Big Chemical Encyclopedia

Chemical substances, components, reactions, process design ...

Articles Figures Tables About

Hypobromite reaction

Hypobromite Reaction.—When treated with hypobromites or nitrous acid urea is oxidized and carbon dioxide water and nitrogen gas are obtained. [Pg.435]

Fig. 25.3. Detection of a two-step cascade reaction by observing single hypobromite reaction events, (a) Reaction mechanism. The haloperoxidase enzyme produces hypobromite. These reactive oxygen species react with aminophenyl fluorescein (APF) in a secondary reaction to yield the highly fluorescent dye fluorescein, (b) Representative part of a fluorescence intensity time trace. Every intensity burst corresponds to one reaction event between hypobromite and APF. (c) Histogram of the time-averaged activities of approximately 100 individual enzymes, obtained by measuring the secondary reaction between hypobromite and APF. (d) Frequency of observing individual reaction events as a function of distance from the enzyme. At distances farther than the diffraction limit, a considerable number of reaction events occurs indicating that the secondary reaction takes place in solution following the release of most of the hypobromite from the enzyme... Fig. 25.3. Detection of a two-step cascade reaction by observing single hypobromite reaction events, (a) Reaction mechanism. The haloperoxidase enzyme produces hypobromite. These reactive oxygen species react with aminophenyl fluorescein (APF) in a secondary reaction to yield the highly fluorescent dye fluorescein, (b) Representative part of a fluorescence intensity time trace. Every intensity burst corresponds to one reaction event between hypobromite and APF. (c) Histogram of the time-averaged activities of approximately 100 individual enzymes, obtained by measuring the secondary reaction between hypobromite and APF. (d) Frequency of observing individual reaction events as a function of distance from the enzyme. At distances farther than the diffraction limit, a considerable number of reaction events occurs indicating that the secondary reaction takes place in solution following the release of most of the hypobromite from the enzyme...
The competitive aromatic bromination has not been observed in all of the cases tested. It is also noteworthy that prolonged reaction times were required in cases of benzylic alcohols with electron-withdrawing groups on the aromatic rings. This result can be rationalized by the sluggish formation of hypobromite reaction intermediates in cases of the less reactive electron-deficient benzylic alcohols. [Pg.390]

Anthranilic acid. This substance, the ortho amino derivative of benzoic acid, may be conveniently prepared by the action of sodium hypobromite (or sodium hypochlorite) solution upon phthalimide in alkaline solution at 80°. The ring in phthalimide is opened by hydrolysis to phthalamidic acid and the latter undergoes the Hofmann reaction (compare Section 111,116) ... [Pg.754]

Oxidation of Chlorides. Hypochlorite can also be formed by the in situ oxidation of chloride ions by potassium peroxymonosulfate [25482-78-4] (36). Ketones like acetone cataly2e the reaction (37). The triple salt of potassium peroxymonosulfate is a stable powder that has been combiaed with chloride salts and sold as toilet bowl cleaners. Bromides can be used ia place of chlorides to form hypobromites, and such combiaations are used to disiafect spas and hot tubs. [Pg.144]

It is necessary to maintain this reaction below 0°C to minimize the disproportionation of hypobromite to bromate and bromide. [Pg.281]

Because they are unstable, hypobromites are usually prepared just before use for such jobs as textile bleaching and desizing. In alkaline solutions at 50—80°C bromine reacts to form bromide and bromate. This reaction is reversed in acidic solutions. [Pg.281]

Similarly, bromofomi [75-25-2] CHBr, and iodoform [75-47-8] CHI, are obtained from sodium hypobromite and hypoiodite, respectively. Ethyl alcohol is the only primary alcohol that undergoes this reaction. [Pg.403]

Despite the fact that one of the first pteridine syntheses was based on an intramolecular Hofmann carboxamide degradation of pyrazine-2,3-dicarboxamide by action of potassium hypobromite and leads to lumazine (equation 104), (07CB4857), pyrazine derivatives in general have not often been used because of availability problems. The reaction of alkyl... [Pg.317]

Thus, Mathis et al. [1, 2] investigated oxidation reactions with 4-nitroperbenzoic acid, sodium hypobromite, osmium tetroxide and ruthenium tetroxide. Hamann et al. [3] employed phosphorus oxychloride in pyridine for dehydration. However, this method is accompanied by the disadvantages that the volume applied is increased because reagent has been added and that water is sometimes produced in the reaction and has to be removed before the chromatographic separation. [Pg.55]

Monocrotaline on alkaline hydrolysis yields retronecine and monocrotic acid, CjHijOg, b.p. 145-6°/18 mm., [a]p 0°, which forms a p-bromo-phenacylester, m.p. 78°,and a methyl ester, b.p. 94-6°/18 mm., characterised by a 2 4-dinitrophenylhydrazone, m.p. 95-6° see below). The acid gives the iodoform reaction and is oxidised by sodium hypobromite to a mixture of dl- and mcso-aa -dimethylsuccinic acids (I). These and other reactions show that monocrotic acid is a -dimethyllaevulic acid (II) and this has been eonfirmed by comparison with a synthetic specimen of the acid. The methyl ester of the synthetie acid forms a mixture of 2 4-dinitrophenylhydrazones, m.p. 108-9° and 121-2°, into which the analogous produet, m.p. 95-6°, first made from methyl monocrotate see above), has also been separated. [Pg.612]

The homolysis of tertiary hypochlorites for the production of oxy radicals is well known." The ease with which secondary hypohalites decompose to ketones has hampered the application of hypohalites for transannular reactions. However the tendency for the base-catalyzed heterolytic decomposition decreases as one passes from hypochlorites to hypobromites tohypoidites. Therefore the suitability of hypohalites for functionalization at the angular positions in steroids should increase in the same order. Since hypoidites (or iodine) do not react readily with ketones or carbon-carbon double bonds under neutral conditions hypoiodite reactions are more generally applicable than hypochlorite or hypobromite decompositions. [Pg.246]

