通过六元钯环实现 C(烯基)-H 活化:催化 1,3-二烯合成。
C(alkenyl)-H Activation via Six-Membered Palladacycles: Catalytic 1,3-Diene Synthesis.
机构信息
Department of Chemistry , The Scripps Research Institute , 10550 North Torrey Pines Road , La Jolla , California 92037 , United States.
Department of Chemistry , University of Pittsburgh , 219 Parkman Avenue , Pittsburgh , Pennsylvania 15260 , United States.
出版信息
J Am Chem Soc. 2018 May 2;140(17):5805-5813. doi: 10.1021/jacs.8b02124. Epub 2018 Apr 23.
Abstract
A catalytic method to prepare highly substituted 1,3-dienes from two different alkenes is described using a directed, palladium(II)-mediated C(alkenyl)-H activation strategy. The transformation exhibits broad scope across three synthetically useful substrate classes masked with suitable bidentate auxiliaries (4-pentenoic acids, allylic alcohols, and bishomoallylic amines) and tolerates internal nonconjugated alkenes, which have traditionally been a challenging class of substrates in this type of chemistry. Catalytic turnover is enabled by either MnO as the stoichiometric oxidant or co-catalytic Co(OAc) and O (1 atm). Experimental and computational studies were performed to elucidate the preference for C(alkenyl)-H activation over other potential pathways. As part of this effort, a structurally unique alkenylpalladium(II) dimer was isolated and characterized.
摘要
描述了一种使用导向的钯(II)介导的 C(烯基)-H 活化策略,从两种不同的烯烃制备高取代的 1,3-二烯的催化方法。该转化在三种具有合成用途的底物类别中表现出广泛的范围,这些底物类别被适当的双齿助剂(4-戊烯酸、烯丙醇和双同烯丙基胺)掩蔽,并耐受内部非共轭烯烃,这些烯烃在这种类型的化学中一直是具有挑战性的底物类别。通过 MnO 作为化学计量氧化剂或共催化 Co(OAc) 和 O(1 atm)实现催化周转。进行了实验和计算研究以阐明 C(烯基)-H 活化相对于其他潜在途径的偏好。作为这项工作的一部分,分离并表征了一种结构独特的烯基钯(II)二聚体。
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