Organocopper reagents 462 Reagent

The simplest case is the substitution of a halogen at a saturated carbon atom by an alkyl group. Organocopper reagents exhibit strong carbanionic capacity, and do attack ester groups only slowly (D.E. Bergbreiter, 1975). Ketones, however, should be protected. The relative re-... 

Substituted epoxides are attacked by organocopper reagents at the least hindered carbon atom and form alcohols (C.R. Johnson, 1973A). With a, 9-unsaturated epoxides tram-allylic alcohols are produced selectively by 1,4-addltion (W. Carruthers, 1973 G.H. Posner, 1972). 

CONJUGATE ADDITION OF ORGANOCOPPER REAGENTS TO a,p-UNSATURATED CARBONYL COMPOUNDS... 

G. H. Posner, An Introduction to Synthesis Using Organocopper Reagents (J. Wiley, New York, 1980). 

Direct transmetalation of organoboranes to organocopper reagents is not a general reaction. Because of dieir similar bond energies and electronegativities, diis trans-nietalation is linided to die preparation of alkenylcopper and unfiinctionalized... 

Over tlie last 30 years, organocopper reagents have been utilized witli great success in organic synthesis. Hie resuUs presented in this cliapter bigliliglit tlie excellent... 

ObvioL isly, tlie na ture of tlie - organocopper reagent is an import nt factor witli... 

Treatment of allylic substrates ISO, possessing suitable leaving groups X in tlieir allylic positions, witli organocopper reagents may result eitlier in an S 2-type process fa-attack) or alternatively in an S 2 one fy-attack), giving tlie substitution products 151 and 152, respectively fSclieme G.30) [Ij]. 

To explain tlie stereodieniistiy of tlie allylic substitution reaction, a simple stereoelectronic model based on frontier molecular orbital considerations bas been proposed fl55. Fig. G.2). Organocopper reagents, unlike C-nudeopbiles, possess filled d-orbitals fd - configuration), wbidi can interact botli witli tlie 7t -fC=C) orbital at tlie y-carbon and to a minor extent witli tlie cr -fC X) orbital, as depicted... 

Witli tlie reagent PbCu in tlie presence of tlie additives BF and PBu- , ees of up to 9 596 were obtained, wb de values of up to 8 596 were acliievable witli a vinyl copper reagent. Chiral dienic acetals have also been studied tliree regioisomeric products could be obtained in tliis case as tlie result of Su2, Su2, or Su2" attaclt of tlie organocopper reagent [25]. Mixtures were indeed obtained witli alKyl copper reagents, but PbCu-BF resulted in fotniation of only tlie S 2 and Su2" products, witli selectivity for tlie latter fSclieme 8.12). 

Hydrolysis of tlie ctioI etliers obtained from tlie substitution reaction witli tlie organocopper reagent yielded diiral -substituted aldehydes witli ees of 62 and 7396 for tlie Su2" and S 2 products, respectively. 

Scheme 2.30 Ring-opening reaction with organocopper reagents to form (E)-allyl 111 amines.

Scheme 2.31 Stereochemical course of ring-opening reactions with organocopper reagents.

Gilman-type organocopper reagents 50 gingkolide B 308 glabrescol 283... 

With respect to the nucleophilic addition of organocopper reagents, a sharp contrast between the rigid isopropylidene glyceraldehyde and its open-chained analog, 2,3-bis(benzyloxy)propanal. was observed (compare Tables 15 and 16). With the isopropylidene-protected aldehyde a high syn diastereoselectivity could only be obtained when tetrahydrofuran was used as reaction solvent, and the diastereoselectivity dropped considerably in diethyl ether. In contrast, the latter solvent allows excellent syn selectivities in additions to the dibenzyl-protected glyceraldehyde81. On the other hand, tetrahydrofuran yields better results than diethyl ether in the... 

---