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Copper halides reactions with

Only the copper-catalyzed reaction with aryl, heteroaryl, and alkenyl halides (Cl, Br, I) of 2//-1,2-oxazocinc to give the corresponding. V-suhstituted derivatives has been reported <2002W0085838>. [Pg.127]

Aryl halides reaction with metal cyanides, often with another transition metal catalyst, to give aryl nitriles (aryl cyanides). Aryl halides react with Zn(CN)2 and a palladium catalyst, for example, to give the aryl nitrile. Similarly, aryl iodides react with CuCN and a palladium catalyst to give the aryl nitrile. Potassium cyanide (KCN) reacts in a similar manner with a palladium catalyst. " Sodium cyanide has been used with a copper catalyst and 20% The reaction of aryl iodides... [Pg.885]

Zinc homoenolates (9) react with allyl halides and diene monoepoxides under copper catalysis. Treatment of a zinc homoenolate (9) with a catalytic amount of copper(I) in a polar solvent (e.g. DMA) generates a copper species which undergoes Sn2 allylation (Scheme 23). Polar solvents accelerate the reaction and greatly improve the Sn2 selectivity. Copper-catalyzed reaction with the acetal of an unsaturated aldehyde proceeds without allylic isomerization (Scheme 23). ... [Pg.449]

The reactivities of alkyl halides are in the sequence RI > RBr > RCl and MeX > EtX > PrX. Benzyl halide reactions with tin do not require catalysts (equation 2). For less reactive halides, the catalysts and promoters employed include metals (sodium, magnesium, zinc, or copper), Lewis bases (amines, triorganophosphines and -stibines, alcohols, or ethers), iodides, and onium salts (R4MX). The use of tin-sodium alloys can result in tri- or tetraorganotin products. Electrochemical synthesis has also been reported, e.g. the formation of R2SnX2 from the oxidation of anodic tin by RX in benzene solution and the formation of R4Sn from RI (R = Me or NCCH2CH2) and cathodic tin. [Pg.4872]

Aryl and vinyl azides can also be accessed in one step from the corresponding halides or triflates via a copper-catalyzed reaction with sodium azide in the presence of a catalytic amount of L-proline (Scheme 7.5C) [104]. In this fashion, a range of 1,4-disubstituted 1,2,3-triazoles can be prepared in excellent yields [105-107]. Anilines can also be converted to aryl azides by the reaction with tert-butyl nitrite and azidotrimethylsilane [108]. The resulting azides can be submitted to the CuAAC conditions without isolation, furnishing triazole products in excellent yields. Microwave heating further improves both reactions, significantly reducing reaction time [56, 62]. [Pg.208]

Preparation of Active Copper and Reaction with Organic Halides to Yield Organocopper Reagents... [Pg.237]

Bromomethyl-5-methylthiophene gives normal displacement products with amines but it is isomerized on attempted reaction with copper(I) cyanide (Scheme 59) 48MI30200. Whereas 2-hydroxymethylthiophene reacts normally with hydrogen halides to give 2-halomethylthiophenes, reaction of 2-hydroxymethylfuran (2-furfuryl alcohol) with hydrochloric acid results in formation of laevulinic acid (151). 2-Furfuryl alcohol derivatives are... [Pg.70]

In practice vapours of the hydrocarbon halide, e.g. methyl chloride, are passed through a heated mixture of the silicon and copper in a reaction tube at a temperature favourable for obtaining the optimum yield of the dichlorosilane, usually 250-280°C. The catalyst not only improves the reactivity and yield but also makes the reaction more reproducible. Presintering of the copper and silicon or alternatively deposition of copper on to the silicon grains by reduction of copper (I) chloride is more effective than using a simple mixture of the two elements. The copper appears to function by forming unstable copper methyl, CUCH3, on reaction with the methyl chloride. The copper methyl then decomposes into free methyl radicals which react with the silicon. [Pg.819]

The copper species formed depends on the solvent, and three different species were detected by F NMR, although the structure of each species was not elucidated [245 This copper reagent undergoes a variety of coupling reactions with aryl, alkenyl, allyl, and acetylenic halides [244, 245 (equation 162)... [Pg.709]

