Ethanol acetylation

Synonyms Acetic aldehyde Acetic ethanol Acetyl aldehyde Aldehyde AI3-31167 CCRIS 1396 EINECS 200-836-8 Ethanal Ethyl aldehyde FEMA No. 2003 NCI-C56326 NSC 7594 RCRA waste number UOOl UN 1089. 

The assumption of forces of interaction between solvent and solute led to the century old principle that like dissolves like . In many cases the presence of similar functional groups in the molecules suffices. This rule of thumb has only limited validity since there are many examples of solutions of chemically dissimilar compounds. For example, for small molecules methanol and benzene, water and N,N-dimethylformamide, aniline and diethyl ether, and for macromolecules, polystyrene and chloroform, are completely miscible at room temperature. On the other hand, insolubility can occur in spite of similarity of the two partners. Thus, polyvinylal-cohol does not dissolve in ethanol, acetyl cellulose is insoluble in ethyl acetate, and polyacrylonitrile in acrylonitrile [12], Between these two extremes there is a whole range of possibilities where the two materials dissolve each other to a limited extent. 

Diethyl L-tartrate was usually purchased from Aldrich Chemical Co., Ltd., the diester was also prepared from L-tartaric acid by the procedure of Kocienski2 (triethyl orthoformate-ethanol-acetyl chloride) or Seebach3 [ethanol-acidic ion-exchange resin (Lewatit 3333)]. 

The progressive increase in the starting product formation rate observed with increasing the temperature up to 80 °C and the successive decrease beyond this value confirmed the occurrence of reversible biocatalyst inactivation. The Arrhenius model was used for estimating the apparent activation enthalpies of the acetylation of geraniol (AH = 35kJ/mol) and the reversible inactivation of the biocatalyst (AHf = 150kJ/mol) [15]. The thermodynamic data were compared with those of ethanol acetylation (Table 6.3). 

Table 6.3 Apparent thermodynamic parameters of geraniol and ethanol acetylations by lyophilized cells of A. oryzae MIM estimated by the Arrhenius model under different conditions, with reference temperature 50°C.

Another flavonoid, hypolaetin-8-glucoside, found in many species of the genus Sideritis, is traditionally used in Spain for its antiinflammatory and digestive properties [115, 116], It was isolated from Sideritis leucantha and its antiulcerogenic properties studied by Alcaraz and Tordera [117]. The authors found that this compound significantly reduces the gastric lesions induced by absolute ethanol, acetyl salicylic acid and, Shay s pyloric ligature. 

Acetylation. Heat i g. of />-nitrophenol with 5 ml. of an acetic acid-acetic anhydride mixture under reflux for 15 minutes. Pour into water the solid acetate separates. Filter, wash with water and re-crystallise from ethanol m.p. 77 5°. This treatment usually leaves o-nitrophenol unchanged. The addition, however, of about 0 5 ml. of cone. H2SO4 to the acetylating mixture gives the o-derivative, m.p. 40°. 

Acetic anhydride acetylates free hydroxyl groups without a catalyst, but esterification is smoother and more complete ia the presence of acids. For example, ia the presence of -toluenesulfonic acid [104-15-4], the heat of reaction for ethanol and acetic anhydride is —60.17 kJ/mol (—14.38 kcal/mol) (13) ... 

If pure isomers are required, the ortho and meta compounds can be prepared by indirect methods. o-Nitrotoluene can be obtained by treating 2,4-dinitrotoluene with ammonium sulfide followed by diazotization and boiling with ethanol. / -Nitrotoluene can be prepared from -toluidine by acetylation, nitration deacetylation, diazotization, and boiling with ethanol. A fairly pure -nitrotoluene, which has been isolated from the isomeric mixture, can be purified further by repeated crystallization. 

Acylation. Reaction conditions employed to acylate an aminophenol (using acetic anhydride in alkaU or pyridine, acetyl chloride and pyridine in toluene, or ketene in ethanol) usually lead to involvement of the amino function. If an excess of reagent is used, however, especially with 2-aminophenol, 0,A/-diacylated products are formed. Aminophenol carboxylates (0-acylated aminophenols) normally are prepared by the reduction of the corresponding nitrophenyl carboxylates, which is of particular importance with the 4-aminophenol derivatives. A migration of the acyl group from the O to the N position is known to occur for some 2- and 4-aminophenol acylated products. Whereas ethyl 4-aminophenyl carbonate is relatively stable in dilute acid, the 2-derivative has been shown to rearrange slowly to give ethyl 2-hydroxyphenyl carbamate [35580-89-3] (26). 

The compound is odorless with a faintly acidic taste it is practically insoluble in water, ethanol and dilute acids but freely soluble in dilute aqueous alkaU with dissociation constants, pfC, 3.73, 7.9, 9.3. The compound is prepared by sodium hydrosulfite reduction of 3-nitro-4-hydroxyphenylarsonic acid [121 -19-7] and then acetylation in aqueous suspension with acetic anhydride at 50—55°C for 2 h (174,175). 

Ketones can be reduced by the Wolff-Kishner method to the corresponding alkyl compounds, or by sodium in ethanol to the corresponding alcohols. An alkali-catalyzed deacylation of 3-acetyl-6-methoxypyridazine 1-oxide occurs quantitatively on treatment with dilute sodium hydroxide. 

