Search results for "Aminophosphine"

showing 6 items of 6 documents

A P-chirogenic β-aminophosphine synthesis by diastereoselective reaction of the α-metallated PAMP–borane complex with benzaldimine

2004

International audience; The diastereoselective synthesis of a P-chirogenic β-aminophosphine ligand with carbon–carbon bond formation of the ethano bridge in a 3:1 ratio via reaction of an α-metallated P-chirogenic phosphine borane with a benzaldimine is described. The diastereoselectivity is attributed to a transition state where the lithium cation chelates the phosphine borane carbanion and the nitrogen of the imine and the attack of the C@N occurs on the face opposite to the P–B bond, due to its interaction with the antibonding P–B bond. The major diastereoisomeric β-aminophosphine borane was then separated and decomplexed into the corresponding β-aminophosphine under neutral conditions a…

010405 organic chemistryLigandOrganic ChemistryImineEnantioselective synthesisAsymmetric synthesisBoranesAminophosphineBoraneChiral phosphorous010402 general chemistryAntibonding molecular orbital01 natural sciencesMedicinal chemistryCatalysis0104 chemical sciencesInorganic Chemistrychemistry.chemical_compoundchemistryBoraneOrganic chemistry[CHIM.COOR]Chemical Sciences/Coordination chemistryPhysical and Theoretical ChemistryPhosphineCarbanionTetrahedron: Asymmetry
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Input of P, N-(phosphanyl, amino)-ferrocene hybrid derivatives in late transition metals catalysis

2018

International audience; Unequally functionalized ferrocenes give access to valuable hemilabile reactivity in catalytic reaction. We address the synthesis of hybrid (P, N)-ferrocenyl compounds for which recent catalytic breakthrough applications have been reported, transversely in late transition metals chemistry. Palladium, nickel, rhodium, iridium, and emerging iron and gold catalysis are illustrated from selected examples, which include CC bond formation from cross-coupling and polymerization, allylic substitution, cyanation, hydroformylation, CH arylation and silylation and hydrogenation reactions.

Allylic rearrangementnickel-complexesAminophosphinesethylene oligomerizationchemistry.chemical_elementHomogeneous catalysispbeta-ketoestersCyanation[CHIM.INOR]Chemical Sciences/Inorganic chemistry010402 general chemistryn ligands01 natural sciencesRhodiumCatalysisInorganic ChemistryPolymer chemistryoxazoline-containing ligandsMaterials ChemistryOrganic chemistry[CHIM]Chemical SciencesReactivity (chemistry)Physical and Theoretical ChemistryPolyfunctionalized ligandsferrocenyl ligands010405 organic chemistryasymmetric catalysisHemilabile hybridsHomogeneous catalysischiral ligandssimple ketones0104 chemical scienceschemistrystructural-characterizationFerroceneHydroformylationPalladiumLate transition metals
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New chiral α-aminophosphine oxides and sulfides: an unprecedented rhodium-catalyzed ligand epimerization

2001

International audience; New chiral α-aminophosphine oxide N,P(O) and sulfide N,P(S) ligands have been prepared in one-pot syntheses by addition of Ph2PH to (S)-PhCH[double bond, length half m-dash]NCH(Ph)CH3, followed by oxidation with O2 or S8. Crystallization from cold methanol leads to the isolation of an enantiomerically pure single N,P(O) diastereomer and to a 1 : 1 mixture of the two N,P(S) diastereomers. The coordination chemistry of these ligands with [RhCl(COD)]2 and [RhCl(CO)2]2 has been investigated under argon and syngas. At high temperatures, a P–C oxidative addition of the N,P(O) ligand followed by imine elimination leads to several hydrido rhodium species. The complexes conta…

AminophosphinesIminechemistry.chemical_element010402 general chemistry01 natural sciencesMedicinal chemistryCatalysisCoordination complexRhodiumCatalysischemistry.chemical_compoundEpimerizationMaterials ChemistryOrganic chemistryRhodium[CHIM.COOR]Chemical Sciences/Coordination chemistrychemistry.chemical_classification010405 organic chemistryLigandPhosphine oxides and sulfidesDiastereomerGeneral ChemistryOxidative addition0104 chemical scienceschemistryHydroformylationHydroformylation
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Resolution of β-aminophosphines with chiral cyclopalladated complexes

