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Alkylation charge effects

Charge effects may also play an extremely important role in controlling the reactions of co-ordinated amines with electrophilic reagents. This is very clearly seen in the alkylation reactions of nucleophilic sites remote from the metal. On electrostatic grounds we would expect the reaction of positively charged complexes with electrophiles to be less favoured than the reaction of neutral or anionic complexes, and this is indeed the case. Consider the attempted alkylation of the non-co-ordinated isoquinoline rings in the cop-per(n) complexes 5.14 and 5.15. Compound 5.14 is derived from salicylaldehyde and... [Pg.104]

A study by stopped-flow techniques of the rate of solubilization of positively charged acridine (and related) dyes by the micelles of several sodium n-alkyl sulphates was reported by Robinson and co-workers [132]. The solubilization process was relatively slow k = 47.6 s for acridine orange in NaDS) due largely to charge effects and the rate was very dependent on the geometrical shape... [Pg.259]

Especial attention is paid to the dependence of the azide photoactivity (i.e. qnantnm yield of azido group photodissociation) on the size and charge of the heteroaromatic system. Heterocyclic azides have been used as convenient model compounds for the stndy of charge effect, since they can be easily transformed from the neutral to positively charged form by protonation or alkylation at endocyclic nitrogen atoms. [Pg.225]

Thus, the values calculated for effective polarizability at the nitrogen atom for a series of 49 amines carrying only alkyl groups was correlated directly with their proton affinities, a reaction that introduces a positive charge on the nitrogen atom by protonation (Figure 7-7) [40. ... [Pg.334]

Alkyl groups under nonacidic conditions sterically deflect nucleophiles from C, but under acidic conditions this steric effect is to some extent offset by an electronic one the protonated oxirane opens by transition states (Scheme 40) which are even more 5Nl-like than the borderline Sn2 one of the unprotonated oxirane. Thus electronic factors favor cleavage at the more substituted carbon, which can better support a partial positive charge the steric factor is still operative, however, and even under acidic conditions the major product usually results from Cp attack. [Pg.108]

Relationships connecting stmcture and properties of primary alkylamines of normal stmcture C, -C gin chloroform and other solvents with their ability to extract Rh(III) and Ru(III) HCA from chloride solutions have been studied. The out-sphere mechanism of extraction and composition of extracted associates has been ascertained by UV-VIS-, IR-, and H-NMR spectroscopy, saturation method, and analysis of organic phase. Tertiary alkylamines i.e. tri-n-octylamine, tribenzylamine do not extract Ru(III) and Rh(III) HCA. The decrease of radical volume of tertiary alkylamines by changing of two alkyl radicals to methyl make it possible to diminish steric effects and to use tertiary alkylamines with different radicals such as dimethyl-n-dodecylamine which has not been used previously for the extraction of Rh(III), Ru(III) HCA with localized charge. [Pg.257]

One way to explain this similarity is to compare the effect which alkyl groups and H have on the charge distribution in these acids and their conjugate bases. [Pg.55]

In the case of ions, the repulsive interaction can be altered to an attractive interaction if an ion of opposite charge is simultaneously adsorbed. In a solution containing inhibitive anions and cations the adsorption of both ions may be enhanced and the inhibitive efficiency greatly increased compared to solutions of the individual ions. Thus, synergistic inhibitive effects occur in such mixtures of anionic and cationic inhibitors . These synergistic effects are particularly well defined in solutions containing halide ions, I. Br , Cl", with other inhibitors such as quaternary ammonium cations , alkyl benzene pyridinium cations , and various types of amines . It seems likely that co-ordinate-bond interactions also play some part in these synergistic effects, particularly in the interaction of the halide ions with the metal surfaces and with some amines . [Pg.809]

We can imagine the transition state for alkene protonation to be a structure in which one of the alkene carbon atoms has almost completely rehybridized from sp2 to sp- and in which the remaining alkene carbon bears much of the positive charge (Figure 6.16). This transition state is stabilized by hyperconjuga-lion and inductive effects in the same way as the product carbocation. The more alkyl groups that are present, the greater the extent of stabilization and the faster the transition state forms. [Pg.199]

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See also in sourсe #XX -- [ Pg.105 ]



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