Other sulfonate derivatives are obtained by the use of trifluoromethanesulfonyl hypochlorite and hypobromite (CF3SO2OQ and CF3S020Br) in reactions with petfluoroalkyl halides and their derivatives [30. These reactions lead to the corresponding trifluoromethanesulfonate derivatives of alkanes (equation 28) (Table 11). The reaction proceeds with complete retention of stereochemistry at the carbon center [30]. [Pg.576]

Alicyclic hydroxamic acids undergo several specific oxidative cleavage reactions which may be of diagnostic or preparative value. In the pyrrolidine series compounds of type 66 have been oxidized with sodium hypobromite or with periodates to give y-nitroso acids (113). Ozonolysis gives the corresponding y-nitro acids. The related cyclic aldonitrone.s are also oxidized by periodate to nitroso acids, presumably via the hydroxamic acids.This periodate fission was used in the complex degradation of J -nitrones derived from aconitine. [Pg.227]

For the Flofmann rearrangement reaction, a carboxylic amide 1 is treated with hypobromite in aqueous alkaline solution. Initially an iV-bromoamide 4 is formed. With two electron-withdrawing substituents at nitrogen the A -bromoamide shows NFI-acidity, and can be deprotonated by hydroxide to give the anionic species 5. [Pg.166]

The reaction is likely to proceed by a radical-chain mechanism, involving intermediate formation of carboxyl radicals, as in the related Kolbe electrolytic synthesis. Initially the bromine reacts with the silver carboxylate 1 to give an acyl hypobromite species 3 together with insoluble silver bromide, which precipitates from the reaction mixture. The unstable acyl hypobromite decomposes by homolytic cleavage of the O-Br bond, to give a bromo radical and the carboxyl radical 4. The latter decomposes further to carbon dioxide and the alkyl radical 5, which subsequently reacts with hypobromite 3 to yield the alkyl bromide 2 and the new carboxyl radical 4Z... [Pg.167]

Phenoxy acetophenone, 46, 94 Phenylacetyleue, oxidative coupling to diphenyldiacetylene, 46, 39 partial reduction to styrene using palladium catalyst, 46, 90 reaction with sodium hypobromite to yield phenylbromoethyne, 46,86... [Pg.135]

Calcium, iron, magnesium, alkali metals, and citrates do not affect the analysis. Ammonium salts interfere and must be eliminated by means of sodium nitrite or sodium hypobromite. The hydrochloric acid normally used in the analysis may be replaced by an equivalent amount of nitric acid without any influence on the course of the reaction. Sulphuric acid leads to high and erratic results and its use should be avoided. [Pg.304]

In vanadium-dependent haloperoxidases, the metal center is coordinated to the imidazole system of a histidine residue, which is similarly responsible for creating hypochlorite or hypobromite as electrophilic halogenating species [274]. Remarkably, a representative of this enzyme class is capable of performing stereoselective incorporation of halides, as has been reported for the conversion of nerolidol to various snyderols. The overall reaction commences through a bromonium intermediate, which cyclizes in an intramolecular process the resulting carbocation can ultimately be trapped upon elimination to three snyderols (Scheme 9.37) [275]. [Pg.264]

Because the presence of methanol markedly facilitates the bromination of phenols, we decided that the active species is probably methyl hypobromite produced by the reaction of these tribromides with methanol as shown below (Fig. 5) (ref. 7). [Pg.32]

It has already been known that the reaction of primary amines with alkaline hypobromite gives nitriles, and the reaction of hydrazo compounds with bromine affords azo compounds. Recently, we also found that the reaction of primary amines and hydrazo compounds with BTMA Br3 in aq. sodium hydroxide or in water gave corresponding nitriles and azo compounds in satisfactory yields, respectively (Fig. 27) (ref. 35). [Pg.43]

It was of interest to see if the use of tm-butyl hypobromite would provide similar opportunities for regioselectivity to those found in the case of chlorination reactions with te/t-butyl hypochlorite. The initial indications were favourable use of H zeolite X as catalyst in dichloromethane solution gave an almost quantitative yield of bromotoluenes with a para ortho ratio of 81 19 (Fig. 5) (ref. 10). [Pg.52]

In our previous studies on chlorination of toluene we had found that solvent had an important effect on the selectivity. In particular, the use of diethyl ether as a cosolvent was advantageous for the production of a high proportion of the para-isomer (ref. 9). An experiment in which the amount of ether in a tetrachloromethane/diethyl ether solvent mixture was varied under otherwise identical reaction conditions (Ih reaction at 18°C with 1.04 molar equivalent of tert-butyl hypobromite) demonstrated that diethyl ether also had a marked influence on the selectivity of the bromination reaction (Fig. 6). There was also an effect on the yield of the reaction as performed under these standard conditions. As the... [Pg.52]

See other pages where Hypobromite reaction is mentioned: [Pg.79]    [Pg.79]    [Pg.297]    [Pg.260]    [Pg.227]    [Pg.180]    [Pg.108]    [Pg.297]    [Pg.294]    [Pg.295]    [Pg.93]    [Pg.166]    [Pg.30]    [Pg.579]    [Pg.608]    [Pg.61]    [Pg.858]    [Pg.26]    [Pg.159]    [Pg.87]    [Pg.349]    [Pg.49]   
See also in sourсe #XX -- [ Pg.435 ]



SEARCH



Acyl hypobromite, Hunsdiecker reaction

Amines reaction with hypobromites

Hypobromite

Hypobromites, reactions

Phenylacetylene, oxidative coupling reaction with sodium hypobromite

© 2024 chempedia.info