(η5‐Pentamethylcyclopentadienyl)eisen‐Komplexe mit η5‐2,3,5‐Tricarbahexaboranyl‐ und mit η5‐2,3‐Dihydro‐1,3‐diborolyl‐Liganden

Siebert, Walter; Hettrich, Ralph; Pritzkow, Hans

doi:10.1002/ange.19941060219

Cited by 12 publications

(9 citation statements)

References 14 publications

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“…[2] This effect causes a unique reactivity leading to classic 18 VE complexes. Coordination of the donor ligands DCO and DCN-R at the ruthenium center yields yellow 2 with decreased folding angles (< 208).…”

Section: Dedicated To Professor Michael Veith On the Occasion Of His mentioning

confidence: 99%

“…Eluting with hexane and then with hexane/CH 2 Cl 2 (4:1) gave a yellow elute, which was dried in vacuo and gave 4 a as a yellow solid (100 mg, 34 % [1a] a dark violet oil, on cooling in hexane finally yielded suitable crystals for an X-ray structural analysis, [3] which confirms that the 1,3-diborolyl ring C 3 B 2 is folded by 40.78 along the B···B vector, very similar to its green iron analogue. [2] The RuÀC2 bond length [2.029, ] is markedly shorter than the other RuÀC bond lengths of the heterocycle. …”

Section: Dedicated To Professor Michael Veith On the Occasion Of His mentioning

confidence: 99%

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Ruthenocene Analogues with a Novel C₅B₂ Ligand: (η⁷‐4‐Borataborepine)(η⁵‐pentamethylcyclopentadienyl)ruthenium Complexes

Nie

Pritzkow

et al. 2005

Angew Chem Int Ed

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Dedicated to Professor Michael Veith on the occasion of his 60th birthdayThe violet, formally 16 valence electron (VE) sandwich complexes 1 [1] are folded along the B···B vector of the heterocycle, as are the corresponding green iron complexes (folding angle a = 41.38).[2] This effect causes a unique reactivity leading to classic 18 VE complexes. Coordination of the donor ligands DCO and DCN-R at the ruthenium center yields yellow 2 with decreased folding angles (< 208).[1a] The incorporation of boranediyl ([DBH] from BH 3 ·THF) results in the formation of ruthenacarboranes 3 and likewise the incorporation of sulfur (from H 2 S) gives ruthenathiacarboranes. With phosphines, 1 forms donor-acceptor complexes 1-PH 2 R (R = H, Ph), however, the triorganylphosphine adducts 1-PR 3 (R = Me, Ph) are unstable. With tert-butylphosphaalkyne DP C-CMe 3 , no adduct but its incorporation into 1 is observed, however, it is not yet known which of the possible isomers of the resulting ruthenaphosphacarborane is formed.[1b]Herein we report the insertion of terminal alkynes into the heterocycle of 1, which leads to the 18 VE complexes 4 with the novel h 7 -4-borataborepine as a six-electron (6e) ligand, whereas with diorganylacetylenes the formation of boratabenzene complexes 5 occurs.Treatment of 1 a with 3-phenyl-1-propyne (Scheme 1) in hexane yields the yellow, relatively air-stable solid 4 a, which exhibits one broad signal at d = 29 ppm in the 11 B NMR spectrum (downfield compared to that of 1 a, d = 21.7 ppm). The absence of a second 11 B NMR signal in the upfield region indicates that the uptake of the alkyne did not give a ruthenacarborane with an apical boron atom, such as 3. In the EI-MS spectra, a cutoff peak at m/z 630 [M + ] shows that the 1:1 product does not lose the alkyne (which would occur an adduct of 2). A weak signal at m/z 532 [4 aÀBCH 2 SiMe 3 ]+ was tentatively assigned to the complex [Cp*Ru(boratabenzene)] (5 a; Cp* = C 5 Me 5 ). In addition, tribenzylbenzene was identified by MS as a side product. The structure of 4 a (Figure 1), established by a single-crystal X-ray diffraction, [3] demonstrates the formation of a novel sandwich complex with the 4-borataborepine ligand, as a result of the insertion of the C C unit of the alkyne into a BÀC bond of 1 a.[5] As the B1ÀC2 and B3ÀC2 bonds in 1 a are equivalent, both bonds react with the alkyne yielding enantiomers, which are found in the crystal structure.[3]The seven-membered ring in 4 a is less folded along the B···B vector (a = 268), and the RuÀB separations (2.527 and 2.542 ) are significantly elongated compared to those in 1 a.[5] The Ru À C bond lengths of the C 5 B 2 ring vary between 2.203 (RuÀC4) and 2.345 (RuÀC2). Because of the bonding between the ruthenium center and the larger ring, the bonds to the exocyclic a-atoms are tilted towards the ruthenium, with the exception of those to C16 and C20, which are bound to the boron atoms, which tilt in the opposite direction.The influence of the bulky silyl groups in 4 a is evident when compared with 4 b, o...

