Acetanilides, substituted

N-substituted carbonamides e.g. acetanilide, substituted urea-derivatives. 

Alachlor or 2-chloro-2, 6 -diethyl-N-methoxymethyl-acetanilide Substituted amide Inhibits protein synthesis and root elongation Preemergence-control of annual weeds in cotton, brassicas, peanuts, soy beans, etc. 11-14... 

Acetanilide, benzanilide and their nuclear- and N-substituted derivatives. 

Mono-substitution products of primary amines cannot easUy be prepared by direct action of the appropriate reagent for example, bromination of aniline yields largely the 2 4 6-tribomo derivative and nitration results in much oxidation. If, however, the amino group is protected as in acetanilide, smooth substitution occurs. Thus with bromine, />-bromoacetanilide is the main product the small quantity of the ortlio isomeride simultaneously formed can be easily eliminated by crystallisation. Hydrolysis of p-bromoacetanilide gives/ -bromoaniline ... 

Hydrolysis of a substituted amide. A. With 10 per cent, sulphuric acid. Reflux 1 g. of the compound (e.g., acetanilide) with 20 ml. of 10 per cent, sulphuric acid for 1-2 hours. Distil the reaction mixture and collect 10 ml. of distillate this will contain any volatile organic acids which may be present. Cool the residue, render it alkaline with 20 per cent, sodium hydroxide solution, cool, and extract with ether. Distil off the ether and examine the ether-soluble residue for an amine. 

Data for substituted acetanilides are also available. t These values are probably too high. ... 

The diazonium salts 145 are another source of arylpalladium com-plexes[114]. They are the most reactive source of arylpalladium species and the reaction can be carried out at room temperature. In addition, they can be used for alkene insertion in the absence of a phosphine ligand using Pd2(dba)3 as a catalyst. This reaction consists of the indirect substitution reaction of an aromatic nitro group with an alkene. The use of diazonium salts is more convenient and synthetically useful than the use of aryl halides, because many aryl halides are prepared from diazonium salts. Diazotization of the aniline derivative 146 in aqueous solution and subsequent insertion of acrylate catalyzed by Pd(OAc)2 by the addition of MeOH are carried out as a one-pot reaction, affording the cinnamate 147 in good yield[115]. The A-nitroso-jV-arylacetamide 148 is prepared from acetanilides and used as another precursor of arylpalladium intermediate. It is more reactive than aryl iodides and bromides and reacts with alkenes at 40 °C without addition of a phosphine ligandfl 16]. 

Acetanilides, benzoyl-colour couplers in colour photography, 1, 372 Acetanilides, pivaloyl-colour couplers in colour photography, 1, 372 Acetazolamide — see l,3,4-Thiadiazole-2-sulfonamide, 5-acetamido-Acetic acid, acetamidocyano-ethyl ester, 1, 307 Acetic acid, 2-acylphenyl-isochroman-3-one synthesis from, 3, 858 Acetic acid, 3-benzo[6]thiophenyl-biological activity, 4, 912 Acetic acid, l,2-benzoxazol-3-yl-electrophilic substitution, 6, 48... 

The Vilsmeier cyclisation of acetanilides by the conventional methods described above often requires long reaction times and elevated temperatures. Moreover, only activated acetanilides react efficiently to afford 2-chloro-3-substituted-quinolines strongly deactivated systems afford mainly amidine 5 or acrylamide 6. ... 

Halothiophenes, which are not activated through the presence of —I—M-substituents, undergo substitution smoothly under more forcing conditions with copper salts in pyridine or quinoline. Hence 3-cyanothiophene and 5-methyl-2-cyanothiophene have been obtained from the corresponding bromo compounds. 2-Bromothiophene reacts readily with aliphatic cuprous mercaptides in quinoline at 200°C to give thioethers in high yields. The use of the copper-catalyzed Williamson synthesis of alkoxythiophenes from iodo- or bromo-thiophenes and alcoholate has been mentioned before. The reaction of 2-bromothiophene with acetanilide in nitrobenzene in... 

Udenfriend et al. observed that aromatic compounds are hydroxyl-ated by a system consisting of ferrous ion, EDTA, ascorbic acid, and oxygend Aromatic and heteroaroinatic compounds are hydroxylated at the positions which are normally most reactive in electrophilic substitutions. For example, acetanilide gives rise exclusively to the o-and p-hydroxy isomers whereas quinoline gives the 3-hydroxy prod-uct. - The products of the reaction of this system w ith heterocyclic compounds are shown in Table XIII. 

Feng et al. [3] have studied the structural effect of acetanilide on the AAM polymerization either in water-for-mamide [3], water-acetonitrile [4], and water-DMF [26] mixed solution using Ce(IV) ion-acetanilide and its substituted derivatives as the initiator. The results showed that an electron donating substituent on the phenyl group would enhance the Rp, while an electron withdrawing group would decrease it, as shown in Table 1 [26]. 

From Table 3, it can be seen that the reactivity of acyl acetanilide, such as BAA or AAA, is higher than that of the other reductant reported from our laboratory, i.e., acetanilide (AA), N-acetyl-p-methylaniline (p-APT), acetylacetone (AcAc), and ethyl acetoacetate (EAcAc). Moreover, the promoting activities of derivatives of acetoacetanilide were affected by the ortho substituent in benzene ring, and the relative rate of polymerization Rr) decreased with the increase of the bulky ortho substituent to the redox reaction between Ce(IV) ion and substituted acetoacetanilide. 

Problem 16.13 Acetanilide is less reactive than aniline toward electrophilic substitution. Explain. 

