Aromaticity rationalization

In this initial section the reactivities of the major types of azole aromatic rings are briefly considered in comparison with those which would be expected on the basis of electronic theory, and the reactions of these heteroaromatic systems are compared among themselves and with similar reactions of aliphatic and benzenoid compounds. Later in this chapter all the reactions are reconsidered in more detail. It is postulated that the reactions of azoles can only be rationalized and understood with reference to the complex tautomeric and acid-base equilibria shown by these systems. Tautomeric equilibria are discussed in Chapter 4.01. Acid-base equilibria are considered in Section 4.02.1.3 of the present chapter. 

Mechanistically the observed stereospecificity can be rationalized by a concerted, pericyclic reaction. In a one-step cycloaddition reaction the dienophile 8 adds 1,4 to the diene 7 via a six-membered cyclic, aromatic transition state 9, where three r-bonds are broken and one jr- and two cr-bonds are formed. The arrangement of the substituents relative to each other at the stereogenic centers of the reactants is retained in the product 10, as a result of the stereospecific y -addition. 

Activity is apparently retained when the aromatic amino group is deleted. Brominadon of acid 148 followed by reaction of the product (149), as its acid chloride, with the (S)-(-)-amino-methylpyrrolidine 150, gives the dopamine antagonist, remoxipride (151) [37] with (S)-configu-ration. 

With comprehensive GC, we can now choose a rational set of columns that should be able to tune the separation. If we accept that each column has an approximate isovolatility property at the time when solutes are transferred from one column to the other, then separation on the second column will largely arise due to the selective phase interactions. We need only then select a second column that is able to resolve the compound classes of interest, such as a phase that separates aromatic from aliphatic compounds. If it can also separate normal and isoalkanes from cyclic alkanes, then we should be able to achieve second-dimension resolution of all major classes of compounds in petroleum samples. A useful column set is a low polarity 5 % phenyl polysiloxane first column, coupled to a higher phenyl-substituted polysiloxane, such as a 50 % phenyl-type phase. The latter column has the ability to selectively retain aromatic components. 

Numerous reactions have been described in which the oxygen of the oxepin system is removed to give benzene derivatives. The formation of the aromatic products can be rationalized by an arene oxide as intermediate. A suitable reagent for the elimination of an oxygen atom from this heterocycle is triphenylphosphane, e.g. formation of l,24 2a,12 and 2b.1,9... 

When the aromatic group of the sulfoxide is replaced by a heteroaromatic group (e.g., N-methylimidazole), the internal coordination between Li—N to form a five-membered metallocycle apparently predominates over Li—O coordination to form a four-membered metallocycle . Reaction of imidazole (S)-sulfoxide 16 with benzaldehyde produces aldol 17 as the major product in which the a-H and the sulfoxide lone pair are syn (equation 14) imidazole (R)-sulfoxide 18 reacts similarly (equation 15). The stereochemical outcome of these reactions is rationalized in terms of a-lithiosulfoxides in which the reactive diastereomer (i.e., 20 and 21) is that having one diastereotopic face of the five-membered Li—N metallocycle carrying both H and sulfoxide lone pair. 

This article summarizes efforts undertaken towards the synthesis of the cyclo[ ]carbons, the first molecular carbon allotropes for which a rational preparative access has been worked out. Subsequently, a diversity of perethynylated molecules will be reviewed together, they compose a large molecular construction kit for acetylenic molecular scaffolding in one, two and three dimensions. Finally, progress in the construction and properties of oligomers and polymers with a poly(triacetylene) backbone, the third linearly conjugated, non-aromatic all-carbon backbone, will be reviewed. 

It was rationalized that one could gain control of the disassembly rate by changing the substituent R on the aromatic ring. Electron-withdrawing substituents should accelerate the cyclization step since phenol 7 will become a better leaving group in the acyl substitution of 6 to 7. Four dendrons were selected for this study (Fig. 5.5) two (9 and 11) with a methyl substituent and two others... 

As noted previously, a wide variety of aromatic systems serve as nuclei for arylacetic acid antiinflammatory agents. It is thus to be expected that fused heterocycles can also serve the same function. Synthesis of one such agent (64) begins with condensation of indole-3-ethanol (60) with ethyl 3-oxo-caproate (61) in the presence of tosic acid, leading directly to the pyranoindole 63. The reaction may be rationalized by assuming formation of hemiketal 62, as the first step. Cyclization of the carbonium ion... 

The fact that quadricyclene and dienes quench the fluorescence of aromatic hydrocarbons despite the fact that the energetics for classical energy transfer are very unfavorable has been rationalized by the formation of an exciplex. A general mechanism is as follows ... 

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