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Butyl bromide chloride

Run off the lower layer of bromide, dry it with calcium chloride (as in the above preparation of ethyl bromide) and finally distil the filtered bromide from a small flask, preferably through a short column. Collect the n-butyl bromide as a colourless liquid of b.p. 99-102°. Yield, 30 g. [Pg.103]

In a 200 ml. distilling flask place 64 g. (50 ml.) of dry n-butyl bromide and 80 g. of dry silver nitrite (1). Insert a reflux condenser, carrying a cotton wool (or calcium chloride) guard tube, into the mouth of the flask and close the side arm with a small stopper. Allow the mixture to stand for 2 hours heat on a steam bath for 4 hours (some brown fumes are evolved), followed by 8 hours in an oil bath at 110°. Distil the mixture and collect the fraction of b.p. 149-151° as pure 1-nitro-n-butane (18 g.). A further small quantity may be obtained by distilling the fractions of low boihng point from a Widmer flask. [Pg.307]

Halogen compounds. re-Butyl bromide Chlorobenzene AUyl bromide Benzoyl chloride. [Pg.1056]

To a solution of 0.30 mol of ethyllithium (note 1) in about 270 ml of diethyl ether (see Chapter II, Exp. 1) v/as added 0.30 mol of methoxyallene at -20°C (see Chapter IV, Exp. 4) at a rate such that the temperature could be kept between -15 and -2Q°C. Fifteen minutes later a mixture of 0.27 mol of >z-butyl bromide and 100 ml of pure, dry HMPT ivas added in 5 min with efficient cooling, so that the temperature of the reaction mixture remained below 0°C. The cooling bath was then removed and the temperature was allowed to rise. After 4 h the brown reaction mixture was poured into 200 ml of ice-water. The aqueous layer was extracted twice with diethyl ether. The combined solutions were washed with concentrated ammonium chloride solution (which had been made slightly alkaline by addition of a few millilitres of aqueous ammonia, note 2) and dried over potassium carbonate. After addition of a small amount (2-5 ml) of... [Pg.37]

In a 5-I. round-bottom flask, fitted with a stirrer, separatory funnel and a reflux condenser to the upper end of which a calcium chloride tube is attached, is placed 150 g. of magnesium turnings. A small crystal of iodine (Note i) and about 100 cc, of a mixture of 822 g. (6 moles) of M-butyl bromide and 2 1. of anhydrous ethyl ether are added. As soon as the reaction starts, 350 cc. of anhydrous ether is added and the remainder of the -butyl bromide solution is dropped in at such a rate that the mixture boils continuously. The time of addition (one and one-half hours) may be decreased by cooling the flask externally. Stirring is started as soon as enough liquid is present in the flask. [Pg.54]

Sodium cyanide does not dissolve in butyl bromide. The two reactants contact each other-only at the surface of the solid sodium cyanide, and the rate of reaction under these conditions is too slow to be of synthetic value. Dissolving the sodium cyanide in water is of little help because butyl bromide is not soluble in water and reaction can occur only at the interface between the two phases. Adding a small fflnount of benzyltrimethyl-fflnmonium chloride, however, causes pentanenitrile to form rapidly even at room temperature. The quaternary ammonium salt is acting as a catalyst it increases the reaction rate. How ... [Pg.923]

Phenylacetonitrile Sec-Butyl bromide Thionyl chloride Dimethyl sulfate... [Pg.1185]

Phenylacetonitrile is alkylated with secondary butyl bromide and the resultant nitrile is hydrolyzed to 3-methyl-2-phenylvaleric acid. The acid is converted to the acid chioride with thionyl chloride and the acid chloride is in turn reacted with 1-methyl-4-piperidinol. Finally dimethyl sulfate is reacted with the ester. [Pg.1185]

