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Halogenation and Halogenating Agents

A variety of compounds has been used as halogenation agents [3]. Fluorination can be performed with molecular fluorine (F2), HF, fluoroxy compounds, XeFi, perchloryl fluoride (FCIO3) and metallic fluorides (especially CrF3 and AIF3 or their mixtures). Apart from molecular chlorine and HCl, other popular chlorina- [Pg.134]

Effect of halogens and halogenation agents on acetylene and toluene... [Pg.240]

Halogens and halogenating agents. Addition of halogens to ethylene oxides has been reported on a number of occasions, but little is known of the scope or mechanism of this reaction, as it is of no synthetic importance. [Pg.499]

Use of an excess of the halogenating agent results in halogenation at the 3-position of the oxindole[3,4]. The halogenation and hydrolysis can be carried out as two separate steps. One optimized procedure of this type used NCS as the halogenating agent and it was found that 70% phosphoric acid in 2-mcthoxycthanol was the most effective medium for hydrolysis[2]. If the halogenation is carried out in pyridine, the intermediate is trapped as an... [Pg.152]

Alkali metals Moisture, acetylene, metal halides, ammonium salts, oxygen and oxidizing agents, halogens, carbon tetrachloride, carbon, carbon dioxide, carbon disul-flde, chloroform, chlorinated hydrocarbons, ethylene oxide, boric acid, sulfur, tellurium... [Pg.1207]

The high fluorine content contributes to resistance to attack by essentially all chemicals and oxidizing agents however, PCTFE does swell slightly ia halogenated compounds, ethers, esters, and selected aromatic solvents. Specific solvents should be tested. PCTFE has the lowest water-vapor transmission rate of any plastic (14,15), is impermeable to gases (see also Barrierpolymers), and does not carbonize or support combustion. [Pg.393]

Primary and secondary phosphines can be treated with halogenating agents to produce halophosphines. [Pg.381]

Halogen-substituted succinimides are a class of products with important appHcations. /V-Bromosuccinimide [128-08-5] mp 176—177°C, is the most important product ia this group, and is prepared by addition of bromine to a cold aqueous solution of succinimide (110,111) or by reaction of succinimide with NaBr02 iu the presence of HBr (112). It is used as a bromination and oxidation agent ia the synthesis of cortisone and other hormones. By its use it is possible to obtain selective bromine substitution at methylene groups adjacent to double bonds without addition reactions to the double bond (113). [Pg.536]

V-Chlorosuccinimide [128-09-6] mp 150—151°C, forms orthorhombic crystals and has a chlorine-like odor it is prepared from succinimide and hypochlorous acid (114,115). Because of its powerhil germicide properties, it is used ia disiafectants for drinking water. Like its bromine derivative, it is also a halogenating agent. [Pg.536]

Generally these derivatives are rather unstable and behave as oxidizing and halogenating agents. 1-Iodoimidazoles are more stable than other analogs. [Pg.110]

Af-Halogeno-, fV-nitroso- and hence fV-amino-azetidines have been prepared from azetidines by reaction with positive halogen reagents and nitrosating agents, respectively (Section 5.09.2.2.3). [Pg.246]

Explosible dusts can also be changed into mixtures which are no longer explosible by the addition of inert dusts (e.g., rock salt, sodium sulrate). In general, inert dust additions of more than 50 wt % are necessary here. It is also possible to replace flammable solvents and cleaning agents by nonflammable halogenated hydrocarbons or water, or flammable pressure transmission fluids by halocarbon oils. [Pg.2323]

Chemical compounds manufactured at petrochemical plants include methanol, formaldehyde, and halogenated hydrocarbons. Formaldehyde is used in the manufacture of plastic resins, including phenolic, urea, and melamine resins. Halogenated hydrocarbons are used in the manufacture of silicone, solvents, refrigerants, and degreasing agents. [Pg.54]

In addition to the applications indicated on p. 858. hypohalous acids are useful halogenating agents for Ixjth aromatic and aliphatic compounds. HOBr and HOI are usually generated in silii. The ease of aromatic halogenation increa.ses in the sequence OCl < OBr < Ol and is facilitated by salts of Pb or Ag. Another well-known reaction of hypohalites is their cleavage of methyl ketones to form carboxylates and haloform ... [Pg.860]

The preparation of isothiazolidin-3-one 5-oxide and 5,5-dioxide derivatives of azetidin-3-ones was described (99EUP100069), starting from penicillanic acid sulfoxide amides in the presence of halogenating agents in anhydrous inert solvents or even without them. Through rearrangement and oxidation with conventional methods, compounds 73 could be obtained. For some derivatives the usefulness, as intermediates for the preparation of novel p-lactam analogs or active substances in formulations for antimicrobial therapy, is claimed. [Pg.80]

Chlorination and bromination of chlorins can be carried out with aqueous hydrochloric or hydrobromic acid in the presence of hydrogen peroxide, but also with free chlorine or bromine in solution. Depending on the stoichiometric amount of halogenation agent, mono-or bishalogenated products are selectively formed as in the case of octaethylchlorin 15, Attempts to iodinate chlorins have been unsuccessful. [Pg.630]

With bromine monochloride at 0°C in a variety of solvents, 1 was converted into addition products, the product distribution being a function of solvent. A change in halogenating agent also altered the product ratio. (Scheme 4) Nucleophilic displacement reactions between these products and silver fluoride was found to cause preferential bromine substitution (83G149). [Pg.248]

It becomes clear that in all these compounds it is the conjugate base that takes part in the substitution proper. For mono- and particularly 1,3-dicarbonyl compounds this result actually removes the problem of whether it is the keto or the enol form which enters into an electrophilic substitution by diazonium ions, halogenating agents, and many other reagents. The keto and the enol form are distinct species, but they have one (common) conjugate base This was made clear quite early, but even today there are many chemists who seem not to be aware of it. [Pg.351]

Acetoxylation is found to accompany nitration of fairly reactive aromatics by nitric acid in acetic anhydride and gives rise to zeroth-order kinetics76. The electrophile is believed to be protonated acetyl nitrate the formation of which is rate-determining, hence the kinetic order (see p. 37). Acetoxylation can also accompany halogenation by positive halogenating agents in acetic acid solvent, especially in the presence of sodium acetate137, but no kinetic studies have been carried out. [Pg.56]

See other pages where Halogenation and Halogenating Agents is mentioned: [Pg.384]    [Pg.384]    [Pg.761]    [Pg.499]    [Pg.761]    [Pg.134]    [Pg.8]    [Pg.179]    [Pg.199]    [Pg.249]    [Pg.409]    [Pg.174]    [Pg.561]    [Pg.362]    [Pg.384]    [Pg.339]    [Pg.292]    [Pg.454]    [Pg.458]    [Pg.432]    [Pg.54]    [Pg.504]    [Pg.575]    [Pg.578]    [Pg.705]    [Pg.194]    [Pg.292]    [Pg.518]    [Pg.129]    [Pg.141]    [Pg.159]    [Pg.46]    [Pg.361]    [Pg.876]    [Pg.189]    [Pg.19]    [Pg.137]    [Pg.299]    [Pg.434]    [Pg.437]    [Pg.437]    [Pg.456]   


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Halogenating agents

Halogens and halogenating agents

Halogens and halogenating agents

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