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实验一、对硝基苯乙腈的制备 8h教学目的1通过本实验,掌握硝化反应的原理。 2熟悉和掌握硝化反应常见的方法及各自特点。 3进一步巩固和熟悉硝化反应的实验操作以及混酸配制方法。 4了解硝化反应中的副产物以及减少副反应的方法。p-NITROBENZYL CYANIDE-Tolunitrile, p-nitro-原料与试剂 浓硫酸 CP 27.5mL 浓硝酸 CP 27.5mL 苯乙腈 CP 10g 95乙醇 CP 50mL1. ProcedureIn a 250-ml. round-bottomed flask, fitted with a stopper holding a dropping funnel and a mechanical stirrer, is placed a mixture of 27.5 cc. (0.43 moles) of concentrated nitric acid (sp. gr. 1.42) (Note 1) and 27.5 cc. (0.49 moles) of concentrated sulfuric acid (sp. gr. 1.84). This is cooled to 10 in a freezing mixture, and 10 g. (0.85 mole) of benzyl cyanide (free from alcohol and water) (Note 2) is run in slowly, at such a rate that the temperature remains at about 10 and does not exceed 20. After all the benzyl cyanide has been added (about one hour), the ice bath is removed, and the mixture is stirred for one hour and then poured onto 120 g. of crushed ice. A pasty mass slowly separates; more than half of this mass is p-nitrobenzyl cyanide, the other constituents being o-nitrobenzyl cyanide, and a variable amount of an oil which resists hydrolysis; apparently no dinitro compounds are formed. The mass is filtered on a porcelain funnel with suction, pressed well to remove as much oil as possible, and dissolved in 50 cc. of boiling 95 per cent alcohol. On cooling, p-nitrobenzyl cyanide crystallizes; the mother liquor, on distillation, gives an impure alcohol which can be used for the next run. Recrystallization from 55 cc. of 80 per cent alcohol (sp. gr. 0.86 to 0.87) yields 7.07.5 g. (5054 per cent of the theoretical amount) of a product which melts at 115116.This product is satisfactory for most purposes, and incidentally for the preparation of p-nitrophenylacetic acid. Occasionally it must be free even from traces of the ortho compound; if so, it should be crystallized again from 80 per cent alcohol; it then melts at 116117.2. Notes1. Fuming nitric acid may be used, but the procedure described is less expensive.2. The yield of 7.07.5 g. is obtained from benzyl cyanide, which boils over a 5 range, prepared as described on p. 107. Very pure benzyl cyanide will give a slightly higher yield, whereas commercial grades may give only 5.0 g. of p-nitrobenzyl cyanide and much oil.3. The reaction has been also carried out with 500 g. of benzyl cyanide. Under these conditions a 5-l. flask was used, and it required two and one-half hours to add the benzyl cyanide. The yield of product was 325370 g. (4754 per cent of the theoretical amount).3. Discussionp-Nitrobenzyl cyanide has hitherto been prepared by the action of fuming nitric acid1 on benzyl cyanide.This preparation is referenced from: Org. Syn. Coll. Vol. 1, 406 References and NotesSalkowski, Ber. 17, 505 (1884); Pschorr, Ber. 33, 170 (1900); Koessler and Hanke, J. Biol. Chem. 39, 585 (1919); Robertson and Stieglitz, J. Am. Chem. Soc 43, 180 (1921); Baker, Cooper, and Ingold, J. Chem. Soc. 426 (1928). 复习思考题1、简述硝化反应的原理。2、常见的硝化反应有那些方法?各有什么优缺点?3、本实验中可能的副反应是什么?如何尽量避免副产物的生成?4、 本实验中的主要副产物是什么?如何进行分离?实验二、对硝基苯乙酸的制备 8h教学目的;1通过本实验,掌握由腈制备羧酸的基本原理; 2熟悉和掌握羧酸的制备方法及各自特点; 3进一步巩固和熟悉由腈水解制备羧酸酸性水解反应的实验操作。p-NITROPHENYLACETIC ACID-Toluic acid, p-nitro-原料与试剂 浓硫酸 CP 30mL 水 28mL160mL 对硝基苯乙腈 自制 10g 1. ProcedureIn a 1-l. round-bottomed flask is placed 10.0 g. (0.062 mole) of p-nitrobenzyl cyanide. A solution of 30 cc. (0.54 moles) of concentrated sulfuric acid (sp. gr. 1.84) in 28 cc. of water is prepared, and two-thirds of this solution is poured onto the p-nitrobenzyl cyanide. The mixture is shaken well, until the solid is all moistened with the acid. Any solid material adhering to the walls of the vessel is now washed down into the liquid with the remainder of the acid; the flask is attached to a reflux condenser, then set, without shaking, over a 10-cm. hole in a large sheet of asbestos board which rests on a tripod, and heated until the mixture boils (Note 1). The boiling is continued for fifteen minutes (Note 2).The reaction mixture, which becomes rather dark, is diluted with an equal volume of cold water and cooled to 0 or below. The solution is filtered; the precipitate is washed several times with ice water and then dissolved in 160 cc. of boiling water (Note 3). This solution is filtered as rapidly as possible through a large folded filter, preferably with a steam funnel (Note 4). In spite of all precautions, however, some solid usually separates on the filter. This must be redissolved in a minimum quantity of boiling water, and this solution then filtered into the main solution. The p-nitrophenylacetic acid separates in long, pale yellow needles, which melt at 151152. The yield is 10.310.6 g. (9295 per cent of the theoretical amount).2. Notes1. If the flask is not protected with an asbestos board or the equivalent, decomposition occurs where the substance is superheated on the side walls of the flask. If crystals of the cyanide are allowed to remain on the upper walls of the flask, they are not easily washed down and so are not hydrolyzed.2. In making experiments with 500 g. of p-nitrobenzyl cyanide, it was found that the time for hydrolysis was about the same as when smaller amounts were used.3. If a good grade of cyanide is used, it is not necessary to add animal charcoal in order to obtain the acid in a pure state. With technical p-nitrobenzyl cyanide, a few grams of animal charcoal are added in dissolving the precipitate.4. The solubility curve of p-nitrophenylacetic acid is very steep at temperatures near 100, so that the filtering of the boiling solution should be rapid.3. Discussionp-Nitrophenylacetic acid can be prepared by the nitration of phenylacetic acid1 and by the hydrolysis of its nitrile with hydrochloric acid
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