化学
对映选择合成
硝基苯
内酰胺
铱
氢化物
催化作用
非共价相互作用
组合化学
立体化学
有机化学
分子
氢键
金属
作者
Qian-Kun Fan,Zi-Qian Bai,Gang He,Gong Chen,Hao Wang
摘要
1 or E1 reactions. Consequently, achieving a catalytic enantioselective 1,2-hydride shift remains a significant challenge. Herein, we introduce a nitrene-mediated strategy that generates carbocation intermediates through intramolecular metal-nitrenoid transfer to alkenes, followed by a ligand-enabled, stereocontrolled, and accelerated 1,2-hydride shift facilitated by attractive noncovalent interactions. This methodology yields δ-lactams bearing contiguous γ,δ-stereocenters with excellent yields, diastereoselectivities, and enantioselectivities (most examples >95% ee, >20:1 dr). The versatility of this catalytic enantioselective carbocation rearrangement platform is demonstrated by its mild reaction conditions and wide substrate scope, accommodating diverse nucleophiles, including carbon, oxygen, and nitrogen-based species, as well as biologically relevant molecules. Mechanistic investigations revealed that the enantioselective 1,2-hydride shift serves as the stereodetermining step, driven by attractive noncovalent interactions. Complementary computational studies further demonstrated that enhanced C-H···π interactions play a critical role by increasing the interaction energy, which directs the reaction pathway and ensures high stereoselectivity.
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