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Associative mechanism examples

Thermal reaction techniques enable a quantification of the influence of solvation on reactivities.1,2,19 One particular reaction which is a good example of how solvation can affect the nature of a core ion reaction site comes from a study118 of the interaction of OH with C02. The gas-phase reaction between the individual species is quite exothermic and can only take place by a three-body association mechanism. The reaction proceeds very slowly in the liquid phase and has been calculated119 to have a barrier of about 13 kcal mol-1. In biological systems, the reaction rate is enhanced by about 4 orders of magnitude through the enzyme carbonic anhydrase. Recent studies carried out in our laboratory provide detailed... [Pg.216]

See Section IV.B.2 above for a recent example of the balance between dissociative (D) and associative mechanisms, in the case of ring opening of platinum(II) chelates of hemi-labile ligands. [Pg.103]

Such conclusions have been initially regarded with reluctance by some experimentalists [40], Despite its potential interest, the new alternative does not fit the large body of experimental observations available so far. As pointed out by Fischer and Hofmann [40], kinetic studies are not consistent with the associative mechanism and are clearly in favor of a dissociative path. However, in a recent kinetic study, Waters, Bos, and Wulff (WBW) [41] have provided the first example of a bimolecular reaction of a... [Pg.277]

These parameters often parallel one another since they are related to similar characteristic of the system (ehange in number of particles involved in the reaction etc.). The catalyzed hydrolysis of CrjO by a number of bases is interpreted in terms of a bimolecular mechanism, and both AS and AK values are negative. In contrast the aquation of Co(NH2CH3)5L (L = neutral ligands) is attended by positive AS and AK values. The steric acceleration noted for these complexes (when compared with the rates for the ammonia analogs) is attributed to an mechanism.There is a remarkably linear AK vs AS plot for racemization and geometric isomerization of octahedral complexes when dissociative or associative mechanisms prevail, but not when twist mechanisms are operative (Fig. 2.15). For other examples of parallel AS and AF values, see Refs. 103 and 181. In general AK is usually the more easily understandable, calculable and accurate parameter and AK is... [Pg.109]

Solvolysis studies of meta- and para-substituted phenyl phosphates (240) in anhydrous Bu OH and in Am OH have revealed that generally reactions of dianions are much faster in alcohols than in water. For example, the dianion of p-nitrophenyl phosphate (240 X = 4-NO2) reacts 7500- and 8750-fold faster in Bu OH and Am OH, respectively, than in water." The results of a theoretical study of the reactivity of phosphate monoester anions in aqueous solution do not support the generally accepted view that Brpnsted coefficients fhg = —1.23 and jSnuc = 0.13 determined more than 30 years ago for the uncatalysed reaction of water and a monophosphate dianion (241) represent conclusive evidence for the dissociative mechanism. It is suggested that, instead, the observed LFERs could correspond to a late transition state in the associative mechanism." ... [Pg.79]

The input file for Example 8 is ex8.inp and has the associated mechanism meccm.cb4, actinic fluxes as zen.cb4 and reac.cb4. CB4 (or CBIV) stands for carbon bond mechanism, version 4. A species list is found in Table 16.2. [Pg.947]

In hydrocarbon solvents it is known that most of the growing chains are associated and it is necessary to enquire what effect this has on the copolymerization mechanism. The reactivity ratios measured from copolymer composition are unaffected because they refer to a common ion-pair. The equilibrium constants for association cancel and the reactivity ratios measured give a true measure of the relative propagation constants of the two monomers. No assessment can be made of the real reactivity of two types of active chain with the same monomer, however. In this case the observed rates are a function of the relative reactivities of the free ion-pairs and also of the relative extents of association. For example in hydrocarbon solvents polystyryllithium reacts with butadiene much more rapidly than does polybutadienyllithium. Until we know the two equilibrium constants for self-association we cannot find out if the increased rate is due to greater intrinsic reactivity or to a higher concentration of free polystyryllithium. In polar solvents or in hydrocarbon solvents in the presence of small amounts of ethers, these difficulties do not arise as self-association is no longer important. [Pg.96]

The reaction of propylene on ZrC>2 exhibits the same characteristics as on other oxides. Propane-d2, for example, is selectively formed in the deuteration process, with no hydrogen exchange in propylene215. New features appear, however, when zirconia is dispersed on other oxides (alumina, silica, titania)215,216. A considerable rate increase is observed and exchange in propylene proceeds simultaneously with addition via the associative mechanism through the common intermediate n-propyl and s-propyl species. [Pg.864]

The resolution of racemic compounds through the formation of reversible diastereomer complexes is certainly an example of the generation of chirality upon association of an achiral solute (the racemate to be resolved) and a chiral solute (the resolving agent). Such interactions are normally considered solely from the separations point of view [11], and only rarely is CD used to follow the association mechanism. It is evident, however, that the spectroscopic method would be of great value to characterize the associated species. [Pg.310]

Because most papers in this field deal in some way or another with the increased kinetic stability (toward an associative mechanism) of supra-Cp complexes, we discuss only some of the more spectacular and quantitative examples of this effect. [Pg.319]

Exchange of CN- with [Mn(CN)6]3- in water is very fast, and there are indications22 of an associative mechanism involving [Mn(CN)6H20]3-. Aqueous perchloric acid solutions often precipitate Mn(CN)3-wH20,574 which is another example of disproportionation of Mn1", being formulated as Mn Mn CN -nKjO (Section 41.5.1). [Pg.83]

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See also in sourсe #XX -- [ Pg.55 ]



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