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Reformatsky-type reagents

Additions of the Reformatsky-type reagents to aldehydes can also proceed in ionic solvents (Scheme 108).287 Three ionic liquids have been tested 8-ethyl-l,8-diazbicyclo[5,4,0]-7-undecenium trifluoromethanesulfonate ([EtDBU][OTf]), [bmim][BF4], and [bmim][PF6]. The reactions in the first solvent provided higher yields of alcohols 194 (up to 93%), although results obtained for two other ionic liquids were also comparable with those reported for conventional solvents. [Pg.387]

Asymmetric additions of Reformatsky-type reagents to nitrones 258a and 258b have also been reported (Scheme 139). The reagents were prepared in situ from ZnEt2 and the corresponding iodoacetic acid ester. Diisopropyl (R,R)-tartrate 262 was employed as a chiral inductor. Enantioselectivities varied significantly the best results were obtained at 0 °C when a nitrone was added to the reaction mixture over a 2 h period. [Pg.398]

The reactive Cd(0) powder reacts with a-halo esters to give a Reformatsky-type reagent. [Pg.60]

For two recent examples of asymmetric catalytic aminoalkylations of Reformatsky-type reagents, see a) Y. Ukaji, Y. Yoshida, K. Inomata, Tetrahedron ... [Pg.140]

The condensation of an imine with a Reformatsky-type reagent and tandem reactions can result in asymmetric induction.3-207-484 87 The reaction of a ketene with an electron-rich alkene results in a [2+2] cycloaddition, although other systems can also be used,488 90 The stereochemistry of the adduct is cis, and functionalized ketenes can also be used. The ketene can be generated in situ (Scheme 26.21).491... [Pg.519]

Reformatsky-type reagents The synthesis of P-hydroxy nitriles (9 examples,... [Pg.150]

Helquist and co-workers developed an oxazole organozinc Reformatsky-type reagent 958 as a solution to the problem of introducing a 2-methyloxazole moiety in... [Pg.205]

The highly reactive indium powder reported in Sections 6.1 and 6.2 reacts readily with a-haloesters to give an indium Reformatsky-type reagent which will add to ketones and aldehydes to give p-hydroxy esters. The Reformatsky reaction using zinc metal has been used in the preparation of p-hydroxy esters for many years. Recent improvements have made this reaction a very reliable reaction (see Section 3.10). [Pg.246]

The intramolecular cyclization route to p-lactams still provides interest. P-Amino esters (obtained by a Reformatsky-type reaction of an imine and bromoacetates derived from chiral alcohols) are cyclized by the action Grignard reagents to 4-substituted P-lactams with impressive e.e. <96TL4095>. A similar approach through a Reformatsky-type reaction uses tricarbonyl(Ti -benzaldimine)chromium complexes and ultrasound <96T4849>. 3-Methyl-azetidin-2-ones (obtained from 3-amino-2-methylpropionates) have been resolved and their... [Pg.69]

Activation. Erdik1 has reviewed the methods used since 1970 for activation of zinc and of organozinc reagents. Although chemical activation is still useful, ultrasound activation is being used increasingly. Thus sonic activation allows use of ordinary zinc for cyclopropanation of alkenes with CH2I2 in 67-97% yield and for Reformatsky-type reactions at room temperatures. [Pg.349]

The application of lithiumtrimethylsilyl acetate for the C-l elongation of aldonolactones has been examined (73). Although the reagent had been successfully used for the alkenation of lactone carbonyl groups (74), in the case of aldonolactones 10b or 25b only insignificant yields of the alkenes, but 30 - 40% of the lactols 49a or 50a, were obtained (73). However, these lactols, alternatively prepared in good yields by a Reformatsky-type reaction (53,54), were readily eliminated to the desired alkenes by simple treatment with methanesulfonyl chloride-triethylamine at 0°. Thus, from 49a or 50a separable E,Z mixtures (76a and 76b, or 77a and 77b, respectively) were obtained in good yields (73). [Pg.144]

