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Polymerization Lewis acids effect

Lewis acid effects 435 1UPAC recommendations copolymer depiction 335 living polymerization 452 polymer structure 2... [Pg.615]

Friedel-Crafts (Lewis) acids have been shown to be much more effective in the initiation of cationic polymerization when in the presence of a cocatalyst such as water, alkyl haUdes, and protic acids. Virtually all feedstocks used in the synthesis of hydrocarbon resins contain at least traces of water, which serves as a cocatalyst. The accepted mechanism for the activation of boron trifluoride in the presence of water is shown in equation 1 (10). Other Lewis acids are activated by similar mechanisms. In a more general sense, water may be replaced by any appropriate electron-donating species (eg, ether, alcohol, alkyl haUde) to generate a cationic intermediate and a Lewis acid complex counterion. [Pg.351]

An extremely wide variety of catalysts, Lewis acids, Brmnsted acids, metal oxides, molecular sieves, dispersed sodium and potassium, and light, are effective (Table 5). Generally, acidic catalysts are required for skeletal isomerization and reaction is accompanied by polymerization, cracking, and hydrogen transfer, typical of carbenium ion iatermediates. Double-bond shift is accompHshed with high selectivity by the basic and metallic catalysts. [Pg.365]

Further discussion on the effects of the reaction media and Lewis acids on lacticily appears in Section 7.2. Attempts to control laciicily by template polymerization and by enzyme mediated polymerization are described in Section 7.3. Devising effective means for achieving stereochemical control over propagation in radical polymerization remains an important challenge in the field. [Pg.176]

Table 8.6. Effect of Lewis Acids on Taciicity of Polymers Formed in High Conversion Radical Polymerizations at 60 °C... Table 8.6. Effect of Lewis Acids on Taciicity of Polymers Formed in High Conversion Radical Polymerizations at 60 °C...
Transition-metal-based Lewis acids such as molybdenum and tungsten nitro-syl complexes have been found to be active catalysts [49]. The ruthenium-based catalyst 50 (Figure 3.6) is very effective for cycloadditions with aldehyde- and ketone-bearing dienophiles but is ineffective for a,)S-unsaturated esters [50]. It can be handled without special precautions since it is stable in air, does not require dry solvents and does not cause polymerization of the substrates. Nitromethane was the most convenient organic solvent the reaction can also be carried out in water. [Pg.114]

Table II. Effect of Lewis acid Nd compound molar ratio on molecular-weight distribution. Polymerization conditions butadiene concentration, 10 wt % in cyclohexane catalyst concentration, 7.5 X 10 5 mol/1 molar ratio Nd(vers)3, Et3AI2Cl3, AlEt3 is 1 X 30 polymerization time 2 h, and 60°C. Table II. Effect of Lewis acid Nd compound molar ratio on molecular-weight distribution. Polymerization conditions butadiene concentration, 10 wt % in cyclohexane catalyst concentration, 7.5 X 10 5 mol/1 molar ratio Nd(vers)3, Et3AI2Cl3, AlEt3 is 1 X 30 polymerization time 2 h, and 60°C.
Usually the stronger acids are also the more effective co-catalysts, but exceptions to this rule are known. Trichloroacetic acid, but not the equally strong picric acid, will co-catalyze the system isobutene-titanium tetrachloride in hexane.2 8 Some Lewis acid-olefin systems will not polymerize at all in the absence of a co-catalyst, an example being isobutene with boron trifluoride.2 4 This fact, together with the markedly slower reaction usual with carefully dried materials, has nourished the current suspicion that a co-catalyst may be necessary in every Lewis acid-olefin polymerization. It is very difficult to eliminate small traces of water which could act as a co-catalyst or generate mineral acid, and it may well be that the reactions which are slower when drier would not go at all if they could be made completely dry. [Pg.153]

Anything that breaks the chain by converting the active chain-carrying species into an ordinary uncreactive molecule inhibits the reaction, and since the chains are often long an inhibitor may be effective in very small traces. The chain-starting catalysts may also be effective in very small amounts provided that no inhibitor is also present. The fact that a reaction is a chain reaction sensitive to small amounts of catalysts and inhibitors does not necesssarily mean that it is a radical chain, but the nature of the substances effective as catalysts or inhibitors will usually differentiate a radical chain from an ionic one. An example of an ionic chain reaction is the polymerization of an olefin-Lewis acid system when water is added as a co-catalyst. Water is so very effective that it is suspected that the polymerization observed in some cases with the driest obtainable reaction mixtures is due to the presence of minute and unavoidable amounts of water. [Pg.248]

In anionic polymerization, the initiators are either Bronsted or Lewis acids. In Bronsted acid, H+ is the effective catalyst while in Lewis, co-catalyst is involved to give catalytically active species, e.g. [Pg.130]


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See also in sourсe #XX -- [ Pg.473 ]




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