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Bromide inhibitors

Note that this inhibition mechanism readily accounts for the noninhibiting properties of fluorides, since the high stability of HF provides an excessively high activation energy barrier for a reaction with H atoms to take place. The much lower effectiveness of chloride as compared with bromide inhibitors is probably due to the HCI reaction being very close to thermo-neutral, hence it is likely that the reaction can also proceed in the back direction to generate H atoms. [Pg.78]

Geiseler (1982-2) studied the autocatalytic oxidation of Mn(II) by acidic bromate in the presence of bromide inhibitor and observed oscillations in Br" concentrations. [Pg.82]

The regioselectivity of addition of Itydrogen bromide to alkenes can be complicated if a free-radical chain addition occurs in competition with the ionic addition. The free-radical reaction is readily initiated by peroxidic impurities or by light and leads to the anti-Markownikoff addition product. The mechanism of this reaction will be considered more fully in Chapter 12. Conditions that minimize the competing radical addition include use of high-purity alkene and solvent, exclusion of light, and addition of free-radical inhibitors. ... [Pg.353]

Chemical Reactivity - Reactivity with Water Reacts violently, forming corrosive and toxic fumes of hydrogen bromide Reactivity with Common Materials Attacks and corrodes wood and most metals in the presence of moisture. Flammable hydrogen gas may collect in enclosed spaces Stability During Transport Stable if protected from moisture Neutralizing Agents for Acids and Caustics Hood with water, rinse with dilute sodium bicarbonate or soda ash solution Polymerization Not pertinent Inhibitor of Polymerization Not pertinent. [Pg.5]

The 6-methylacetylamino-l,2,3,4-tetrahydroquinoline, after nitration and separation of isomers, following reduction and deprotection, gave the 7-amino-6-methylamino derivative, which cyclized with cyanogen bromide. Alkylation of the cyclization products afforded inhibitors of thymidylate synthase, 5-substituted 2-amino-l//-l-methyl-5,6,7,8-tetrahydroimidazo[4,5-g]quinolines 136, designed for use in iterative protein crystal analysis (Scheme 42) (92JMC847). [Pg.246]

Dissolved mineral salts The principal ions found in water are calcium, magnesium, sodium, bicarbonate, sulphate, chloride and nitrate. A few parts per million of iron or manganese may sometimes be present and there may be traces of potassium salts, whose behaviour is very similar to that of sodium salts. From the corrosion point of view the small quantities of other acid radicals present, e.g. nitrite, phosphate, iodide, bromide and fluoride, have little significance. Larger concentrations of some of these ions, notably nitrite and phosphate, may act as corrosion inhibitors, but the small quantities present in natural waters will have little effect. Some of the minor constituents have other beneficial or harmful effects, e.g. there is an optimum concentration of fluoride for control of dental caries and very low iodide or high nitrate concentrations are objectionable on medical grounds. [Pg.354]

The aggressivity of halides varies, with bromide and chloride being most aggressive. Increasing concentration of the halide also depresses the pitting potential as demonstrated for two steels in Fig. 3.16. Certain ions in solution act as inhibitors (e.g. nitrate) raising the pitting potential while others depress it (e.g. sulphide). Temperature and pH also have effects as illustrated... [Pg.532]

An exception to the lone pair or donor electron requirement of organic inhibitors is provided by the quaternary ammonium compounds. Meakins reports the effectiveness of tetra-alkyl ammonium bromides with the alkyl group having C 10. Comparative laboratory tests of commercial inhibitors of this type have been described . The inhibiting action of tetra-butyl ammonium sulphate for iron in H S-saturated sulphuric acid has been described, better results being achieved than with mono-, di- or tri-butylamines . [Pg.793]

The bromide (2a) reacted smoothly with 2,4-diethoxy-5-methylpyrimi-dine to give, after de-ethylation and deacylation, l-(2-deoxy-/ -D-arabino-hexopyranosyl)thymine (3) (15). The new nucleoside (3) is the first truly competitive inhibitor of a pyrimidine phosphorylase (7), that is, it inhibits the phosphorylase, yet is not a substrate for the enzyme. It was recently shown that 3 enhances the incorporation of 2 -deoxy-5-iodouridine in vivo in cats (8). [Pg.12]

Cordes et al995 carried out alkaline hydrolyses of p-nitrophenylhexanoate 55 (PNPH) in the presence of poly-4-vinylpyridine partially quaternized with dodecyl-bromide and ethylbromide (QPVP). They also found that the polyelectrolytes are increasingly effective as catalysts with an increasing ratio of dodecyl to ethyl groups, and the hydrophobic interactions are important in determining the catalytic efficiency. They observed the inhibitory effects of several gegen-anions fluoride ions are the weakest inhibitor, and nitrate is the strongest (F- < Cl < S04 [Pg.159]

