Pamela J. Naish scite author profile

Protonation of the complexes [M2(CO)(p-CO){p-C(0)C2R2)(q-C5H5)2] [M = Fe or Ru; R2 = H2, Ph, , H (Me), or H (Ph)] with H BF,*OEt, results in rapid carbon-carbon bond cleavage and formation of the p-vinyl cations [M2(CO)2(p-CO){p-C(R)=C(H)R)(q-C5H5)2] +, containing a cis arrangement of R groups. Addition of HBF,*OEt2 to [Ru,(CO) (p-CO){p-C(0)C2Me2}(q-C5H5)2] produces the cation [Ru2(CO) (p-CO)({p-C(H)(O)C,Me,)(q-C,H,),] +, which isomerises slowly to [ R u ~( C O ) ~( ~-C O ) { ~-C ( M ~) = C ( H ) M ~) ( ~-C ~H ~) ~]+. The p-vinyl cations exist in solution as isomers with cis and trans orientations of terminal ligands, shown by variable-temperature n.m.r. to interconvert ; cis isomers additionally display a fluxional oscillation of the p-vinyl ligand. Treatment of the cations with NaBH, yields p-carbene complexes [M2(CO)2(p-CO){p-C(R)CH2R)(q-C5H5)2] in good yield, also as cis and trans isomers which interconvert in solution. These result from hydride addition to the p-carbon of the p-vinyl, but addition to the or-carbon is apparent in the low-yield co-formation of the terminal ethylene complex [Ru2(C0)(p-CO),( C2H,) ( T ~-C ~H ~) ~] from the cation [Ru2(C0),(p-CO) (p-CH=CH2) (q-C5H5)2] +. Addition of sodium tetrahydroborate to [Ru,(CO)(p-CO){p-C( H)(0)C2Me2}(q-C5H5),] + provides the complex [Ru2(CO) (p-CO){p-C(Me)C(Me)CH2)(q-C5H5)2], completing a conversion of metallacyclic CO to CH2. Regeneration of the p-vinyl cation [M2(CO),(p-CO) (p-CH=CH2) ( T ~-C ~H ~) ~] + is achieved by treatment of [M2(C0),(p-CO){p-C( H) Me)(q-C5H5)2] with [CPh,] [BF,]. In Part 1 of this Series we reported the syntheses of di-iron Results and lX~u&On and diruthenium complexes [M2(CO)(p-CO)(p-C(0)C,R,>(rlp-Vinyl Cations.-Synthesis. Addition of HBF,*OEt2 to C5H5)2] (1)--(12) through reactions of alkynes with [M2(CO)4-an acetone or dichloromethane solution of the di-iron and (T)-C~H~)~].* The chemistry of these dimetallacyclopentenone diruthenium complexes [M2(CO)(p-CO){p-C(0)GR2)(q-hydrocarbon~.~*~ Aspects of this work have appeared as preliminary communications.6~' C5H&] (1)-(1 I ) results in immediate cleavage of the alkyne-CO link. The ' alkyne' portion of the dimetallacycle is protonated, generating p-vinyl cations [Mr(C0)2(p-CO)(p-CR'=C(H)R2}(q-C5H5)2][BF4] (1 3)--(23) in which R' and R2are cis to one another, while the metallacyclic ketonic carbonyl is transformed into a terminal ligand. Different behaviour is shown by the diruthenium complex (12), derived from but-2yne, which yields the appropriate p-vinyl cation (24) only very slowly and via a readily isolated intermediate ( 25). This anomaly is discussed in detail below. Infrared spectra indicated that the p-vinyl complexes are formed in clean,

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Organic chemistry of dinuclear metal centres. Part 1. Combination of alkynes with carbon monoxide at di-iron and diruthenium centres: crystal structure of [Ru₂(CO)(µ-CO){µ-σ:η³-C(O)C₂Ph₂}(η-C₅H₅)₂]

Dyke¹,

Knox²,

Naish³

et al. 1982

J. Chem. Soc., Dalton Trans.

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Exponentially Modified Gaussian functions—A good model for chromatographic peaks in isocratic HPLC?

Naish

Hartwell

1988

Chromatographia

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Combination of alkynes with µ-carbenes at a dimetal centre, and X-ray structure of [Fe₂(CO)(µ-CO){µ-η¹,η³-C(CO₂Me)C(CO₂Me)CHMe}(η-C₅H₅)₂]: implications for metathesis and alkyne polymerisation

