Ethyl iodide ethylation 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. 

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. 

A 1,8-naphthyridine, nalidixic acid (39), shows clinically useful antibacterial activity against Gram-negative bacteria as such, the drug is used in the treatment of infections of the urinary tract. Condensation of ethoxymethylenemalonate with 2-amino-6-methylpyridine (36) proceeds directly to the naphthyri-dine (38) the first step in this transformation probably involves an addition-elimination reaction to afford the intermediate, 37. W-Ethylation with ethyl iodide and base followed by saponification then affords nalidixic acid (39). 

Carbanion 239 derived from vinyl sulfone 238 was shown to be alkylated regiospecifi-cally at the a-carbon atom The carbanions 240 and 241 derived from <5-ketosulfones were shown to be alkylated at both a- and y-carbons . Alkylation of 240 gave a-alkylated products predominantly, while the a/y ratio varied markedly by change of the alkylating agent in the reaction with 241. For example, methylation with methyl iodide gave the products in the a/y ratio of 72 28, while the a/y ratio was 27 73 in the ethylation with ethyl bromide ... 

Creosol, 33, 17 Crotonaldehyde, 33, IS 34, 29 diethyl acetal, 32, 5 Cupric acetate monohydrate, 36, 77 Cuprous oxide-silver oxide, 36, 36, 37 Cyanamide, 34, 67 36, 8 Cyanoacetamide, 32, 34 Cyanoacetic acid, 31, 25 Cyanoacetylurea, 37, 16 >-Cyanobenzaldehyde, 30, 100 >-Cyanobenzaldiacetate, 36, 59 3-Cyano-5,6-dimethyl-2(l)-pyridone, 32,34 N-2-Cyanoethylaniline, 36, 6 N-2-Cyanoethyl- -anisidine, 36, 7 Cyanoethylation, of aniline, 36, 6 of ethyl phenylcyanoacetate, 30, 80 N-2-Cyanoethyl-m-chloroaniline, 36, 7 Cyanogen, 32, 31 Cyanogen iodide, 32, 29 Cyanogen iodide, complex with sodium iodide, 32, 31... 

Isoxazolylaminomethylenemalonate (1482, R = H) was ethylated with ethyl iodide in DMF in the presence of potassium carbonate at ambient temperature overnight to afford the N-ethyl derivative (1482, R = Et)... 

A calculated transition energy used to assess the polarity of a solvent. The solvent ionizing capability directly affects the position of a peak, easily measured, in the ultraviolet region of the spectrum of the complex of an iodide ion with 2-methyl- or l-ethyl-4-carbomethoxypyridinium ion. Water has a Z value of 94.6, ethanol has a value of 79.6, dimethyl sulfoxide s value is 71.1, and benzene has a value of 54. A similar polarity scale, known as x(30) values, is related to the Z value scale Z = 1.41 t(30) -E 6.92. See Solvent Effects... 

CH3(CH2)4CH = CHCH = CHC00CH2CH3, C12H20O2, Mr 196.29, bp6i> 70-72 °C, has been identified in pears and has the typical aroma of Williams pears. Synthesis of ethyl 2-trans-4-cw-decadienoate starts from cis-l-heptenyl bromide, which is converted into a 1-heptenyllithium cuprate complex with lithium and copper iodide. Reaction with ethyl propiolate yields a mixture of 95% ethyl 2-trans-A-cis- and 5% ethyl 2-tranx-4-tranx-decadienoate. Pure ethyl 2-trans-A-cis-decadienoate is obtained by fractional distillation [25]. A biotechnological process for its preparation has been developed [26]. 

Perfluoroalkyl iodides reacted with ethyl carbonate, carbon dioxide, sulfur dioxide, and alkyl phosphates in the presence of a more active zinc-copper couple to afford the corresponding perfluoroalkylated products [57-59] (Scheme 21). 

Alkylation at N( 5) of the cyclic intermediates 38 was accomplished using concentrated solutions of alkyl halides in DMF at 50°C. Addition of a base proved not only unnecessary but even counterproductive in terms of the purity of the resulting Al(5)-substituted benzodiazepi nones 39. Alkyl halides producing good results in this reaction include more than 40 benzyl bromides, allyl bromide, various esters of bromoacetic acid, as well as methyl and ethyl iodide. Other alkyl iodides, along with benzyl chlorides and a-bromo acetophenones, however, did not give satisfactory results. 

Concentrated hydrochloric acid also dissolves the trichloride, about 100 g. of the latter dissolving in 1 litre of acid at 100° C.7 Dissolution in hydriodic acid is accompanied by evolution of heat and the triiodide is formed.8 Ethyl iodide reacts similarly.9 Double decomposition reactions occur w hen arsenic trichloride is heated with phosphorus triiodide, stannic iodide or germanium iodide, the reactions being complete.10 Similarly, potassium iodide heated with arsenic trichloride in a sealed tube at 210° C., and potassium bromide at 180° to 200° C., form respectively arsenic triiodide and tribromide.11 Stannous chloride, added to the solution in hydrochloric acid, causes reduction to arsenic (see p. 29). Arsenic trichloride may be completely separated from germanium chloride by extraction with concentrated hydrochloric acid.12 Ammonium, sodium and cobaltic chlorides react with arsenic trichloride to form additive compounds with magnesium, zinc and chromic chlorides there is no reaction.13... 

The 3,4-dihydrothiazine-3-thione (236) is converted into the 2/f-thiazine (237) by direct. S-ethylation with triethyloxonium tetrafluoroborate. With methyl iodide S,JV-dimethylation occurs to give the thiazinium salt (238), deprotonation of which yields a 4H-thiazine (239) (69JHC247). 

Cyanoethylation of ethyl phenylcyano-acetate, 30, 80 Cyanogen, 32, 31 Cyanogen iodide, 32, 29 Cyanogen iodide, complex with sodium iodide, 32, 31... 

Dyatkin and coworkers have reported the reaction of perfluoroalkylsilver derivatives with iodine to give perfluoroalkyl iodides, and with elemental sulfur to give the perfluoroalkylthiosilver, which was subsequently alkylated with ethyl iodide to give the thioether (Scheme 1.12).36... 

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... 

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