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Hydrogen-halogen reactions

This equilibrium has been extensively studied by Bodenstein. Unlike the other halogen-hydrogen reactions, it is not a chain reaction but a second order, bimolecular, combination. [Pg.321]

Catalysts. In industrial practice the composition of catalysts are usuaUy very complex. Tellurium is used in catalysts as a promoter or stmctural component (84). The catalysts are used to promote such diverse reactions as oxidation, ammoxidation, hydrogenation, dehydrogenation, halogenation, dehalogenation, and phenol condensation (85—87). Tellurium is added as a passivation promoter to nickel, iron, and vanadium catalysts. A cerium teUurium molybdate catalyst has successfliUy been used in a commercial operation for the ammoxidation of propylene to acrylonitrile (88). [Pg.392]

Aromatic compounds may be chlorinated with chlorine in the presence of a catalyst such as iron, ferric chloride, or other Lewis acids. The halogenation reaction involves electrophilic displacement of the aromatic hydrogen by halogen. Introduction of a second chlorine atom into the monochloro aromatic stmcture leads to ortho and para substitution. The presence of a Lewis acid favors polarization of the chlorine molecule, thereby increasing its electrophilic character. Because the polarization does not lead to complete ionization, the reaction should be represented as shown in equation 26. [Pg.510]

Cross-linking reactions for the polyisobutylene-type polymers depend on adding a reactive site, usually an aHyUc hydrogen or halogen. These reactive sites allow vulcanization with sulfur and accelerators or metal oxides (76,77). [Pg.484]

Vulcanization oi cuting is accomplished via chemical cioss-linking reactions involving allyhc hydrogen or halogen sites along the polymer backbone to... [Pg.485]

In looking for the mechanism, many intermediates are assumed. Some of these are stable molecules in pure form but very active in reacting systems. Other intermediates are in very low concentration and can be identified only by special analytical methods, like mass spectrometry (the atomic species of hydrogen and halogens, for example). These are at times referred to as active centers. Others are in transition states that the reacting cheimicals form with atoms or radicals these rarely can be isolated. In heterogeneous catalytic reaction, the absorbed reactant can... [Pg.115]

With ketones bearing a -hydrogens, a halogenation at that position is a possible side-reaction, and may lead to cleavage of the substrate. ... [Pg.150]

The reactions in this chapter are arranged in order of leaving group hydrogen, metals, halogen, and carbon. Electrophilic substitutions at a nitrogen atom are treated last. [Pg.769]

In a chain reaction, the step that determines what the product will be is most often an abstraction step. What is abstracted by a free radical is almost never a tetra- or tervalent atom (except in strained systems, see p. 989) and seldom a divalent one. Nearly always it is univalent, and so, for organic compounds, it is hydrogen or halogen. For example, a reaction between a chlorine atom and ethane gives an ethyl radical, not a hydrogen atom ... [Pg.900]

Aldehydes can be directly converted to acyl chlorides by treatment with chlorine however, the reaction operates only when the aldehyde does not contain an a hydrogen and even then it is not very useful. When there is an a hydrogen, a halogenation (12-4) occurs instead. Other sources of chlorine have also been used, among them S02Cl2 and r-BuOCl. The mechanisms are probably of the free-radical type. V-Bromosuccinimide, with AIBN (p. 912) as a catalyst, has been used to convert aldehydes to acyl bromides. [Pg.914]

C15-0125. At least three possible reaction mechanisms exist for the reaction of hydrogen with halogens, H2 + 2 2 H JT. Determine the rate law predicted by each of them ... [Pg.1130]

Catalysis by radicals will usually be due to a radical addition or displacement reaction, hydrogen and halogen being the atoms on which the displacement most often occurs. It is usually a chain reaction once the substrate is converted into a radical it carries the reaction to many molecules of substrate. Examples are polymerization and autoxidation. [Pg.248]

The following illustrates the hydrogenation and halogenation, with bromine, of the alkene propene. Notice that the —CH3 group, which is not a functional group, does not change during either reaction. [Pg.318]

There are a number of important types of organic reactions, including combustion, substitution, addition (such as hydrogenation, and halogenation.), condensation, as well as many others. [Pg.322]

Carboxylic acids having an a-hydrogen are halogenated at the a-position on treatment with chlorine or bromine in the presence of small amount of red phosphorus to give a-halocarboxylic acids. The reaction is known as Hell-Volhard-Zelinsky reaction. [Pg.106]

Barium reacts violently with dilute acids, evolving hydrogen. Reactions with halogens give barium halides ... [Pg.78]

Berlin and coworkers (5,56) desired to obtain a material with an increased mechanical strength. They carried out a plasticization of bulk ami emulsion polystyrene molecular weight 80000 and 200000 respectively at 150-160° C, with polyisobutylene, butyl rubber, polychloroprene, polybutadiene, styrene rubber (SKS-30) and nitrile rubber (SKN 18 and SKN 40). The best results were obtained with the blends polystyrene-styrene rubber and polystyrene-nitrile rubber. An increase of rubber content above 20-25% was not useful, as the strength properties were lowered. An increase in the content of the polar comonomer, acrylonitrile, prevents the reaction with polystyrene and decreases the probability of macroradical combination. This feature lowers the strength, see Fig. 14. It was also observed that certain dyes acts as macroradical acceptors, due to the mobile atoms of hydrogen of halogens in the dye, AX ... [Pg.34]

However, if the molecules of 5 had R alkyl chains longer than Me, the steric hindrance prevented 100% substitution and IR examinations indicated a 50% less derivatization. Moreover, XPS analysis showed that the surface is partly modified by substitution of hydrogen by halogen . In the case of 5 with X = I and to some extent X = Br, the formation of X radicals (besides 12) in a secondary reaction was reported . They participate in reactions analogous to equations 21 and 22b, but with X instead of 12, and attach to the Si surface improving the electronic passivation of the surface at defect sites, sterically inaccessible to 12. A possibility that surface dangling bonds may also appear in the charged states was discussed as well . [Pg.243]

Organic functionalization reactions have been carried out both in vacuum and in solution. The vacuum studies typically use the clean, reconstructed (100) or (111) crystal faces of the semiconductor, and the reactants are dosed in the gas phase. Because the semiconductor surfaces are readily oxidized and otherwise contaminated in air or solution, the usual approach for solution-based functionalization is to first passivate the semiconductor (e.g., with hydrogen or halogens) through solution processing, then carry out a reaction which replaces the passivating layer with the organic molecules. [Pg.339]

X - hydrogen or halogen) are stable, that is, whether the reaction... [Pg.112]

See other pages where Hydrogen-halogen reactions is mentioned: [Pg.1067]    [Pg.1040]    [Pg.1067]    [Pg.1040]    [Pg.22]    [Pg.283]    [Pg.230]    [Pg.37]    [Pg.263]    [Pg.78]    [Pg.575]    [Pg.519]    [Pg.517]    [Pg.160]    [Pg.316]    [Pg.317]    [Pg.98]    [Pg.233]    [Pg.66]    [Pg.145]    [Pg.9]    [Pg.122]    [Pg.373]    [Pg.259]    [Pg.263]    [Pg.619]   
See also in sourсe #XX -- [ Pg.151 , Pg.152 , Pg.153 , Pg.154 ]



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Halogenation reactions

Hydrogen-halogen

Reactions halogens

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