The method described is successfully used for the alkylation and aralkylation of ethyl and /-butyl phenylacetate.3 The alkylation of ethyl phenylacetate with methyl iodide, M-butyl bromide, benzyl chloride, and a-phenylethyl chloride affords the corresponding pure monoalkylation products in 69%, 91%, 85%, and 70% (erythro isomer) yields, respectively. The alkylation of /-butyl phenylacetate with methyl iodide, M-butyl bromide, a-phenylethyl chloride, and /3-phenylethyl bromide gives the corresponding pure monoalkylated products in 83%, 86%, 72-73%, and 76% yields, respectively. [Pg.74]

Certain of the monoalkylated ethyl phenylacetates have been further alkylated with alkyl and aralkyl halides to produce the corresponding disuhstituted phenylacetic esters.4 Ethyl 2-phenyl-propanoate has been alkylated by methyl iodide to give pure ethyl 2-methyl-2-pheny]propanoate in 81% yield. Similarly, the alkylations of ethyl 2-phenylhexanoate with methyl iodide, M-butyl bromide, and benzyl chloride gave the corresponding pure dialkylated products in 73%, 92%, and 72% yields, respectively. [Pg.74]

In a mechanistically related process, Fukamiya, Okano and Aratani have shown38 that the reaction of a sulphoxide with 3 mole equivalents of trifluoromethanesulphonyl chloride and iodine in cold, dry THF gives the corresponding sulphide in yields ranging from 52 to 96%. When compared to t-butyl bromide, this reagent is more expensive, and the products were isolated after chromatographic separation. The reaction pathway can most probably be described as depicted in equation (14) ... [Pg.931]

Trimethyl-l-pentene, methyl iodide, f-butyl chloride, r-butyl bromide (Matheson Coleman and Co.) and f-butyl iodide (Eastman Kodak) were obtained in highest purity and were distilled over calcium hydride or molecular sieves and stored at Dry-Ice temperature. [Pg.89]

Polarization also occurs in coupling and disproportionation reactions of Grignard reagents with alkyl halides. The vinyl protons of isobutene produced in the reaction of t-butylmagnesium chloride with t-butyl bromide show A/E polarization as do the methyl protons of isobutane (Ward et al., 1970). Similar results arise in the reaction of diethyl-magnesium with organic halides (Kasukhin et al., 1972). [Pg.115]

Co(TPP) has been demonstrated to act as a catalyst for the electrocarboxylation of benzyl chloride and butyl bromide with CO - to give PhCHiCfOiOCH Ph and Bu0C(0)C(0)0Bu, respectively. The propo.sed mechanism involved Co(TPP)R and [Co(TPP-N-R) as intermediates (the latter detected by spectroscopy) in the catalytic production of free R or R-, which then reacted directly with Co(TPP) precipitated on graphite foil has been successfully used for the determination of organic halides, including DDT and 1,2,3,4,5,6-hexachlorocyclohexane (lindane), to sub-ppm level in aqueous solution. Deoxygenation of the solutions is not required, and the technique is moderately insensitive to the ionic composition of the solution. ... [Pg.286]

Halogen compounds. n-Butyl bromide Chlorobenzene Allyl bromide Benzoyl chloride. [Pg.1056]

See other pages where Butyl bromide chloride is mentioned: [Pg.7]    [Pg.240]    [Pg.256]    [Pg.257]    [Pg.281]    [Pg.282]    [Pg.846]    [Pg.899]    [Pg.936]    [Pg.158]    [Pg.169]    [Pg.38]    [Pg.288]    [Pg.97]    [Pg.491]    [Pg.120]    [Pg.17]    [Pg.240]    [Pg.256]    [Pg.257]    [Pg.281]    [Pg.282]    [Pg.846]    [Pg.899]    [Pg.936]    [Pg.1203]    [Pg.345]   
See also in sourсe #XX -- [ Pg.154 , Pg.156 , Pg.157 , Pg.158 ]



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1- Butyl-3- chlorid

Butyl bromide

Butyl chloride

Butylated butyl bromide

Butylated butyl chloride

Synthesis of n-Butyl Bromide and t-Pentyl Chloride

Tert-Butyl bromide with hydrogen chloride

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