Amides Aluminum chloride

AMIDES Aluminum chloride-Ethanol. Diethyl phosphorobromidate. Di-methylaluminum amides. 2-Fluoro-... 

Acetaldehyde reacts with phosphoms pentachloride to produce 1,1-dichloroethane [75-34-3] and with hypochlorite and hypoiodite to yield chloroform [67-66-3] and iodoform [75-47-8], respectively. Phosgene [75-44-5] is produced by the reaction of carbon tetrachloride with acetaldehyde in the presence of anhydrous aluminum chloride (75). Chloroform reacts with acetaldehyde in the presence of potassium hydroxide and sodium amide to form l,l,l-trichloro-2-propanol [7789-89-1] (76). 

Ketone Synthesis. In the Friedel-Crafts ketone synthesis, an acyl group is iatroduced iato the aromatic nucleus by an acylating agent such as an acyl haUde, acid anhydride, ester, or the acid itself. Ketenes, amides, and nittiles also may be used aluminum chloride and boron ttitiuotide are the most common catalysts (see Ketones). 

Amides result from the reaction of aromatic hydrocarbons with isocyanates, such as phenyl isocyanate [103-71-9], ia the presence of aluminum chloride. Phenyl isothiocyanate [103-72-0] similarly gives thioanilides (136). 

Aluminum chloride [7446-70-0] is a useful catalyst in the reaction of aromatic amines with ethyleneknine (76). SoHd catalysts promote the reaction of ethyleneknine with ammonia in the gas phase to give ethylenediamine (77). Not only ammonia and amines, but also hydrazine [302-01-2] (78), hydrazoic acid [7782-79-8] (79—82), alkyl azidoformates (83), and acid amides, eg, sulfonamides (84) or 2,4-dioxopyrimidines (85), have been used as ring-opening reagents for ethyleneknine with nitrogen being the nucleophilic center (1). The 2-oxopiperazine skeleton has been synthesized from a-amino acid esters and ethyleneknine (86—89). 

The method described above may be used for the preparation of a wide variety of butenolides substituted in the arylidene ring with either electron-withdrawing or electron-releasing substituents. y-Lactones such as a-benzylidene-7-phenyl-A 1 -bu-tenolide are isoelectronic with azlactones, but have received much less attention. Like the azlactone ring, the butenolide ring may be opened readily by water, alcohols, or amines to form keto acids, keto esters, or keto amides.7 a,-Benzylidene-7-phenyl-A3,1 -butenolide is smoothly isomerized by aluminum chloride to 4-phenyl-2-naphthoic acid in 65-75% yield via intramolecular alkylation. 

Allylmagnesium bromide, 41, 49 reaction with acrolein, 41, 49 5-Allyl-l,2,3,4,5-pentachlorocyclopen-tadiene, 43, 92 Allyltriphenyltin, 41, 31 reaction with phenyllithium, 41, 30 Aluminum chloride, as catalyst, for isomerization, 42, 9 for nuclear bromination and chlorination of aromatic aldehydes and ketones, 40, 9 as Friedel-Crafts catalyst, 41, 1 Amidation, of aniline with maleic anhydride, 41, 93... 

Aluminum chloride-phosphorus oxychloride complex, 31, 88 Amberlite IR-4B resin, 32, 13 Amidation, of isocyanic acid with bromo-aniline and other aromatic amines, 31,8... 

Mesitoic acid has been prepared by carbonation of mesityl-magnesium bromide 2-4 by hydrolysis of its amide prepared by condensation of mesitylene with carbamyl chloride under the influence of aluminum chloride 6 by oxidation of isodurene with dilute nitric acid 6-7 by distillation of 2,4,6-trimethylmandelic acid (low yield) 8 by dry distillation of 2,4,6-trimethyIphenyl-glyoxylic acid 9 by oxidation of the latter with potassium permanganate 10 and by treating 2,4,6-trimethylphenylglyoxylic acid with concentrated sulfuric acid in the cold11 or with heating.12... 

Lithium hydroxide hydrolysis of the ester of pyrrolo[l,2-l7][l,2,5]benzothia-diazepine 5,5-dioxide 346 afforded the acid, subsequently reduced with lithium aluminum hydride-aluminum chloride to alcohol 348 (Scheme 73, Section 4.2 (2006JMC5840)). Pyrrolo[l,2- 7][l,2,5]benzothiadiazepine acid 347 gives easy access to a variety of esters and amides 407, while treatment with TFAA produces fused lactam 408 (Scheme 85 (1996FES425)). 

Activity on cell proliferation is maintained when a major part of the side chain is replaced by an amide linkage. The tetralin-based compound tamibarotene (15-7) has been tested as an agent for treating leukemias. Reaction of the diol (15-1) with hydrogen chloride affords the corresponding dichloro derivative (15-2). Aluminum chloride-mediated Friedel-Crafts alkylation of acetanilide with the dichloride affords the methylated tetralin (15-3). Basic hydrolysis then leads to the primary... 

The use of activated anthranihc acid derivatives facUitates the preparation of the amides in those cases where the amines are either umeactive or difficult to obtain. Thus, reaction of (87-1) with phosgene gives the reactive the isatoic anhydride (89-1). Condensation of that with ortho-toluidine leads to the acylation product (89-2) formed with a simultaneous loss of carbon dioxide. This is then converted to the quinazolone (89-3) by heating with acetic anhydride. Reaction with sodium borohydride in the presence of aluminum chloride selectively reduces the double bond to yield the diuretic agent metolazone (89-4) [99]. 

Dyong and Bendlin52 pointed out the possibility of functionalization of sorbic acid at C-3, -4, and -5 in the desired way. Introduction of two hydroxyl groups, at CA and C-5, may be accomplished stereospecifi-cally by means of cis-hvdroxylation, or by intermediation of an epoxide. Michael-type addition of a nucleophile to C-3 of the conjugated double-bond provides the possibility of obtaining all four diastereo-isomeric products. In this way, N-acetyl-DL-acosamine (137, 3-acet-amido-2,3,6-trideoxy-DL-arabmo-hexopyranose) was synthesized from 133 (obtained from the epoxide 129 in an aluminum chloride-catalyzed reaction with acetone). The amide 134 wasN-acetylated and... 

Mesitoic acid has been obtained by hydrolysis of its amide which was prepared from mesitylene, carbamyl chloride, and aluminum chloride in carbon disulfide.1 It has been prepared by heating isodurene with dilute nitric acid,2,3 in small yields by the distillation of 2,4,6,-trimethylmandelic acid,4 by dry dis-... 

On treatment with aluminum chloride in benzene, 1-benzene-Hulfooyl- 2-bromomethylftziridme gives an open-chain benzenes ulfon-amide (Eq. 73). Evidence provided by an isotopic-tracer study (discussed in further detail in the accompanying chapter on azetidinea) fa that flic reaction occurs by way of an ozetidine.1 .177 ... 

Aluminum chloride, 15 Sodium amide, 278 at vinylic carbons... 

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