Donor‐Stabilized Phosphenium Adducts as New Efficient and Immobilizing Ligands in Palladium‐Catalyzed Alkynylation and Platinum‐Catalyzed Hydrogenation in Ionic Liquids

Saleh, Samer; Fayad, Elie; Azouri, Michèle; Hierso, Jean‐Cyrille; Andrieu, Jacques; Picquet, Michel

doi:10.1002/adsc.200900133

Cited by 37 publications

(30 citation statements)

References 32 publications

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“…These ligands have proven to be highly effective in Pd-catalyzed aryl alkynylation reactions as well as in Pt-catalyzed hydrogenation reactions in ionic liquids. [58] Furthermore, these ligands display remarkable coordination properties (see section on ligand substitution reactions later).…”

Section: Steric and Electronic Properties Of Ionic Phosphine Ligandsmentioning

confidence: 99%

“…[53] Andrieu et al reported on cationic imidazolium-2-phosphines 19 a-d, which can be described as phosphenium cations stabilized by a N-heterocyclic carbene donor base. [57,58] The lone pair on the phosphorus atom is not delocalised into the imidazolium fragment and thus remains available for coordination to a metal center. By measurement of the CO stretching frequency in the corresponding complexes [Ni(CO) 3 L] (L = 19 a-d), it was established that this remarkable class of phosphine ligands act as very weakly s-donat- ing and/or very strongly p-accepting ligands (Table 2, entries 39-42).…”

Section: Steric and Electronic Properties Of Ionic Phosphine Ligandsmentioning

confidence: 99%

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Steric, Electronic, and Secondary Effects on the Coordination Chemistry of Ionic Phosphine Ligands and the Catalytic Behavior of Their Metal Complexes

Snelders

Koten

Gebbink

2010

Chemistry A European J

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The effects of introducing ionic functionalities in phosphine ligands on the coordination chemistry of these ligands and the catalytic behavior of the corresponding metal complexes are reviewed. The steric and electronic consequences of such functionalizations are discussed. Apart from these steric and electronic effects, the presence of charged groups often leads to additional, supramolecular interactions that occur in the second coordination sphere of the metal complex, such as intramolecular, interligand hydrogen bonding and Coulombic repulsion. These interactions can significantly alter the behavior of the phosphine ligand in question. Such effects have been observed in phosphine-metal association/dissociation equilibria, ligand substitution reactions, and stereoisomerism in phosphine-metal complexes. By drawing general conclusions, this review offers an insight into the coordination and catalytic behavior of phosphine ligands containing ionic functionalities and their corresponding metal complexes.

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Section: Steric and Electronic Properties Of Ionic Phosphine Ligandsmentioning

confidence: 99%

Section: Steric and Electronic Properties Of Ionic Phosphine Ligandsmentioning

confidence: 99%

Steric, Electronic, and Secondary Effects on the Coordination Chemistry of Ionic Phosphine Ligands and the Catalytic Behavior of Their Metal Complexes

Snelders

Koten

Gebbink

2010

Chemistry A European J

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“…38 Such ligands L20a-c 39 and L20d could be obtained directly from 1,3-dimethylimidazolium-2-carboxylate (Schemes 31 and 32, respectively). …”

Section: Sonogashira Reactionmentioning

confidence: 99%

The Recent Development of Phosphine Ligands Derived from 2-Phosphino-Substituted Heterocycles and Their Applications in Palladium-Catalyzed Cross-Coupling Reactions

Wong¹,

So²,

Kwong³

2012

Synlett

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Heterocyclic phosphines have long been used as unique and efficient ligands for palladium-catalyzed cross-coupling reactions. The simplest ligand, trifurylphosphine, has become one of the most classical heterocyclic phosphines for coupling reactions since its first application in the Stille coupling reaction in 1988. In recent decades, palladium catalyst systems derived from highly diverse and innovative heterocyclic phosphines have shown excellent catalytic activities in cross-coupling reactions. In this account, we discuss the recent development and applications of heterocyclic phosphine ligands, highlighting the synthetic pathways used to prepare the ligands. The sections are categorized by the different palladium-catalyzed cross-coupling methodologies.

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“…Another approacht oi midazoliumyl-substituted P III compounds relies on the use of the imidazolium 2-carboxylate 83 as NHC precursor. [68,69] The reaction of 83 with one equivalent of R 2 PCl (R = Ph, iPr,C y) affords the chloride salts of cations 84 a-c + under release of CO 2 (Scheme 24). The anion is exchanged to PF 6 À by treatmentw ithK [PF 6 ].…”

Section: G)mentioning

confidence: 99%

Recent Advances in Imidazoliumyl‐Substituted Phosphorus Compounds

Schwedtmann

Zanoni

Weigand

2018

Chemistry An Asian Journal

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This review aims to highlight the recent developments in the chemistry of selected imidazoliumyl-substituted phosphorus compounds. The synthetic approaches for their preparation with phosphorus in various oxidation states and coordination environments are discussed. Their intriguing properties and versatile chemistry strongly depends on the bonding motif at the P atoms, which is given special focus.

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Donor‐Stabilized Phosphenium Adducts as New Efficient and Immobilizing Ligands in Palladium‐Catalyzed Alkynylation and Platinum‐Catalyzed Hydrogenation in Ionic Liquids

Cited by 37 publications

References 32 publications

Steric, Electronic, and Secondary Effects on the Coordination Chemistry of Ionic Phosphine Ligands and the Catalytic Behavior of Their Metal Complexes

Steric, Electronic, and Secondary Effects on the Coordination Chemistry of Ionic Phosphine Ligands and the Catalytic Behavior of Their Metal Complexes

The Recent Development of Phosphine Ligands Derived from 2-Phosphino-Substituted Heterocycles and Their Applications in Palladium-Catalyzed Cross-Coupling Reactions

Recent Advances in Imidazoliumyl‐Substituted Phosphorus Compounds

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