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Hammett Induction effects

One underlying physical basis for the failure of Hammett reaction series is that substituent interactions are some mixture of resonance, field, and inductive effects. When direct resonance interaction is possible, the extent of the resonance increases, and the substituent constants appropriate to the normal mix of resonance and field effects then fail. There have been many attempts to develop sets of a values that take into account extra resonance interactions. [Pg.210]

Xrx is a parameter characterizing the homologous series RX. The values of /j,r are direct measures of the polar inductive effects of alkyl groups relative to that of methyl and correlate well with Taft s a values. Substituent-induced IP shifts can thus be handled by linear free energy relationships (LFER) of the Hammett pcr-type. [Pg.169]

This has been developed since 1986. The title letters stand for Localized Delocalized Response. The localized effect is Charton s preferred name for the inductive effect and delocalized effect is his preferred name for the resonance effect. Indeed, he would like to change the usual symbols from <7/ to 0/, and or to op for the purposes of the Extended Hammett (EH or LD) equation109. The response referred to is that of the substituent to the electronic demand of the site (i.e. reaction site in the correlation analysis of reactivity). Thus this equation, like the PSP equation, is concerned with the parametrization of substituent polarizability. [Pg.524]

The Hammett equation has been further extended to include substituents of aliphatic systems too. In this case the constants that quantify the inductive effects, which are represented as o, have different values compared to those concerned with aromatic systems and are defined as Taft constants. Some values of these latter are also reported in Table 1. [Pg.580]

It has been found that the chemical shift of the benzylidene carbon, Sct, in ring-substituted benzaldoximes (Scheme 2) correlates well with Hammett a constants. On the other hand, it is known that the chemical shift of that atom in the NMR spectra of benzaldoximes depends mainly on the substituents inductive effect and its resonance effect is of reduced importance. Multiparameter correlations of Scr with the inductive and resonance substituents constants are of better quality. It is known that the chemical shifts of para-substituted benzaldoximes are linearly dependent on Hammett a constants. Correlations between the NMR chemical shifts of the oximino oxygen and a, a and aj substituent constants for substituted benzaldoximes are poor. These results show that coplanarity of Ar—CH=NOH creates difficulties in transmission of the substituents effect, especially the resonance effect, to the CH=NOH group. ... [Pg.102]

The DSP approach nicely answers the controversial question about which substituent parameters should be employed to correlate pKa data for 4-substituted pyridinium ions. Statistically, the best correlation is given by Eq. (9), which has values to measure the resonance contribution of a substituent, a result in keeping with chemical intuition. This correlation is statistically superior to a Hammett treatment, where both resonance and inductive effects of a group are combined into a single parameter, p or ap.53,54 Moreover, now it is possible to rationalize why a simple Hammett treatment using ap works so well. Equation (9) reveals that the protonation equilibrium is much more sensitive to an inductive effect (p, — 5.15) than to a resonance effect (p = 2.69). Hence, substituent parameters, such as erp, which are derived from a consideration of the dissociation constants for benzoic acids where resonance contributions are small serve as a useful approximation. The inductive effect is said to have a larger influence on pKa values for pyridinium ions than for benzoic acids because the distance between the substituent and the reactive site is shorter in the pyridine series.53... [Pg.81]

Acidity data for 2-substituted pyridinium ions may be correlated using a Hammett equation and am values. Although it is not obvious that am parameters ought to be applied to a reaction series in which a substituent and the reactive site are in an ortho relationship, the correlation clearly shows that inductive effects have an important influence on acidities. [Pg.82]

The use of different kinds of substituent constants complicates the application of the Hammett equation and over 20 different sets of o values have been proposed. A simplification is the representation of substituent constants as linear combinations of two terms, one representing "field" or "inductive" effects and the other resonance effects.6/f... [Pg.309]

The Hammett cr-values contain contributions from both inductive/field effects and the resonance effect. The cr-constant can be separated quantitatively into a resonance component R, which operates mainly in the para position, and an inductive component F, which is assumed to be equal in the meta and para positions. Hansch, Leo and Taft11 have calculated the F and R values of Me3Si to be 0.01 and —0.08, respectively, as quoted in Table 1. These values seem somewhat at odds with experimentally determined values12-18 for the inductive and resonance parameters, which give mean values of —0.08 and 0.06, respectively. These values confirm the generally accepted view that MesSi is electron-supplying by inductive effects and electron-withdrawing by resonance effects. [Pg.361]

