Alkyl-lithiums

More usually, none of the substituents gives a stable anion and so we use the synthetic equivalent of the anion - the Grignard reagent or alkyl lithium. - We refer to "Et " as a SYNTH ON for which EtMgBr is the synthetic equivalent. 

You can see how the alkyl-lithium acts as tlie synthon CH3CH2 since the carbon-lithium bond breaks so that the electrons go with the carbon atom. Suggest a disconnection for TM 16. 

Many random copolymers have found commercial use as elastomers and plastics. For example, SBR (62), poly(butadiene- (9-styrene) [9003-55-8] has become the largest volume synthetic mbber. It can be prepared ia emulsion by use of free-radical initiators, such as K2S20g or Fe /ROOH (eq. 18), or in solution by use of alkyl lithium initiators. Emulsion SBR copolymers are produced under trade names by such companies as American Synthetic Rubber (ASPC), Armtek, B. F. Goodrich (Ameripool), and Goodyear (PHoflex) solution SBR is manufactured by Firestone (Stereon). The total U.S. production of SBR in 1990 was 581,000 t (63). 

Alkyl lithiums Dodecacarbonyltetracobalt Barium sulphide Triisopropylphosphine... 

The alkyl lithium method gives high yields of -olefins from 17-ketones via the tosylhydrazones. A -Olefins are formed from 6- and 7-ketones. (Compare with the Bamford-Stevens reaction which gives A - and A -olefins, respectively.) In the presence of an excess of alkyl lithium, alkylation may occur. 

Alkyltrifluorosilanes and disubstituted difluorosilanes are themselves quite reactive with nucleophiles such as lithium amide bases [102, 103 104], alkyl-lithium reagents [1051, Gngnard reagents [105], or alkoxides [105] (equations 82 and 83)... 

Grignard and alkyl lithium reagents were found to add to the carbonyl group of a tricyclic vinylogous amide. However, the same compound underwent the usual vinylogous reduction with lithium aluminum hydride (712). Grignard additions to di- and trichloroenamines gave a-chloro- and dichloroketones (713). 

Alkyl Lithium and alkyl Gngnard reagents react with way to give alkylated products fEq 9 23 ... 

These alkene isomers are separately available (4) by treatment of threo-S-trimethylsilyloctan-4-ol, prepared by reduction of the corresponding ketone with DIBAL in pentane at —120°C, with base or acid. The preparation of 5-trimethylsilyloctan-4-one itself illustrates three general procedures the addition of alkyl lithium reagents to vinylsilanes to generate a-lithiosilanes, the preparation of complex /5-hydroxysilanes, as diastereoisomeric mixtures, and the oxidation of such compounds to /8-ketosilanes... 

Ketosilanes react with alkyl lithiums in a diastereoselective manner (7), the preferred diastereoisomer being the one predicted on the basis of Cram s Rule acidic or basic treatment provides a stereoselective route to trisubstituted alkenes. 

Aldehydes, 43 a-Chiral, 112 a/MJnsaturated, 85,110 /3-Aldchydosi lanes, 22 Aldol reaction, directed, 139 Alkoxytrimethylsilanes, 122 Alkyl lithium. 67 Alkyl silyl ethers, 91-97,127 Alkylation, 33 of ethyl glycinate, 88-89 t-Alkylation, 111-135... 

Similarly, the reaction of the parent thiirane dioxide, the 2-chloro- and 2,3-cis-dimethylthiirane dioxides with either Grignard or alkyl lithium reagents, has been studied extensively. The fair-to-good yields of the sulfinates (62) obtained (48-82%), accompanied by ethylene (or the corresponding alkenes for substituted thiirane dioxide), have been interpreted in terms of initial nucleophilic attack of the base on the sulfur atom as depicted in equation 17116. 

ALCOHOL represents a convenient method of converting allyl alcohol to 2-substituted 1-propanols, while a one-pot reaction sequence of alkylation (alkyl lithium) and reduction (lithium—liquid ammonia) provides excellent yields of AROMATIC HYDROCARBONS FROM AROMATIC KETONES AND ALDEHYDES. 

Dialkyl-[alken-(l)-yl]-borane werden nach Uberfiihrung mit Alkyl-lithium in die Lithium-trialkyl-[alken-(l)-yI]-borate bereits mit 6 n Natronlauge bei 20° hydrolysiert5. 

Eine Entsulfurierung ist bei der Reduktion von tert.-Arsinsulfiden zu tert. Arsinen mit Alkyl-lithium zu beobachten. Die Bedeutung dieser Reaktion liegt darin, daB sie oft bei optisch aktiven tert.-Arsinsulfiden unter Erhalt der Konfiguration am Arsen ablauft (s. ds. Handb. Bd. XIII/8, S. 92). 

As the phosphonium diylides, lithium phosphonium yldiides, first described by Schlosser and Corey (Ph3P=CR-Li R=H, C3H7) [60-62], have a high nucleophilicity and reactivity. Recently, the a-silylated lithium phosphonium yldiide 20 has been prepared from the stable phosphanyl-(silyl)carbene 19 and alkyl-lithium (Scheme 13). The first crystal X-ray diffraction study of such a reagent was proposed for 20 and its reaction with methyl iodide or phosphorus elec-... 

Removal of the side chain gives a symmetrical pyrazine (48), best made from a single precursor according to disconnection (a). The side chain can be added by treatment of (48) with the alkyl lithium at the electrophilic centre next to nitrogen (LiH is displacedj. Ana lysis... 

Quinquecovalent phosphoranes readily undergo ligand exchange on treatment with organolithium compounds. With alkyl-lithiums the resulting alkylphosphoranes give alkylidenephosphoranes, e.g. (2), by loss of benzene. 

Several examples of conjugate addition of carbanions carried out under aprotic conditions are given in Scheme 2.24. The reactions are typically quenched by addition of a proton source to neutralize the enolate. It is also possible to trap the adduct by silylation or, as we will see in Section 2.6.2, to carry out a tandem alkylation. Lithium enolates preformed by reaction with LDA in THF react with enones to give 1,4-diketones (Entries 1 and 2). Entries 3 and 4 involve addition of ester enolates to enones. The reaction in Entry 3 gives the 1,2-addition product at —78°C but isomerizes to the 1,4-product at 25° C. Esters of 1,5-dicarboxylic acids are obtained by addition of ester enolates to a,(3-unsaturated esters (Entry 5). Entries 6 to 8 show cases of... 

Group members further devised two additional methods (methods C and D, Fig. 4.15) leading to monoalkylation products. In the first, an alkyl lithium reagent is added to the aldehyde 5 (0.1 M in Et20, —78 °C). Upon disappearance of starting... 

Asymmetric addition to ketimine in a reagent controlled manner has seldom been reported, even by 2008. When we investigated the potential for tbis asymmetric addition around 1992, there were no known examples. In 1990, Tomioka et al., reported the first asymmetric addition of alkyl lithium to N-p-methoxyphenyl aldo-imines in the presence ofa chiral (3-amino ether with 40-64% ee [8] (Scheme 1.11). In 1992, Katritzky reported the asymmetric addition of Et2Zn to in situ prepared N-acyl imine in the presence of a chiral (3-amino alcohol with 21-70% ee [15] (Scheme 1.12). In the same year, Soai et al., reported the asymmetric addition of dialkylzinc to diphenylphosphinoyl imines in the presence of chiral (3-amino alcohols with 85-87% ee [16] (Scheme 1.13). These three reports were, to the best of... 

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