Big Chemical Encyclopedia

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

Articles Figures Tables About

Tert hypochlorite

If a bromomethyl- or vinyl-substituted cyclopropane carbon atom bears a hydroxy group, the homoallyiic rearrangement leads preferentially to cyclobutanone derivatives (J. Sa-laun, 1974). Addition of amines to cydopropanone (N. J. Turro, 1966) yields S-lactams after successive treatment with tert-butyl hypochlorite and silver(I) salts (H.H. Wasserman, 1975). For intramolecular cyclopropane formation see section 1.16. [Pg.77]

Olefins react with tert-huty hydroperoxide in the presence of tert-huty hypochlorite, forming tert-huty P-chloroalkyl peroxides (66) ... [Pg.109]

In two proposed alternative processes, the chlorine is replaced in the hypochlorination reaction by hypochlorous acid [7790-92-3] HOCl, or tert-huty hypochlorite. In the first, a concentrated (>10% by weight) aqueous solution of hypochlorous acid, substantially free of chloride, chlorate, and alkah metal ions, is contacted with propylene to produce propylene chlorohydrin (113). The likely mechanism of reaction is the same as that for chlorine, as chlorine is generated in situ through the equiUbrium of chlorine and hypochlorous acid (109). [Pg.137]

In the second proposed alternative process, tert-huty hypochlorite, formed from the reaction of chlorine and tert-huty alcohol, reacts with propylene and water to produce the chlorohydrin. The alcohol is a coproduct and is recycled to generate the hypochlorite (114—116). No commercialisation of the hypochlorous acid and tert-huty hypochlorite processes for chlorohydrin production is known. [Pg.137]

Fig. 2. The chlorohydrin process via tert-huty hypochlorite (114—rll6,rl27—rl33). Fig. 2. The chlorohydrin process via tert-huty hypochlorite (114—rll6,rl27—rl33).
Continuous chlorination of benzene at 30—50°C in the presence of a Lewis acid typically yields 85% monochlorobenzene. Temperatures in the range of 150—190°C favor production of the dichlorobenzene products. The para isomer is produced in a ratio of 2—3 to 1 of the ortho isomer. Other methods of aromatic ring chlorination include use of a mixture of hydrogen chloride and air in the presence of a copper—salt catalyst, or sulfuryl chloride in the presence of aluminum chloride at ambient temperatures. Free-radical chlorination of toluene successively yields benzyl chloride, benzal chloride, and benzotrichloride. Related chlorination agents include sulfuryl chloride, tert-huty hypochlorite, and /V-ch1orosuccinimide which yield benzyl chloride under the influence of light, heat, or radical initiators. [Pg.510]

Ghlorohydrination with er -All l Hypohalites. Olefins react with ethyl hypochlorite [624-85-1] to form the corresponding chlorohydrin (49). In 1938 both Shell Development Co. (50) and Arthur D. Litde, Inc. (51) patented the preparation of chlorohydrins by the reactions of olefins with tertiary alkyl hypochlorites. Examples with ethylene and propylene in the Shell patent reported chlorohydrin yields of greater than 95% with tert-huty hypochlorite [507-40-4]. [Pg.74]

Ammonium sulfate triolein, oleic acid, androsten-3,17-dione, xanthanonic acid, cholesterol-propionate, N-methy Ipheny lalanine, D-glucose fluorescence after heating to 150 — 180 °C, exposure to tert-butyl hypochlorite [203]... [Pg.89]

Dipping solution I may be stored in the refrigerator for a few days. tert-Butyl hypochlorite should be stored cool in the dark under an atmosphere of nitrogen. [Pg.234]

Fluoroalkyl selenides are oxidized to higher oxidation states by tert-butyl hypochlorite under the mild conditions [115] (equation 105)... [Pg.357]

The amine hydrogens of polyfluorinated anilines can be replaced with chlorine by using tert-butyl hypochlorite [65,66]... [Pg.379]