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Section: Dedicated To Professor Michael Veith On the Occasion Of His mentioning

confidence: 99%

Section: Dedicated To Professor Michael Veith On the Occasion Of His mentioning

confidence: 99%

Ruthenocene Analogues with a Novel C₅B₂ Ligand: (η⁷‐4‐Borataborepine)(η⁵‐pentamethylcyclopentadienyl)ruthenium Complexes

Nie

Pritzkow

et al. 2005

Angew Chem Int Ed

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“…15 mg) was identified by EI-MS to be the boratabenzene complex 5c. 1 A solution of trimethylsilylacetylene (43 mg, 0.44 mmol) in hexane (10 mL) was added to a solution of 2a (140 mg, 0.38 mmol) in hexane (10 mL) at À60°C. No immediate color change was observed, and the mixture was warmed to r.t., during which time the solution turned from violet to brown and finally yellow and a small amount of precipitate appeared.…”

Section: (G 5 -Pentamethylcyclopentadienyl)(g 7 -12345-pentamethymentioning

confidence: 99%

“…10 mg) did not provide clear information. 1 Acetylene was bubbled into a solution of 2a (143 mg, 0.39 mmol) in hexane (10 mL) at À60°C. In a few seconds the solution turned from violet to yellow with the formation of a small amount of precipitate.…”

Section: (G 5 -Pentamethylcyclopentadienyl)(g 7 -12345-pentamethymentioning

confidence: 99%

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Insertion of alkynes into the heterocycle of (η5-pentaalkyl-2,3-dihydro-1,3-diborolyl)(η5-pentamethylcyclopentadienyl)ruthenium: Formation and characterization of 4-borataborepine ruthenium complexes

Nie¹,

Wadepohl²,

Hu³

et al. 2009

Journal of Organometallic Chemistry

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Electron‐Poor 2,3‐Dihydro‐1,3‐diborolyl Ruthenium Compounds: Synthesis, Complexation, Oxidative Addition, Capping, and Stacking Reactions

Müller

Kaschke

Strauch

et al. 1999

Euro J of Inorganic Chem

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(η⁵‐Pentamethylcyclopentadienyl)eisen‐Komplexe mit η⁵‐2,3,5‐Tricarbahexaboranyl‐ und mit η⁵‐2,3‐Dihydro‐1,3‐diborolyl‐Liganden

Cited by 12 publications

References 14 publications

Ruthenocene Analogues with a Novel C₅B₂ Ligand: (η⁷‐4‐Borataborepine)(η⁵‐pentamethylcyclopentadienyl)ruthenium Complexes

Ruthenocene Analogues with a Novel C₅B₂ Ligand: (η⁷‐4‐Borataborepine)(η⁵‐pentamethylcyclopentadienyl)ruthenium Complexes

Insertion of alkynes into the heterocycle of (η5-pentaalkyl-2,3-dihydro-1,3-diborolyl)(η5-pentamethylcyclopentadienyl)ruthenium: Formation and characterization of 4-borataborepine ruthenium complexes

Electron‐Poor 2,3‐Dihydro‐1,3‐diborolyl Ruthenium Compounds: Synthesis, Complexation, Oxidative Addition, Capping, and Stacking Reactions

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(η5‐Pentamethylcyclopentadienyl)eisen‐Komplexe mit η5‐2,3,5‐Tricarbahexaboranyl‐ und mit η5‐2,3‐Dihydro‐1,3‐diborolyl‐Liganden

Cited by 12 publications

References 14 publications

Ruthenocene Analogues with a Novel C5B2 Ligand: (η7‐4‐Borataborepine)(η5‐pentamethylcyclopentadienyl)ruthenium Complexes

Ruthenocene Analogues with a Novel C5B2 Ligand: (η7‐4‐Borataborepine)(η5‐pentamethylcyclopentadienyl)ruthenium Complexes

Insertion of alkynes into the heterocycle of (η5-pentaalkyl-2,3-dihydro-1,3-diborolyl)(η5-pentamethylcyclopentadienyl)ruthenium: Formation and characterization of 4-borataborepine ruthenium complexes

Electron‐Poor 2,3‐Dihydro‐1,3‐diborolyl Ruthenium Compounds: Synthesis, Complexation, Oxidative Addition, Capping, and Stacking Reactions

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(η⁵‐Pentamethylcyclopentadienyl)eisen‐Komplexe mit η⁵‐2,3,5‐Tricarbahexaboranyl‐ und mit η⁵‐2,3‐Dihydro‐1,3‐diborolyl‐Liganden

Ruthenocene Analogues with a Novel C₅B₂ Ligand: (η⁷‐4‐Borataborepine)(η⁵‐pentamethylcyclopentadienyl)ruthenium Complexes

Ruthenocene Analogues with a Novel C₅B₂ Ligand: (η⁷‐4‐Borataborepine)(η⁵‐pentamethylcyclopentadienyl)ruthenium Complexes