2007
DOI: 10.1021/ar700028b
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Synthetic Development and Chemical Reactivity of Transition-Metal Silylene Complexes

Abstract: A variety of transition-metal complexes with terminal silylene ligands have become available in recent years, because of the discovery of several preparative methods. In particular, three general synthetic routes to these complexes have emerged, on the basis of anionic group abstraction, coordination of a free silylene, and alpha-hydrogen migration. The direct transformation of organosilanes to silylene ligands at a metal center (silylene extrusion) has also been observed, and this has further spurred the expl… Show more

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Cited by 331 publications
(265 citation statements)
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“…For example, transition metal silylene complexes bind and activate substrates at the metal-bound silicon center, which has Lewis acidic character (Scheme 2, B). [15][16] In these reactions, a metal-silicon bond is preserved upon binding of the substrate, but the resulting adduct possesses a silicon center that is 4-coordinate rather than 5-coordinate. However, more recently reported hydrosilation mechanisms do invoke the formation of intermediates in which the substrate binds to a 5-or 6-coordinate silicon center (Scheme 2, C).…”
Section: Summary and Outlook 31mentioning
confidence: 99%
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“…For example, transition metal silylene complexes bind and activate substrates at the metal-bound silicon center, which has Lewis acidic character (Scheme 2, B). [15][16] In these reactions, a metal-silicon bond is preserved upon binding of the substrate, but the resulting adduct possesses a silicon center that is 4-coordinate rather than 5-coordinate. However, more recently reported hydrosilation mechanisms do invoke the formation of intermediates in which the substrate binds to a 5-or 6-coordinate silicon center (Scheme 2, C).…”
Section: Summary and Outlook 31mentioning
confidence: 99%
“…Terminal silylene ligands usually exhibit Lewis acidity at silicon (Scheme 45), and this property features heavily in the reactivity of most silylene complexes. [15,16,82] A wide range of nucleophilic substrates (e.g. water, [83] alcohols, [84] ketones, [85] isocyanates, [86] olefins, [87] nitriles, [88] isocyanides [89] ) undergo activation by the highly electrophilic silicon center of these complexes.…”
Section: Overview Of Silylene Complexes: History Bonding and Reactimentioning
confidence: 99%
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