用于协同加速一锅法硅氢化-CO环加成反应的多功能催化表面设计
Multifunctional Catalytic Surface Design for Concerted Acceleration of One-Pot Hydrosilylation-CO Cycloaddition.
作者信息
Usui Kei, Miyashita Kodai, Maeda Kyogo, Manaka Yuichi, Chun Wang-Jae, Inazu Koji, Motokura Ken
机构信息
Department of Chemical Science and Engineering, School of Materials and Chemical Technology , Tokyo Institute of Technology , Yokohama 226-8502 , Japan.
Department of Chemistry and Biochemistry , National Institute of Technology, Numazu College , Numazu 410-8501 , Japan.
出版信息
Org Lett. 2019 Dec 6;21(23):9372-9376. doi: 10.1021/acs.orglett.9b03602. Epub 2019 Nov 19.
Silica-supported Rh-ammonium iodide catalyst showed high performance for hydrosilylation-CO cycloaddition reaction sequences. The catalyst was prepared by surface grafting of Rh and the silane-coupling reaction of the ammonium iodide moiety. The acceleration of each catalytic reaction was realized due to the concerted catalysis between Rh species, immobilized organic functions, and surface Si-OH groups. As a result, good to excellent yields of silyl carbonates were obtained from epoxyolefins, hydrosilanes, and CO under mild reaction conditions.
二氧化硅负载的铑-碘化铵催化剂在硅氢加成-CO环加成反应序列中表现出高性能。该催化剂通过铑的表面接枝和碘化铵部分的硅烷偶联反应制备。由于铑物种、固定化有机官能团和表面Si-OH基团之间的协同催化作用,实现了每个催化反应的加速。结果,在温和的反应条件下,由环氧烯烃、硅氢化物和CO得到了良好至优异产率的碳酸硅酯。
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