Shyshkanov Serhii, Nguyen Tu N, Ebrahim Fatmah Mish, Stylianou Kyriakos C, Dyson Paul J
Laboratory of Molecular Simulation (LSMO), Institut des Sciences et Ingénierie Chimiques (ISIC), Ecole Polytechnique Fédérale de Lausanne (EPFL Valais), Rue de l'Industrie 17, 1951, Sion, Switzerland.
Institut des Sciences et Ingénierie Chimiques (ISIC), Ecole Polytechnique Fédérale de Lausanne (EPFL), 1015, Lausanne, Switzerland.
Angew Chem Int Ed Engl. 2019 Apr 8;58(16):5371-5375. doi: 10.1002/anie.201901171. Epub 2019 Mar 12.
Frustrated Lewis pairs (FLPs) consist of sterically hindered Lewis acids and Lewis bases, which provide high catalytic activity towards non-metal-mediated activation of "inert" small molecules, including CO among others. One critical issue of homogeneous FLPs, however, is their instability upon recycling, leading to catalytic deactivation. Herein, we provide a solution to this issue by incorporating a bulky Lewis acid-functionalized ligand into a water-tolerant metal-organic framework (MOF), named SION-105, and employing Lewis basic diamine substrates for the in situ formation of FLPs within the MOF. Using CO as a C1-feedstock, this combination allows for the efficient transformation of a variety of diamine substrates into benzimidazoles. SION-105 can be easily recycled by washing with MeOH and reused multiple times without losing its identity and catalytic activity, highlighting the advantage of the MOF approach in FLP chemistry.
受阻路易斯酸碱对(FLPs)由空间位阻较大的路易斯酸和路易斯碱组成,它们对包括一氧化碳等在内的“惰性”小分子的非金属介导活化具有高催化活性。然而,均相FLPs的一个关键问题是其在循环使用时不稳定,导致催化失活。在此,我们通过将一个体积较大的路易斯酸官能化配体引入到一种名为SION-105的耐水金属有机框架(MOF)中,并使用路易斯碱性二胺底物在MOF中原位形成FLPs,来解决这一问题。以一氧化碳作为C1原料,这种组合能够将多种二胺底物高效转化为苯并咪唑。SION-105可以通过用甲醇洗涤轻松回收,并可多次重复使用而不丧失其特性和催化活性,突出了MOF方法在FLP化学中的优势。
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