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Protonation condensation reactions

Lobaugh J and Voth G A 1994 A path integral study of electronic polarization and nonlinear coupling effects in condensed phase proton transfer reactions J. Chem. Phys. 100 3039... [Pg.898]

Scheme 55) (235. 236). -The product obtained (77) is probably formed via the protonated form of the thiazole, whose reactivity is treated in Section IV, 1. The light-yellow leucobase (77) is reported to be oxidized by PbOj to the red-black carbinol (78) (236). This condensation reaction is also successful when benzaidehyde is replaced by formaldehyde, bis(2-amino-4-phenylthiazolyl-5)methane (79 i beine obtained (Scheme 56) (237). [Pg.45]

Thiazolium derivatives unsubstituted at the 2-position (35) are potentially interesting precursors of A-4-thiazoline-2-thiones and A-4-thiazoline-2-ones. Compound 35 in basic medium undergoes proton abstraction leading to the very active nucleophilic species 36a and 36b (Scheme 16) (43-46). Special interest has been focused upon the reactivity of 36a and 36b because they are considered as the reactive species of the thiamine action in some biochemical reaction, and as catalysts for several condensation reactions (47-50). [Pg.375]

The cyanoacryhc esters are prepared via the Knoevenagel condensation reaction (5), in which the corresponding alkyl cyanoacetate reacts with formaldehyde in the presence of a basic catalyst to form a low molecular weight polymer. The polymer slurry is acidified and the water is removed. Subsequendy, the polymer is cracked and redistilled at a high temperature onto a suitable stabilizer combination to prevent premature repolymerization. Strong protonic or Lewis acids are normally used in combination with small amounts of a free-radical stabilizer. [Pg.178]

Inductive and resonance stabilization of carbanions derived by proton abstraction from alkyl substituents a to the ring nitrogen in pyrazines and quinoxalines confers a degree of stability on these species comparable with that observed with enolate anions. The resultant carbanions undergo typical condensation reactions with a variety of electrophilic reagents such as aldehydes, ketones, nitriles, diazonium salts, etc., which makes them of considerable preparative importance. [Pg.166]

Chemists have estabhshed that a Dieckmann condensation will not succeed unless the final keto-ester product is deprotonated by a base. In our example, this would be a reaction between EtO" and the keto-ester (it is necessary, therefore, to use excess EtO ). What reaction products are generated by this proton transfer Obtain the energies of the reactants and products, and calculate the energy for this final proton transfer. Is this reaction thermodynamically favorable or unfavorable Does this step make the overall condensation reaction favorable or unfavorable ... [Pg.172]

Tire mechanism of the Claisen condensation is similar to that of the aldol condensation and involves the nucleophilic addition of an ester enolate ion to the carbonyl group of a second ester molecule. The only difference between the aldol condensation of an aldeiwde or ketone and the Claisen condensation of an ester involves the fate of the initially formed tetrahedral intermediate. The tetrahedral intermediate in the aldol reaction is protonated to give an alcohol product—exactly the behavior previously seen for aldehydes and ketones (Section 19.4). The tetrahedral intermediate in the Claisen reaction, however, expels an alkoxide leaving group to yield an acyl substitution product—exactly the behavior previously seen for esters (Section 21.6). The mechanism of the Claisen condensation reaction is shown in Figure 23.5. [Pg.888]

However, on heating to about 200°C, a thermodynamically more favorable reaction takes place. The proton transfer is reversed, and the amine acts as a nucleophile as it attacks the carbon atom of the carboxyl group in a condensation reaction ... [Pg.880]

A low ion pair yield of products resulting from hydride transfer reactions is also noted when the additive molecules are unsaturated. Table I indicates, however, that hydride transfer reactions between alkyl ions and olefins do occur to some extent. The reduced yield can be accounted for by the occurrence of two additional reactions between alkyl ions and unsaturated hydrocarbon molecules—namely, proton transfer and condensation reactions, both of which will be discussed later. The total reaction rate of an ion with an olefin is much higher than reaction with a saturated molecule of comparable size. For example, the propyl ion reacts with cyclopentene and cyclohexene at rates which are, respectively, 3.05 and 3.07 times greater than the rate of hydride transfer with cyclobutane. This observation can probably be accounted for by a higher collision cross-section and /or a transmission coefficient for reaction which is close to unity. [Pg.274]

In nonpolar solvents, for example alcohols, the hydroxyls of the support can also be used to anchor alkoxy compounds to the surface in a condensation reaction, in which one alkoxy ligand reacts with the proton of the surface OH to give the corresponding alcohol, and the complex binds to the support. An example is the anchoring of zirconium ethoxide, Zr(OC2H5)4, to silica by means of the reaction... [Pg.197]

The results indicate that in homogenous medium it is not possible to reach high guaiacol conversion. Under the conditions which are necessary to activate formaldehyde, the condensation reaction between vanillols or between p-vanillol and guaiacol is very quick. This is likely due to the high stability of the benzyl carbocation which forms by protonation of the hydroxymethyl group on p-vanillol [8],... [Pg.359]

The effects of transfer of atoms by tunneling may play an essential role in a number of phenomena involving the transfer of atoms and atomic groups in the condensed phase. One may expect that these effects may exist not only in the proton transfer reactions considered above but also in such processes as the diffusion of hydrogen atoms and other light ions (e.g., Li+) in liquids, tunnel inversion and isomerization in some molecules, quantum diffusion of defects and light atoms in the electrode at cathodic incorporation of the ions, ion transfer across the liquid/solid interface, and low-temperature chemical reactions. [Pg.142]

Protonation, Oligomerization, and Condensation Reactions of Vanadate(V), Molybdate(VI), and Tungstate(VI)... [Pg.651]

PROTONATION, OLIGOMERIZATION, AND CONDENSATION REACTIONS OF VANADATE(V), MOLYBDATE(VI), AND TUNGSTATE(VI)... [Pg.127]

The molybdate ion, [Mo04]2 , is a weaker base than [V04]3 and protonation starts at pH s7. Acidification of molybdate leads to protonation and condensation reactions. At very low molybdate concentration (<10 4M) mononuclear species predominate. The protonation equilibria of the mononuclear species can be represented by the equations... [Pg.143]

Like the piperidones, a wide variety of TV-heterocyclic aromatic compounds show an ability to activate electrophilic functional groups. It is known that acetophenone is completely protonated in CF3SO3H, however in the presence of benzene there is no hydroxyalkylation (condensation) reaction.12 On the other... [Pg.161]

See other pages where Protonation condensation reactions is mentioned: [Pg.44]    [Pg.666]    [Pg.44]    [Pg.666]    [Pg.894]    [Pg.895]    [Pg.14]    [Pg.258]    [Pg.310]    [Pg.471]    [Pg.90]    [Pg.7]    [Pg.147]    [Pg.86]    [Pg.127]    [Pg.117]    [Pg.317]    [Pg.223]    [Pg.292]    [Pg.178]    [Pg.242]    [Pg.209]    [Pg.346]    [Pg.129]    [Pg.135]    [Pg.155]    [Pg.161]    [Pg.169]    [Pg.179]    [Pg.181]    [Pg.669]   
See also in sourсe #XX -- [ Pg.432 , Pg.433 ]



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