3.5- Dinitrobenzoyl chloride reactions

The reaction between 3,5 dinitrobenzoyl chloride and compounds containing the OH, NHj, or NH groups is very rapid, and therefore is particularly suitable for identification purposes cf. pp. 335, 338, 381). It is usual to have sodium hydroxide present during the reaction with phenols and amino-acids, but this is not necessary with alcohols if they are dry. 

Method 2. Mix 1 0 g. of 3 5-dinitrobenzoic acid with 1 5 g. of phosphorus pentachloride in a small, dry test-tube. Warm the mixture gently over a small smoky fiame to start the reaction when the reaction has subsided (but not before), boil for 1-2 minutes or until the solid matter has dissolved. Pour the mixture while still liquid on a dry watch glass (CAUTION the fumes are irritating to the eyes). When the product has solidified, remove the liquid by-product (phosphorus oxychloride) by transferring the pasty mixture to a pad of several thicknesses of filter paper or to a small piece of porous tile. Spread the material until the liquid has been absorbed and the residual solid is dry. Transfer the 3 5 dinitrobenzoyl chloride to a test-tube, add 0-5-1 ml. of the alcohol, and continue as in Method 1. 

Reaction with 3 5-dinitrobenzoyl chloride. Ethers undergo cleavage with 3 5 dinitrobenzoyl chloride in the presence of zinc chloride ... 

Add 1 ml. of the alcohol-free ether to 0-1-0-15 g. of finely-powdered anhydrous zinc chloride and 0 5 g. of pure 3 5-dinitrobenzoyl chloride (Section 111,27,1) contained in a test-tube attach a small water condenser and reflux gently for 1 hour. Treat the reaction product with 10 ml. of 1-5N sodium carbonate solution, heat and stir the mixture for 1 minute upon a boiling water bath, allow to cool, and filter at the pump. Wash the precipitate with 5 ml. of 1 5N sodium carbonate solution and twice with 6 ml. of ether. Dry on a porous tile or upon a pad of filter paper. Transfer the crude ester to a test-tube and boil it with 10 ml. of chloroform or carbon tetrachloride filter the hot solution, if necessary. If the ester does not separate on cooling, evaporate to dryness on a water bath, and recrystallise the residue from 2-3 ml. of either of the above solvents. Determine the melting point of the resulting 3 5 dinitro benzoate (Section 111,27). 

Dissolve 0 -5 g. of the phenol in 4-5 ml. of dry p ridine, add 1 - 3 g. of 3 5-dinitrobenzoyl chloride and reflux for 25-30 minutes. Pour the cold reaction mixture into 40 ml. of ca. 2N hydrochloric acid. Decant the supernatant aqueous hquid from the precipitated sohd or oil and stir it vigorously with about 10 ml. of N sodium carbonate solution. Filter off the sohd derivative and wash it with water. RecrystaUise from alcohol, dilute alcohol, benzene - acetone or benzene - light petroleum (b.p. 60-80 ),... 

Phosgene reacts exothermically with thiirane in two steps (Scheme 36) (77MI50602). 3,5-Dinitrobenzoyl chloride and benzoyl fluoride initiate polymerization of thiirane. A novel reaction of benzoyl isocyanate or trichloroacetyl isocyanate, which yields ethylenethiol derivatives from epithiochlorohydrin (2-chloromethylthiirane), 2-methylthiirane or cyclohexene episulfide, has been reported (Scheme 37) (71BAU2432). 

Nitrobenzoyl chloride and 3,5-dinitrobenzoyl chloride were each reacted with dl-1-phenylethylamine and 4-amino-l-benzylpiperidine using a phase-transfer reaction [23]. The amines were in the aqueous phase and the acid chlorides in the organic phase. By this means, a 2 x 2 library was created in one experimental run. 

P 9] DL-l-Phenylethylamine and 4-amino-l-benzylpiperidine were dissolved in 0.1 M NaOH aqueous solution [23]. 3-Nitrobenzoyl chloride and 3,5-dinitrobenzoyl chloride were used as ethyl acetate solutions. The concentration of all reactants was set to 0.01 M. Syringe pumps served for liquid feed. The flow rate was 50 plmin and room-temperature processing was applied. No further temperature control was exerted as the reaction is only mildly exothermic. After having passed the micro reactor, the phases were settled in test-tubes and the organic phase was withdrawn for analysis. 

Figure 4.40 Dependence of yield on specific interfacial area between aqueous or organic phase. The four combinations AC-BD refer to the respective reactions between dl-1-phenyl-ethylamine (A), 4-amino-l-benzylpiperidine (B), 3-nitrobenzoyl chloride (C), and 3,5-dinitrobenzoyl chloride (D) [23],...

