Hexacoordinated tin complexes catalyse imine hydrogenation with H

Frustrated Lewis pair (FLP) hydrogenation catalysts predominantly use alkyl- and aryl-substituted Lewis acids (LA) that offer a limited number of combinations of substituents, limiting our ability to tune their properties and, ultimately, their reactivity. Nevertheless, main-group complexes have num...

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Published inChemical communications (Cambridge, England) Vol. 6; no. 24; pp. 3287 - 329
Main Authors áková, Andrea, Saha, Pritha, Paparakis, Alexandros, Zábranský, Martin, Gastelu, Gabriela, Kukla, Jaroslav, Uranga, Jorge G, Hulla, Martin
Format Journal Article
Published 19.03.2024
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Abstract Frustrated Lewis pair (FLP) hydrogenation catalysts predominantly use alkyl- and aryl-substituted Lewis acids (LA) that offer a limited number of combinations of substituents, limiting our ability to tune their properties and, ultimately, their reactivity. Nevertheless, main-group complexes have numerous ligands available for such purposes, which could enable us to broaden the range of FLP catalysis. Supporting this hypothesis, we demonstrate here that hexacoordinated tin complexes with Schiff base ligands catalyse imine hydrogenation via activation of H 2(g) . As shown by hydrogen-deuterium scrambling, [Sn( t Bu 2 Salen)(OTf) 2 ] activated H 2(g) at 25 °C and 10 bar of H 2 . After tuning the ligands, we found that [Sn(Salen)Cl 2 ] was the most efficient imine hydrogenation catalyst despite having the lowest activity in H 2(g) activation. Moreover, various imines were hydrogenated in yields up to 98% thereby opening up opportunities for developing novel FLP hydrogenation catalysts based on hexacoordinated LA of main-group elements. Main group complexes of tin( iv ) with Schiff base ligands activate H 2 and act as hydrogenation catalysts.
AbstractList Frustrated Lewis pair (FLP) hydrogenation catalysts predominantly use alkyl- and aryl-substituted Lewis acids (LA) that offer a limited number of combinations of substituents, limiting our ability to tune their properties and, ultimately, their reactivity. Nevertheless, main-group complexes have numerous ligands available for such purposes, which could enable us to broaden the range of FLP catalysis. Supporting this hypothesis, we demonstrate here that hexacoordinated tin complexes with Schiff base ligands catalyse imine hydrogenation via activation of H 2(g) . As shown by hydrogen-deuterium scrambling, [Sn( t Bu 2 Salen)(OTf) 2 ] activated H 2(g) at 25 °C and 10 bar of H 2 . After tuning the ligands, we found that [Sn(Salen)Cl 2 ] was the most efficient imine hydrogenation catalyst despite having the lowest activity in H 2(g) activation. Moreover, various imines were hydrogenated in yields up to 98% thereby opening up opportunities for developing novel FLP hydrogenation catalysts based on hexacoordinated LA of main-group elements. Main group complexes of tin( iv ) with Schiff base ligands activate H 2 and act as hydrogenation catalysts.
Author Kukla, Jaroslav
Zábranský, Martin
Gastelu, Gabriela
Paparakis, Alexandros
Saha, Pritha
Uranga, Jorge G
áková, Andrea
Hulla, Martin
AuthorAffiliation Institute of Environmental Studies
Department of Inorganic Chemistry
Faculty of Science Charles
Instituto de Investigaciones en Físico-Química Córdoba Universidad Nacional de Córdoba (INFIQC-CONICET)
University Prague
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– name: Institute of Environmental Studies
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Notes For ESI and crystallographic data in CIF or other electronic format see DOI
and
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Electronic supplementary information (ESI) available: Catalyst synthesis and analysis; NMRs, MS, IRs, sXRD, and Lewis acidity measurements. CCDC
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Title Hexacoordinated tin complexes catalyse imine hydrogenation with H
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