In the reactions of 10.13a with alkali metal terr-butoxides cage expansion occurs to give the sixteen-atom cluster 10.15, in which two molecules of MO Bu (M = Na, K) are inserted into the dimeric structure. The cluster 10.13a also undergoes transmetallation reactions with coinage metals. For example, the reactions with silver(I) or copper(I) halides produces complexes in which three of the ions are replaced by Ag" or Cu" ions and a molecule of lithium halide is incorporated in the cluster. ... [Pg.196]

For the in situ preparation of the required arenediazonium salt from an aryl amine by application of the diazotization reaction, an acid HX is used, that corresponds to the halo substituent X to be introduced onto the aromatic ring. Otherwise—e.g. when using HCl/CuBr—a mixture of aryl chloride and aryl bromide will be obtained. The copper-(l) salt 2 (chloride or bromide) is usually prepared by dissolving the appropriate sodium halide in an aqueous solution of copper-(ll) sulfate and then adding sodium hydrogensulfite to reduce copper-(ll) to copper-(1). Copper-(l) cyanide CuCN can be obtained by treatment of copper-(l) chloride with sodium cyanide. [Pg.248]

Aryl chlorides and bromides are prepared by reaction of an arenediazonium salt with the corresponding copper(I) halide, CuX, a process called the Sandmeyer reaction. Aryl iodides can be prepared by direct reaction with Nal without using a copper(T) salt. Yields generally fall between 60 and 80%. [Pg.942]

Dithiocarbamate complexes of copper have been sythesized at a high rate. Reports of new complexes include the morpholine-4- (44), thio-morpholine, AT-methylpiperazine-4-, and piperidine- (291) dithiocarba-mates. Novel, polymeric complexes of the type Cu(pipdtc)2 (CuBr) in = 4, or 6) and Cu(pipdtc)2 (CuCl)4 have been prepared by reactions of[Cu(pipdtc)2] with the respective copper halide in CHCla-EtOH (418). The crystal structures of the polymers are known to consist of sheets of individual [Cu(pipdtc)2] molecules linked to polymeric CuBr chains via Cu-S bonds. A series of copper(I) dtc complexes have been the subject of a Cu and Cu NQR-spectral study (440). [Pg.266]

Vinylic copper reagents react with CICN to give vinyl cyanides, though BrCN and ICN give the vinylic halide instead." Vinylic cyanides have also been prepared by the reaction between vinylic lithium compounds and phenyl cyanate PhOCN." Alkyl cyanides (RCN) have been prepared, in varying yields, by treatment of sodium trialkylcyanoborates with NaCN and lead tetraacetate." Vinyl bromides reacted with KCN, in the presence of a nickel complex and zinc metal to give the vinyl nitrile. Vinyl triflates react with LiCN, in the presence of a palladium catalyst, to give the vinyl nitrile." ... [Pg.802]

The reaction with ammonia or amines, which undoubtedly proceeds by the SnAt mechanism, is catalyzed by copper and nickel salts, though these are normally used only with rather unreactive halides. This reaction, with phase-transfer catalysis, has been used to synthesize triarylamines. Copper ion catalysts (especially cuprous oxide or iodide) also permit the Gabriel synthesis (10-61) to be... [Pg.864]

The reaction on unactivated halides can also be done with copper halide catalysts (the Hurtley reaction), and with palladium complex catalysts. [Pg.869]

See other pages where Copper halides reactions with is mentioned: [Pg.183]    [Pg.396]    [Pg.244]    [Pg.220]    [Pg.104]    [Pg.253]    [Pg.165]    [Pg.205]    [Pg.168]    [Pg.167]    [Pg.88]    [Pg.124]    [Pg.584]    [Pg.259]    [Pg.493]    [Pg.18]    [Pg.19]    [Pg.19]    [Pg.863]    [Pg.866]    [Pg.1025]    [Pg.200]    [Pg.690]   


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Copper halides

Reaction with copper

With Copper

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