Thermal Isomerization of the Buchwald Seven-Membered Zirconacyclocumulene and Its Interaction with Acetylenes. Synthesis and Structures of Novel Seven-Membered Zirconacyclocumulene Complexes

Burlakov, Vladimir V.; Bogdanov, V. S.; Arndt, Perdita; Baumann, Wolfgang; Spannenberg, Anke; Ananyev, Ivan V.; Rosenthal, Uwe; Shur, V. B.

doi:10.1021/om501205s

Cited by 9 publications

(19 citation statements)

References 34 publications

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“…The starting sevenmembered zirconacyclocumulenes 1−3 were prepared according to the published procedures. 6,12 Commercial Me 3 SiCC−CCSiMe 3 was purchased from Sigma-Aldrich and used without additional purification. A 4 M solution of HCl in dioxane was also purchased from Sigma-Aldrich.…”

Section: ■ Experimental Sectionmentioning

confidence: 99%

“…13 C NMR (C 6 D 6 , δ, ppm): −0.8, −0.3, −0.2, 0.3, (SiMe 3 ), 102. 6,105.7 (CC),117.2,120.5 (CCH),139.3,160.3,179.7,180.7 (Cq).…”

Section: ■ Experimental Sectionmentioning

confidence: 99%

“…This latter fact allowed one to suggest that the electronic structure of these zirconacycles can be described as a resonance hybrid of the corresponding zirconacyclocumulene resonance form and the five-membered zirconacyclopentadiene one wherein the α-alkynyl group is coordinated with zirconium (Scheme ). ,− …”

Section: Introductionmentioning

confidence: 99%

“…The aforementioned resonance description of the electronic structure of seven-membered zirconacyclocumulene complexes explains satisfactorily not only the abnormally high thermal stability of these compounds but also the peculiarities of their reactivity. Thus, it turned out that in the interaction with acetylenes, nitriles, , diarylketones, and N -benzylideneaniline, , the Buchwald zirconacycle 1 reacts in its zirconacyclocumulene resonance form, whereas in the reactions with benzil, acenaphthenequinone, and S 2 Cl 2 , , the same zirconacycle behaves as if it was in the zirconacyclopentadiene resonance form.…”

Section: Introductionmentioning

confidence: 99%

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Protolysis of Seven-Membered Zirconacyclocumulene Complexes of Zirconocene

et al. 2020

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The interaction of the seven-membered zirconacyclocumulene complex Cp2Zr[η4-Me3SiC4(SiMe3)–C(C2SiMe3)=CSiMe3] (1) with an equimolar amount of HCl in dioxane at 20 °C results in the formation of the complex Cp2Zr(Cl)–C(CCSiMe3)C(SiMe3)–C(CCSiMe3)=CH(SiMe3) (4), wherein one of the CC groups is coordinated with the Zr atom. Under similar conditions, the reaction of 1 with an excess of HCl affords Cp2ZrCl2 and a mixture cis,cis- and cis,trans-unsaturated compounds H(Me3Si)CC(C2SiMe3)–C(SiMe3)CH(C2SiMe3) (5) and H(Me3Si)CC(C2SiMe3)–C(SiMe3)C(H)C2SiMe3 (6). The isomeric seven-membered zirconacyclocumulene Cp2Zr[η4-Me3SiC4(SiMe3)–C(SiMe3)C(C2SiMe3)] (2) reacts with 2 equiv of HCl in dioxane to give Cp2ZrCl2, H(Me3SiC2)CC(SiMe3)–C(SiMe3)C(C2SiMe3)H (7), and H(Me3SiC2)CC(SiMe3)–C(SiMe3)CCC(SiMe3)H (8). The subsequent reaction of this mixture with Mg in THF yields zirconabicycles 9 and 10, respectively, containing fused zirconacyclopentadiene and cyclohexadiene rings, and, correspondingly, zirconacyclopentene and cyclopentadiene cycles. From the interaction of 7 with Cp*2ZrCl2 and Mg in THF, complex 11, analogous to 9, was isolated. The protolysis of the seven-membered zirconacyclocumulene Cp2Zr[η4-PhC4(Ph)–(o-C6H4)] (3) with 2 equiv of HCl yields Cp2ZrCl2 and Ph2CC(H)–CCPh (16). The structures of 4, 7, 10, and 11 have been established by X-ray crystallography. The mechanisms of the reactions found are discussed.

