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Azines aromatic, nucleophilic

It is quite reasonable to expect the bimolecular two-stage mechanism Sj Ar ) to predominate in most aromatic nucleophilic substitutions of activated substrates. However, only in rare instances is there adequate evidence to rule out the simultaneous occurrence or predominance of other mechanisms. The true significance of the alternative mechanisms in azines needs to be determined by trapping the intermediates or by applying modem separation and characterization methods to the identification of at least the major portion of the products, especially in kinetic studies. [Pg.152]

There are conflicting generalizations in the heterocyclic literature as to the relative reactivity of a- and y-positions in azines toward nucleophiles. Variations in the relative reactivity are attributed in this and subsequent sections to specific factors operating in addition to activation by azine-nitrogen. Another possible source of variation may be a decrease in selectivity with increasing reactivity of one or both reagents, an effect established in electrophilic aromatic... [Pg.177]

The SifAr2 Mechanism in Azines The theoretical objections to the synchronous, one-stage bimole-cular mechanism of aromatic nucleophilic substitution are reviewed in Section I,C,4. The two-stage mechanism is illustrated by the... [Pg.166]

Asymmetric reactions of a series of aromatic azines with nucleophiles 12H(86)821. [Pg.205]

One significant difference between nitrocarboaromatics and aromatic azines is the tendency of the activating center of the latter to react with electrophiles or compounds capable of hydrogen bonding, thereby accelerating nucleophilic substitution. [Pg.183]

The effects of the nucleophile on aromatic substitution which are pertinent to our main theme of relative reactivity of azine rings and of ring-positions are brought together here. The influence of a nucleophile on relative positional reactivity can arise from its characteristics alone or from its interaction with the ring or with ring-substituents. The effect of different nucleophiles on the rates of reaction of a single substrate has been discussed in terms of polarizability, basicity, alpha effect (lone-pair on the atom adjacent to the nucleophilic atom), and solvation in several reviews and papers. ... [Pg.256]

As the size of the nucleophile increases, reaction adjacent to a solvated azine-nitrogen or to a quatemized ring-nitrogen will be sterically hindered. The very large decelerative effect o > of solvation of the nucleophile in aromatic substitution is mentioned in Section I, D, 2, d. [Pg.260]

Specific alterations of the relative reactivity due to hydrogen bonding in the transition state or to a cyclic transition state or to electrostatic attraction in quaternary compounds or protonated azines are included below (cf. also Sections II, B, 3 II, B, 5 II, C and II, F). A-Protonation is often reflected in an increase in JS and therefore the relative reactivity can vary with the significance of JS in controlling the reaction rate. Variation can also result from rate determination by the second stage of the SjjAr2 mechanism or from the intervention of thermodynamic control of product formation. Variation in the rate and in the reactivity pattern of polyazanaph-thalenes will result when nucleophilic substitution [Eq. (10)] occurs only on a covalent adduct (408) of the substrate rather than on its aromatic form (400). This covalent addition is prevented by any 4-... [Pg.362]

Reaction of nucleophiles with the polarized N=C bond of azines proceeds via dearomatization and formation of the corresponding 1,2-adduct. With alkyllithiums, for example, it is possible to isolate the dihydro products by careful neutralization of the reaction mixtures these are, in general, rather unstable, however, and can easily be reoxidized to the fully aromatic compounds (Scheme 4). The dihydro adducts formed in these direct nucleophilic addition reactions can also be utilized for the introduction of substituent groups /3 to the heteroatom. Thus, reaction of (35) with one of a number of electrophiles, followed by oxidation of the intermediate dihydro product, constitutes a simple and, in many cases, effective method for the introduction of substituent groups at both the 2- and 5-positions of the pyridine ring (Scheme 4). Use of LAH in this sequence, of course, results in the formation of 3-substituted pyridines. [Pg.38]

Addition and cyclization reactions of imines, catalysed by IS r0 ns led acids, have been reviewed, including examples in water solvent and enantioselective cases.65 Another review examines stereoselective nucleophilic additions to the C=N bond of aromatic azines (60 references).66 (g)... [Pg.10]

Thiazolo[3,2-a]pyridines and their higher azine analogues are normally resistant to opening of the thiazole ring because of aromatic stabilization. 2,3-Dihydrothiazolo derivatives, however, have properties reminiscent of alkyl thioethers in an activated azine position therefore they may be vulnerable to nucleophilic ring openings as illustrated with the fused... [Pg.701]

See other pages where Azines aromatic, nucleophilic is mentioned: [Pg.166]    [Pg.202]    [Pg.215]    [Pg.177]    [Pg.202]    [Pg.215]    [Pg.202]    [Pg.215]    [Pg.543]    [Pg.92]    [Pg.110]    [Pg.354]    [Pg.147]    [Pg.148]    [Pg.148]    [Pg.150]    [Pg.165]    [Pg.169]    [Pg.260]    [Pg.306]    [Pg.320]    [Pg.300]    [Pg.310]    [Pg.343]    [Pg.390]    [Pg.621]    [Pg.623]    [Pg.630]    [Pg.682]   


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Aromatic nucleophiles

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