The Versatile Alkylidene Moiety in Ruthenium Olefin Metathesis Catalysts

Diesendruck, Charles E.; Tzur, Eyal; Lemcoff, N. Gabriel

doi:10.1002/ejic.200900526

Cited by 89 publications

(23 citation statements)

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“…Clavier et al führten ihre Reaktionen in einer Mikroemulsion von ionischen Flüssigkeiten in Toluol durch und konnten die Ruthenium‐Verunreinigungen auf 1–22 ppm begrenzen [27]. Mehrere Arbeitsgruppen modifizierten die Liganden derart, dass mit käuflich erwerbbarem, geladenem Säulenmaterial eine starke Interaktion aufgebaut werden kann.…”

Section: Polymereunclassified

“…Die hohe Aktivität von Hoveyda‐Grubbs‐Katalysatoren eröffnete die Möglichkeit, den Katalysator‐Komplex ohne große Aktivitätsverluste zu immobilisieren. Arbeiten von Cannon und Blechert sowie Yao und Motta mit hydrophilem PEG‐Harz zeigten sehr vielversprechende Ergebnisse [24, 27]. So konnte der Katalysator nicht nur 17 Zyklen überstehen, sondern auch stark sterisch gehinderte vierfach substituierte Olefine wurden effizient konvertiert.…”

Section: Polymereunclassified

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Early‐Transition‐Metal Catalysts with Phenoxy–Imine‐Type Ligands for the Oligomerization of Ethylene

Kinoshita¹,

Kawamura²,

Fujita³

2011

Chemistry An Asian Journal

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Section: Polymereunclassified

Early‐Transition‐Metal Catalysts with Phenoxy–Imine‐Type Ligands for the Oligomerization of Ethylene

Kinoshita¹,

Kawamura²,

Fujita³

2011

Chemistry An Asian Journal

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“…18,19 Several reviews have addressed aspects of olefin metathesis, which generally involves ruthenium catalysts. [20][21][22][23] Iron There is increasing interest in iron oxide nanoparticles. Possibly the most intriguing report is that droplets of UV curable resin containing superparamagnetic colloidal particles of Fe 3 O 4 can be polymerised fixing ordered structures, whose colour can be chosen by changing the magnetic field relative to the light source.…”

Section: Introductionmentioning

confidence: 99%

Iron, ruthenium, osmium

Cotton¹

2010

Annu. Rep. Prog. Chem., Sect. A: Inorg. Chem.

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“…Despite the large number of modified Hoveyda‐type complexes,4b many of which were introduced by the Grela group,9 2‐phenoxy‐substituted complexes have not been reported. Replacing an sp 3 ‐carbon by an sp 2 ‐carbon in a phenyl groups leads to a decrease in the oxygen donation.…”

Section: Introductionmentioning

confidence: 99%

Fast Olefin Metathesis: Synthesis of 2‐Aryloxy‐Substituted Hoveyda‐Type Complexes and Application in Ring‐Closing Metathesis

2013

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Four 1-(4-R-phenoxy)-2-ethenylbenzenes (R = NMe 2 , H, Cl, NO 2 ) 4a, 4b, 4c and 4d were reacted with the ruthenium complexes [RuCl 2 A C H T U N G T R E N N U N G (NHC)(3phenylindenylidene)(py)] in the presence of a protic resin to result in the formation of the respective Hoveyda-type complexes 5a-d {NHC = SIMes [1,3bis(2,4,6-trimethylphenylimidazolin)-2-ylidene]} and 6a-d {NHC = SIPr [1,3-bis(2,6-diisopropylphenylimidazolin)-2-ylidene]} in 66-84% yield. The lower steric bulk and the decreased donation of the diaryl ether oxygen atoms in complexes 5 and 6 led to rapidly initiating precatalysts. The RuA C H T U N G T R E N N U N G (II/III) redox potentials of complexes 6 were determined (6a-d: DE = 0.89-1.08 V). In the crystal structure of 5b two independent molecules were observed in the unit cell, displaying Ru À O distances of 226.6(4) and 230.5(3) pm. The catalytic performance of complexes 5 and 6 in various ring-closing metathesis (RCM) reactions was studied. Catalyst loadings of between 15-200 ppm are sufficient for the formation of > 90% yield of the respective cyclic products. Complex 6b catalyzes the formation of N-protected 2,5dihydropyrroles with up to TON 64,000 and TOF 256,000 h À1 , of the N-protected 1,2,3,6-tetrahydropyridines with up to TON 18,200 and TOF 73,000 h À1 and of the N-protected 2,3,6,7-tetrahydroazepines with up to TON 8,100 and TOF 32,000 h À1 with yields ranging between 77 and 96%.

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The Versatile Alkylidene Moiety in Ruthenium Olefin Metathesis Catalysts

Cited by 89 publications

References 203 publications

Early‐Transition‐Metal Catalysts with Phenoxy–Imine‐Type Ligands for the Oligomerization of Ethylene

Early‐Transition‐Metal Catalysts with Phenoxy–Imine‐Type Ligands for the Oligomerization of Ethylene

Iron, ruthenium, osmium

Fast Olefin Metathesis: Synthesis of 2‐Aryloxy‐Substituted Hoveyda‐Type Complexes and Application in Ring‐Closing Metathesis

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