直接立体专一地从烯烃合成未保护的 N-H 和 N-Me 氮丙啶。
Direct stereospecific synthesis of unprotected N-H and N-Me aziridines from olefins.
机构信息
Division of Chemistry, Department of Biochemistry, University of Texas Southwestern Medical Center, Dallas, TX 75390, USA.
出版信息
Science. 2014 Jan 3;343(6166):61-5. doi: 10.1126/science.1245727.
Abstract
Despite the prevalence of the N-H aziridine motif in bioactive natural products and the clear advantages of this unprotected parent structure over N-protected derivatives as a synthetic building block, no practical methods have emerged for direct synthesis of this compound class from unfunctionalized olefins. Here, we present a mild, versatile method for the direct stereospecific conversion of structurally diverse mono-, di-, tri-, and tetrasubstituted olefins to N-H aziridines using O-(2,4-dinitrophenyl)hydroxylamine (DPH) via homogeneous rhodium catalysis with no external oxidants. This method is operationally simple (i.e., one-pot), scalable, and fast at ambient temperature, furnishing N-H aziridines in good-to-excellent yields. Likewise, N-alkyl aziridines are prepared from N-alkylated DPH derivatives. Quantum-mechanical calculations suggest a plausible Rh-nitrene pathway.
摘要
尽管 N-H 氮丙啶基序在生物活性天然产物中很常见,并且这种未保护的母体结构作为合成砌块明显优于 N-保护衍生物,但从无功能化烯烃直接合成此类化合物的实用方法尚未出现。在这里,我们提出了一种温和、通用的方法,通过均相铑催化,使用 O-(2,4-二硝基苯基)羟胺(DPH)直接立体特异性地将结构多样的单、二、三、四取代烯烃转化为 N-H 氮丙啶,无需外部氧化剂。该方法操作简单(即一锅法)、可扩展、在环境温度下快速进行,以良好至优异的收率提供 N-H 氮丙啶。同样,N-烷基氮丙啶也可以通过 N-烷基化 DPH 衍生物来制备。量子力学计算表明了一种可能的 Rh-氮烯途径。
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