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Metalation alkyl halides

The bis(cyclopentadienyl)dihydrides of Mo serve as precursors for the generation of neutral, low-valent, group-VI metallocenes. Reduction of the readily available dihydride with MeLi followed by reaction with RX gives metal alkyl halides ... [Pg.147]

The polymerization rate will then depend on the relative proportions and activities of Cf, C, etc. (which will be determined by A/T and Kj, Kf, etc., and the propagation coefficients.) Thus, it has been found with (7r-CsH5)2TiEtCl/AlEtCl2 that the rate of ethylene polymerization accelerates with time as active species are formed and with increase in Al/Ti ratios the rate rises to a steady value at constant Ti concentration and [C ] [Ti]o, and passes through a maximum at constant metal alkyl halide concentration. [Pg.177]

Historically, among the most important reactions of silicon halides are those occurring with metal alkyls and metal alkyl halides. The Grignard reaction, for example, was the first commercial process for manufacturing organosilicon compounds, which were later converted to silicones (19). [Pg.19]

Metal Alkyl Halide (RX) Quench Procedure Composition (%) ArH2R ArHR2... [Pg.84]

Metal halides include the metal alkyl halide ethylaluminium ses-quichloride and the metal aryl halide phenylmagnesium chloride both... [Pg.167]

Transition metal halide Metal alkyl halide % Crystallinity... [Pg.340]

Sheppard N and De La Cruz C 1998 Vibrational spectra of hydrocarbons adsorbed on metals. Part II. Adsorbed acyclic alkynes and alkanes, cyclic hydrocarbons including aromatics and surface hydrocarbon groups derived from the decomposition of alkyl halides, etc Adv. Catal. 42 181-313... [Pg.1795]

In Grignard reactions, Mg(0) metal reacts with organic halides of. sp carbons (alkyl halides) more easily than halides of sp carbons (aryl and alkenyl halides). On the other hand. Pd(0) complexes react more easily with halides of carbons. In other words, alkenyl and aryl halides undergo facile oxidative additions to Pd(0) to form complexes 1 which have a Pd—C tr-bond as an initial step. Then mainly two transformations of these intermediate complexes are possible insertion and transmetallation. Unsaturated compounds such as alkenes. conjugated dienes, alkynes, and CO insert into the Pd—C bond. The final step of the reactions is reductive elimination or elimination of /J-hydro-gen. At the same time, the Pd(0) catalytic species is regenerated to start a new catalytic cycle. The transmetallation takes place with organometallic compounds of Li, Mg, Zn, B, Al, Sn, Si, Hg, etc., and the reaction terminates by reductive elimination. [Pg.125]

Table 8 1 illustrates an application of each of these to a functional group transfer matron The anionic portion of the salt substitutes for the halogen of an alkyl halide The metal cation portion becomes a lithium sodium or potassium halide... [Pg.327]

Alkoxide ion (RO ) The oxygen atom of a metal alkoxide acts as a nucleophile to replace the halogen of an alkyl halide The product is an ether... [Pg.328]

Before we describe the applications of organometallic reagents to organic synthesis let us examine their preparation Organolithium compounds and other Group I organometal he compounds are prepared by the reaction of an alkyl halide with the appropriate metal... [Pg.589]

The reaction of an alkyl halide with lithium is an oxidation-reduction reac tion Group I metals are powerful reducing agents... [Pg.589]

Reaction with an alkyl halide takes place at the metal surface In the hist step an election is transfeiied from lithium to the alkyl halide... [Pg.590]

Both reactants m the Williamson ether synthesis usually originate m alcohol pre cursors Sodium and potassium alkoxides are prepared by reaction of an alcohol with the appropriate metal and alkyl halides are most commonly made from alcohols by reaction with a hydrogen halide (Section 4 7) thionyl chloride (Section 4 13) or phosphorus tri bromide (Section 4 13) Alternatively alkyl p toluenesulfonates may be used m place of alkyl halides alkyl p toluenesulfonates are also prepared from alcohols as their imme diate precursors (Section 8 14)... [Pg.673]

All lation. Thiophenes can be alkylated in the 2-position using alkyl halides, alcohols, and olefins. Choice of catalyst is important the weaker Friedel-Crafts catalysts, eg, ZnCl2 and SnCl, are preferred. It is often preferable to use the more readily accompHshed acylation reactions of thiophene to give the required alkyl derivatives on reduction. Alternatively, metalation or Grignard reactions, on halothiophenes or halomethylthiophenes, can be utilized. [Pg.19]

Substitution at the Carbon—Chlorine Bond. Vinyl chloride is generally considered inert to nucleophilic replacement compared to other alkyl halides. However, the chlorine atom can be exchanged under nucleophilic conditions in the presence of palladium [7440-05-3] Pd, and certain other metal chlorides and salts. Vinyl alcoholates, esters, and ethers can be readily produced from these reactions. [Pg.414]

