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Ethyl iodide , alkylation with

Substitutions. The cyanamide anion is strongly nucleophilic and reacts with most alkylating or acylating reagents (4) addition to a variety of unsaturated systems occurs readily (4). In some cases, a cyanamide salt is used in others, base catalysis suffices. Ethyl iodide reacts with sodium hydrogen cyanamide [17292-62-5] to form a trisubstituted isomelamine. [Pg.367]

Deghenghi et al studied the reductive alkylation of 16-dehydropregneno-lone acetate in ammonia-tetrahydrofuran using excess lithium and alkyl iodides. Alkylation with methyl iodide followed by reacetylation of the 3-hydroxyl group affords 17a-methylpregnenolone acetate in 20% yield after purification by column chromatography. Ethyl iodide affords the 17a-ethyl analog in 40% yield, but n-propyl iodide affords the 17a-propyl compound in only a 12 % yield. [Pg.48]

Alkylation, of 2-acetamidothiazoles, 35, 37 with alkali amides, 34, 35 of alkylaminothiazole, 34 with alcohols, 47, 80, 90 of aminothiazoles, with alcohols, 38 with benzyl chloride. 33 with chloracetic acid, 33 with chloracetic esters, 33 with 3-chloropropionic acid, 33 with dimethylaminoethylchloride, 35 with ethylene oxide, 34, 38 with ethyl iodide, 33 with phenethyl chloride, 35 with 2-propynyl bromide. 32 in aprotic solvents, 35 of azothiazoles, 105... [Pg.288]

In their inorganic compounds the three halogens chlorine, bromine and iodine are in this order in regard to their aflSnity for other elements. This seems to hold also in their organic compounds as shown by the replacement of iodine by bromine or chlorine, as given previously, and by the fact that alkyl iodides are the least stable or hemostreactive, while the chlorides are the most stable or the least reactive. This is illustrated by their action upon silver nitrate. Ethyl iodide acts with silver nitrate in alcoholic solution precipitating silver iodide even in the cold. [Pg.50]

The tertiary nature of the nitrogen in this strong base is demonstrated by its quantitative reaction with one mole of alkyl halide (methyl iodide (21), ethyl iodide (14) ) with the formation of quaternary salts. Secondly, the isolation of methylamine as one of the products of fusion of tropine with alkali (sodium hydroxide (22), barium hydroxide (14) ) suggests the... [Pg.277]

This work was continued later on by Menshutkin in Petersburg in 1890, who studied the quaternization of tertiary amines with alkyl halides - a reaction which now is commonly known as the Menshutkin reaction . Menshutkin found, for example, that the reaction rate between triethylamine and ethyl iodide increases with solvent polarity, up to a factor of 742 in benzyl alcohol relative to n-hexane as solvent(3). [Pg.276]

It is of interest to note that by substituting alkyl bromides for cyciohexyl bromide the corresponding a-phenyl-a-alkyl-acetonitriles are obtained, which may be hydrolysed to the a-phenylaliphatic acids thus with ethyl iodide a-phenyl-lwt3Tonitrile is produced, hydrolysed by ethanoUo potassium hydroxide to a-phenylbutyric acid. [Pg.897]

Note 1. Prepared by adding CS2 to CH MgBr in THE at 0°C, preferably in the presence of a small amount of CuBr (2 mol %), and subsequently alkylating with ethyl iodide . [Pg.202]

Alkylation with other alkylating agents such as ethyl iodide (43. 180, 181j, chloracetic acid and its esters (182). and dialkylaminoalkylhalides (40.43) occurs also on the ring nitrogen. [Pg.33]

Alkylations of cinnolin-4(lf/)-one (8) with methyl iodide, ethyl iodide, dimethyl and diethyl sulfates, isopropyl bromide, benzyl chloride, etc. take place predominantly at position 2 to give 2-alkyl-4-hydroxycinnolinium anhydro salts (83), together with small amounts of l-methylcinnolin-4-one (84). [Pg.16]

Various alkylating agents are used for the preparation of pyridazinyl alkyl sulfides. Methyl and ethyl iodides, dimethyl and diethyl sulfate, a-halo acids and esters, /3-halo acids and their derivatives, a-halo ketones, benzyl halides and substituted benzyl halides and other alkyl and heteroarylmethyl halides are most commonly used for this purpose. Another method is the addition of pyridazinethiones and pyridazinethiols to unsaturated compounds, such as 2,3(4//)-dihydropyran or 2,3(4//)-dihydrothiopyran, and to compounds with activated double bonds, such as acrylonitrile, acrylates and quinones. [Pg.36]

Ethylmalonic Acid.—Like acetoacetic ester (see p. 83), diethylmalonate contains the gioup CO.CHj.CO. By the action of sodium or sodium alroholate, the hydrogen atoms of the methylene group are successively replaceable by sodium. The sodium atoms are in turn replaceable by alkyl or acyl groups. Thus, in the present preparation, ethyl malonic ester is obtained by the action of ethyl iodide on the monosodium compound. If this substance be treated with a second molecule of sodium alcoholate and a second molecule of alkyl iodide, a second radical would be in roduced, and a compound formed of the general formula... [Pg.256]