Dyke¹,

Knox²,

Naish³

et al. 1980

J. Chem. Soc., Chem. Commun.

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Rridging methylcarbene complexes [M,(CO),-(p-CO)(p-CHMe)(q-C,H,),] (M = Fe or Ru) react with alkynes RCiR1 (R = R1 = HI Me, C0,Me; R = Me, R1 = H) under U.V. irradiation to produce complexes [M,(CO) (p-CO) (p-q1,q3-CRCR1CHMe) (q-C5H5),], shown through an X-ray diffraction study of [Fe,(CO) (p-C0)-{p-q1,y3-C (C0,Me) C (C0,Me) CHMe 1 (q-C5H5),] to arise from linking of the p-carbene and alkyne. THE chemistry of carbene complexes of transition metals has attracted much investigation, not least because of their implication in the metathesis1p2 of alkenes. Almost all study has been concerned with carbenes co-ordinated a t a mononuclear metal centre and has been associated with mechanistic schemes for metathesis based on monometallocycles. By comparison, the reactivity of carbenes coordinated a t a dinuclear metal centre ( t bridging carbenes') is effectively unexplored. Very recently, however, the possibility of metathesis involving bridging carbenes and ditungsten3 ** metallocycles has been discussed, and it has also been suggested5 that di-iron metallocycles are intermediates in the production of propene from [Fe,(CO),-(p-CH,)] and ethene. In the course of studies*--* on the reactivity of dinuclear metal centres we have developed8 a convenient synthesis of p-carbene di-iron and diruthenium complexes, and now report that these are highly reactive towards ethyne and other alkynes, forming stable dimetallocycles through carbon-carbon bond formation.The p-methylcarbene complexes [M2(C0), (p-CO) (p-CH-Me) (q-C5H5),] (1) exist in solution as cis (predominantly) and trans isomers, the cis iron complex having been found to adopt, in the solid state a t least, the anti methyl group orientation illustrated.8 Each complex (1) reacts with ethyne under U.V. irradiation (toluene solution, silica glass flask, 250 W mercury lamp, 3 and 25 h respectively) to give crystalline olive-green [Fe,(CO) (p-CO) (p-q1,q3-CHCHCH-q3-CHCHCHMe) (q-C5H,),] (2b) (55%) , respectively. No Me) ('q-c5H5)2] (2a) (85%) f or orange [Ru,(CO) (p-co) (p-qlIt (2a): m.p. 178-182 "C(decomp); v(CO)(hexane) 1 961% and 1 793m cm-l; lH n.m.r. (CDCI,) 6 11-86 (d, J 6 Hz, C4H). 4.71 (s,

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Conversion of ethyne into methylcarbene and ethene at a di-metal centre: X-ray structure of [Fe₂(CO)₂(µ-CO)(µ-CHMe)(η-C₅H₅)₂]

Dyke¹,

Knox²,

Naish³

et al. 1980

J. Chem. Soc., Chem. Commun.

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Protonation of the ethyne-derived dimetallocycles [M2(C0) (p-co) Ip-71,73-C(0)C2H2 }(q-C5H5),1 (3% = Fe or Ru) provides cationic vinyl complexes [M,(CO), (p-CO) (p-CHCH,) (+,H5),] [BF,] which, with NaBH,, give bridging methylcarbene complexes [M,(CO),(p-CO) -(p-CHMe)(y-C,H,),] and in the case of ruthenium a n additional ethene complex [Ru,(CO) (p-CO),(C,H,) (7-C5-H,),] ; the structure of cis-[Fe,(CO),(p-CO) (p-CHNle) (q-C,H,),] has been established by X-ray diffraction.

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Pamela J. Naish

Organic chemistry of dinuclear metal centres. Part 3. µ-Carbene complexes of iron and ruthenium from alkynes viaµ-vinyl cations

Organic chemistry of dinuclear metal centres. Part 1. Combination of alkynes with carbon monoxide at di-iron and diruthenium centres: crystal structure of [Ru₂(CO)(µ-CO){µ-σ:η³-C(O)C₂Ph₂}(η-C₅H₅)₂]

Exponentially Modified Gaussian functions—A good model for chromatographic peaks in isocratic HPLC?

Combination of alkynes with µ-carbenes at a dimetal centre, and X-ray structure of [Fe₂(CO)(µ-CO){µ-η¹,η³-C(CO₂Me)C(CO₂Me)CHMe}(η-C₅H₅)₂]: implications for metathesis and alkyne polymerisation

Conversion of ethyne into methylcarbene and ethene at a di-metal centre: X-ray structure of [Fe₂(CO)₂(µ-CO)(µ-CHMe)(η-C₅H₅)₂]

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Pamela J. Naish

Organic chemistry of dinuclear metal centres. Part 3. µ-Carbene complexes of iron and ruthenium from alkynes viaµ-vinyl cations

Organic chemistry of dinuclear metal centres. Part 1. Combination of alkynes with carbon monoxide at di-iron and diruthenium centres: crystal structure of [Ru2(CO)(µ-CO){µ-σ:η3-C(O)C2Ph2}(η-C5H5)2]

Exponentially Modified Gaussian functions—A good model for chromatographic peaks in isocratic HPLC?

Combination of alkynes with µ-carbenes at a dimetal centre, and X-ray structure of [Fe2(CO)(µ-CO){µ-η1,η3-C(CO2Me)C(CO2Me)CHMe}(η-C5H5)2]: implications for metathesis and alkyne polymerisation

Conversion of ethyne into methylcarbene and ethene at a di-metal centre: X-ray structure of [Fe2(CO)2(µ-CO)(µ-CHMe)(η-C5H5)2]

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Organic chemistry of dinuclear metal centres. Part 1. Combination of alkynes with carbon monoxide at di-iron and diruthenium centres: crystal structure of [Ru₂(CO)(µ-CO){µ-σ:η³-C(O)C₂Ph₂}(η-C₅H₅)₂]

Combination of alkynes with µ-carbenes at a dimetal centre, and X-ray structure of [Fe₂(CO)(µ-CO){µ-η¹,η³-C(CO₂Me)C(CO₂Me)CHMe}(η-C₅H₅)₂]: implications for metathesis and alkyne polymerisation

Conversion of ethyne into methylcarbene and ethene at a di-metal centre: X-ray structure of [Fe₂(CO)₂(µ-CO)(µ-CHMe)(η-C₅H₅)₂]