取代基
化学
光化学
分子内力
酰胺
立体中心
艾伦
氢原子
乙腈
超快激光光谱学
三重态
反应中间体
光谱学
分子内反应
吸收光谱法
催化作用
乙炔
反应中间体
亚砜
双键
苯甲酰胺
碳原子
作者
Johannes Hofer,Maria‐Sophie Bertrams,Christoph Kerzig,Thorsten Bach
标识
DOI:10.1002/anie.202525347
摘要
A series of N,N-disubstituted buta-2,3-dienamides was prepared from 3-butynoic acid and probed as substrates in a light-induced photocyclization. It was found that xanthen-9-one (10 mol%) promotes the desired reaction to 3-vinyl-substituted 2-azetidinones (β-lactams) when performed at λ = 350 nm in acetonitrile as the solvent. Evidence was collected by transient absorption spectroscopy that the catalyst promotes excitation of the allene amide to its triplet state by Dexter energy transfer. Upon intramolecular hydrogen atom transfer from one of the nitrogen substituents, the ensuing 1,4-diradical undergoes C─C bond formation to the lactam product. If the substituent at the nitrogen atom is a primary benzyl group, the product displays a stereogenic center in 4-position and is formed exclusively as the trans-product (eleven examples, 18%-73% yield). If the substituent is secondary, 4,4-disubstituted products are formed. If the buta-2,3-dienamide is substituted at the terminal carbon atom, the substituent at C3 in the 2-azetidinone is an (E)-configured alkenyl group. Two alternative reaction pathways were observed, i.e. an intramolecular para photocycloaddition for N-phenyl substituted substrates and an elimination from the 1,4-diradical intermediate. The vinyl group at C3 can serve as useful handle for consecutive transformations.
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