程类
宏观经济学
物理
经济
量子力学
天文
作者
Shuang Sun,Yijie Fu,Xiangrui Bu,Qinhao Shi,Weilong Wu,Xinghui Li,Xiaohao Wang,Quan Yu
摘要
The direct functionalization of alkanes remains a formidable challenge in synthetic chemistry. Herein, we present an integrated plasma-microdroplet approach for the efficient conversion of alkanes into imines under mild conditions. By employing plasma discharge in a nitrogen atmosphere, inert C-H bonds are selectively activated, generating abundant N-insertion intermediates. These species are then captured by electrosprayed microdroplets, where they undergo rapid transimination with gaseous primary amines, yielding imines with high efficiency. Real-time mass spectrometry analysis reveals a two-step mechanism: initial plasma-driven alkane functionalization followed by microdroplet-accelerated transimination. By synergistically combining the high activation capability of nonthermal plasma with the enhanced reaction dynamics of microdroplets, this method establishes a green alternative to conventional thermal catalysis for sustainable chemical transformation from inert substrates.
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