2005

Abstract Resolution of the racemic chiral β-aminophosphines Ph 2 PCH 2 CH(Ph)NH(Ar) ( L 1 for Ar = C 6 H 5 and L 2 for Ar = 2,6-C 6 H 3 i Pr 2 ) has been investigated by use of different cyclopalladated complexes as chiral agents. The resulting complexes afford diastereomeric adducts in a 1:1 ratio. After successive crystallizations from ethanol, a d.e. of 98% was achieved for one aminophosphine palladium complex, while no significant d.e. was obtained after crystallizations from chlorinated solvents. The X-ray structure analysis has pointed out intermolecular hydrogen interactions N–H⋯Cl between the P,N ligand and the chloride ion, which are responsible for the formation and stabilization …

HydrogenAminophosphinesStereochemistrychemistry.chemical_element010402 general chemistry01 natural sciencesBiochemistryChlorideMedicinal chemistryAdductInorganic ChemistryMaterials Chemistrymedicine[CHIM.COOR]Chemical Sciences/Coordination chemistryPhysical and Theoretical Chemistry010405 organic chemistryLigandOrganic ChemistryIntermolecular forceDiastereomerAbsolute configuration0104 chemical scienceschemistryPN ligandsRacemic resolutionChiral palladium complexesX-ray structuresPalladiummedicine.drugJournal of Organometallic Chemistry
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"Through-space" 31P spin-spin couplings in ferrocenyl tetraphosphine coordination complexes: improvement in the determination of the distance depende…

2008

Abstract From the analysis of several nickel and palladium halide complexes of a constrained ferrocenyl tetraphosphine, the existence in solution phase of unique 31P–31P “through-space” nuclear spin–spin coupling constants (JPP) had been previously evidenced. Due to the blocked conformation of the species in solution, and based on the NMR spectra obtained for the complexes and their corresponding solid state X-ray structures, these JPP constants had been shown to clearly depend on the mutual spatial position of the corresponding phosphorus atoms. Herein, the quantitative correlation disclosed at that time (P⋯P distance dependence of coupling constants) is remarkably confirmed, and mathemati…

Stereochemistrychemistry.chemical_elementHalide010402 general chemistrySpace (mathematics)01 natural sciencesBiochemistryInorganic Chemistrychemistry.chemical_compoundMaterials Chemistryphosphorus carbon bond formation[CHIM.COOR]Chemical Sciences/Coordination chemistryspin couplingPhysical and Theoretical ChemistrySpin (physics)ComputingMilieux_MISCELLANEOUSCoupling constantaminophosphine010405 organic chemistryOrganic Chemistrythrough-spaceferrocene[ CHIM.COOR ] Chemical Sciences/Coordination chemistryNMR0104 chemical sciencesNMR spectra databaseNickelCrystallographychemistryFerrocenepolyphosphinePalladium
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α-Aminophosphonates, Phosphinates, and Phosphine Oxides as Extraction and Precipitation Agents for Rare Earth Metals, Thorium, and Uranium : A Review

2022

α-Aminophosphonates, -phosphinates, and -phosphine oxides are a group of organophosphorus compounds that were investigated as extraction agents for rare earth (RE) metals and actinoids for the first time in the 1960s. However, more systematic investigations of their extraction properties towards REs and actinoids were not started until the 2010s. Indeed, recent studies have shown that these α-amino-functionalized compounds can outperform the commercial organophosphorus extraction agents in RE separations. They have also proven to be very efficient extraction and precipitation agents for recovering Th and U from RE concentrates. These actinoids coexist with REs in some of the commercially im…

actinoidssaostusseparationα-aminophosphinatesrare earth elementsprecipitationharvinaiset maametallitrecoveryuuttoerotusmenetelmätα-aminophosphine oxidesextractionfosforiα-aminophosphonates
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