Acetanilide, electrophilic aromatic substitution of, 939-940 Acetate ion, bond lengths in, 43 electrostatic potential map of, 43, 53, 56, 757 resonance in, 43 Acetk acid, bond angles in, 755 bond lengths in, 755 dimer of, 755 dipole moment of, 39 electrostatic potential map of, 53, 55... 

Similarly, 2-aminoarenethiols and a substituted acetanilide yield 4-(arylamino)-2-methyl-l,5-benzothiazepines422... 

The reaction of acetanilides with tetraalkylanunonium polyhalides, such as TBA Br3, BTMA Bf3, or BTMA Br2Cl in dichloromethane-methanol at room temperature gave bromo-substituted acetanilides in good yields, respectively. These bromination of acetanilides have usually given predominantly the corresponding p-bromo derivatives (Fig. 12) (ref. 17). Furthermore, the reaction of acetanilides with BTMA Br3 in acetic acid in the presence of ZnCl2 gave polybromo-substituted acetanilides which was not obtained from the reactions in dichloromethane-methanol (ref. 18). 

Substituted amides suffer hydrolysis with greater difficulty. The choice of an acid or an alkaline medium vill depend upon (a) the solubility of the compound in the medium and (b) the effect of the reagent upon the products of hydrolysis. Substituted amides of comparatively low molecular weight (e.g., acetanilide) may be hydrolysed by boiling either with 10 per cent, sodium hydroxide solution or with 10 per cent, sulphuric acid for 2-3 hours. Other substituted amides are so insoluble in water that little reaction occurs when they are refluxed with dilute acid or dilute alkali for several hours. These include such substances as benzanilide (C(H(CONHC,Hg) and the benzoyl derivative of a naphthylamine (C.HjCONHCioH,) or a toluidine (C gCONHCjH,). For these substances satisfactory results may be obtained with 70 per cent, sulphuric acid this hydrolysis medium is a much better solvent for the substituted amide than is water or more dilute acid it also permits a higher reaction temperature (compare Section IV 192) ... 

Nakagawa, Y., Izumi, K., Oikawa, N., Sotomatsu, T., Shigemura, M., Fujita, T., Analysis and prediction of hydrophobicity parameters of substituted acetanilides, benzamides and related aromatic-compounds, Environ. Toxicol. Chem. 1992, 3 3, 901-916. 

The specific ortho functionalization of arylamines is obviously important in quinoline synthesis (cf. the rc-allyl procedure devised for the preparation of o-allylanilines used as indole and quinoline precursors).76 Recently acetanilides have been subjected to orthopalladation and the ensuing complexes converted into useful precursors of 2-substituted quinoline derivatives (Scheme 143).215... 

Acetanilide (13.5 g), (substituted) aromatic bromide (25 g), potassium carbonate (13.2 g), and copper iodide (1.9 g) were heated (190°C) and stirred overnight. After cooling to room temperature toluene was added and the precipitate filtered. The solution was concentrated and the excess of bromide removed by distillation under reduced pressure. The residue was dissolved in ethanol (200 mL), potassium hydroxide (10.3 g) was added, and the mixture refluxed overnight. Ethanol was evaporated, the residue dissolved in dichloromethane, and washed with brine. The organic layer was dried over MgS04 and concentrated to obtain the crude diphenylamine. 

Hartwig has reported an intramolecular/intermolecular process affording the 3-aryloxindoles 105 (Scheme 32).115 The intermolecular arylation of acetanilide derivative 104 is slower than the intramolecular arylation to form the oxindole. Thus, the overall transformation starts with cyclization followed by intermolecular arylation of indole. In order to slow down the intermolecular process and speed up the intramolecular reaction, chloroarene and bromine-substituted acetanilide precursors are used according to their respective reactivity with palladium(O) in the oxidative addition process. 

A phase-transfer catalysed nucleophilic displacement reaction on chloro-acetanilides by cyanate ions, followed by ring-closure (Scheme 5.10), provides a simple and viable synthesis of hydantoins [41], The formation of the hydantoins is inhibited by substituents in the orf/to-position of the aryl ring, but the addition of potassium iodide, or tetra-n-butylammonium iodide, generally increases the overall rate of formation of the cyclic compounds, presumably by facilitating the initial nucleophilic substitution step. 

Modifications of the arylamino moiety profoundly influence the rate of hydrolysis. Thus, the hydrolysis of N- ace ty 1 -4-am i no be n zo i c acid was ca. 1000-fold slower than that of acetanilide [66]. Sorci and Macalady [67] investigated the influence of ring substitution on the hydrolysis of para-substituted acetanilides (4.104) in alkaline solution and in soil bacteria. No correlation was found between alkaline and biotic hydrolysis, which appeared to be controlled by different physicochemical properties. Bacterial hydrolysis was best correlated with the Van der Waals radius of the substituent, whereas chemical hydrolysis was correlated with the Hammett constant characterizing the electron-withdrawing capacity of the substituent. Other studies confirmed that a correspondence between bacterial and mammalian esterases... 

A toxicologically important para-substituted acetanilide is phenacetin... 

The hydrolysis of the positional isomers of acetaminophen (4.113) and phenacetin (4.114) were compared in homogenates of rat brain, liver, and kidney [74], Hydrolytic activity in the liver was higher than in the kidney and very low in the brain. The phenacetin analogues were better substrates than the acetaminophen analogues, as were the ortao-substituted compounds relative to their corresponding meta- or para-isomers. The hydrolysis of meta-acetophenetidine was comparable to that of acetanilide. No convincing arguments can be formulated to explain these observations. 

J. J. Sorci, D. L. Macalady, Quantitative Structure-Activity Relationships in Bacterial and Abiotic Alkaline Hydrolysis of Para-Substituted Acetanilides , J. Agric. Food Chem. 1993, 41, 1760-1766. 

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