It is noteworthy that metallic copper or cuprous bromide used under nitrogen atmosphere shows only a very short induction time. This last result points out the inhibitor role of the oxygen of the air atmosphere and most likely the important role taken either by reduced species or by radical intermediates in the catalytic cycle. [Pg.255]

During the induced reactions involving peroxydisulphate in the presence of oxygen, the induced oxidation of iron(II) by oxygen can be observed just as with the hydrogen peroxide-iron(ll) system. Chloride and particularly bromide ions are effective inhibitors in the iron(II)-peroxydisulphate system. [Pg.568]

Surfactants greatly improve the performance of trans-cinnamaldehyde as a corrosion inhibitor for steel in HCl [741,1590,1591]. They act by enhancing the adsorption at the surface. Increased solubility or dispersibility of the inhibitor is an incidental effect. N-dodecylpyridinium bromide is effective in this aspect far below its critical micelle concentration, probably as a result of electrostatic adsorption of the monomeric form of N-dodecylpyridinium bromide. This leads to the formation of a hydrophobic monolayer, which attracts the inhibitor. On the other hand, an ethoxylated nonylphenol, a nonionic surfactant, acts by incorporating the inhibitor into micelles, which themselves adsorb on the steel surface and facilitate the adsorption of trans-cinnamaldehyde. [Pg.87]

Some other examples of metal-catalyzed substitutions are given in Scheme 11.10. Entries 1 to 3 are copper-catalyzed reactions. Entry 1 is an example of arylation of imidazole. Both dibenzylideneacetone and 1,10-phenanthroline were included as ligands and Cs2C03 was used as the base. Entry 2 is an example of amination by a primary amine. The ligand used in this case was (V,(V-diethyl sal icyl amide. These conditions proved effective for a variety of primary amines and aryl bromides with both ERG and EWG substituents. Entry 3 is an example of more classical conditions. The target structure is a phosphodiesterase inhibitor of a type used in treatment of asthma. Copper powder was used as the catalyst. [Pg.1052]

The natural product panepophenanthrin (6/1-170), isolated in 2002 from the fermented broth of the mushroom strain Panus radus IFO 8994 [90], is the first example of an inhibitor of the ubiquitin-activating enzyme [91]. Retrosynthetic analysis based on a biomimetic analysis led to the conjugated diene 6/1-172 by a retro-Diels-Alder reaction via the hemiacetal 6/1-171. Further disconnections of 6/1-172 produces the vinyl stannane 6/1-173 and the vinyl bromide 6/1-174 [92]. [Pg.388]

The synthesis of a bridgehead sulfonium salt analogue 59, of the naturally occurring glycosidase inhibitor castanospermine, proceeded by a multistep procedure starting from 5-thio-d-glucopyranose pentaacetate <2000JA10769>. The desired bicyclic sulfonium salt 57 could not be obtained from the key bromide precursor... [Pg.492]

A series of potent, linear C2-symmetric HIV-1 protease inhibitors with K, values in the nanomolar range was prepared from a diaryl bromide precursor emanating from a carbohydrate scaffold, by application of Heck, Suzuki, Stille, and cyanation reactions. Included in this series was the first reported microwave-promoted Suzuki coupling with an alkyl borane [41]. A very high-yielding Suzuki coupling is presented... [Pg.391]

A single-mode microwave procedure has been reported for the palladium-catalyzed preparation of both aryl and vinyl nitriles from the corresponding bromides. The reaction times were short and full conversions were achieved in just a few minutes (Eq. 11.33) [50], The cycloadditions to yield the tetrazoles needed slightly longer reaction times, from 10 to 25 min, but only 20 W of power was required as a temperature of 220 °C was reached after 10 min heating. The yields in this step ranged from 36% to 96%. This method for transforming halides into tetrazoles has been used for the synthesis of a novel HIV-protease inhibitor [50],... [Pg.395]


See other pages where Bromide inhibitors is mentioned: [Pg.339]    [Pg.292]    [Pg.293]    [Pg.301]    [Pg.1119]    [Pg.728]    [Pg.45]    [Pg.317]    [Pg.550]    [Pg.140]    [Pg.212]    [Pg.137]    [Pg.806]    [Pg.270]    [Pg.208]    [Pg.148]    [Pg.47]    [Pg.12]    [Pg.385]    [Pg.118]    [Pg.247]    [Pg.423]    [Pg.572]    [Pg.260]    [Pg.10]    [Pg.22]    [Pg.520]    [Pg.499]   
See also in sourсe #XX -- [ Pg.2 , Pg.166 ]




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