With enamines of cyclic ketones direct C alkylation occurs with allyl and propargyl as well as alkyl halides. The reaction is again sensitive to the polarity of the solvent (29). The pyrrolidine enamine of cyclohexanone on reaction with ethyl iodide in dioxane gave 25% of 2-ethylcyclohexanone on hydrolysis, while in chloroform the yield was increased to 32%. [Pg.121]

Alkylation of enamino ketones occurs on oxygen, as would be expected from the site of protonation. Thus 4-N-pyrrolidino-3-penten-2-one (47) gave N-(2-ethoxy-2-penten-4-ylidene)-pyrrolidinium iodide (48) on alkylation with ethyl iodide (22), and the enamino ketones derived from 5,5-... [Pg.124]

In a similar manner it was shown (47) that the enamino ketone (54) on treatment with ethyl iodide gave an intermediate hydroiodide from which 7-ethoxy-2,3,4,5,6,10-hexahydroquinoline (55) was obtained on treatment with base. The corresponding N-alkylated product was obtained by alkylation of (54) in the presence of sodium hydride. [Pg.125]

In this connection it is important to mention the finding that the thioxo derivatives (52) can be converted in several ways to the 3,5-dioxo derivatives. By alkylation with methyl iodide in alkaline solution, methylmercapto derivatives (53) are produced which are readily hydrolyzed to dioxo derivatives. A similar course is followed in the reaction with ethyl chloroacetate. Finally, oxidation with hypo-... [Pg.207]

Angier and Marsico followed the course of alkylation first. The 7-dimethylamino-5-methylmercapto derivative reacted with dimethyl sulfate in an alkaline medium to yield a mixture of the 2- and 3-methyl derivatives. The reaction of the 7-diraethylamino derivative with ethyl iodide in an alkaline medium led to a mixture of all three possible monoethyl derivatives. The position of the alkyl group in all these substances was defined by comparing the UV spectra with derivatives prepared by a straightforward synthesis. After reacting the mercuric salts with tri-0-benzoylribofuranosyl chloride, they demonstrated the ribose residue to be bound in position 2. The same structure was shown to be valid for the derivative prepared by Andrews and Barber. ... [Pg.249]

Ethyl iodide and 5-amino-2-methyl-l,3,4-thiadiazole react at 110° to give the N-3 salt (78 R = Me, R = NH2, R" = Et), as shown by the presence of the very reactive methyl group this salt is also used to prepare cyanine dyes. The slow quatemization at the ring-nitrogen atom furthest from the amino group is consistent with the reactions observed in other ring systems. As would be e pected, 5-alkylthio-2-methyl-l,3,4-thiadiazoles form salts at the N-3 (78 R = Me, R - S-alkyl).i ... [Pg.34]

That alkylation of the anhydro-bases takes place at the indole nitrogen atom in the jS-carboline series was established conclusively by the identity of the product (429), prepared by treatment of pyr-N-ethyl-jS-carboline anhydro-base (428) with ethyl iodide, with 2,9-diethyl-jS-carbolinium iodide (429) obtained from the reaction of imi-A-ethyl-jS-carboline (430) with ethyl iodide (see Section IV, A, 2). [Pg.185]

Because of the basic nitrogen atom, alkyl-selenazoles form quaternary salts. 2,4-Dimethyl-3-ethylselenazolium iodide (mp 157-158 0) was prepared by Brooker et al in 87% yield as colorless crystals by heating of 2,4-dimethylselenazole in excess ethyl iodide for 2 days. By reaction with the corresponding quaternary salts, the following cyanine dyes (8) were prepared" l 3-diethyl-4-methylselenazolo-2 -... [Pg.356]

One of the earliest preparations of this ring system starts with displacement of the hydroxyl of benzaldehyde cyanohydrin (125) by urea. Treatment of the product (126) with hydrochloric acid leads to addition of the remaining urea nitrogen to the nitrile. There is thus obtained, after hydrolysis of the imine (127), the hydantoin (128). Alkylation by means of ethyl iodide affords ethotoin (129)... [Pg.245]

Reaction of ethyl cyanoacetate with ethyl thiol acetate produces a and mixture of the dihydrothiazole derivative 80. This is ji-alkylated with methyl iodide and base (8 ), the active methylene group is brominated (82), and then a displacement with piperidine (83) is performed. Hydrolysis completes the synthesis of the diuretic agent, ozolinone (84). [Pg.140]


See other pages where Ethyl iodide , alkylation with is mentioned: [Pg.335]    [Pg.115]    [Pg.319]    [Pg.331]    [Pg.319]    [Pg.331]    [Pg.75]    [Pg.59]    [Pg.183]    [Pg.270]    [Pg.275]    [Pg.328]    [Pg.139]    [Pg.791]    [Pg.47]    [Pg.68]    [Pg.238]    [Pg.47]    [Pg.46]    [Pg.51]    [Pg.149]    [Pg.193]    [Pg.126]    [Pg.86]    [Pg.90]    [Pg.101]   
See also in sourсe #XX -- [ Pg.584 ]

See also in sourсe #XX -- [ Pg.584 ]




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