Organic Halides. Alkyl halides and aiyl halides, activated by election withdrawing groups (such as NO2) in the ortho or para positions, react with alkyleneamines to form mono- or disubstituted derivatives. Product distribution is controlled by reactant ratio, metal complexation or choice of solvent (16,17). Mixing methylene chloride [75-09-2J and EDA reportedly causes a mnaway reaction (18). [Pg.42]

Pyrroles do not react with alkyl halides in a simple fashion polyalkylated products are obtained from reaction with methyl iodide at elevated temperatures and also from the more reactive allyl and benzyl halides under milder conditions in the presence of weak bases. Alkylation of pyrrole Grignard reagents gives mainly 2-alkylated pyrroles whereas N-alkylated pyrroles are obtained by alkylation of pyrrole alkali-metal salts in ionizing solvents. [Pg.53]

Sodium (metal). Used as a fine wire or as chips, for more completely drying ethers, saturated hydrocarbons and aromatic hydrocarbons which have been partially dried (for example with calcium chloride or magnesium sulfate). Unsuitable for acids, alcohols, alkyl halides, aldehydes, ketones, amines and esters. Reacts violently if water is present and can cause a fire with highly flammable liquids. [Pg.28]

As indicated by the title, these processes are largely due to the work of Ziegler and coworkers. The type of polymerisation involved is sometimes referred to as co-ordination polymerisation since the mechanism involves a catalyst-monomer co-ordination complex or some other directing force that controls the way in which the monomer approaches the growing chain. The co-ordination catalysts are generally formed by the interaction of the alkyls of Groups I-III metals with halides and other derivatives of transition metals in Groups IV-VIII of the Periodic Table. In a typical process the catalyst is prepared from titanium tetrachloride and aluminium triethyl or some related material. [Pg.209]

One-electron oxidation of carboxylate ions generates acyloxy radicals, which undergo decarboxylation. Such electron-transfer reactions can be effected by strong one-electron oxidants, such as Mn(HI), Ag(II), Ce(IV), and Pb(IV) These metal ions are also capable of oxidizing the radical intermediate, so the products are those expected from carbocations. The oxidative decarboxylation by Pb(IV) in the presence of halide salts leads to alkyl halides. For example, oxidation of pentanoic acid with lead tetraacetate in the presence of lithium chloride gives 1-chlorobutane in 71% yield ... [Pg.726]


See other pages where Metalation alkyl halides is mentioned: [Pg.317]    [Pg.147]    [Pg.93]    [Pg.23]    [Pg.170]    [Pg.62]    [Pg.74]    [Pg.420]    [Pg.421]    [Pg.811]    [Pg.167]    [Pg.70]    [Pg.727]    [Pg.783]    [Pg.317]    [Pg.147]    [Pg.93]    [Pg.23]    [Pg.170]    [Pg.62]    [Pg.74]    [Pg.420]    [Pg.421]    [Pg.811]    [Pg.167]    [Pg.70]    [Pg.727]    [Pg.783]    [Pg.166]    [Pg.334]    [Pg.428]    [Pg.1783]    [Pg.116]    [Pg.91]    [Pg.9]    [Pg.590]    [Pg.163]    [Pg.148]    [Pg.69]   
See also in sourсe #XX -- [ Pg.170 , Pg.171 , Pg.183 , Pg.184 , Pg.190 , Pg.191 , Pg.192 ]




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Alkali metal fluorides alkyl halides

Alkali metals alkyl halides

Alkyl and Metal Halide Compounds

Alkyl halides 1.1- allyl metals

Alkyl halides 1.1- propargyl metals

Alkyl halides metal enolates

Alkyl halides sodium metal

Alkyl halides with alkali metals

Alkyl halides with metal cations

Alkyl halides with metal hydrides

Alkyl halides with transition metal reagents

Alkyl metal halides

Alkyl metal halides

Alkyl metals, vinyl halide cross-coupling

Alkylated metals

Alkylation catalysts supported metal halides

Carbon-metal bonds aryl, alkyl, and benzyl halides

Coupling, metal mediated, alkyl halides

Cyanides, metal, reaction with alkyl halides

From alkyl halides and bismuth metal

Halides, alkyl reaction with metals

Halides, aryl, arylation metal catalyzed alkylation

Metal atoms alkyl halides

Metal groups alkyl halides

Metal halide, nucleophilic alkylation

Metal hydrides alkyl halides

Metal phosphites reaction with alkyl halides

Metal-alkyl halide complexes

Metal-free Alkylations by Acyl Halides on Polymeric Supports

Metals, activated reactivity with alkyl halides

Metals, activated with alkyl halides

Reaction of Alkyl, Alkenyl, and Aryl Halides with Metals

Transition metals, alkyl halide complexes

Water alkyl halide-metal reaction

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