Palladium, tris synthesis

Palladium, polymethylenebis(diphenylphosphine)-bis(thiocyanato)-linkage isomers, 1, 185 Palladium, tetraammine-tetrachloropalladate history, 1, 2 Palladium, tetrachloro-crystal structure, 1, 16 Palladium, tris(dinitrogen)-synthesis, 1,28 Palladium complexes a,(5-dione dioximates electrical properties, 6, 143 acetylacetone hydrolysis, 2,379 alkylperoxo... 

Earlier, a one-pot procedure based on consecutive Pd-catalyzed aryl-aryl coupling followed by N-C bond formation had been described for the synthesis of phenanthridones and their thiophene analogs <2004OL4759>. The starting materials were 2-iodotoluene and 3-bromothiophene-2-carboxamides or 3-bromobenzo[3]thiophene-2-carboxamides (Equations 40 and 41). The conditions were rather critical in order to prevent the nucleophilic amide group from coordinating with the palladium, tri-2-furylphosphine had to be added to the reaction mixture. Norbornene serves to form a palladacycle which then reacts with the bromoamide. 

Palladium, tris(dinitrogen)-synthesis, 28 Palladium(II) complexes magnetic properties, 274 spectra, 255 square planar... 

Transition Metal-Catalyzed Coupling Reactions Synthesis of Aryl Amines. LHMDS was first used as a base to de-protonate alkylamines in the palladium-catalyzed synthesis of arylamines. This base is mild enough such that the alkyl-amide is generated at the transition metal center. Earlier examples reported that the reaction of an aryl bromide with cyclo-hexylamine and LHMDS in the presence of 5 mol % of (tri-o-tolylphosphine)2PdCl2 in toluene at 100 °C produced the desired arylamine in 89% yield after 2 h (eq 19). ... 

I undertook the present task to give a birds-eye view of the broad field of palladium in organic synthesis. 1 have tried to accomplish this ttisk by citing many references these were selected from a much larger number which I have collected over the years. I tried to be as comprehensive as possible by selecting those references which reported original ideas and new reactions, or evident synthetic utility. Synthetic utility is clearly biased towards catalytic rather than stoichiometric reactions and this emphasis is apparent in the selection of the... 

The synthesis of 1-alkenylboronic acids from l-alkenylmagnesiums or -lithiums suffers from difficulty in retaining the stereochemistry of 1-aikenyl halides, but the palladium-catalyzed coupling reaction of diboron 82 with 1-aikenyl halides or tri-flates directly provides 1-alkenylboronic esters (Scheme 1-43) [157, 158]. Although the reaction conditions applied to the aryl coupling resulted in the formation of an... 

Bromoalkynes also couple with vinylstannanes readily to result in enynes. Synthesis of protected enynals via cross-coupling of vinylstannanes with 1-bromoalkynes in the presence of a catalytic amount of Pd(II) has been reported (equation 143)252. Hiyama and coworkers extended the Stille methodology for sequential three-component coupling of trimethylstannyl(trimethylsilyl)acetylene with a vinyl iodide in the first step and cross-coupling of the intermediate trimethylsilylethyne with another alkenyl iodide in the presence of tris(diethylamino)sulphonium trimethyldifluorosilicate in the second step to generate a dienyne (equation 144)253. Both steps occur under palladium catalysis, in one-pot, to result in stereodefined l,5-dien-3-ynes. 

Orpen, A.G., Pringle, P.G., Smith, M.B., and Worboys, K., Synthesis and properties of new tris(cyanoethyl)phosphine complexes of platmum(0,II), palladium, II), iridium(I) and rhodium(I). Conformational analysis of tris(cyanoethyl)phosphine ligands, /. Organomet. Chem., 550, 255, 1998. 

