Vinyl homologation via methyl migration to µ-vinyl at a diruthenium centre

Bruce, Gregg C.; Gangnus, Bernd; Garner, Stephanie E.; Knox, Selby A. R.; Orpen, A. Guy; Phillips, Andrew J.

doi:10.1039/c39900001360

Cited by 12 publications

(4 citation statements)

References 7 publications

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“…The reaction which leads to 4c is accompanied by fragmentation, since small amounts (12%) of the known monomer [Ru(Cp)(CO) 2 (Br)] [29] were isolated upon chromatography.…”

Section: Rumentioning

confidence: 99%

Additions and intramolecular migrations of nucleophiles in cationic diruthenium μ-allenyl complexes

Knox

Marchetti

2007

Journal of Organometallic Chemistry

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“…The reaction which leads to 4c is accompanied by fragmentation, since small amounts (12%) of the known monomer [Ru(Cp)(CO) 2 (Br)] [29] were isolated upon chromatography.…”

Section: Rumentioning

confidence: 99%

Additions and intramolecular migrations of nucleophiles in cationic diruthenium μ-allenyl complexes

Knox

Marchetti

2007

Journal of Organometallic Chemistry

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“…Complex 4 exhibits the three expected vinylic resonances (d H : 6.50, "dt", H a ; 5.11, dd, H b ; 4.49, dd, H b ) in the low field region, which have been assigned according to the data found in the literature for related vinyl bridging complexes, with the H a proton appearing at higher frequencies than the protons in b positions. 29,76- 79 Suitable crystals for X-ray crystallographic studies were obtained for complexes 4 and 5 (Fig. 3, Table 1).…”

Section: Introductionmentioning

confidence: 99%

C–H and P–C(Ph) activation competitive processes caused by interaction with the solvate [cis-Pt(C₆F₅)₂(thf)₂]

2007

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The study of the reaction between the ethylene [Pt(eta-H2C = CH2)(PPh3)2] or alkyne [Pt(eta2-HC [triple bond] CR)(PPh3)2] (R = SiMe3 1, Bu(t) 2) complexes with [cis-Pt(C6F5)2(thf)2] (thf = tetrahydrofuran) has enabled us to observe the existence of competitive processes between the activation of a P-C(Ph) bond on the PPh3 ligand, to give the binuclear derivative [cis-(C6F5)2Pt(mu-Ph)(mu-PPh2)Pt(PPh3)] 3, and the activation of a C-H bond of the unsaturated group, to give the corresponding (mu-hydride)(mu-vinyl) [cis, cis-(PPh3)2Pt(mu-H)(mu-1kappaC(alpha):eta2-CH = CH2)Pt(C6F5)2] 4 or (mu-hydride)(mu-alkynyl) [cis,cis-(PPh3)2Pt(mu-H)(mu-1kappaC(alpha):eta2-C [triple bond]CR)Pt(C6F5)2] (R = SiMe3 5, Bu(t) 6) compounds, respectively. The monitoring of these reactions by NMR spectroscopy has allowed us to detect several intermediates, and to propose a mechanism for the C-H bond activation. In addition, the structures of the (muo-hydride)(mu-alkynyl) complex 5 and the unprecedented (mu-hydride)(mu-vinyl) derivative 4 have been obtained by X-ray crystallographic analyses.

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“…Dimetallic complexes featuring two adjacent metal centers constitute unique systems in coordination chemistry, in that such a dimetallic core is the simplest framework which benefits from cooperative effects, enabling peculiar reactivity patterns (especially on bridging ligands) otherwise not viable on monometallic complexes. − Thus, dimetallic complexes have been widely investigated as convenient models to clarify and develop chemical transformations mediated by more complex structures wherein the metal–metal synergy plays a key role, such as natural enzymes and metal surfaces. , In this setting, the interest in the reactivity of hydrocarbyl ligands, bridging coordinated in dinuclear metal complexes, ranges from the elucidation of the mechanisms of carbon–carbon bond formation processes (e.g., the Fischer–Tropsch synthesis), − the metal-mediated synthesis of organic compounds, , new organometallic motifs not accessible from conventional procedures, − and the formation of complexes with functionalized ligands supplying useful properties for applications in catalysis, electronics, and medicinal chemistry. − The huge and urgent demand for the development of sustainable synthetic methodologies renders diiron complexes an ideal choice to explore novel organometallic reaction pathways based on the abundance and environmental benignity of iron. ,− …”

Section: Introductionmentioning

confidence: 99%

Construction of Two-Faced (Hetero)hydrocarbyl Diiron Complexes Mediated by the Interplay of Ligands

et al. 2023

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The functionalized allylidene complex [Fe 2 Cp 2 (CO)(μ-CO){μ-η 1 :η 3 -C γ (Fc)-C β HC α (CN)NMe 2 }], 1 [Cp = η 5 -C 5 H 5 ; Fc = CpFe(η 5 -C 5 H 4 )], reacted with isocyanides (CNR), in isopropanol solution at ca. 100 °C, to give the CO-substitution products [Fe 2 Cp 2 (CO)(μ-CNR){μ-η 1 :η], which were isolated in 61−84% yields. The bridging coordination of CNR in 2a−c is forced by a stabilizing electrostatic interaction between the nitrogen lone pair belonging to the {NMe 2 } group and the terminal CO ligand. Isocyanide methylation with methyl triflate proceeded with the inversion of stereochemistry at the C α carbon and led to [Fe 2 Cp 2 (CO){μ-CN(Me)R}{μ-η 1 :η), containing bridging allylidene and aminocarbyne ligands (68−74% yields). All products were fully characterized by IR and multinuclear NMR spectroscopy, and the structures of 2a and [3a]CF 3 SO 3 were elucidated by X-ray diffraction studies. Density functional theory (DFT) calculations were extensively carried out to shed light on structural, mechanistic, and thermodynamic features.

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Vinyl homologation via methyl migration to µ-vinyl at a diruthenium centre

Cited by 12 publications

References 7 publications

Additions and intramolecular migrations of nucleophiles in cationic diruthenium μ-allenyl complexes

Additions and intramolecular migrations of nucleophiles in cationic diruthenium μ-allenyl complexes

C–H and P–C(Ph) activation competitive processes caused by interaction with the solvate [cis-Pt(C₆F₅)₂(thf)₂]

Construction of Two-Faced (Hetero)hydrocarbyl Diiron Complexes Mediated by the Interplay of Ligands

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Vinyl homologation via methyl migration to µ-vinyl at a diruthenium centre

Cited by 12 publications

References 7 publications

Additions and intramolecular migrations of nucleophiles in cationic diruthenium μ-allenyl complexes

Additions and intramolecular migrations of nucleophiles in cationic diruthenium μ-allenyl complexes

C–H and P–C(Ph) activation competitive processes caused by interaction with the solvate [cis-Pt(C6F5)2(thf)2]

Construction of Two-Faced (Hetero)hydrocarbyl Diiron Complexes Mediated by the Interplay of Ligands

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C–H and P–C(Ph) activation competitive processes caused by interaction with the solvate [cis-Pt(C₆F₅)₂(thf)₂]