Synthesis and characterization of ruthenium(II) complexes based on diphenyl-2-pyridylphosphine and their applications in transfer hydrogenation of ketones

Kumar, Prashant; Singh, Ashish Kumar; Yadav, Mahendra; Li, Pei‐Zhou; Singh, Sanjay Kumar; Xu, Qiang; Pandey, Daya Shankar

doi:10.1016/j.ica.2010.12.057

Cited by 27 publications

(17 citation statements)

References 75 publications

(99 reference statements)

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“…[5,8] Through methylation at the 6 position of the pyridyl moiety, the selectivity towards MMA over the linear product, methyl crotonate (MC), can be enhanced even further from 98.9 % to 99.95 % with minor changes in activity. [3] Hemilabile P,N-type ligands with their wide range of coordination modes [11] have attracted considerable interest in homogeneous catalysis [12] and to fully elucidate the precise mode of action of 2-pyridyl diphenylphosphine (2-PyPPh 2 ) in achieving these extraordinary results we have applied state-of-the-art density functional computations. Drent's initial work implicated a carbomethoxy mechanism with termination involving intramolecular proton transfer from a protonated pyridyl ligand, [2] whilst subsequent labeling studies by Scrivanti et al [6,7] suggested that the cycle might be initiated by a proton transfer from 2-PyPPh 2 onto coordinated alkyne.…”

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confidence: 99%

Mechanism of Alkyne Alkoxycarbonylation at a Pd Catalyst with P,N Hemilabile Ligands: A Density Functional Study

Crawford

Cole‐Hamilton

Drent

et al. 2014

Chemistry A European J

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A detailed mechanism for alkyne alkoxycarbonylation mediated by a palladium catalyst has been characterised at the B3PW91-D3/PCM level of density functional theory (including bulk solvation and dispersion corrections). This transformation, investigated via the methoxycarbonylation of propyne, involves a uniquely dual role for the P,N hemilabile ligand acting co-catalytically as both an in situ base and proton relay coupled with a Pd(0) centre, allowing for surmountable barriers (highest ΔG(≠) of 22.9 kcal mol(-1) for alcoholysis). This proton-shuffle between methanol and coordinated propyne accounts for experimental requirements (high acid concentration) and reproduces observed regioselectivities as a function of ligand structure. A simple ligand modification is proposed, which is predicted to improve catalytic turnover by three orders of magnitude.

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confidence: 99%

Mechanism of Alkyne Alkoxycarbonylation at a Pd Catalyst with P,N Hemilabile Ligands: A Density Functional Study

Crawford

Cole‐Hamilton

Drent

et al. 2014

Chemistry A European J

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“…Remarkably, the complex with the pyrimidine ligand [PdCl(Ph 2 PNHpym)(PPh 3 )]Cl, generated in situ by reaction between the neutral complex and PPh 3 , achieves practically complete conversion and chemoselectivity and 97 % regioselectivity in the branched ester (entry 3), as it happens with its pyridine analog [23]. This comparable result with the pyridine ligand indicates that the reported rollover cyclometalation of the aromatic ring in related complexes [24], which is prevented in the pyrimidine ligand, does not have a contribution to the noteworthy performance of the catalysts [PdCl(P,X) (PPh 3 In summary, these catalytic experiments confirm that [PdCl(Ph 2 PNHpy)(PPh 3 )]Cl and its pyrimidine analog here described are particularly appropriate catalysts for an efficient and selective methoxycarbonylation of styrene.…”

Section: Resultsmentioning

confidence: 88%

“…A mixture of PdCl 2 (200 mg, 1.13 mmol) and PPh 2-NHC 6 H 4 PPh 2 (352 mg, 1.13 mmol) was dissolved in CH 3 CN (20 mL) and heated to reflux for 3 h, producing a yellow precipitate. The suspension was cooled, and the solid was filtered off, rinsed with CH 3 …”

Section: [Pdcl 2 (Ph 2 Pan)]mentioning

confidence: 99%

“…However, heterobidentate P,N-donor ligands have emerged lately as an important class of ligands that have been applied in various catalytic transformations, such as hydrogenation of alkenes [1,2], hydrogen transfer reactions [3], Suzuki-Miyura couplings [4,5], arylation of unactivated arenes [6], alkylation of anilines by alcohols [7] and allylic substitution [8,9], among others. Nevertheless, this type of ligands has been scarcely used in metal catalyzed carbonylation reactions, and almost in all reported cases Pd was the metal used.…”

Section: Introductionmentioning

confidence: 99%

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Methoxycarbonylation of Styrene Using a New Type of Palladium Complexes Bearing P,N-donor Ligands as Catalysts

et al. 2015

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Artículo de publicación ISIPalladium complexes of the type [Pd(L)Cl(PPh3)]Cl (L = 2-diphenylphosphinoamino)pyrimidine, or 2-diphenylphosphinoaniline), generated in situ by addition of one equivalent of PPh3 to the corresponding neutral complexes [Pd(L)Cl-2], were tested as catalysts for the methoxycarbonylation of styrene. The catalyst containing the pyrimidinyl ligand shows almost complete chemo- and regioselectivity together with a high conversion rate. However, in identical conditions, the [Pd(Ph2PNHC6H4PPh2)Cl-2] complex, where the P,N-ligand has been replaced by a related bidentate P-donor one, shows a significantly lesser performance.Fondecyt-Chile 112014

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“…in combination with chiral ligands containing coordinating atoms (phosphorous, oxygen, nitrogen and sulfur) by many researchers. [36][37][38][39][40][41][42][43][44][45] Recently, we have reported on a set of six chiral modular bisphosphine ligands with dimethoxy backbone for enantioselective catalytic reactions (Figure 1.). [46] They have showed some promising results in the palladium(0)catalyzed enantioselective allylic alkylation reaction (70 % chemical yield and 43 % ee) and the ruthenium(II)-catalyzed transfer hydrogenation (up to > 99 % conversion).…”

Section: Introductionmentioning

confidence: 99%

Synthesis of C2-Symmetric Bisphosphines and Their Application in Enantioselective Transition Metal Catalysis

2018

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C2-symmetric bisphosphine ligands (with a dioxolane backbone) have been synthesized by using corresponding chiral bromosubstituted hydrobenzoin derivatives in two steps with moderate yields. The last step for desired bisphosphines defined the electronic and steric properties of the chelating atoms by the treatment of aryl or alkyl substituted chlorophosphine compounds in the presence of a base. These synthesized ligands have been evaluated in different catalytic reactions. The first application has been the palladiumcatalyzed enantioselective allylic alkylation which is regarded as a remarkable reaction for forming enantioselective carbon-carbon bond (up to 63 % ee and 98 % chemical yield). The ruthenium-catalyzed enantioselective transfer hydrogenation reaction has been the second application for the evaluating of the catalysts (up to > 99 % conversion with no enantioselectivity).

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Synthesis and characterization of ruthenium(II) complexes based on diphenyl-2-pyridylphosphine and their applications in transfer hydrogenation of ketones

Cited by 27 publications

References 75 publications

Mechanism of Alkyne Alkoxycarbonylation at a Pd Catalyst with P,N Hemilabile Ligands: A Density Functional Study

Mechanism of Alkyne Alkoxycarbonylation at a Pd Catalyst with P,N Hemilabile Ligands: A Density Functional Study

Methoxycarbonylation of Styrene Using a New Type of Palladium Complexes Bearing P,N-donor Ligands as Catalysts

Synthesis of C2-Symmetric Bisphosphines and Their Application in Enantioselective Transition Metal Catalysis

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