Chiral phosphine ligands

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Metal- and oxidant-free S-P(O) bond construction: Via direct coupling of P(O)H with sulfinic acids

We have developed a simple and convenient method for S-P(O) bond formation between R2P(O)H and sulfinic acids under metal-, oxidant-, and halogen-free conditions. The current method is compatible with a broad range of substituents on various substrates including halogens and heterocyclic moieties. The synthetic potential of this method was further highlighted by the expeditious synthesis of optically active P-chiral phosphorothioates via stereospecific coupling.

Reference£º
Phosphine ligand,
Chiral phosphine ligands in asymmetric synthesis. Molecular structure and absolute configuration of (1,5-cyclooctadiene)-(2S,3S)-2,3-bis(diphenylphosphino)butanerhodium(I) perchlorate tetrahydrofuran solvate

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Related Products of 166330-10-5, An article , which mentions 166330-10-5, molecular formula is C36H28OP2. The compound – (Oxybis(2,1-phenylene))bis(diphenylphosphine) played an important role in people’s production and life.

Dynamic topomerization of Cu(i)-complexed pseudorotaxanes

Dynamic molecular motions resulting from the folding of a flexible macrocyclic component in a Cu(i)-complexed pseudorotaxane have been evidenced by variable temperature NMR experiments. The proposed conformational changes are also supported by the X-ray crystal structures of the compounds and computational studies.

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Geminal Dianions Stabilized by Main Group Elements

This review is dedicated to the chemistry of stable and isolable species that bear two lone pairs at the same C center, i.e., geminal dianions, stabilized by main group elements. Three cases can thus be considered: the geminal-dilithio derivative, for which the two substituents at C are neutral, the yldiide derivatives, for which one substituent is neutral while the other is charged, and finally the geminal bisylides, for which the two substituents are positively charged. In this review, the syntheses and electronic structures of the geminal dianions are presented, followed by the studies dedicated to their reactivity toward organic substrates and finally to their coordination chemistry and applications.

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A novel cationic dinuclear ruthenium complex: Synthesis, characterization and catalytic activity in the transfer hydrogenation of ketones

A novel cationic dinuclear ruthenium complex [RuCl(HL)(TFTPP)]2 (H2L = 2,6-bis(5-phenyl-1H-pyrazol-3-yl)pyridine; TFTPP = tri(p-trifluoromethylphenyl)phosphine) has been synthesized and characterized by 31P{1H} NMR, 1H NMR, elemental analysis and X-ray crystallography. This complex is the first cationic dinuclear ruthenium complex bearing N4 ligand characterized by single crystal X-ray analysis. It exhibits good catalytic activity for the transfer hydrogenation of ketones in refluxing 2-propanol.

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Metal-Free, Visible Light-Photocatalyzed Synthesis of Benzo[b]phosphole Oxides: Synthetic and Mechanistic Investigations

Highly functionalized benzo[b]phosphole oxides were synthesized from reactions of arylphosphine oxides with alkynes under photocatalytic conditions by using eosin Y as the catalyst and N-ethoxy-2-methylpyridinium tetrafluoroborate as the oxidant. The reaction works under mild conditions and has a broad substrate scope. Mechanistic investigations have been undertaken and revealed the formation of a ground state electron donor-Acceptor complex (EDA) between eosin (the photocatalyst) and the pyridinium salt (the oxidation agent). This complex, which has been fully characterized both in the solid state and in solution, turned out to exhibit a dual role, i.e., the oxidation of the photocatalyst and the formation of the initiating radicals, which undergoes an intramolecular reaction avoiding the classical diffusion between the two reactants. The involvement of ethoxy and phosphinoyl radicals in the photoreaction has unequivocally been evidenced by EPR spectroscopy.

