Activating Thiolate‐Based Imidoalkylidene Tungsten(VI) Metathesis Catalysts by Grafting onto Silica

Allouche, Florian; Mougel, Victor; Copéret, Christophe

doi:10.1002/ajoc.201500038

Cited by 12 publications

(16 citation statements)

References 43 publications

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“…[552, 553a, 555] In the absence of ethylene, Mo and Wc atalysts show very similar activities in the metathesis of the internal olefin cis-4-nonene. [553][554][555] Theo bserved activities are:O tBu < Me 2 Pyr < SAr" < OtBu F3 < OSi(OtBu) 3 < OtBu F6 < OtBu F9 ,w hich parallels the decrease in the s-donating ability of the Xligand. [553][554][555] Theo bserved activities are:O tBu < Me 2 Pyr < SAr" < OtBu F3 < OSi(OtBu) 3 < OtBu F6 < OtBu F9 ,w hich parallels the decrease in the s-donating ability of the Xligand.…”

Section: Well-defined Silica-supported W-imido-alkylidenesmentioning

confidence: 99%

“…[519][520][521][522][523][524][525][526] Supporteda lkylidynes were also shownt o be active metathesis catalystp recursors. Preliminaryr eports appeared in early2 000s, [541,542] andt he applicationo fm odern characterization techniques eventually allowedf or precise controlofthe structures of thesesurface speciesand gave rise to theg enerationo fr emarkablya ctive well-defined silica-supportedMo- [543][544][545][546][547][548][549] andW-imido-alkylidenes [550][551][552][553][554][555] andmore recently W-oxo-alkylidenes [556][557][558][559][560] (Section 7.3.2.4).I nt he 1970sa nd 1980st he groups of Yermakov [561][562][563][564] andI wasawa [565,566] were thef irst to useo rganometallicp recursors (Mo(C 3 H 5 ) 4 and W(C 4 H 7 ) 4 )t op repare well-defined supported Mo and Woxides relevant to industrial systems and discriminate the activities of different oxidation states.T hese studies suggested that neither fully oxidized Mo VI /W VI nor highly reduced Mo II /W II species were responsible for the metathesis activity and that active sites likely arose from the oxidation state + IV.Recent advances in describing the redox chemistry of well-defined supported W-oxo sites in relation to alkene metathesis are discussed in Section 7.3.2.5. [441] Supportedt ungstenh ydridesr epresent as pecial classo fi nsitug enerated olefin m...…”

Section: Surface Sites In Industrial Catalystsmentioning

confidence: 99%

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Bridging the Gap between Industrial and Well‐Defined Supported Catalysts

et al. 2018

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Many industrial catalysts contain isolated metal sites on the surface of oxide supports. Although such catalysts have been used in a broad range of processes for more than 40 years, there is often a very limited understanding about the structure of the catalytically active sites. This Review discusses how surface organometallic chemistry (SOMC) engineers surface sites with well-defined structures and provides insight into the nature of the active sites of industrial catalysts; the Review focuses in particular on olefin production and conversion processes.

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Section: Well-defined Silica-supported W-imido-alkylidenesmentioning

confidence: 99%

Section: Surface Sites In Industrial Catalystsmentioning

confidence: 99%

Bridging the Gap between Industrial and Well‐Defined Supported Catalysts

et al. 2018

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“…The tungsten atom lies at 0.48 Å above the plane defined by C ene , O1 and S, thus resulting in a slightly distorted Trigonal BiPyramidal (TBP) molecular geometry, where the imido ligand and the O2-Me group from the activated DME occupy the axial positions. The tungsten center is more sterically hindered than in W(NAr)(CHCMe 3 )(SAr') 2 [26], giving a slightly longer W1-S1 bond distance (2.3930(5) Å versus 2.349(5) Å). The W-N bond length (1.7486(17) Å) is in the range of usual W-N bond, and so is the W-C ene one (1.915(2) Å).…”

Section: Introductionmentioning

confidence: 98%

“…Introducing a strong r-donor ligand like thiolate [24], in combination with the weak r-donation of surface silanolates [25], showed very good activity [26]. Here, we explore the formation of tungsten imido alkylidene systems with a bulky arenethiolate ligand.…”

