Spiegelberg Brian, Dell'Acqua Andrea, Xia Tian, Spannenberg Anke, Tin Sergey, Hinze Sandra, de Vries Johannes G
Leibniz-Institut für Katalyse e.V. an der, Universität Rostock, Albert-Einstein-Strasse 29a, 18059, Rostock, Germany.
Chemistry. 2019 Jun 12;25(33):7820-7825. doi: 10.1002/chem.201901148. Epub 2019 May 13.
Catalytic isomerization of allylic alcohols in ethanol as a green solvent was achieved by using air and moisture stable cobalt (II) complexes in the absence of any additives. Under mild conditions, the cobalt PNP pincer complex substituted with phenyl groups on the phosphorus atoms appeared to be the most active. High rates were obtained at 120 °C, even though the addition of one equivalent of base increases the speed of the reaction drastically. Although some evidence was obtained supporting a dehydrogenation-hydrogenation mechanism, it was proven that this is not the major mechanism. Instead, the cobalt hydride complex formed by dehydrogenation of ethanol is capable of double-bond isomerization through alkene insertion-elimination.
在不添加任何添加剂的情况下,使用对空气和湿气稳定的钴(II)配合物,实现了烯丙醇在绿色溶剂乙醇中的催化异构化。在温和条件下,磷原子上被苯基取代的钴PNP钳形配合物似乎是最具活性的。即使添加一当量的碱会大幅提高反应速度,但在120°C时仍能获得高反应速率。尽管获得了一些支持脱氢-氢化机理的证据,但事实证明这不是主要机理。相反,由乙醇脱氢形成的氢化钴配合物能够通过烯烃插入-消除实现双键异构化。
