Ethyl-propyl

R], R3 = methyl, ethyl, propyl, i-propyl, butyl, phenyl Scheme 9... 

CH3CH=CH2 + CH3CH2CH2OCH2CH3 Propene (9%) Ethyl propyl ether (91%)... 

Sulfoxides. Sulfoxides, R — SO—R, are named by placing the names of the radicals in alphabetical order before the word sulfoxide. Alternatively, the less senior radical is named followed by sulfinyl- and concluded by the name of the senior group. For example, CH3CH2—SO—CH2CH2CH3 is named either ethyl propyl sulfoxide or l-(ethylsulfinyl)propane. 

Property Methyl Ethyl / -Propyl Butyl Benzyl... 

Exposure of TiCl in ethyl, propyl, and butyl alcohols for four weeks results in the precipitation of green octahedral Ti(III) complexes. Similar products form on irradiating Ti(OR)4 in ROH containing an equivalent of a lithium haUde (192). 

When exposed to ait, the sodium salts tend to take up moisture and form dihydrates. The alkah metal xanthates are soluble ia water, alcohols, the lower ketones, pyridine, and acetonitrile. They are not particularly soluble ia nonpolar solvents, eg, ether or ligroin. The solubiUties of a number of these salts are Hsted ia Table 4. Potassium isopropyl xanthate is soluble ia acetone to ca 6 wt %, whereas the corresponding methyl, ethyl, / -propyl, n-huty isobutyl, isoamyl, and benzyl [2720-79-8] xanthates are soluble to more than 10 wt % (12). The solubiUties of the commercially available xanthates ia water are plotted versus temperature ia Figure 1 (14). 

Esterification is one of the most important reactions of fatty acids (25). Several types of esters are produced including those resulting from reaction with monohydric alcohols, polyhydric alcohols, ethylene or propylene oxide, and acetjiene or vinyl acetate. The principal monohydric alcohols used are methyl, ethyl, propyl, isopropyl, butyl, and isobutyl alcohols (26) (see Esterification Esters, organic). 

Esters of medium volatility are capable of removing the water formed by distillation. Examples are propyl, butyl, and amyl formates, ethyl, propyl, butyl, and amyl acetates, and the methyl and ethyl esters of propionic, butyric, and valeric acids. In some cases, ternary azeotropic mixtures of alcohol, ester, and water are formed. This group is capable of further subdivision with ethyl acetate, all of the ester is removed as a vapor mixture with alcohol and part of the water, while the balance of the water accumulates in the system. With butyl acetate, on the other hand, all of the water formed is removed overhead with part of the ester and alcohol, and the balance of the ester accumulates as a high boiler in the system. 

Esters of low volatility are accesible via several types of esterification. In the case of esters of butyl and amyl alcohols, water is removed as a binary azeotropic mixture with the alcohol. To produce esters of the lower alcohols (methyl, ethyl, propyl), it may be necessary to add a hydrocarbon such as benzene or toluene to increase the amount of distilled water. With high boiling alcohols, ie, benzyl, furfuryl, and P-phenylethyl, an accessory azeotroping Hquid is useful to eliminate the water by distillation. 

Analogous products are obtained from thermolyses of chlorodiazirines bearing ethyl, propyl, isopropyl or r-butyl groups. 

Ethyl propyl ether 109 C5Hi20 Sulfur trioxide 2.30 S02... 

Bromine B 43 Ethyl propyl ether B 72 Propyl acetate A... 

C5H12S ETHYL-PROPYL- -99.575 3.8453E-01 9.4240E-05 23.56 HEPTANE ... 

Pyrrolealdehyde has been prepared from pyrrole, chloroform, and potassium hydroxide from pyrrolemagnesium iodide and ethyl, propyl, or isoamyl formate and, by the method here described, from pyrrole, phosphorus oxychloride, and dimethylformamide. Smith has suggested a possible intermediate in this process. The method has also been applied to substituted pyrroles and is similar to that described in this series for the preparation of -dimethylaminobenzaldehyde from di-methylaniline. ... 

Steric effects play a major role in determining the ortho para ratio in Friedel-Crafts alkylations. The amount of ortho substitution of toluene decreases as the size of the entering alkyl group increases along the series methyl, ethyl, /-propyl. No ortho product is found when the entering group is /-butyl. ... 

Most of the alkylations were carried out by adding a solution of 3,3-ethylenedioxypregna-5,16-dien-20-one in tetrahydrofuran to a solution of lithium in liquid ammonia to the point of color discharge. Treatment with the alkyl halide then furnishes the corresponding 17a-alkyl derivative (10). After hydrolysis of the 3-ketal group, 17a-methyl-, ethyl-, propyl-, butyl-, hexyl-, octyl-, allyl-, and benzylprogesterones are obtained. 

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