Halides, synthesis from alcohols

A reaction useful only with sub strates that do not undergo E2 elimi nation readily It is rarely used for the synthesis of alcohols since alkyl halides are normally prepared from alcohols... 

WILLIAMSON Ether synthesis Synthesis of ethers from alcoholates with alkyl halides... 

C ( propyl) N phenylmtrone to N phenylmaleimide, 46, 96 semicarbazide hydrochloride to ami noacetone hydiochlonde, 46,1 tetraphenylcyclopentadienone to diphenyl acetylene, 46, 44 Alcohols, synthesis of equatorial, 47, 19 Aldehydes, aromatic, synthesis of, 47, 1 /3-chloro a,0 unsaturated, from ke tones and dimethylformamide-phosphorus oxy chloride, 46, 20 from alky 1 halides, 47, 97 from oxidation of alcohols with dimethyl sulfoxide, dicyclohexyl carbodumide, and pyndimum tnfluoroacetate, 47, 27 Alkylation, of 2 carbomethoxycyclo pentanone with benzyl chloride 45,7... 

Halide-metal exchange, 58, 2 Halides, synthesis from alcohols, 34, 2 by chloromethylation, 1, 3 from organoboranes, 33, 1 from primary and secondary alcohols, 29, 1... 

Among the simplest syntheses of this type are those of tetrahydro-quinolines or -iso-quinolines based on Friedel-Crafts cyclizations. The use of side-chain halides is shown by the synthesis of 1,2,3,4-tetrahydroisoquinolines (158) (71CC799), and of 3,4-dihydroquinol-2-ones (159) (27CB858). Electrophilic carbon atoms can be developed from secondary or tertiary alcohols, or from alkenes or alkynes. In the synthesis of the tetrahydroisoquinoline... 

Recently, catalyst 50 (n > 4) was reported highly active and selective for olefin synthesis from alkyl halides with aqueous sodium or potassium hydroxide without the formation of by-product alcohols 172). The active catalyst structures were suggested to involve self-solvated polymeric alkoxides 173) 52 and/or complexed hydroxides 53. 

Oxetanes are commonly obtained by intramolecular ether synthesis from a suitably functionalized alcohol. Leaving groups employed include halides, tosylates, and others. The base can range from an alkoxide to a non-nucleophilic amine. 

With respect to the synthesis from amines, C02 and alkyl halides, the synthesis of carbamates from amines, C02 and alcohols (Equation 6.10) is not only a phosgene-free, but also a halogen-free process. Moreover, water forms as the only reaction coproduct. Whilst these features make the route very attractive from the point of view of environmental sustainability, unfortunately the reaction suffers from both thermodynamic and kinetics limitations. Kinetic impediments make necessary the use of a suitable catalyst which, moreover, must be water-tolerant in order to avoid deactivation by cogenerated H20. Several strategies have been explored to overcome these restraints, based mainly on the use of alcohols in a dehydrated form (for instance, as ortho esters or ortho carbonates) [63], or on the use of dehydrating agents [64, 65]. 

The first reported intramolecular palladium-catalyzed synthesis of chromans 416 from tertiary alcohols and aryl halides proceeds in high yield (Equation 172) <1996JA10333, 1997JA6787, 2000JA10718>. This methodology has... 

Williamson synthesis of phenyl alkyl and dialkyl ethers. Phenols react with alkyl halides in 20% aqueous NaOH containing 1 equiv. of this surfactant at 80° to form phenolic ethers in 85-97% yield. There is no reaction in the absence of CTAB. This procedure is not useful for preparation of dialkyl ethers from alcohols and alkyl halides. Instead, the alkyl chloride, alcohol, a trace of water, and CTAB are heated in THF at 70° with NaOH (2 equiv.). 

Oxetanes are commonly obtained by intramolecular ether synthesis from a suitably functionalized alcohol. Leaving groups employed include halides, tosylates, and others. The base can range from an alkoxide to a non-nucleophilic amine . The classical, straightforward approach to 2-oxetanones (-lactones) is by the lacto-nization of the salts of -halocarboxylic acids and similar precursors . Thietanes and -thio-lactones are obtained analogously . 

Symmetrical sulfides are obtained in 70-90% yields by refluxing aqueous alcoholic solutions of halides with sodium sulfide. The nonahydrate of sodiiun sulfide is a satisfactory reagent for the reac-tion. Tetramethylene and pentamethylene halides give cyclic sulfides, e.g., tetramethylene sulfide (tetrahydrothiophene) (64%). Halides containing several other important functional groups have been employed. Typical examples include methallyl chloride, and halides with hydroxyl, ethoxyl, carboxyl, and diethylamino groups in the beta position. A dry synthesis of phenyl sulfide from calcium oxide, sulfur, and chlorobenzene at 300° has been reported. ... 

Anhydrides—Continued reduction to alcohols, 155 reduction to lactones, 535 Arenes, see Hydrocarbons, aromatic Amdt-Eistert reaction, 433, 487, 573 Aryl esters. Fries rearrangement, 344 hydrolysis, 169 preparation, 169 Aryl halides, see Halides Atyloxy acids, preparation, by aceto-acetic ester synthesis, 430 by malonic ester synthesis, 429 from atyloxy alcohols, 419 from atyloxy cyanides, 414 preparations listed in table 48, 460 Aryloxy acyl halides, preparation, 547 preparations listed in table 61, 553 Aryloxy esters, preparations listed in table 55, 516... 

Alcohols, General Methods of Preparation.—The general methods for the preparation of the alcohols, so far as they involve compounds which we have already studied, resolve into one method which has been discussed already in connection with the proof that alcohols are hydroxyl substitution products of the hydrocarbons. This is the synthesis from alkyl halides by means of water in the presence of alkalies or in excess with heat and by means of moist silver oxide, (AgOH). 

By far the most important method of preparing alcohols is the Grignard synthesis. This is an example of the second approach, since it leads to the formation of carbon-carbon bonds. In the laboratory a chemist is chiefly concerned with preparing the more complicated alcohols that he cannot buy these are prepared by the Grignard synthesis from rather simple starting materials. The alkyl halides from which the Grignard reagents are made, as well as the aldehydes and ketones themselves, are most conveniently prepared from alcohols thus the method ultimately involves the synthesis of alcohols from less complicated alcohols. 

Benzyl glycosides may be prepared by the Koeiiigs-Knorr glycoside synthesis from benzyl alcohol plus a glycosyl halide, or from benzyl alcohol and the sugar in the presence of an acid. ... 

Benedict, D. R., Bianchi, T. A., Cate, L. A. Synthesis of simple unsymmetrical ethers from alcohols and alkyl halides or sulfates the potassium hydroxide/dimethyl sulfoxide system. Synthesis 1979,428-429. 

Properties Colorless liquid. Bp 148-153C (5 mm Hg),d 0.817 (25C), refr index 1.4405 (20C). Can be made from nonyl alcohol plus nonyl halide by the Williamson synthesis. Combustible. 

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