Significant advances in organonickel chemistry followed the discovery of frtzws,fraws,fraws-(l,5,9-cyclododecatriene)nickel, Ni(cdt), and bis(l,5-cycloocta-diene)nickel Ni(cod)2 by Wilke et. al.1 In these and related compounds, in which only olefinic ligands are bonded to the nickel, the metal is especially reactive both in the synthesis of other compounds and in catalytic behavior. Extension of this chemistry to palladium and to platinum has hitherto been inhibited by the lack of convenient synthetic routes to zero-valent complexes of these metals in which mono- or diolefins are the only ligands. Here we described the synthesis of bis(l,5-cyclooctadiene)platinum, tris(ethylene)-platinum, and bis(ethylene)(tricyclohexylphosphine)platinum. The compound Pt(cod)2 (cod = 1,5-cyclooctadiene) was first reported by Muller and Goser,2 who prepared it by the following reaction sequence ... 

Cyclopentanone synthesis. The palladium reagent (I), as well as tetrakis(tri-phenylphosphine)palladium, promotes a 1,3-alkyl shift from oxygen to carbon with no allylic inversion. Two typical examples are formulated.1... 

Synthesis Morphine is hydrogenated over a palladium catalyst, and the resulting dihydromorphine is oxidized with benzophenone and potassium ferf-butoxide. Alternative oxidants are cyclohexanone with aluminium tri(feAf-butoxide) or aluminium triphenoxide (Rapoport, 1950 Pfister and Tishler (Merck Co), 1955 Kleemann et al., 1999). 

The phase-transfer method has also been employed for the carbonylation of benzylic halides to carboxylic acids.477 The palladium(O) complexes [Pd(PPh3)4] (103), [Pd(diphos)2] (104) and [Pd(DBA)2] (105 DBA = dibenzylideneacetone) were used as catalysts. With (103) and (104) the carboxylic acid was the major product. Complex (105) gave little or none of the acid, the toluene and bibenzyl derivatives corresponding to the benzyl halide used being formed. Benzyl esters of the carboxylic acid were sometimes present as minor products. The reaction has been adapted to provide a new synthesis of anthranilic acid derivatives (equation 106).478 Tri-n-butylamine was used to neutralize the HBr formed. 

In contrast, the closely related palladium acetate-promoted intramolecular alkylation of alkenes by tri-methylsilyl enol ethers (Scheme 4)6,7 has been used to synthesize a large number of bridged carbocyclic systems (Table 1). In principle, this process should be capable of being made catalytic in palladium(II), since silyl enol ethers are stable to a range of oxidants used to carry the Pd° -> Pd11 redox chemistry required for catalysis. In practice, catalytically efficient conditions have not yet been developed, and the reaction is usually carried out using a full equivalent of palladium(II) acetate. This chemistry has been used in the synthesis of quadrone (equation 2).8 With the more electrophilic palladium(II) trifluoroace-tate, methyl enol ethers underwent this cyclization process (equation 3).9... 

Palladium-catalyzed olefin arylation reactions ( Heck coupling ) have been successfully employed for the generation of C-C bonds in organic synthesis for decades [174-177]. Arylhalides and olefins are coupled by palladium catalysts (typically with phosphine co-ligands) in the presence of base, such as a tri-alkylamine. 

The Heck reaction of 1,3 -diene systems via 7r-allylpalladium is also useful. This cyclization, which forms very congested quaternary carbon centers involving the intramolecular insertion of di-, tri- and tetrasubstituted alkenes, is particularly useful for natural products synthesis. In the synthesis of morphine, bis-cyclization of the octahydroisoquninoline precursor 112 by the intramolecular Heck reaction proceeded using palladium trifluoroacetate and 1,2,2,6,6-pentamethylpiperidine (PMP). The insertion of the diene system forms the 7i-allylpalladium intermediate 113, which attacks the phenol intramolecularly to form the benzofuran ring 114. Based on this method, the elegant total syntheses of (—)- and (+)-dihydrocodeinone, and (—)- and (+)-morphine (115) have been achieved [50],... 

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