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Organolithium compounds with alkenes

Support-bound silanes are useful linkers and intermediates, and can be prepared by several routes. The most versatile approaches include the reaction of resin-bound organolithium compounds with chlorosilanes [36,37] and the hydrosilylation of resin-bound alkenes (Figure 4.6). Further transformations of resin-bound silanes are discussed in Section 3.11.2. [Pg.163]

Polystyrene-bound silanes are usually prepared by reaction of organolithium compounds with resin-bound silyl chlorides [12, 13]. The C-Si bonds of aryl-, heteroaryl-, vinyl-, and allylsilanes are stable towards alcoholates or weak reducing agents, but can be cleaved under mild conditions by treatment with acids or fluoride to yield a hydrocarbon and a silyl ester or silyl fluoride. Several linkers of this type have been tested and have proven useful for the preparation of unfunctionalized arenes and alkenes upon cleavage from insoluble supports. [Pg.251]

To the best of our knowledge, X-ray structural data of complexes with simple dihapto interactions between a lithium atom and the n system of an alkene or alkyne ligand are unknown, but there is some spectroscopic evidence for weak it interactions in solutions of 3-alkenyllithium compounds from 7Li-and H-NMR data (4). Interactions of this sort are presumably important in addition (polymerization) reactions between organolithium compounds and alkenes or alkynes. [Pg.218]

C. Mixed-Metal Organolithium Compounds with Unsaturated (Alkene, Arene) Uganda... [Pg.398]

Elimination to yield alkenes can be induced thermally or by treatment with acids or bases (for one possible mechanism, see Figure 3.39) [138,206]. Less common thermal demetallations include the thermolysis of arylmethyloxy(phenyl)carbene complexes, which can lead to the formation of aryl-substituted acetophenones [276]. Further, (difluoroboroxy)carbene complexes of molybdenum, which can be prepared by treating molybdenum hexacarbonyl with an organolithium compound and then with boron trifluoride etherate at -60 °C, decompose at room temperature to yield acyl radicals [277]. [Pg.37]

Compound 388 is an acylating agent for electron-deficient alkenes, in a Michael addition process. It is formed by treating molybdenum hexacarbonyl with an organolithium compound, followed by quenching the intermediate 387 with boron trifluoride (equation 104). The structure of 388 (R = Ph) can be elucidated by NMR spectroscopy. Other examples of enantioselective and diastereoselective Michael-type additions involving lithium-containing intermediates in the presence of chiral additives can be found elsewhere in the literature . [Pg.407]

The Shapiro Reaction, a variation on the Bamford-Stevens Reaction, is the base-induced reaction of tosylhydrazones to afford alkenes. This reaction is carried out with two equivalents of an organolithium compound. [Pg.209]

Fig. 10.36. Preparation of an alkene by adding a Grignard reagent or an organolithium compound to a ketone and subsequent workup with an acid that is strong enough to induce an El elimination. Fig. 10.36. Preparation of an alkene by adding a Grignard reagent or an organolithium compound to a ketone and subsequent workup with an acid that is strong enough to induce an El elimination.
In the majority of cases, organolithium compounds and Grignard reagents contain polarized but covalent carbon—metal bonds. Lithioalkanes, -alkenes, and -aromatics, on the one hand, and alkyl, alkenyl, and aryl magnesium halides, on the other hand, are therefore formulated with a hyphen between the metal and the neighboring C atom. Only lithiated alkynes and alkynyl Grignard reagents are considered to be ionic—that is, species with carbon, metal bonds similar to those in LiCN or Mg(CN)2. [Pg.306]

Taylor and Wei have also developed a versatile method for the synthesis of cyclopentanes employing readily available organolithium compounds as difunctional, conjunctive reagents. This strategy represents an anionic [3 + 2] approach to substituted cyclopentanes. The reactions of lithiated alkenes 149 with activated alkenes 150 afford cyclopentane derivatives 151 in reasonable yield and, in some cases, with excehent stereocontrol. The alkenes 150 must be added over extended times to minimize polymerization processes. The... [Pg.327]

The base catalyzed decomposition of arylsulfonylhydrazones of aldehydes and ketones to provide alkenes is called the Bamford-Stevens reaction. When an organolithium compound is used as the base, the reaction is termed the Shapiro reaction. The most synthetically useful protocol involves treatment of the substrate with at least two equivalents of an organolithium compound (usually MeLi or BuLi) in ether, hexane, or tetramethylenediamine. The in s/ft formed alkenyllithium is then protonated to give the alkene. The above procedure provides good yields of alkenes without side reactions and where there is a choice, the less highly substituted alkene is predominantly formed. Under these reaction conditions tosylhydrazones of a,(3-unsaturated ketones give rise to conjugated dienes. It is also possible to trap the alkenyllithium with electrophiles other than a proton. [Pg.36]

See other pages where Organolithium compounds with alkenes is mentioned: [Pg.537]    [Pg.1017]    [Pg.220]    [Pg.31]    [Pg.103]    [Pg.1334]    [Pg.353]    [Pg.1336]    [Pg.44]    [Pg.902]    [Pg.591]    [Pg.869]    [Pg.182]    [Pg.199]    [Pg.398]    [Pg.467]    [Pg.140]    [Pg.73]    [Pg.72]    [Pg.306]    [Pg.329]    [Pg.340]    [Pg.591]    [Pg.594]    [Pg.1097]    [Pg.1098]    [Pg.1526]   
See also in sourсe #XX -- [ Pg.165 , Pg.168 , Pg.169 , Pg.179 , Pg.190 , Pg.202 , Pg.322 , Pg.323 , Pg.326 ]



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