Copper addition reactions

Furan and thiophene undergo addition reactions with carbenes. Thus cyclopropane derivatives are obtained from these heterocycles on copper(I) bromide-catalyzed reaction with diazomethane and light-promoted reaction with diazoacetic acid ester (Scheme 41). The copper-catalyzed reaction of pyrrole with diazoacetic acid ester, however, gives a 2-substituted product (Scheme 42). 

Organometallic complexes of copper, silver, and gold are ideal precursors for carbene complexes along with some C- and N-coordinated species. Their reactivity pattern, in particular in oxidative addition reactions, was the most comprehensively studied. 

Addition Reactions with Copper-Zinc Reagents... 

Zinc-copper compounds read dy undergo Micliael addition reactions in tlie presence of TMSCl, selectively affording 1,4-adducts [7, 34, 41, 42]. In tlie case of / -disLibstituted enones, tlie 1,4-addltion proceeds well in tlie presence of BF- -OEl2 iSclienie 2.43) [89]. 

Copper-mediated Addition Reactions to Extended Michael Acceptors... 

Copper-catalyzed Enantioselective Conjugate Addition Reactions of Organozinc Reagents... 

Compared to tlie intensive and successfrd development of copper catalysts for asymmetric 1,4-addition reactions, discussed in Cbapt. 7, catalytic asymmetric al-lylic substitution reactions have been tlie subjects of only a few studies. Diflictilties arise because, in tlie asymmetric y substitution of unsymniettical allylic electto-pb des, tlie catalyst bas to be capable of controlling botli tegioselectivity and enan-tioselectivity. 

Hie coppetfl) arenetliiolate complexes 19 [ 30], brsl developed and studied by van Rolen s group, can be used as catalysts for a number of copper-niedialed reactions SLidi as 1,4-addilion reactions lo etiones [31] and 1,6-addition reactions lo enynes [32]. 

In addition to the boron trifluoride-diethyl ether complex, chlorotrimcthylsilanc also shows a rate accelerating effect on cuprate addition reactions this effect emerges only if tetrahydrofuran is used as the reaction solvent. No significant difference in rate and diastereoselectivity is observed in diethyl ether as reaction solvent when addition of the cuprate, prepared from butyllithium and copper(I) bromide-dimethylsulfide complex, is performed in the presence or absence of chlorotrimethylsilane17. If, however, the reaction is performed in tetrahydrofuran, the reaction rate is accelerated in the presence of chlorotrimethylsilane and the diastereofacial selectivity increases to a ratio of 88 12 17. In contrast to the reaction in diethyl ether, the O-silylated product is predominantly formed in tetrahydrofuran. The alcohol product is only formed to a low extent and showed a diastereomeric ratio of 55 45, which is similar to the result obtained in the absence of chlorotrimethylsilane. This discrepancy indicates that the selective pathway leading to the O-silylated product is totally different and several times faster than the unselective pathway" which leads to the unsilylated alcohol adduct. A slight further increase in the Cram selectivity was achieved when 18-crown-6 was used in order to increase the steric bulk of the reagent. 

The catalyst is a mixture of copper, zinc oxide, and chromium(lll) oxide. Ethanol is produced in large quantities throughout the world by the fermentation of carbohydrates. It is also prepared by the hydration of ethene in an addition reaction ... 

Evans D. A., Rovis T., Johnson J. S. Chiral Copper(II) Complexes As Lewis Acids for Catalyzed Cycloaddition, Carbonyl Addition, and Conjngate Addition Reactions. Pure Appl. Chem 1999 71 1407-1415... 

Many of the early workers who studied the thermal decomposition reactions of diazocarbonyl compounds found that the addition of copper metal or copper salts allowed the reaction to be achieved at a lower temperature,<63AG(E)565, 64CB2628, 73JOU431> although no detailed study of this catalytic effect was undertaken. Alonso and Jano studied the copper-salt reaction of ethyl diazopyruvate 26 with acetonitrile and benzonitrile. The... 

Various a-addition reactions are observed to be metal- or acid-catalyzed, or to be uncatalyzed. In this review only the metal-catalyzed reactions will be discussed, since it is generally assumed that metal isocyanide complexes are involved in these systems. A number of metal-catalyzed a-addition reactions have been mentioned recently. Copper(I) oxide seems to be the most commonly used catalyst, although other metal complexes sometimes are satisfactory. Table III presents a partial survey of this work. 

In addition to a-additions to isocyanides, copper oxide-cyclohexyl isocyanide mixtures are catalysts for other reactions including olefin dimerization and oligomerization 121, 125, 126). They also catalyze pyrroline and oxazoline formation from isocyanides with a protonic a-hydrogen (e.g., PhCH2NC or EtOCOCHjNC) and olefins or ketones 130), and the formation of cyclopropanes from olefins and substituted chloromethanes 131). The same catalyst systems also catalyze Michael addition reactions 119a). 

The colorless, diamagnetic copper(I) complex Cu(acac)(CNPh)2 is formed from copper(I) acetylacetonate and phenyl isocyanide (103). The copper(I) complex (CuCl)2(CNCjH,)2pip was isolated (124) it decomposes to C5H, oNCH=NCgH 11. Primarily on this basis, copper(I) complexes are presumed to be intermediates in various -addition reactions to isocyanides (Section III,D). 

Compound (22) was used to synthesise some central nervous system stimulants, the others mostly in i nvestiga Lions of the stereochemistry of the reaction. Vihat generalisation can you make on the stereochemistry of the organo-copper additions ... 

In attempted hydroalkoxylations of methylacrylate with ethanol catalysed by the copper ethoxides 100 or 102, copper-catalysed transesterification to the ethylacrylate was observed instead of the addition reaction [81]. 

Nickel catalysts can be used instead of copper catalysts to promote the conjugate addition reaction, providing, in some cases, better results than the corresponding copper catalysts. In 2000, Yang et al. discovered a series of (li ,25, 3i )-3-mercaptocamphan-2-ol derivatives, which proved to be efficient ligands in the conjugate addition of ZnEt2 to chalcone upon catalysis with Ni(acac)2 (Scheme 2.29). 

Another type of mixed cyanocuprate has both methyl and alkenyl groups attached to copper. Interestingly, these reagents selectively transfer the alkenyl group in conjugate addition reactions.16 These reagents can be prepared from alkynes via hydrozirconation, followed by metal-metal exchange.17... 

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