The sulfur analogue of the Hauser ortho-substitution rearrangement provides access to an arylacet-ic NSAID. Reaction of the aminobenzophenone 176 with ethyl methylthioacetate and tert-butyl hypochlorite gives the intermediate 178. The reaction probably proceeds by way of formation of the S-chlorinated sulfonium derivative 177 displacement on sulfur will lead to the salt 178. Treatment with triethylamine leads initially to the betaine 179. Electrocyelic rearrangement of that transient intermediate leads, after rearomatization, to the homoanthranilic acid 180. Internal ester-amine interchange leads then to indolone 181 [45]. The thiomethyl group is then removed with Raney niekel. Saponifieation of intermediate 182 affords bromfenac (183) [46J. [Pg.46]

A) The preparation of [H-chloroethoxyjchloromethyl]phosphonic acid Acetaldehyde (1.1 mol) and hydroxymethylphosphonlc acid (1 mol) in 500 ml of benzene are saturated with hydrogen chloride gas at 10°C to 15°C. The mixture is aged at 25°C for 24 hr, the solvent distilled out in vacuo and the residue flushed three times with benzene to remove all traces of hydrogen chloride. The residue is taken up in benzene (500 ml), treated with tert-butyl hypochlorite (0.8 mol) and azobisisobutyronitrile (0.8 mm) at 40°C until titration shows the absence of hypochlorite and the solution is then evaporated to yield [(1-chloro-ethoxy)chloromethyll phosphonic acid in the form of an oil. [Pg.703]

Acridine-9-carbaldehyde (24%) is one of several products formed from the oxidation of 5//-dibenz[A/]azepine with tert-butyl hypochlorite in dichloromethane at — 70 C.229 The reaction is even more complex in the presence of silver(I) trifluoroacetate, and an analysis of the reaction mixture by GC-MS techniques reveals the presence of eleven products, the major ones being acridine (37%), an unidentified 5//-dibenz[/ ,/]azepinecarbaldehyde (23%) and acridine-9-carbaldehyde (9 %). [Pg.287]

Treatment with two equivalents of tert-butyl hypochlorite and subsequent reduction with sodium/naphthalene. [Pg.559]

Chloroanthracene has been prepared by the action of chlorine,2 tert-butyl hypochlorite, l,3-dichloro-5,5-dimethylhy-dantoin, or phosphorus pentachloride 5 on anthracene. [Pg.16]

Our own earlier work on the chlorination of toluene had been subject to similar constraints. In this case, chlorination with ferf-butyl hypochlorite had proved to be advantageous. In the presence of silica gel as catalyst the yield of chlorotoluenes was quantitative but the regioselectivity was more or less statistical (ref. 8). However, the use of proton-exchanged zeolite X allowed the production of chlorotoluenes with a para-selectivity of more than 90 % (Fig. 4) (ref. 9). No HCl is generated in this process since the by-product is tert-butanol, and there is no inhibition of the catalyst. Indeed, the catalyst can be reused if necessary. [Pg.51]

Spray solution 1 Mix 1 ml tert-butyl hypochlorite with 100 ml cyclohexane. [Pg.42]

Spray solution 1 tert-Butyl hypochlorite solution. [Pg.43]

The chromatogram is freed from mobile phase in the drying cupboard (10 min 160 °C) and placed while still hot in the chamber with tert-butyl hypochlorite vapor for 5 min. After removal of excess reagent (15 min stream of warm air) the chromatogram is sprayed with reagent 2. [Pg.44]

See other pages where Tert hypochlorite is mentioned: [Pg.143]    [Pg.143]    [Pg.234]    [Pg.137]    [Pg.461]    [Pg.86]    [Pg.87]    [Pg.235]    [Pg.236]    [Pg.237]    [Pg.16]    [Pg.1619]    [Pg.459]    [Pg.141]    [Pg.108]    [Pg.705]    [Pg.1044]    [Pg.268]    [Pg.42]    [Pg.44]    [Pg.111]    [Pg.51]    [Pg.127]    [Pg.283]    [Pg.285]    [Pg.352]    [Pg.620]   
See also in sourсe #XX -- [ Pg.15 , Pg.32 , Pg.432 ]



SEARCH



Chlorination with tert-butyl hypochlorite

Perfluoro-tert-butyl Hypochlorite

Tert-Butyl hypochlorite

With tert-butyl hypochlorite

© 2024 chempedia.info