In Situ Formation of Frustrated Lewis Pairs in a Water‐Tolerant Metal‐Organic Framework for the Transformation of CO2

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 CO2 among others. One critical issue of homogeneous FLPs, however, is their instability upon rec...

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Veröffentlicht in:Angewandte Chemie International Edition 2019-04, Vol.58 (16), p.5371-5375
Hauptverfasser: Shyshkanov, Serhii, Nguyen, Tu N., Ebrahim, Fatmah Mish, Stylianou, Kyriakos C., Dyson, Paul J.
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Sprache:eng
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Zusammenfassung: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 CO2 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 CO2 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. Frustrated but productive: A boron‐based, water‐stable metal–organic framework heterogenous catalyst (SION‐105) for frustrated Lewis pair‐mediated conversion of CO2 is reported. Using CO2 as a C1‐feedstock, a variety of different diamine substrates were transformed into value‐added benzimidazoles.
ISSN:1433-7851
1521-3773
DOI:10.1002/anie.201901171