Incorporation of Pendant Bases into Rh(diphosphine)2 Complexes: Synthesis, Thermodynamic Studies, And Catalytic CO2 Hydrogenation Activity of [Rh(P2N2)2]+ Complexes

A series of five [Rh­(P2N2)2]+ complexes (P2N2 = 1,5-diaza-3,7-diphosphacyclooctane) have been synthesized and characterized: [Rh­(PPh 2NPh 2)2]+ (1), [Rh­(PPh 2NBn 2)2]+ (2), [Rh­(PPh 2NPhOMe 2)2]+ (3), [Rh­(PCy 2NPh 2)2]+ (4), and [Rh­(PCy 2NPhOMe 2)2]+ (5). Complexes 1–5 have been structurally ch...

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Bibliographic Details
Published in:Journal of the American Chemical Society 2015-07, Vol.137 (25), p.8251-8260
Main Authors: Lilio, Alyssia M, Reineke, Mark H, Moore, Curtis E, Rheingold, Arnold L, Takase, Michael K, Kubiak, Clifford P
Format: Article
Language:English
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Summary:A series of five [Rh­(P2N2)2]+ complexes (P2N2 = 1,5-diaza-3,7-diphosphacyclooctane) have been synthesized and characterized: [Rh­(PPh 2NPh 2)2]+ (1), [Rh­(PPh 2NBn 2)2]+ (2), [Rh­(PPh 2NPhOMe 2)2]+ (3), [Rh­(PCy 2NPh 2)2]+ (4), and [Rh­(PCy 2NPhOMe 2)2]+ (5). Complexes 1–5 have been structurally characterized as square planar rhodium bis-diphosphine complexes with slight tetrahedral distortions. The corresponding hydride complexes 6–10 have also been synthesized and characterized, and X-ray diffraction studies of HRh­(PPh 2NBn 2)2 (7), HRh­(PPh 2NPhOMe 2)2 (8) and HRh­(PCy 2NPh 2)2 (9) show that the hydrides have distorted trigonal bipyramidal geometries. Equilibration of complexes 2–5 with H2 in the presence of 2,8,9-triisopropyl-2,5,8,9-tetraaza-1-phosphabicyclo­[3,3,3]­undecane (Verkade’s base) enabled the determination of the hydricities and estimated pK a’s of the Rh­(I) hydride complexes using the appropriate thermodynamic cycles. Complexes 1–5 were active for CO2 hydrogenation under mild conditions, and their relative rates were compared to that of [Rh­(depe)2]+, a nonpendant-amine-containing complex with a similar hydricity to the [Rh­(P2N2)2]+ complexes. It was determined that the added steric bulk of the amine groups on the P2N2 ligands hinders catalysis and that [Rh­(depe)2]+ was the most active catalyst for hydrogenation of CO2 to formate.
ISSN:0002-7863
1520-5126
DOI:10.1021/jacs.5b04291