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Additive ionic

When however the ionic addition of hydrogen bromide to 1 3 butadiene is car ried out at room temperature the ratio of isomeric allylic bromides observed is differ ent from that which is formed at — 80°C At room temperature the 1 4 addition product predominates... [Pg.406]

Aromatic and heterocycHc compounds are formylated by reaction with dialkyl- or alkylarylformamides in the presence of phosphoms oxychloride or phosgene (Vilsmeier aldehyde synthesis) (125). The Vilsmeier reaction is a Friedel-Crafts type formylation (126), since the intermediate cation formed by the interaction of phosphoms oxychloride with formamide is a typical electrophilic reagent. Ionic addition compounds of formamide with phosgene or phosphoms oxychloride are also known (127). [Pg.559]

Addition Chlorination. Chlorination of olefins such as ethylene, by the addition of chlorine, is a commercially important process and can be carried out either as a catalytic vapor- or Hquid-phase process (16). The reaction is influenced by light, the walls of the reactor vessel, and inhibitors such as oxygen, and proceeds by a radical-chain mechanism. Ionic addition mechanisms can be maximized and accelerated by the use of a Lewis acid such as ferric chloride, aluminum chloride, antimony pentachloride, or cupric chloride. A typical commercial process for the preparation of 1,2-dichloroethane is the chlorination of ethylene at 40—50°C in the presence of ferric chloride (17). The introduction of 5% air to the chlorine feed prevents unwanted substitution chlorination of the 1,2-dichloroethane to generate by-product l,l,2-trichloroethane. The addition of chlorine to tetrachloroethylene using photochemical conditions has been investigated (18). This chlorination, which is strongly inhibited by oxygen, probably proceeds by a radical-chain mechanism as shown in equations 9—13. [Pg.508]

Berkman and Egloff explain that some additives increase the flexi-bihty or toughness of bubble walls, rather than their viscosity, to render them more durable. They cite as illustrations the addition of small quantities of soap to saponin solutions or of glycerin to soap solution to yield much more stable foam. The increased stability with ionic additives is probably due to elec trostatic repulsion between charged, nearly parallel surfaces of the hquid film, which acts to retard draining and hence rupture. [Pg.1418]

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]

Because the bromine adds to the less substituted carbon atom of the double bond, generating the more stable radical intermediate, the regioselectivity of radical-chain hydrobromination is opposite to that of ionic addition. The early work on the radical mechanism of addition of hydrogen bromide was undertaken to understand why Maikow-nikofF s rule was violated under certain circumstances. The cause was found to be conditions that initiated the radical-chain process, such as peroxide impurities or light. [Pg.708]

O Paleta, Ionic Addition Reactions of Halomethanes with Fluoroolefins... [Pg.4]

At reflux, tetrahydrafuran slowly adds to terminal perfluoroalkylethylenes, perfluoroalkylacetylenes, and ethyl perfluoroalkylpropynoates [25] (equation 18) By contrast, the ionic addition of enamines to hexaJluoro-2-butyne is exothermic and gives dieneamines that, on acidic hydrolysis, yield fluoroalkenyl ketones [26] (equation 19)... [Pg.762]

The structure of the adducts obtained (addition resulted from homolysis of C-Br bond) is an indirect evidence for radical character of the process. Ionic addition of haloforms is known to occur at C-H bond (ref. 11), this leads to adducts with CX3 group. The highest yield of the adduct with bromoform was obtained for... [Pg.186]

As a side product of this reaction, we regenerate another Br, which can go and react with another alkene. We call this a chain reaction, and the reaction occurs very rapidly. In fact, when peroxides are present (to jump-start this chain process), the reaction occurs much more rapidly than the competing ionic addition of HBr that we saw... [Pg.268]

The stereochemistry of acid-catalyzed hydration is very similar to the stereochemistry of ionic addition of HX (this should make sense, as we have already seen that the mechanisms for each of these reactions are identical). If only one stereocenter is formed, then we expect a pair of enantiomers (racemic mixture), regardless of whether the reaction was anti or syn. You will probably not see an example where two new stereocenters are formed, becanse the stereochemical ontcome in such a case is complex and is beyond the scope of our conversation. [Pg.273]

In the ionic addition of an unsymmetrical reagent to a double bond, the positive portion of the adding reagent attaches itself to a carbon atom of the double bond so as to yield the more stable carbocation as an intermediate. [Pg.327]

Another way for covalent immobilisation is to synthesise indicator chemistry with polymerizable entities such as methacrylate groups (Figure 4). These groups can then be copolymerized with monomers such as hydrophobic methyl methacrylate or hydrophilic acryl amide to give sensor copolymers. In order to obtain self-plasticized materials, methacrylate monomers with long alkyl chains (hexyl or dodecyl methacrylate) can be used. Thus, sensor copolymers are obtained which have a Tg below room temperature. Similarly, ionophores and ionic additives (quaternary ammonium ions and borates) can be derivatised to give methacrylate derivatives. [Pg.307]

The optical sensors are composed of ion-selective carriers (ionophores), pH indicator dyes (chromoionophores), and lipophilic ionic additives dissolved in thin layers of plasticized PVC. Ionophores extract the analyte from the sample solution into the polymer membrane. The extraction process is combined with co-extraction or exchange of a proton in order to maintain electroneutrality within the unpolar polymer membrane. This is optically transduced by a pH indicator dye (chromoionophore)10. [Pg.308]

Table 11. Selective ligand and ionic additive for ion-exchange sensors. Table 11. Selective ligand and ionic additive for ion-exchange sensors.
Solvent polymeric membranes, conventionally prepared from a polymer that is highly plasticized with lipophilic organic esters or ethers, are the scope of the present chapter. Such membranes commonly contain various constituents such as an ionophore (or ion carrier), a highly selective complexing agent, and ionic additives (ion exchangers and lipophilic salts). The variety and chemical versatility of the available membrane components allow one to tune the membrane properties, ensuring the desired analytical characteristics. [Pg.101]

U. Schaller, E. Bakker, U.E. Spichiger, and E. Pretsch, Ionic additives for ion-selective electrodes based on electrically charged carriers. Anal. Chem. 66, 391-398 (1994). [Pg.133]

Chain-reaction mechanisms differ according to the nature of the reactive intermediate in the propagation steps, such as free radicals, ions, or coordination compounds. These give rise to radical-addition polymerization, ionic-addition (cationic or anionic) polymerization, etc. In Example 7-4 below, we use a simple model for radical-addition polymerization. [Pg.166]

The polymerization occurs by ionic addition of OH groups to trifluorovinyl ethers although additions of nucleophiles to fluorinated olefins are well known, few examples of additions to trifluorovinyl ethers have been reported15 and no polymerizations by this method have been described. ... [Pg.53]

Nucleic acids of different molecular mass possess very similar charge density, as mentioned previously, so they are also separated as a function of particle size. A non-ionic additive such as urea is usually used to prevent multimolecular aggregation. [Pg.243]


See other pages where Additive ionic is mentioned: [Pg.278]    [Pg.245]    [Pg.245]    [Pg.1099]    [Pg.1098]    [Pg.1099]    [Pg.239]    [Pg.346]    [Pg.274]    [Pg.269]    [Pg.328]    [Pg.328]    [Pg.360]    [Pg.391]    [Pg.308]    [Pg.211]    [Pg.9]    [Pg.13]    [Pg.595]    [Pg.596]    [Pg.598]    [Pg.600]    [Pg.602]    [Pg.604]    [Pg.606]    [Pg.608]    [Pg.610]    [Pg.612]   
See also in sourсe #XX -- [ Pg.16 ]




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