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Interconversion and reactivity of manganese silyl, silylene, and silene complexes.


ABSTRACT: Manganese disilyl hydride complexes [(dmpe)2MnH(SiH2R)2] (4Ph : R = Ph, 4Bu : R = n Bu) reacted with ethylene to form silene hydride complexes [(dmpe)2MnH(RHSi[double bond, length as m-dash]CHMe)] (6Ph,H : R = Ph, 6Bu,H : R = n Bu). Compounds 6R,H reacted with a second equivalent of ethylene to generate [(dmpe)2MnH(REtSi[double bond, length as m-dash]CHMe)] (6Ph,Et : R = Ph, 6Bu,Et : R = n Bu), resulting from apparent ethylene insertion into the silene Si-H bond. Furthermore, in the absence of ethylene, silene complex 6Bu,H slowly isomerized to the silylene hydride complex [(dmpe)2MnH([double bond, length as m-dash]SiEt n Bu)] (3Bu,Et ). Reactions of 4R with ethylene likely proceed via low-coordinate silyl {[(dmpe)2Mn(SiH2R)] (2Ph : R = Ph, 2Bu : R = n Bu)} or silylene hydride {[(dmpe)2MnH([double bond, length as m-dash]SiHR)] (3Ph,H : R = Ph, 3Bu,H : R = n Bu)} intermediates accessed from 4R by H3SiR elimination. DFT calculations and high temperature NMR spectra support the accessibility of these intermediates, and reactions of 4R with isonitriles or N-heterocyclic carbenes yielded the silyl isonitrile complexes [(dmpe)2Mn(SiH2R)(CNR')] (7a-d: R = Ph or n Bu; R' = o-xylyl or t Bu), and NHC-stabilized silylene hydride complexes [(dmpe)2MnH{[double bond, length as m-dash]SiHR(NHC)}] (8a-d: R = Ph or n Bu; NHC = 1,3-diisopropylimidazolin-2-ylidene or 1,3,4,5-tetramethyl-4-imidazolin-2-ylidene), respectively, all of which were crystallographically characterized. Silyl, silylene and silene complexes in this work were accessed via reactions of [(dmpe)2MnH(C2H4)] (1) with hydrosilanes, in some cases followed by ethylene. Therefore, ethylene (C2H4 and C2D4) hydrosilylation was investigated using [(dmpe)2MnH(C2H4)] (1) as a pre-catalyst, resulting in stepwise conversion of primary to secondary to tertiary hydrosilanes. Various catalytically active manganese-containing species were observed during catalysis, including silylene and silene complexes, and a catalytic cycle is proposed.

SUBMITTER: Price JS 

PROVIDER: S-EPMC7069235 | biostudies-literature | 2019 Dec

REPOSITORIES: biostudies-literature

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Interconversion and reactivity of manganese silyl, silylene, and silene complexes.

Price Jeffrey S JS   Emslie David J H DJH  

Chemical science 20191029 47


Manganese disilyl hydride complexes [(dmpe)<sub>2</sub>MnH(SiH<sub>2</sub>R)<sub>2</sub>] (<b>4<sup>Ph</sup></b> : R = Ph, <b>4<sup>Bu</sup></b> : R = <sup><i>n</i></sup> Bu) reacted with ethylene to form silene hydride complexes [(dmpe)<sub>2</sub>MnH(RHSi[double bond, length as m-dash]CHMe)] (<b>6<sup>Ph,H</sup></b> : R = Ph, <b>6<sup>Bu,H</sup></b> : R = <sup><i>n</i></sup> Bu). Compounds <b>6<sup>R,H</sup></b> reacted with a second equivalent of ethylene to generate [(dmpe)<sub>2</sub>MnH(RE  ...[more]

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