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Section: ■ Experimental Sectionmentioning

confidence: 99%

“…13 C NMR (C 6 D 6 , δ, ppm): −0.8, −0.3, −0.2, 0.3, (SiMe 3 ), 102. 6,105.7 (CC),117.2,120.5 (CCH),139.3,160.3,179.7,180.7 (Cq).…”

Section: ■ Experimental Sectionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Protolysis of Seven-Membered Zirconacyclocumulene Complexes of Zirconocene

et al. 2020

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“…Since the pioneered works of Buchwald’s, Burlakov and Rosenthal, − the two types of metallacycles containing [3]cumulene fragments 1 an 2 are known for group 4 metallocenes (Figure ). ,− They have not only high stability but also unique chemical behavior and electronic structure. The group 4 metal atom incorporation leads to excited mesomerism/valence tautomerism in unsaturated metallacycles and new synthetic routes of other synthetically used systems. − …”

Section: Introductionmentioning

confidence: 99%

Aromaticity of 5- and 7-Membered Metallacyclocumulenes of Group 4

Aysin

Bukalov

2021

Organometallics

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Using the recent aromatic criteria, the conjugation and aromatic properties of group 4 metallacyclocumulenes Cp 2 M-η 4 −(R)CCCC−R (1) and Cp 2 M-η 3 (R−C CCC(R)−R(C) CR) (2) (M = Ti, Zr, Hf) were studied. To these nontrivial bonded metallacycles, the most recent universal criteria of aromaticity were applied that do not require any parametrisation such as isomerisation stabilization energy, electron density of delocalized bonds (EDDB), nuclear independent chemical shift, and gauge-included magnetically induced currents (GIMIC). All methods used indicated the absence of the common π-type aromaticity. The most efficient EDDB and GIMIC methods showed in-plane aromatic pathway in 5-membered cycle 1 against 7-membered 2. The distribution of the induced currents (ICs) for such unique aromaticity type was demonstrated. It shows that the diatropic ICs of 1 are located both inside and outside the cycle. The population analysis of molecular orbitals and natural orbitals for delocalized bonds revealed the abidance to the 4n + 2 electron rule. According to EDDB and GIMIC data, the degree of aromaticity for 1 tends to decrease from Ti to Zr and Hf. Article pubs.acs.org/Organometallics

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A Seven‐Membered Zirconacyclocumulene Complex as a source of Cyclobutadiene: Trapping of Cyclobutadiene by the Diels‐Alder Reaction

et al. 2022

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The interaction of the seven‐membered zirconacyclocumulene complex of zirconocene with acenaphthenequinone leads to the cyclobutadiene formation with its subsequent dimerization in cyclooctatetraene in addition to tetraoxadizirconacycle consists of two zirconocene and two acenaphthenequinone fragments. If this reaction is carried out in the presence of the excess of cyclopentadiene or acenaphthylene, the trapping of cyclobutadiene by the Diels‐Alder reaction takes place. Cyclobutadiene can act both as dienophile and diene source in these reactions.

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Thermal Isomerization of the Buchwald Seven-Membered Zirconacyclocumulene and Its Interaction with Acetylenes. Synthesis and Structures of Novel Seven-Membered Zirconacyclocumulene Complexes

Cited by 9 publications

References 34 publications

Protolysis of Seven-Membered Zirconacyclocumulene Complexes of Zirconocene

Protolysis of Seven-Membered Zirconacyclocumulene Complexes of Zirconocene

Aromaticity of 5- and 7-Membered Metallacyclocumulenes of Group 4

A Seven‐Membered Zirconacyclocumulene Complex as a source of Cyclobutadiene: Trapping of Cyclobutadiene by the Diels‐Alder Reaction

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