Thermal rearrangement of a 1,2-bis(silylene): Synthesis and crystal structure of a silyl-silylene

Sidiropoulos, Anastas; Stasch, Andreas; Jones, Cameron

doi:10.1515/mgmc-2019-0013

Cited by 6 publications

(6 citation statements)

References 13 publications

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“…In contrast, no reaction occurred between CO and the germanium and tin analogues of 1 , viz . [{ArC(NDip) 2 }M] 2 (M=Ge or Sn), under ambient conditions [6] . It appears that compound 2 is formed by a combination of Si−Si bond cleavage, and insertion of CO into an N−Si bond of one four‐membered silylene ring of the starting material, 1 .…”

Section: Methodsmentioning

confidence: 99%

Activation of CO Using a 1,2‐Disilylene: Facile Synthesis of an Abnormal N‐Heterocyclic Silylene

et al. 2022

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Reaction of the 1,2-disilylene, [{ArC(NDip) 2 } Si] 2 1 (Dip = 2,6-diisopropylphenyl, Ar = 4-C 6 H 4 Bu t ), with CO proceeds via insertion of CO into one SiÀ N bond, and SiÀ Si bond cleavage, to cleanly give the bis(silylene), {ArC(NDip) 2 }Si(:)OCSið:ÞðNDipÞ 2 C Ar 2, under ambient conditions. The reaction can be partially reversed when solutions of 2 are subjected to UV irradiation. The five-membered heterocyclic fragment of 2 represents the first silicon analogue of an "abnormal" N-heterocyclic carbene (aNHC), a view which is substantiated by a computational analysis of the compound. Reaction of 2 with [Mo(CO) 6 ] under UV light affords the chelate complex, [Mo(CO) 4 (k 2 -Si,Si-2)] 3, while reaction with [Fe(CO) 5 ] gives the unusual silyleneyl bridged complex, [{Fe 2 (CO) 6 }{μ-Si[(NDip) 2 CAr]} 2 ] 4. The same coordination complexes can be accessed by reaction of 1 with [Mo(CO) 6 ] or [Fe(CO) 5 ] under UV light. As is the case for aNHCs, d-block metal complexes of bis(silylene) 2 could prove useful as bespoke catalysts for organic transformations.

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Section: Methodsmentioning

confidence: 99%

Activation of CO Using a 1,2‐Disilylene: Facile Synthesis of an Abnormal N‐Heterocyclic Silylene

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“…5 It is noteworthy, however, that a small number of other 1,2-disilylenes are known, 2,6 and have showed reactivity related to that of [{PhC(NBu t ) 2 }Si] 2 . While the further chemistry of 1 is sparse, 7 we have recently showed that it reacts cleanly with CO under ambient conditions to give an unprecedented example School of Chemistry, PO Box 23, Monash University, VIC, 3800, Australia. E-mail: cameron.jones@monash.edu; https://www.monash.edu/science/researchgroups/chemistry/jonesgroup of an "abnormal" N-heterocyclic silylene, 2 (Fig.…”

Section: Introductionmentioning

confidence: 99%

“…5 It is noteworthy, however, that a small number of other 1,2-disilylenes are known, 2,6 and have showed reactivity related to that of [{PhC(NBu t ) 2 }Si] 2 . While the further chemistry of 1 is sparse, 7 we have recently showed that it reacts cleanly with CO under ambient conditions to give an unprecedented example of an “abnormal” N-heterocyclic silylene, 2 (Fig. 1), which is functionalised by an oxysilylene fragment.…”

Section: Introductionmentioning

confidence: 99%

Facile activation of inert small molecules using a 1,2-disilylene

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“…[5] In contrast to [{PhC(NBu t ) 2 }Si] 2 , the reactivity of 1 has been poorly studied. [6] However, given that its SiÀ Si bond has been calculated to be very weak (16.6 kcal mol À 1 ), and longer (2.488(2) Å) than that in [{PhC-(NBu t ) 2 }Si] 2 (2.413(2) Å), it might be expected to display similar, if not greater, reactivity than Roesky's 1,2-disilylene.…”

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confidence: 99%

“…[{ArC(NDip) 2 }M] 2 (M = Ge or Sn), under ambient conditions. [6] It appears that compound 2 is formed by a combination of SiÀ Si bond cleavage, and insertion of CO into an NÀ Si bond of one four-membered silylene ring of the starting material, 1. The product, 2, can be formulated as a bis(silylene), which contains one four-membered silylene fragment linked to a five-membered silylene ring via an Oatom bridge.…”

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confidence: 99%

Activation of CO Using a 1,2‐Disilylene: Facile Synthesis of an Abnormal N‐Heterocyclic Silylene

et al. 2022

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Reaction of the 1,2‐disilylene, [{ArC(NDip)2}Si]2 1 (Dip=2,6‐diisopropylphenyl, Ar=4‐C6H4But), with CO proceeds via insertion of CO into one Si−N bond, and Si−Si bond cleavage, to cleanly give the bis(silylene), {ArC(NDip)2}Si(:)OnormalCnormalSnormali(:)(normalNnormalDnormalinormalp)2normalC‾ Ar 2, under ambient conditions. The reaction can be partially reversed when solutions of 2 are subjected to UV irradiation. The five‐membered heterocyclic fragment of 2 represents the first silicon analogue of an “abnormal” N‐heterocyclic carbene (aNHC), a view which is substantiated by a computational analysis of the compound. Reaction of 2 with [Mo(CO)6] under UV light affords the chelate complex, [Mo(CO)4(κ2‐Si,Si‐2)] 3, while reaction with [Fe(CO)5] gives the unusual silyleneyl bridged complex, [{Fe2(CO)6}{μ‐Si[(NDip)2CAr]}2] 4. The same coordination complexes can be accessed by reaction of 1 with [Mo(CO)6] or [Fe(CO)5] under UV light. As is the case for aNHCs, d‐block metal complexes of bis(silylene) 2 could prove useful as bespoke catalysts for organic transformations.

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Thermal rearrangement of a 1,2-bis(silylene): Synthesis and crystal structure of a silyl-silylene

Cited by 6 publications

References 13 publications

Activation of CO Using a 1,2‐Disilylene: Facile Synthesis of an Abnormal N‐Heterocyclic Silylene

Activation of CO Using a 1,2‐Disilylene: Facile Synthesis of an Abnormal N‐Heterocyclic Silylene

Facile activation of inert small molecules using a 1,2-disilylene

Activation of CO Using a 1,2‐Disilylene: Facile Synthesis of an Abnormal N‐Heterocyclic Silylene

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