The Reformatsky type of reaction with Zn(0) was performed in situ and led to somewhat unstable phosphonodiamidite (step a) which was coupled with 5 -DMTr-thymidine to give the intermediate mononucleoside phospho-noamidite (step b). The latter was further coupled with 3 -acetyl-thymidine (step c). Couplings described in steps b and c were activated by tetrazole. The intermediate dinucleoside phosphonite was oxidized with (lS)-(+)-(10-camphorsulphonyl)oxaziridine (step d) or sulfurized with Beaucage reagent. The phosphonoamidites mentioned above were used in the solid-phase chemical synthesis of phosphonoacetate and thiophosphonoacetate oligonucleotides. [Pg.135]

The Reformatsky-type addition of organozinc reagents to imines is a well-known process for / -aminoester synthesis. However, this transformation often affords... [Pg.261]

Particularly challenging is the use of chiral ligands in order to impose enan-tiocontrol on a Reformatsky reaction. Although preparatively useful levels of asymmetric induction have been described in the recent literature by using enantiomerically pure amino alcohol ligands43 this reaction has not yet reached a similar level of perfection as the enantioselective addition of other organozinc reagents to aldehydes in the presence of the same type of additives. Some selected examples of stereoselective Reformatsky type reactions which delineate the present state of the art are summarized in Scheme 14.6. [Pg.301]

An indium Reformatsky reagent has been prepared from 2-(chlorodifluoroacetyl)furan, which couples with aldehydes (Equation (84)).334 A similar Reformatsky-type reaction between some /3-aminovinyl chlorodifluoromethyl... [Pg.706]

The Reformatsky reactions of methyl or ethyl bromoacetate with 4-acetoxy-,2,24 4-benzyloxy-,2 4-tetrahydropyranyloxy-,2 4-chloro-,8 and 4,4-dimethoxy-2-butanone1418 have been carried out. The adducts were converted to mevalonolactone by hydrolysis and, in the case of the acetal reactant, by appropriate reduction and oxidation procedures. The same Reformatsky-type syntheses of mevalonolactone have also been performed using the lithium and magnesium carbanions of acetate esters5,19 25 26 and the dianion of acetic acid28,27 instead of the usual zinc reagent. The intramolecular Reformatsky reaction of 4-(bromoacetoxy)-2-butanone gives mevalonolactone directly.28 A related route to mevalonolactone involves boron trifluoride-catalyzed cycloaddition of ketene to 4-acetoxy-2-butanone followed by hydrolysis.183... [Pg.125]

Reformatsky-type reaction. Reaction of an a-bromo aldehyde, ketone, or ester with the reagent (I) formed from Bu3SnLi and (CiHjj.AlCl provides an aluminum enolate... [Pg.523]

Nitriles and esters are also unreactive in Smh-promoted Barbier reactions. A very useful procedure for lactone synthesis has been developed making use of this fact. Treatment of 7-bromobutyrates or 8-bro-movalerates with Smh in THF/HMPA in the presence of aldehydes or ketones results in generation of lactones through a Barbier-type process (equations 25 and 26). This nicely complements the -metaUo ester or homoenolate chemistry of organosamarium(III) reagents described above (Section 1.9.2.1), and also the Reformatsky-type chemistry promoted by Sml2 (Section 1.9.2.3.2). Further, it provides perhaps the most convenient route to 7- and 8-carbanionic ester equivalents yet devised. [Pg.259]


See other pages where Reformatsky-type reagents is mentioned: [Pg.361]    [Pg.250]    [Pg.726]    [Pg.221]    [Pg.726]    [Pg.342]    [Pg.207]    [Pg.277]    [Pg.361]    [Pg.250]    [Pg.726]    [Pg.221]    [Pg.726]    [Pg.342]    [Pg.207]    [Pg.277]    [Pg.234]    [Pg.339]    [Pg.339]    [Pg.606]    [Pg.259]    [Pg.8]    [Pg.604]   
See also in sourсe #XX -- [ Pg.205 , Pg.207 , Pg.208 , Pg.209 , Pg.209 , Pg.210 ]




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