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YLURES SANS SEL, EVOLUTION EN PHOSPHORANES ET EQUILIBRE YLURE <*> PHOSPHORANE I. SYNTHESE ET STRUCTURE

Synthesis of new salt-free ylids 9, 12 to 16, 19, 20, 22, 27 and 29 and phosphoranes 10, 17, 18, 21, 23, 30 to 33 by addition of a trivalent phosphorus compound (phosphites and amino-phosphines) 1 to 7 with dimethyl acetylenedicarboxylate in presence of a protic trapping reagent are described.The results are consistent with trapping of carbanionic species.In relation with the cyclic or acyclic structure of the trivalent phosphorus compound and the protic trapping reagent ie: methanol, phenol, carboxylic acid, etc.., several pathways are involved.Clearly, three phenomena are shown: one can obtain an ylid via a phosphorane or conversely a phosphorane via an ylid or an equilibrium phosphorane <*> ylid.Results are dealing with thermodynamic or kinetically controlled reactions.

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Ruthenium catalyzed hydrogenation of methyl phenylacetate under low hydrogen pressure

PhCH2CO2Me has been efficiently hydrogenated to yield PhCH2CH2OH (1) and PhCH2CO2CH2CH2Ph (2) even under relatively low hydrogen pressure (< 10 atm) by using ruthenium-phosphine catalysis composed of Ru(acac)3, P(n-C8H17)3 in the presence of Zn. Effect of both P(n-C8H17)3 and Zn plays an essential role in order for this hydrogenation to proceed catalytically. Although the activity was not strongly influenced by the hydrogen pressure employed, the observed activity was strongly dependent upon the reaction temperature, substrate concentration, and solvent used. We assume that ruthenium hydride species plays an important role in this catalysis cycle. I hope this article can help some friends in scientific research. I am very proud of our efforts over the past few months and hope to 224311-51-7, help many people in the next few years., Related Products of 224311-51-7

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NOVEL COMPOUNDS

Heterocyclic compounds and salts according to formula (I), which are pyrimidinone derivatives, described herein exhibit human neutrophil elastase inhibitory properties, and useful for treating diseases or conditions in which HNE is implicated.

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Development of a scalable route to a dual NK-1/serotonin receptor antagonist

The evolution of a process for the preparation of a new heterocyclic dual NK1/serotonin receptor antagonist is described. The final synthesis features a telescoped sequence in which an iron(III)-catalyzed Grignard coupling is followed by a benzylic chlorination utilizing trichlorocyanuric acid to construct an unsymmetrical 2,4,6-trisubstituted pyridine. Etherification of a 4,4?-arylhydroxymethane substituted piperidine fragment completes the synthesis of the active pharmaceutical ingredient in 44% overall yield.

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Ligand exchange and substitution at platinum(II) complexes: Evidence for a dissociative mechanism

Square-planar complexes of the type cis-[Pt(Me)2(Me 2SO)(PR3)] (1-6) where PR3 represents a series of isosteric tertiary phosphanes [P(4-MeOC6H4) 3, P(4-MeC6H4)3, P(C 6H5)3, P(4-FC6H4) 3, P(4-ClC6H4)3, P(4-CF 3C6H4)3] have been synthesised and fully characterised through elemental analysis, 1H and 31P{1H} NMR. The coupling constants 1J PtP with the isotopically abundant 195Pt (33%, I=1/2) of 1-6, as those of the pyridine cis-[Pt(Me)2(py)(PR3)] derivatives (7-12), show linear dependencies on the basicity of the coordinated phosphane. The rates of dimethyl sulfoxide exchange for all the complexes have been measured at relatively low temperatures by 1H NMR isotopic labelling experiments with deuterated chloroform as the solvent. Pyridine for dimethyl sulfoxide substitution has been studied at higher temperatures through conventional spectrophotometric techniques. The rates of both processes show no dependence on ligand concentration, for each complex the value of the rate of ligand substitution is in reasonable agreement with the value of the rate of ligand exchange at the same temperature, and the kinetics are characterised by largely positive entropies of activation. There is a compensation-effect between DeltaH? and DeltaS?, i.e., a greater DeltaH? is accompanied by a larger positive DeltaS?, indicating that all complexes react via the same mechanism. The basicity of the phosphane does not affect significantly the reaction rates. The general pattern of behaviour indicates that the rate determining step for substitution is the dissociation of the sulfoxide ligand and the formation of a three-coordinated [Pt(Me)2(PR3)] uncharged intermediate.

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