Implications of CO2 Activation by Frustrated Lewis Pairs in the Catalytic Hydroboration of CO2: A View Using N/Si+ Frustrated Lewis Pairs

A series of base-stabilized silylium species were synthesized and their reactivity toward CO2 explored, yielding the characterization of a novel N/Si+ FLP-CO2 adduct. These silicon species are active catalysts in the hydroboration of CO2 to the methoxide level with 9-BBN, catecholborane (catBH), and...

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Veröffentlicht in:	ACS catalysis 2016-07, Vol.6 (7), p.4526-4535
Hauptverfasser:	von Wolff, N, Lefèvre, G, Berthet, J.-C, Thuéry, P, Cantat, T
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Sprache:	eng
Schlagworte:	Chemical Sciences Material chemistry
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creator	von Wolff, N Lefèvre, G Berthet, J.-C Thuéry, P Cantat, T
description	A series of base-stabilized silylium species were synthesized and their reactivity toward CO2 explored, yielding the characterization of a novel N/Si+ FLP-CO2 adduct. These silicon species are active catalysts in the hydroboration of CO2 to the methoxide level with 9-BBN, catecholborane (catBH), and pinacolborane (pinBH). Both experiments and DFT calculations highlight the role of the FLP-CO2 adduct in the catalysis. Depending on the nature of the hydroborane reductant, two distinct mechanisms have been unveiled. While 9-BBN and catBH are able to reduce an intermediate FLP-CO2 adduct, the hydroboration of CO2 with pinBH follows a different and novel path where the B–H bond is activated by the silicon-based Lewis acid catalyst. In these mechanisms, the formation of a highly stabilized FLP-CO2 adduct is found detrimental to the kinetics of the reaction.
doi_str_mv	10.1021/acscatal.6b00421
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title	Implications of CO2 Activation by Frustrated Lewis Pairs in the Catalytic Hydroboration of CO2: A View Using N/Si+ Frustrated Lewis Pairs
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