Hydrosilylation with biscarbene Rh(I) complexes: Experimental evidence for a silylene-based mechanism

Peter Gigler; Bettina Bechlars; Wolfgang A. Herrmann; Fritz E. Kühn

doi:10.1021/ja110017c

Hydrosilylation with biscarbene Rh(I) complexes: Experimental evidence for a silylene-based mechanism

Peter Gigler, Bettina Bechlars, Wolfgang A. Herrmann, Fritz E. Kühn

Technical University of Munich

Research output: Contribution to journal › Article › peer-review

76 Scopus citations

Abstract

A detailed study investigating the mechanism of the hydrosilylation of 4-F-acetophenone by N-heterocyclic biscarbene rhodium(I) complexes was performed, delivering substantial experimental evidence for a recently proposed catalytic cycle and explaining the observed side-product formation. Labeling experiments, silylene trapping reactions, and specific catalytic reactions were employed to substantiate each step of the catalytic cycle and explain the differences observed for different types of chiral catalysts. It is further shown that hydrosilylation and dehydrocoupling reactions with dihydrosilanes are mechanistically related.

Original language	English
Pages (from-to)	1589-1596
Number of pages	8
Journal	Journal of the American Chemical Society
Volume	133
Issue number	5
DOIs	https://doi.org/10.1021/ja110017c
State	Published - 9 Feb 2011

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abstract = "A detailed study investigating the mechanism of the hydrosilylation of 4-F-acetophenone by N-heterocyclic biscarbene rhodium(I) complexes was performed, delivering substantial experimental evidence for a recently proposed catalytic cycle and explaining the observed side-product formation. Labeling experiments, silylene trapping reactions, and specific catalytic reactions were employed to substantiate each step of the catalytic cycle and explain the differences observed for different types of chiral catalysts. It is further shown that hydrosilylation and dehydrocoupling reactions with dihydrosilanes are mechanistically related.",

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AU - Herrmann, Wolfgang A.

AU - Kühn, Fritz E.

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AB - A detailed study investigating the mechanism of the hydrosilylation of 4-F-acetophenone by N-heterocyclic biscarbene rhodium(I) complexes was performed, delivering substantial experimental evidence for a recently proposed catalytic cycle and explaining the observed side-product formation. Labeling experiments, silylene trapping reactions, and specific catalytic reactions were employed to substantiate each step of the catalytic cycle and explain the differences observed for different types of chiral catalysts. It is further shown that hydrosilylation and dehydrocoupling reactions with dihydrosilanes are mechanistically related.

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JF - Journal of the American Chemical Society

IS - 5

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Hydrosilylation with biscarbene Rh(I) complexes: Experimental evidence for a silylene-based mechanism

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