Synthesis aromatic substitution

The development of methods for aromatic substitution based on catalysis by transition metals, especially palladium, has led to several new methods for indole synthesis. One is based on an intramolecular Heck reaction in which an... 

Sometimes the orientation of two substituents m an aromatic compound precludes Its straightforward synthesis m Chloroethylbenzene for example has two ortho para directing groups m a meta relationship and so can t be prepared either from chloroben zene or ethylbenzene In cases such as this we couple electrophilic aromatic substitution with functional group manipulation to produce the desired compound... 

Aryl diazonium ions prepared by nitrous acid diazotization of primary arylamines are substantially more stable than alkyl diazonium ions and are of enormous synthetic value Their use m the synthesis of substituted aromatic compounds is described m the following two sections... 

In the case of phenazine, substitution in the hetero ring is clearly not possible without complete disruption of the aromatic character of the molecule. Like pyrazine and quinoxa-line, phenazine is very resistant towards the usual electrophilic reagents employed in aromatic substitution reactions and substituted phenazines are generally prepared by a modification of one of the synthetic routes employed in their construction from monocyclic precursors. However, a limited range of substitution reactions has been reported. Thus, phenazine has been chlorinated in acid solution with molecular chlorine to yield the 1-chloro, 1,4-dichloro, 1,4,6-trichloro and 1,4,6,9-tetrachloro derivatives, whose gross structures have been proven by independent synthesis (53G327). 

ULLMANN GOLDBERG Aromatic substitution Cu catalyzed substitution of aromatic halides in the synthesis of disryls, diaiyl ethers, diaryl amines, phenols... 

An interesting alternative approach to the synthesis of a cryptand having nitrogen atoms in the bridges was presented by Newkome and coworkers. This group condensed triethanolamine with 2,6-dichloropyridine in a relatively straightforward but low yield (5%) nucleophilic aromatic substitution to form 7, illustrated below in Eq. (8.6). The identity of the compound was confirmed by X-ray structural analysis. 

The synthesis of an alkylated aromatic compound 3 by reaction of an aromatic substrate 1 with an alkyl halide 2, catalyzed by a Lewis acid, is called the Friedel-Crafts alkylation This method is closely related to the Friedel-Crafts acylation. Instead of the alkyl halide, an alcohol or alkene can be used as reactant for the aromatic substrate under Friedel-Crafts conditions. The general principle is the intermediate formation of a carbenium ion species, which is capable of reacting as the electrophile in an electrophilic aromatic substitution reaction. 

In an effort to more closely mimic the aromatic substitution pattern found in morphine (see A) the pethidine analog containing the m-hydroxy group was prepared as well. Thus, in a synthesis analogous to that used to prepare the parent compound, double alkylation of m-methoxyphenylacetonitrile with the chloroamine. 

The ability to plan a sequence of reactions in the right order is particularly valuable in the synthesis of substituted aromatic rings, where the introduction of a new substituent is strongly affected by the directing effects of other substituents. Planning syntheses of substituted aromatic compounds is therefore an excellent way to gain confidence using the many reactions learned in the past few chapters. 

Acifluorfen, synthesis of, 683 Acrolein, structure of, 697 Acrylic acid, pKa of, 756 structure of. 753 Activating group (aromatic substitution), 561 acidity and, 760 explanation of, 564-565 Activation energy, 158 magnitude of, 159 reaction rate and, 158-159 Active site (enzyme), 162-163 citrate synthase and, 1046 hexokinase and, 163... 

The general approaches for the synthesis of poly(arylene ether)s include electrophilic aromatic substitution, nucleophilic aromatic substitution, and metal-catalyzed coupling reactions. