M.W:300-400| Page 89 of 116 | Chiral phosphine ligands

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A catalyst don’t appear in the overall stoichiometry of the reaction it catalyzes, but it must appear in at least one of the elementary reactions in the mechanism for the catalyzed reaction. 15929-43-8, Name is Bis(4-(trifluoromethyl)phenyl)phosphine oxide, molecular formula is C14H9F6OP. In a Article£¬once mentioned of 15929-43-8, Product Details of 15929-43-8

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.

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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The reaction rate of a catalyzed reaction is faster than the reaction rate of the uncatalyzed reaction at the same temperature.1038-95-5, Name is Tri-p-tolylphosphine, molecular formula is C21H21P. In a Article£¬once mentioned of 1038-95-5, Recommanded Product: 1038-95-5

Formation of gold(III) alkyls from gold alkoxide complexes

The gold(III) methoxide complex (C^N^C)AuOMe (1) reacts with tris(p-tolyl)phosphine in benzene at room temperature under O abstraction to give the methylgold product (C^N^C)AuMe (2) together with O=P(p-tol)3 ((C^N^C) = [2,6-(C6H3 tBu-4)2pyridine]2-). Calculations show that this reaction is energetically favorable (DeltaG = -32.3 kcal mol-1). The side products in this reaction, the Au(II) complex [Au(C^N^C)]2 (3) and the phosphorane (p-tol)3P(OMe)2, suggest that at least two reaction pathways may operate, including one involving (C^N^C)Au? radicals. Attempts to model the reaction by DFT methods showed that PPh3 can approach 1 to give a near-linear Au-O-P arrangement, without phosphine coordination to gold. The analogous reaction of (C^N^C)AuOEt, on the other hand, gives exclusively a mixture of 3 and (p-tol)3P(OEt)2. Whereas the reaction of (C^N^C)AuOR (R = But, p-C6H4F) with P(p-tol)3 proceeds over a period of hours, compounds with R = CH2CF3, CH(CF3)2 react almost instantaneously, to give 3 and O=P(p-tol)3. In chlorinated solvents, treatment of the alkoxides (C^N^C)AuOR with phosphines generates [(C^N^C)Au(PR3)]Cl, via Cl abstraction from the solvent. Attempts to extend the synthesis of gold(III) alkoxides to allyl alcohols were unsuccessful; the reaction of (C^N^C)AuOH with an excess of CH2=CHCH2OH in toluene led instead to allyl alcohol isomerization to give a mixture of gold alkyls, (C^N^C)AuR? (R? = -CH2CH2CHO (10), -CH2CH(CH2OH)OCH2CH=CH2 (11)), while 2-methallyl alcohol affords R? = CH2CH(Me)CHO (12). The crystal structure of 11 was determined. The formation of Au-C instead of the expected Au-O products is in line with the trend in metal-ligand bond dissociation energies for Au(III): M-H > M-C > M-O.

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New phosphine-functionalized NHC ligands: Discovery of an effective catalyst for the room-temperature amination of aryl chlorides with primary and secondary amines

We report convenient and high-yielding syntheses of new phosphine-functionalized dihydroimidazolium salts and demonstrate their utility as ligand precursors for Buchwald-Hartwig amination. Several examples of the general formula [1-Mes-3-{2-(PR2)phenyl}imidazolidin-2-ylium][BF 4] have been prepared, where phosphines of varying steric and electronic properties (R = Ph (9), Cy (10), 1-Ad (11)) are tethered by an o-phenylene group. The synthesis was not adaptable to N-aryl groups other than mesityl, giving unexpected phosphonium salt species instead. The synthesis was adapted to flexible benzyl-linked variants of the formula [1-Ar-3-{2-(PCy 2)benzyl}imidazolidin-2-ylium][BF4], which allowed more steric variation of the dihydroimidazolium N-aryl group (Ar = Mes (21), Dipp (22)). A preliminary study of these hybrid NHC/P ligands in Buchwald-Hartwig amination catalysis (in situ precatalyst formation) revealed 11 to be the most active of the series. Premixing the isolated free NHC ligand 1-Mes-3-{2-(PAd2)phenyl}imidazolidin-2-ylidene (23) with [Pd(cinnamyl)Cl]2 provided a highly active precatalyst that performed well at room temperature and 1 mol % catalyst loading. The system was shown to have an unprecedented ability to arylate both primary alkylamines (monoarylation) and secondary dialkylamines with aryl chlorides at room temperature. Electron-rich and -poor aryl and heteroaryl halides, as well as those featuring ortho substitution, were well tolerated, while substrates featuring both primary and secondary amine groups were selectively arylated at the NH2 position. Furthermore, a preliminary examination of performance in ammonia arylation and acetone alpha-arylation showed promising results, giving good conversion and high selectivity for monoarylation in both cases.

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The reaction rate of a catalyzed reaction is faster than the reaction rate of the uncatalyzed reaction at the same temperature.29949-84-6, Name is Tris(3-methoxyphenyl)phosphine, molecular formula is C21H21O3P. In a Article£¬once mentioned of 29949-84-6, HPLC of Formula: C21H21O3P

Flame retardant polycyanurate thermosets from the cyanate esters of triphenylphosphine oxide

Three cyanate esters containing phosphorus are synthesized in good overall yields starting from bromoanisoles. Di- and tricyanates with meta configuration are most stable while para is less so. The para dicyanate ester isomer is particularly affected by water from the atmosphere. The meta dicyanate ester 2 has good thermal properties with glass transition at 268 C and char yield of 65% in air at 600 C. All three phosphorus-containing cyanate esters are low flammability in an open flame. They make highly combustible cyanate esters resins less flammable simply by blending. Mixing 10 wt% dicyanate ester 2 into bisphenol A or E dicyanate esters makes them rate V-0. Published 2018.? J. Polym. Sci., Part A: Polym. Chem. 2018, 56, 1100?1110.

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A catalyst don’t appear in the overall stoichiometry of the reaction it catalyzes, but it must appear in at least one of the elementary reactions in the mechanism for the catalyzed reaction. 1038-95-5, Name is Tri-p-tolylphosphine, molecular formula is C21H21P. In a Article£¬once mentioned of 1038-95-5, Product Details of 1038-95-5

Phenoxide-assisted P-C bond cleavage in PdCl2(PPh 3)2 under very mild conditions

PdCl2(PPh3)2 reacted with NaOAr (Ar = Ph, p-tolyl) at 0 C to afford PdCl(Ph)(PPh3)2, instead of PdCl(OAr)(PPh3)2, in 12-16% isolated yields based on Pd. The structure was confirmed by NMR and X-ray crystallography. GC-MS analysis of the reaction solution revealed that OPPh2(OAr), OPPh(OAr) 2, and OP(OAr)3 are formed, while NMR studies indicated that PdCl(Ph)(PPh3)2 is produced when PdCl(OAr)(PPh 3)2 decomposes. The reaction of PdCl2(PPh 3)2 with Bu3Sn(OC6H 4-p-OMe) also gave PdCl(Ph)(PPh3)2 in 8% isolated yield. These results suggest that PdCl(OAr)(PPh3) 2 is highly labile and the aryloxy ligand exchanges with the phenyl groups in triphenylphosphine even under very mild conditions.

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The reaction rate of a catalyzed reaction is faster than the reaction rate of the uncatalyzed reaction at the same temperature.213697-53-1, Name is 2′-(Dicyclohexylphosphino)-N,N-dimethyl-[1,1′-biphenyl]-2-amine, molecular formula is C26H36NP. In a Article£¬once mentioned of 213697-53-1, Recommanded Product: 2′-(Dicyclohexylphosphino)-N,N-dimethyl-[1,1′-biphenyl]-2-amine

Synthesis and structural characterization of palladacycles with polydentate ligands by a stepwise coupling route – Palladacycles containing halides as efficient catalysts and substrates

A series of ferrocenyl palladacycles with polydentate ligands were conveniently prepared by the Suzuki coupling reactions of a halide-containing ferrocenyl palladacycle [PdCl({(nu5-C5H 5)}Fe{(nu5-C5H3)N 2C4H2Cl})(PPh3)] (1) andarylboronic acids without additional palladium catalysis. In the absence of additional base, amination also occurred in high yield. This new protocol was successfully applied to the Suzuki coupling reactions of the analogous halide-containing palladacycle [PdCl({(nu5-C5H5)} Fe{(nu5-C5H3)NC5H 3Br})(PPh3)] (15) and Buchwald-Hartwig amination of the analogous complex [PdCl({(nu5-C5H5)} Fe{(nu5-C5H3)NC5H 3Br})(DCPAB)] (32), where DCPAB = 2-dicyclohexylphosphanyl-2?- (N,N-dimethylamino)biphenyl. The halide-containing palladacycles act as efficient catalysts and substrates in the coupling reactions. 37 new examples have been fully characterized by elemental analysis, IR and 1H NMR spectroscopy, and ESI-MS. Additionally, the molecular structures of eight compounds were determined by single-crystal X-ray diffraction, and many types of intermolecular C-H¡¤¡¤¡¤Cl (O, N, pi) interactions and pi-pi interactions were found in the crystal structures of these palladacycles. An efficient method for the synthesis of palladacycles with polydentate ligands by a stepwise coupling route without additional catalysis is presented. The halide-containing palladacycles act as efficient catalysts and substrates in coupling reactions. 37 examples and the crystal structures of eight samples are reported.

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[Pd(acac)(L)2][BF4] (L?=?morpholine, diethylamine, dibutylamine, dioctylamine): Synthesis, structure and their catalytic activity

Cationic acetylacetonate bis(secondary amine) palladium (II) complexes were synthesized by nitrile substitution of [Pd(acac)(MeCN)2][BF4] with L (L?=?morpholine, diethylamine, dibutylamine, dioctylamine) which yielded [Pd(acac)(L)2][BF4] as a mononuclear species with chelating acac ligand. An X-ray diffraction, NMR, IR and DFT study of [Pd(acac){morpholine}2][BF4] establishes the presence of hydrogen bonding between the morpholine ligand and [BF4]? anion. Crystallographic defects in the crystal and presence of pseudocrystalline structure in solution of [Pd(acac){morpholine}2][BF4] were assumed to explain IR spectra features. Preliminary investigations into the polymerization of norbornene, dimerization of styrene, and telomerization of 1,3-butadiene with diethylamine were performed.

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Discovery of a robust and efficient homogeneous silver(I) catalyst for the cycloaddition of azides onto terminal alkynes

A highly efficient, chemically stable, and well-defined homogeneous silver(I) catalyst is reported for the cycloaddition of azides onto terminal alkynes (Ag-AAC reaction). The Ag-AAC reaction occurs at room temperature or with heating to deliver exclusively the corresponding 1,4-triazole. A pronounced ligand effect was discovered through systematic modification to the ligand structure resulting in the discovery of a chemically stable active catalyst for this reaction.

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Heterobimetallische 2-(Dimethylaminomethyl)ferrocenyl-Derivate des einwertigen Goldes

[2-(dimethylaminomethyl)ferrocenyl]-lithium, FcNLi (I) reacts with gold (I) complexes ClAu¡¤L to heterobimetallic organo gold(I) compounds (FcN)Au¡¤L [L=P(C6H3F2-m,p)3 (1), P(C6H3F2-m,m)3 (2), P(C6H4CH3-o)3 (3), P(C6H4CH3-m)3 (4), P(C6H4CH3-p)3 (5), P(C2H5)3 (6)]. Starting from [FcNAu]2 and P(C6H4Cl-m)3 the (FcN)Au¡¤P(C6H4Cl-m)3 (7) is formed. The organo gold derivatives 1-7 were characterized by mass-, NMR- and Moessbauer spectroscopy as well as by cyclovoltametry and X-ray diffraction.