Suitable reagents for derivatizing specific functional groups are summarized in Table 8.21. Many of the reactions and reagents are the familiar ones used in qualitative analysis for the characterization of organic compounds by physical means. Alcohols are converted to esters by reaction with an acid chloride in the presence of a base catalyst (e.g., pyridine, tertiary amine, etc). If the alcohol is to be recovered after the separation, then a derivative which is fairly easy to hydrolyze, such as p-nltrophenylcarbonate, is convenient. If the sample contains labile groups, phenylurethane derivatives can be prepared under very mild reaction conditions. Alcohols in aqueous solution can be derivatized with 3,5-dinitrobenzoyl chloride. 

Amine 212 was also coupled with peptides [233], acetic anhydride [215, 234], dinitrobenzoyl chloride [235] or a ferrocene carboxylic add chloride [215, 236] in good yields. Reaction with dinitrochlorobenzene [237] or dinitrofluorobenzene... 

T rinitrobutylbenzomide, C11H12N4°7 mW 312.24, N 17.95%. Three isomers are discussed in the literature N-(n-Butyl)-N,3,5-trinitro-benzamide, CH3(CH2)3.N(N02).OC.C6H3(NO2)2, no props given was obtd as the residue from reaction of 3,5 dinitrobenzoyl chloride with the Na salt of N-nitrobutyl-amine(Ref 2) ... 

The first ionically bonded phase was presented by Pirkle it contained (/ )-3,5-dinitrobenzoyl phenylglycine [13]. The most commonly used 7t-acid moiety is the 3,5-dinitrophenyl group introduced by the reaction of 3,5-dinitrobenzoyl chloride (DNB-C1) on chiral selectors such as amino acids, amino alcohols, and amines. In addition, pentafluorobenzoyl derivatives have also been reported [14,15]. The 7r-basic phases are complimentary to the re-acidic phases. These CSPs include the presence of phenyl- or alkyl-substituted phenyl groups. Macaudiere et al. [9] designed a CSP containing both re-acidic and re-basic... 

Materials. The a,co-(3-hydroxypropyl)polydimethylsiloxane was a gift of Rhodia Silicones. All other chemicals were purchased from Aldrich, unless stated. 3,5-dinitrobenzoyl chloride (98%), 9H-carbazole-9-ethanol (95%), dichloromethane (for analysis), octamethylcyclotetrasiloxane (D, Shin-Etsu, 99%), TONSIL EXE0096 (Siid-Chemie), 2-bromoisobutyryl bromide (98%), HMTETA (1,1,4,7,10,10-hexamethyltriethylene tetramine, 98%), copper bromide (98%) and triethylamine (98%) were used as received. Methacryloyl chloride (97%) was distilled before use. All reactions were carried out under inert nitrogen atmosphere. 

This study has been carried out to analyze the nature of the complex formation between 9H-carbazole-9-ethanol and dinitrobenzoate groups attached at each chain-ends of a short PDMS backbone. The polymer was prepared in very good yields (>98%) by esterification of 3,5-dinitrobenzoyl chloride and a,to-(3-hydroxypropyl) PDMS. H NMR (Fig. 1) confirmed that the reaction was quantitative. The protons of the methylene group located near the hydroxyl group totally disappeared after functionalization. On the contrary, the signal of the protons of the methylene situated in a position of the ester appeared at 4.3 ppm. The signals of the aromatic protons also showed up on the final product at 8.8-9ppm. 

For the introduction of the benzoyl group (benzoylation) the procedure generally adopted is to use benzoyl chloride in dilute (10 per cent) alkaline solutions. Since benzoyl chloride reacts slowly with water at room temperature, the amino compound reacts fairly rapidly when shaken with it. The hydrogen chloride produced in the acylation is removed by the alkali. This method is known as the Schotten-Baumann reaction. The benzoyl derivatives nearly always crystallize well. The product is recrystallized to remove adsorbed and occluded impurities. If the derivative does not crystallize well, then a substituted benzoyl chloride is used, for example, p-nitrobenzoyl chloride. It will be recalled that for the characterization of the alcohols use was made of 3, 5-dinitrobenzoyl chloride. 

DinitrobenzoyI chloride. Place in an eight-inch tube 2 g of 3,5-dinitrobenzoic acid and 4 g of phosphorus pentachloride. Heat in the hood with a small smoky flame for five minutes. In the beginning the tube is heated to start the reaction and thereupon the flame is removed until the reaction has subsided. Then the flame is adjusted so that the vapors condense at about the middle of the tube. Allow to cool for one minute and pour carefully into a small evaporating dish. Cool and transfer the sohd to a paper drying disc or to several filter-paper circles. Press with the spatula so as to force the phosphorus oxychloride into the absorbent medium. After ten minutes transfer the crude 3,5-dinitrobenzoyl chloride into a small bottle or tube. The crude material is satisfactory for the preparation of derivatives of the lower hydroxy compounds. 

The acid chloride is useful for the isolation of low-niellinit alcohols reaction in pyridine gives an ester of lower solubility and higher melting point. For example, vitamin D (m,p. 82-84°) from fish liver oil concentrates was isolated by esterification with 3,5-dinitrobenzoyl chloride, and purification by chromatography and crystallization as the 3J5-dinitrobenzoate, ra.p. 132°. ... 

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