Section: Introductionmentioning

confidence: 99%

“…The much shorter W1-O1 bond distance (1.9212 (14) Å, compared to the W1-O2 at 2.4404(15) Å), is consistent with the demethylation of DME, since the alkoxy group is a much stronger r-donor ligand than the parent ether ligand. It is noteworthy in that such a reaction was not observed when less bulky thiolate ligands such as the 2,6-diisopropylthiophenolate or 2,4,6-triisopropylthiophenolate were used [26,28], suggesting that the kinetics of bisthiolate complex formation is largely reduced when the steric hindrance increases, giving a notable advantage to the demethylation pathway.…”

Section: Introductionmentioning

confidence: 99%

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Synthesis and Reactivity of a Pentacoordinated Thiolate-Based Imido-Alkylidene W(VI) Complexes

Allouche

Mougel

Grüning

et al. 2016

Oil Gas Sci. Technol. – Rev. IFP Energies nouvelles

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Cationic Silica‐Supported N‐Heterocyclic Carbene Tungsten Oxo Alkylidene Sites: Highly Active and Stable Catalysts for Olefin Metathesis

et al. 2016

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Designing supported alkene metathesis catalysts with high activity and stability is still ac hallenge,d espite significant advances in the last years.D escribed herein is the combination of strong s-donating N-heterocyclic carbene ligands with weak s-donating surface silanolates and cationic tungsten sites leading to highly active and stable alkene metathesis catalysts.T hese well-defined silica-supported cata-À ][ IMes = 1,3-bis(2,4,6-trimethylphenyl)-imidazol-2-ylidene,B (Ar F ) 4 = B(3,5-(CF 3 ) 2 C 6 H 3 ) 4 ]c atalyze alkene metathesis,a nd the cationic species displayunprecedented activity for abroad range of substrates,e specially for terminal olefins with turnover numbers above1 .2 million for propene.Inrecent years,tremendous advances in the design of alkene and alkyne metathesis catalysts have been made for both homogeneous and heterogeneous systems. [1][2][3] In particular, the development of highly active tungsten oxo alkylidene molecular catalysts [4] and the adaption of N-heterocyclic carbene (NHC) ligands,w idely used in ruthenium-based alkene metathesis catalysts, [5] to molybdenum and tungsten systems [6] have significantly widened the range of applications of d 0 -metal-based olefin metathesis catalysts.Forh eterogeneous catalysts,m ajor advances have been possible through surface organometallic chemistry, [3,7] which enables the generation of well-defined active sites at the surface of oxide supports. [8] This approach identified the electronic dissymmetry at the metal center as akey factor for greatly improved activity of silica-supported Schrock alkylidene complexes. [9] DFT calculations [10] have revealed that this increase in activity is due to the easier coordination of the olefin substrate to the metal-alkylidene sites and the destabilization of metallacyclobutane intermediates because of the presence of both weak and strong s-donor ligands,that is,one surface siloxy and either one alkyl or amide ligand, respectively.T his conclusion has inspired the synthesis of catalysts with enhanced dissymmetry at the metal site. [1c,11] One of the most recent and compelling examples is the use of poor s-donor surface silanolates [12] with strong s-donating thiolate ligands in silica-supported tungsten oxo alkylidene catalysts, [4e,15] which display substantially enhanced activity towards terminal olefins. Therecent report of highly active and stable tungsten oxo alkylidenes supported by an NHC [6c] as as trong s-donor ligand thus opens new avenues to significantly improve the activity of silica-supported metathesis catalysts by combining cationic intermediates and as trong s-donating NHC ligand with aw eak s-donating surface silanolate.H erein we report the synthesis and characterization of silica-supported neutral and cationic tungsten oxo alkylidene complexes bearing an NHC ligand and show the unprecedented activity and stability of the supported cationic olefin metathesis catalyst.Grafting W(=O)(=CHCMe 2 Ph)(IMes)(OTf)(OtBu F6 ) [13] (1)a nd the related cationic species [W(=O)(=CHCMe 2 Ph)-(IM...

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Activating Thiolate‐Based Imidoalkylidene Tungsten(VI) Metathesis Catalysts by Grafting onto Silica

Cited by 12 publications

References 43 publications

Bridging the Gap between Industrial and Well‐Defined Supported Catalysts

Bridging the Gap between Industrial and Well‐Defined Supported Catalysts

Synthesis and Reactivity of a Pentacoordinated Thiolate-Based Imido-Alkylidene W(VI) Complexes

Cationic Silica‐Supported N‐Heterocyclic Carbene Tungsten Oxo Alkylidene Sites: Highly Active and Stable Catalysts for Olefin Metathesis

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