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Abstract
Hydrosilanes are convenient reductants for a large variety of organic substrates, but they are produced via energy-intensive processes. These limitations call for the development of general catalytic processes able to transform Si‒O into Si‒H bonds. We report here the catalytic hydrogenolysis of R3SiOTf (R = Me, Et, Ph) species in the presence of a base (e.g. NEt3), by the hydride complexes [(tBuPOCOP)IrH(X)] (X = H, OTf; (tBuPOCOP = [(1,3-C6H3)(OPtBu)2]). Syntheses and crystal structures of new iridium(I) and iridium(III) complexes are presented as well as their role in the R3SiOTf to R3SiH transformation. The mechanisms of these reactions have been examined by DFT studies, revealing that the rate-determining step is the base-assisted splitting of H2
Supplementary materials
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Supporting information
Description
Experimental details, additional experiments, copies of spectra, Computational details
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Xray structures
Description
XRD structures
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Computed structures
Description
XYZ coordinates of all computed structures
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