Hammett s success in treating the electronic effect of substituents on the equilibria rates of organic reactions led Taft to apply the same principles to steric, inductive, and resonance effects. The Hammett o constants appear to be made up primarily of two electronic vectors field-inductive effect and resonance effect. For substituents on saturated systems, such as aliphatic compounds, the resonance effect is rarely a factor, so the o form the benzoic acid systems is not applicable. Taft extended Hammett s idea to aliphatics by introducing a steric parameter ( .). He assumed that for the hydrolysis of esters, steric and resonance effects will be the same whether the hydrolysis is catalyzed by acid or base. Rate differences would be caused only by the field-inductive effects of R and R in esters of the general formula (XCOOR), where X is the substituent being evaluated and R is held constant. Field effects of substituents X could be determined by measuring the rates of acid and base catalysis of a series XCOOR. From these rate constants, a value a could be determined by Equation (5.9) ... [Pg.147]

Attempts were early made to explain the relative acidities of ammonium and methyl-substituted ammonium ions (Brown, 1946 Hammett, 1940 Palit, 1947). The order of decreasing acid strength in water at 25°C is NH4+ > Me3NH+ > MeN H3+ % Me2N H2+, an order which obviously cannot be rationalized on the basis of inductive effects. There were two difficulties with the explanations given for this order. First, there is nothing magic about the temperature 25° and comparisons at other temperatures lead to inversions of the order at 25°. Second, the specific effect of the solvent was not taken into account. Since there is... [Pg.14]

Hammett s equation (Hammett, 1940) correlates the rate of reactions with the electronic nature of the substituent in aromatic compounds. The Hammett a constants characterize the conjugation eifect and the inductive effect of the substituent for side-chain reactions. [Pg.191]

We are left with the problem of substituent effects that do not depend on direct mesomeric interactions between the substituent and the reaction center. Effects of this kind can arise in one of two ways. First, the bond between the substituent and the substrate may be polar, and there may also be polar bonds or charged atoms in the substituent itself the charges set up in this way can influence the reaction center either by altering the effective electronegativity of atoms connected with it (inductive effect) or by direct electrostatic interaction across space (field effect). Secondly, the substituent may be attached to a conjugated system which does not itself take part in the reaction, the case exemplified by the Hammett equation (Eq. (105)) here it... [Pg.100]

Table 4.5 Examples of the different electronic substitution constants used in QSAR studies. Inductive substituent constants (crO are the contribution the inductive effect makes to Hammett constants and can be used for aliphatic compounds. Taft substitution constants (cr ) refer to aliphatic substituents but use propanoic acid (the 2-methyl derivative of ethanoic acid) as the reference point. The Swain-Lupton constants represent the contributions due to the inductive (.F) and mesomeric or resonance (R) components of Hammett constants. Adapted from An Introduction to the Principles of Drug Design and Action by Smith and Williams 3rd Ed. (1998) Ed. H.J.Smith. Reproduced by permission of Harwood Academic Publishers. Table 4.5 Examples of the different electronic substitution constants used in QSAR studies. Inductive substituent constants (crO are the contribution the inductive effect makes to Hammett constants and can be used for aliphatic compounds. Taft substitution constants (cr ) refer to aliphatic substituents but use propanoic acid (the 2-methyl derivative of ethanoic acid) as the reference point. The Swain-Lupton constants represent the contributions due to the inductive (.F) and mesomeric or resonance (R) components of Hammett constants. Adapted from An Introduction to the Principles of Drug Design and Action by Smith and Williams 3rd Ed. (1998) Ed. H.J.Smith. Reproduced by permission of Harwood Academic Publishers.
Triplet state hydrogen abstraction by substituted benzophenones, all of which have n,n lowest triplets, reveals that ring substituents exert very little effect on reactivity. A Hammett a— q plot indicates a q value of only 0.8 — i.e., a twofold rate reduction for a -methoxy, a three-fold increase for p—CN 66>. The direction of this inductive effect is easily understandable in terms of the simplest model for an n n excitation 2>. Loss of an n electron makes the oxygen somewhat electron deficient. [Pg.17]

Strongly associated with resonance and inductive effects are the correlations with the Hammett equation which have been extended to mass-spectrometric processes and are discussed later (Section VIIB). [Pg.223]


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See also in sourсe #XX -- [ Pg.889 ]




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