Quinoxaline mono-N-oxides are also available by a direct synthesis from n-nitroaniline derivatives. Condensation of acetyl chloride derivatives with o-nitroaniline followed by treatment with sodium ethoxide in ethanol yields the mono-N-oxides in good yields (Scheme 20) (64JCS2666). 

Purification as their N-acetyl derivatives is satisfactory for primary, and to a limited extent secondary, amines. The base is refluxed with slightly more than one equivalent of acetic anhydride for half to one hour, cooled and poured into ice-cold water. The insoluble derivative is filtered off, dried, and recrystallised from water, ethanol, aqueous ethanol or benzene (CAUTION toxic ). The derivative can be hydrolysed to the parent amine by refluxing with 70% sulfuric acid for a half to one hour. The solution is cooled, poured onto ice, and made alkaline. The amine is steam distilled or extracted as above. Alkaline hydrolysis is very slow. 

In addition to its water solubility poly(vinyl pyrrolidone) is soluble in a very wide range of materials, including aliphatic halogenated hydrocarbons (methylene dichloride, chloroform), many monohydric and polyhdric alcohols (methanol, ethanol, ethylene glycol), some ketones (acetyl acetone) and lactones (a-butyrolactone), lower aliphatic acids (glacial acetic acid) and the nitro-paraffins. The polymer is also compatible with a wide range of other synthetic polymers, with gums and with plasticisers. 

Snyder and Smith prepared diethyl acetamidomalonate in 40% yield by reduction of diethyl isonitrosomalonate in ethanol over palladium on charcoal followed by direct acetylation of diethyl aminomalonate in the filtrate with acetic anhydride. Ghosh and Dutta used zinc dust instead of palladium. A modification using Raney nickel is described by Akabori et al. Shaw and Nolan reported a 98% yield by conversion of diethyl oximino-malonate-sodium acetate complex. 

Cathylates are stable to oxidation with potassium chromate in acetic acid and with A-bromoacetamide, acetylation and formylation with 85 % formic acid at room temperature. They are cleaved by bases to give the parent alcohol, carbon dioxide and ethanol. 

Calculate the thermodynamics of acetylation of cholesterol (to cholesterol acetate) using both acetic anhydride and ethyl acetate. Data for acetic acid and ethanol are available. Which reaction is more favorable ... 

The structure of this compound is confirmed by the preparation of the 1-acetyl derivative, acid degradation to 4-methylquinoxalin-3-one-2-carboxylic acid (12), and alternative synthesis from the acid chloride of (12) and AW -dimethyluread A most unusual cyclization occurs when AW-dimethyl-o-phenylenediamine (15) is treated with alloxan in ethanolic solution this apparently involves an A-methyl group and leads to the formation of the spirobarbituric acid (16). The struc-... 

Catalytic reduction of 2-acetyl-3-methylquinoxaline (29) in ethanol with 1 mole of hydrogen, gives a deep crimson solution, from which red-brown needles of 2-acetyl-l,4-dihydro-3-methylquinoxaline (30) are obtained. Ethanolic solutions of (30) reoxidize on exposure to air to 2-acetyl-3-methylquinoxaline, but the solid dye is stable in air for several days. Similar results are obtained with 2-acetyl-3-phenyl-quinoxaline (31), from the reduction of which a purple-red dye (32) is obtained. ... 

In boiling ethanol, under nitrogen and in the presence of palladized charcoal, 2-acetyl-l,4-dihydro-3-methylquinoxaline (30) undergoes dismutation to give a mixture of 2-acetyl-3-methylquinoxaline, 2-acetyl-l,2,3,4-tetrahydro-3-methylquinoxaline (33), and 2-l -hydroxy-ethyl-3-methylquinoxaline (34), The latter compound is the product of sodium borohydride or Meerwein-Ponndorf reduction of 2-acetyl-3-methylquinoxaline. 

Esters of diphenylacetic acids with derivatives of ethanol-amine show mainly the antispasmodic component of the atropine complex of biologic activities. As such they find use in treatment of the resolution of various spastic conditions such as, for example, gastrointestinal spasms. The prototype in this series, adiphenine (47), is obtained by treatment of diphenyl acetyl chloride with diethylaminoethanol. A somewhat more complex basic side chain is accessible by an interesting rearrangement. Reductive amination of furfural (42) results in reduction of the heterocyclic ring as well and formation of the aminomethyltetrahydro-furan (43). Treatment of this ether with hydrogen bromide in acetic acid leads to the hydroxypiperidine (45), possibly by the intermediacy of a carbonium ion such as 44. Acylation of the alcohol with diphenylacetyl chloride gives piperidolate (46). ... 

The fully unsaturated tricyclic compounds are also used clinically as antidepressants. Carbamazepine (62), for example, is prepared from 10,ll-dihydro-5H-dibenz[b,f]azepine (49) by N-acetylation followed by bromination with W-bromosuccinimide to give 60. Dehydrohalogenation by heating in collidine introduces the double bond. Saponification with potassium hydroxide in ethanol leads to dibenz[b,f]azepine (61), the parent substance for the fully unsaturated analogs. Treatment of the secondary... 

---