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Subject ortho-effect

Methyl-substituted nitrodiazoles (nitropyrazoles and nitroimidazoles) in which the substituents occupy adjacent positions in the cycle are subject to several ortho effects [1283, 1284], The latest are useful in structure determination and isomer recognition of compounds. These effects are attributed to interaction of the substituents only. As a result, in some cases loss of OH and H20 [1283], and CHO and CH20 [1284] is observed. The way by which loss of H20 in 3(5)-nitro-4-meth-ylpyrazole occurs is shown in Scheme 3.52 [1283] ... [Pg.334]

The effect substitution on the phenolic ring has on activity has been the subject of several studies (11—13). Hindering the phenolic hydroxyl group with at least one bulky alkyl group ia the ortho position appears necessary for high antioxidant activity. Neatly all commercial antioxidants are hindered ia this manner. Steric hindrance decreases the ability of a phenoxyl radical to abstract a hydrogen atom from the substrate and thus produces an alkyl radical (14) capable of initiating oxidation (eq. 18). [Pg.224]

Many other definitions of an ortho substituent constant have been made Shorter has reviewed these. Charton analyzed Oo in terms of Oi and CTr, i.e., = a(Ti -I- fpoR, finding that the distribution of inductive and resonance effects (the ratio a/b) varies widely with the substituent and, therefore, that no general Oo scale is possible. Charton also subjected to analysis according to Eq. (7-47),... [Pg.336]

In the 1870s more effective liquid cement-formers were found ortho-phosphoric acid and eugenol (Wilson, 1978). It was also found that an aluminosilicate glass could replace zinc oxide, a discovery which led to the first translucent cement. Thereafter the subject stagnated until the late 1960s when the polyelectrolyte cements were discovered by Smith (1968) and Wilson Kent (1971). [Pg.2]

We examined the effect of restricted conformation on the activation entropy by kinetic studies at various temperatures [34]. Three kinds of substrates were subjected to the reaction phenylmalonic acid as the standard compound, ortho-chlorophenylmalonic acid as a substrate with an electron-withdrawing group, and indane-l,l-dicarboxylic acid as a conformationally restricted compound. The initial rates of the enzymatic decarboxylation reaction of three compounds were measured at several substrate concentrations at 15 °C, 25 °C, and 35 °C. The kcat and values at each temperature were obtained by a Lineweaver-Burk plot,... [Pg.28]

Thus, ketone enolates easily substitute chlorine in position 2 of the electrophilic nucleus of pyrazine (1,4-diazabenzene), and even in the dark, the reaction proceeds via the Sj l mechanism (Carver et al. 1981). It is expected that the introduction of the second chlorine in the ortho position to 4-nitrogen in the electrophilic nucleus of pyrazine promotes the ion-radical pathway even more effectively. However, 2,6-dichloropyrazine in the dark or subjected to light reacts with the same nucleophiles by Sr.,2 and not S nI mechanism (Carver et al. 1983). The authors are of the opinion that two halogens in the pyrazine cycle facilitate the formation of a-complex to the extent that deha-logenation of anion-radicals in solution and a subsequent nucleophilic attack of free pyrazine radical become virtually impossible. Thus, the reaction may either involve or exclude the intermediate a-complex, and only special identification experiments can tell which is the true one. [Pg.223]

The values of log ofe are plotted against 8t in Fig. 9. Substituent influences in the ortho position have been traditionally regarded as subject to the complexities of the simultaneous involvement of electrical and steric effects. This view is amply confirmed by the great scatter exhibited in the figure. In recent years, however, the relative significance of the electrical and steric factors has received more attention. [Pg.56]

The protons ortho and para to the nitro groups are subject to downfield shifts attributable to mesomeric effects ortho protons also experience a large proximity effect resulting in further deshielding. [Pg.293]

A similar substitution on anilines causes the reverse effect. Nitro groups in ortho position either in the isocyanate or the aniline lower the reactivity by steric hindrance. These authors also reported that the reaction is subject to catalysis by pyridine, tertiary bases, and certain carboxylic acids but is unaffected by water, inorganic acids, bases, or salts. Relative rates for the reactions of some primary aliphatic amines with phenyl isocyanates have been determined by Davis and Ebersole (52). [Pg.432]

We cannot, then, expect this approach to understanding chemical reactivity to explain everything. We should bear in mind its limitations, particularly when dealing with subjects like ortho/para ratios in aromatic electrophilic substitution, where steric effects are well known to be important. Likewise solvent effects (which usually make themselves felt in the entropy of activation term) are also well known to be part of the explanation of the principal of hard and soft acids and bases. Some mention of all these factors will be made again in the course of this book. Arguments based on the interaction of frontier orbitals are powerful, as we shall see, but they must not be taken so far that we forget these very important limitations. [Pg.32]

The oxidation of substituted benzaldehydes by xanthine oxidase is sterically hindered by bulky substituents at the ortho (o) position (Table 3.5) [167], Increasing the size of the halo-substituent dramatically decreases the oxidation of the o-substituted compound, whereas that of the p-halobenzaldehyde increases due to the increased inductive effect. The positional specificity was not due to electronic effects, because the oxidation rate was also decreased with electron-donating o-substituents. Although the substrates of aldehyde oxidase have not been so rigourously examined, the enzyme does appear to be subject to similar steric considerations, as o-chloro- and o-nitrobenzaldehyde are oxidized at much lower rates than benzaldehyde itself [33]. [Pg.104]

The amount of ortho product decreases as the size (steric bulk) of the alkyl group increases, indicating that the bromination reaction is somewhat subject to steric effects. [Pg.273]

See other pages where Subject ortho-effect is mentioned: [Pg.116]    [Pg.498]    [Pg.50]    [Pg.322]    [Pg.793]    [Pg.502]    [Pg.502]    [Pg.17]    [Pg.498]    [Pg.317]    [Pg.208]    [Pg.23]    [Pg.198]    [Pg.200]    [Pg.143]    [Pg.267]    [Pg.50]    [Pg.133]    [Pg.333]    [Pg.47]    [Pg.280]    [Pg.83]    [Pg.12]    [Pg.853]    [Pg.267]    [Pg.342]    [Pg.91]    [Pg.354]    [Pg.202]    [Pg.371]    [Pg.110]    [Pg.369]    [Pg.600]    [Pg.203]    [Pg.57]    [Pg.141]    [Pg.990]   
See also in sourсe #XX -- [ Pg.10 , Pg.99 , Pg.337 ]



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Effective 388 Subject

Ortho effect

SUBJECTS effects

Subjective effects

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