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Phase-transfer benzylation

Oxidation, benzylic, phase transfer-catalyzed 43, 139 Oxidations... [Pg.245]

Reactions of the Side Chain. Benzyl chloride is hydrolyzed slowly by boiling water and more rapidly at elevated temperature and pressure in the presence of alkaHes (11). Reaction with aqueous sodium cyanide, preferably in the presence of a quaternary ammonium chloride, produces phenylacetonitrile [140-29-4] in high yield (12). The presence of a lower molecular-weight alcohol gives faster rates and higher yields. In the presence of suitable catalysts benzyl chloride reacts with carbon monoxide to produce phenylacetic acid [103-82-2] (13—15). With different catalyst systems in the presence of calcium hydroxide, double carbonylation to phenylpymvic acid [156-06-9] occurs (16). Benzyl esters are formed by heating benzyl chloride with the sodium salts of acids benzyl ethers by reaction with sodium alkoxides. The ease of ether formation is improved by the use of phase-transfer catalysts (17) (see Catalysis, phase-thansfer). [Pg.59]

In specific applications to phase transfer catalysis, Knbchel and his coworkers compared crown ethers, aminopolyethers, cryptands, octopus molecules ( krakenmole-kiile , see below) and open-chained polyether compounds. They determined yields per unit time for reactions such as that between potassium acetate and benzyl chloride in acetonitrile solution. As expected, the open-chained polyethers were inferior to their cyclic counterparts, although a surprising finding was that certain aminopolyethers were superior to the corresponding crowns. [Pg.312]

HBr, AcOH, reflux, 30 min, 85%. The efficiency of this method is significantly improved if a phase transfer catalyst ( -Ci6H33P Bu3 Br ) is added to the mixture. Methods that use HBr for ether cleavage can give bromides in the presence of benzylic alcohols. ... [Pg.253]

Reaction of 2-chloromethyl-4//-pyrido[l,2-u]pyrimidine-4-one 162 with various nitronate anions (4 equiv) under phase-transfer conditions with BU4NOH in H2O and CH2CI2 under photo-stimulation gave 2-ethylenic derivatives 164 (01H(55)535). These alkenes 164 were formed by single electron transfer C-alkylation and base-promoted HNO2 elimination from 163. When the ethylenic derivative 164 (R = R ) was unsymmetrical, only the E isomer was isolated. Compound 162 was treated with S-nucleophiles (sodium salt of benzyl mercaptan and benzenesulfinic acid) and the lithium salt of 4-hydroxycoumarin to give compounds 165-167, respectively. [Pg.210]

A convenient way of obtaining secondary amines without contamination by primary or tertiary amines involves treatment of alkyl halides with the sodium or calcium salt of cyanamide NH2—CN to give disubstituted cyanamides, which are then hydrolyzed and decarboxylated to secondary amines. Good yields are obtained when the reaction is carried out under phase-transfer conditions. The R group may be primary, secondary, allylic, or benzylic. 1, co-Dihalides give cyclic secondary amines. [Pg.501]

Palladium complexes also catalyze the carbonylation of halides. Aryl (see 13-13), vinylic, benzylic, and allylic halides (especially iodides) can be converted to carboxylic esters with CO, an alcohol or alkoxide, and a palladium complex. Similar reactivity was reported with vinyl triflates. Use of an amine instead of the alcohol or alkoxide leads to an amide. Reaction with an amine, AJBN, CO, and a tetraalkyltin catalyst also leads to an amide. Similar reaction with an alcohol, under Xe irradiation, leads to the ester. Benzylic and allylic halides were converted to carboxylic acids electrocatalytically, with CO and a cobalt imine complex. Vinylic halides were similarly converted with CO and nickel cyanide, under phase-transfer conditions. ... [Pg.565]

If one of the species is anionic and we need to transport it to the organic phase, then a phase-transfer catalyst may be employed. Consider the example of benzyl penicillin where the reaction between phenyl acetic acid and the penicillin carboxylate ion, with penicillin amidase as a catalyst, is relevant, and which at pH 4.5 - 5.0 is shifted in the desired direction. Here a catalyst like tetrabutylammonium halide works, and with chloroform as a solvent 60% yield can be realized in contrast to a yield of only 5 - 10 % in water. [Pg.163]

Benzylic quaternary phosphonium and ammonium salts are dealky-lated by mild heating and/or nucleophilic anions, particularly iodide (9) and thiolate (10), but also hydroxide (11). Most N-benzyl-pyridinium or quaternary aryl ammonium compounds are particularly susceptible (12). Decompositions of this sort have seriously limited the usefulness of solid phase-transfer catalysts derived from (chloromethyl)polystyrene (13, 14). [Pg.25]

A simple, rapid and efficient method has been reported for the synthesis of dibenzyl diselenides under the action of MW irradiation. Benzyl halides are reacted with selenium powder in the presence of a base and phase-transfer agent (Eq. 57 and Tab. 5.29) [80]. The reactions were performed either in THF or in C6H6-H20. [Pg.174]

See other pages where Phase-transfer benzylation is mentioned: [Pg.191]    [Pg.89]    [Pg.269]    [Pg.514]    [Pg.179]    [Pg.520]    [Pg.189]    [Pg.254]    [Pg.192]    [Pg.575]    [Pg.694]    [Pg.183]    [Pg.488]    [Pg.517]    [Pg.548]    [Pg.552]    [Pg.562]    [Pg.563]    [Pg.1230]    [Pg.1515]    [Pg.1536]    [Pg.120]    [Pg.575]    [Pg.694]    [Pg.311]    [Pg.232]    [Pg.227]    [Pg.234]    [Pg.24]    [Pg.26]    [Pg.149]    [Pg.176]    [Pg.184]    [Pg.413]    [Pg.116]    [Pg.143]    [Pg.146]   
See also in sourсe #XX -- [ Pg.73 ]



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Phase transfer method benzylic halides

Reactions phase-transfer benzylation

Reactivity phase-transfer benzylation

Selectivity, phase-transfer benzylation

Solvent, phase-transfer benzylation

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