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PdCu

The idea is to have everything in place before the oxygen is applied. So, lOOg of safrole is in the addition funnel and stirring around in the reaction flask are 10.6g of PdCU, 60g CuCI and 500mL of aqueous dimethylformamide (made by mixing 62.5mL dH20 and 437,5mL DMF). Dimethylformamide (DMF) is not the same as the watched chemical known as N-methylformamide. [Pg.62]

When butadiene is treated with PdCU the l-chloromethyl-7r-allylpalladium complex 336 (X = Cl) is formed by the chloropalladation. In the presence of nucleophiles, the substituted 7r-methallylpalladium complex 336 (X = nucleophile) is formed(296-299]. In this way, the nucleophile can be introduced at the terminal carbon of conjugated diene systems. For example, a methoxy group is introduced at the terminal carbon of 3,7-dimethyl-I,3,6-octatriene to give 337 as expected, whereas myrcene (338) is converted into the tr-allyl complex 339 after the cyclization[288]. [Pg.66]

Alkynes undergo stoichiometric oxidative reactions with Pd(II). A useful reaction is oxidative carboiiyiation. Two types of the oxidative carbonyla-tion of alkynes are known. The first is a synthesis of the alkynic carbox-ylates 524 by oxidative carbonylation of terminal alkynes using PdCN and CuCh in the presence of a base[469], Dropwise addition of alkynes is recommended as a preparative-scale procedure of this reation in order to minimize the oxidative dimerization of alkynes as a competitive reaction[470]. Also efficient carbonylation of terminal alkynes using PdCU, CuCI and LiCi under CO-O2 (1 I) was reported[471]. The reaction has been applied to the synthesis of the carbapenem intermediate 525[472], The steroidal acetylenic ester 526 formed by this reaction undergoes the hydroarylalion of the triple bond (see Chapter 4, Section 1) with aryl iodide and formic acid to give the lactone 527(473],... [Pg.97]

As an application of maleate formation, the carbonylation of silylated 3-butyn-l-ol affords the 7-butyrolactone 539[482], Oxidative carbonylation is possible via mercuration of alkynes and subsequent Lransmetallation with Pd(II) under a CO atmosphere. For example, chloromercuration of propargyl alcohol and treatment with PdCF (1 equiv.) under 1 atm of CO in THF produced the /3-chlorobutenolide 540 in 96% yield[483]. Dimethyl phenylinale-ate is obtained by the reaction of phenylacetylene, CO, PdCU, and HgCl2 in MeOH[484,485]. [Pg.100]

When the 7r-allylpalladium complexes are formed by the reaction of aikenes with PdCU and react with nucleophiles, the whole reaction constitutes the stoichiometric functionalization of alkenes[4,5]. [Pg.290]

Although the yields are not high, PdCU or Pd black catalyzes oxo reactions of alkenes with CO and H2 to give aldehydes[32]. [Pg.516]

The other palladium(II) halides are all diamagnetic. PdCl2 exists in well defined a- and /3-forms [16] (as well as a 7-form) the former has a PdCU/2... [Pg.175]

Figure 7. SEM and XRMA microphotographs of palladium catalysts supported on the amphiphilic resin made by DMAA, MTEA, MBAA (cross-linker) [30]. Microphotographs (a) and (b) show an image and the radial palladium distribution after uptake of [Pd(OAc)2] from water/acetone the precursor diffuses only into the outer layer of the relatively little swollen CFP after reduction the nanoclusters remain close to the edge of the catalyst beads. Microphotographs (c) and (d) show the radial distribution of sulfur and palladium, respectively, after uptake of [PdCU] from water after reduction palladium is homogenously distributed throughout the catalyst particles. This indicates that under these conditions the CFP was swollen enough to allow the metal precursor to readily penetrate the whole of polymeric mass. (Reprinted from Ref. [30], 2005, with permission from Elsevier.)... Figure 7. SEM and XRMA microphotographs of palladium catalysts supported on the amphiphilic resin made by DMAA, MTEA, MBAA (cross-linker) [30]. Microphotographs (a) and (b) show an image and the radial palladium distribution after uptake of [Pd(OAc)2] from water/acetone the precursor diffuses only into the outer layer of the relatively little swollen CFP after reduction the nanoclusters remain close to the edge of the catalyst beads. Microphotographs (c) and (d) show the radial distribution of sulfur and palladium, respectively, after uptake of [PdCU] from water after reduction palladium is homogenously distributed throughout the catalyst particles. This indicates that under these conditions the CFP was swollen enough to allow the metal precursor to readily penetrate the whole of polymeric mass. (Reprinted from Ref. [30], 2005, with permission from Elsevier.)...
Scheme 6.11) [30,31]- The catalyst was prepared from [PdCU] and the phosphonato-phosphine Ph2P-C6H4-PO(ONa)2 in water/ethyleneglycol and a mixture of NaOAc and Na2C03 served as base. Similar results were obtained with the Pd/TPPTS catalyst in a biphasic reaction mixture. [Pg.171]

Interestingly, various phosphonium salts have been applied [13] as constituents of palladium catalysts for hydrodimerization of butadiene and isoprene about the same time when the results of Kuraray were disclosed. These were obtained by quatemization of aminoalkylphosphines with methyl iodide or HQ (Ph2P-R-NH2 type compounds are known to yield phosphonium salts with these reagents). Although the catalysts prepared in situ from [PdCU] were reasonably active (TOF-s of 10-20 h ) the reactions always yielded complex product mixtures with insufficient selectivity towards the desired 1,7-octadienyl derivatives. [Pg.196]

It is known of the Wacker reaction, that at low chloride concentration (< 1 M) it yields exclusively acetaldehyde. However, at [Cl ] > 2.5 M, chloroethanol is produced in appreciable quantities. In a detailed kinetic study it was established, that when a chloride ligand in [PdCU] " is replaced by pyridine, the intermediate hydroxyethylpalladium complex is stable enough to undergo reaction with [CUCI2] with the formation of chloroethanol up to a yield of 98 % in 8 M chloride solutions (Scheme 8.2) [13]. [Pg.213]

One of the earliest use of cyclodextrins as inverse phase transfer agents was in the Wacker oxidation of higher olefins to methyl ketones [22] with [PdCU] + [CuCU] catalyst (Scheme 10.12). Already at that time it was discovered, that cyclodextrins not only transported the olefins into the aqueous phase but imposed a substrate-selectivity, too with Ckh olefins the yields decreased dramatically and 1-tetradecene was only slightly oxidized. [Pg.239]

See other pages where PdCu is mentioned: [Pg.29]    [Pg.52]    [Pg.60]    [Pg.100]    [Pg.102]    [Pg.511]    [Pg.529]    [Pg.225]    [Pg.491]    [Pg.491]    [Pg.491]    [Pg.492]    [Pg.364]    [Pg.755]    [Pg.756]    [Pg.336]    [Pg.339]    [Pg.340]    [Pg.272]    [Pg.273]    [Pg.112]    [Pg.39]    [Pg.130]    [Pg.133]    [Pg.86]    [Pg.20]    [Pg.108]    [Pg.114]    [Pg.21]    [Pg.160]    [Pg.212]    [Pg.415]    [Pg.112]    [Pg.363]    [Pg.16]    [Pg.199]    [Pg.57]    [Pg.86]   
See also in sourсe #XX -- [ Pg.421 , Pg.460 ]



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PdCu bimetallic

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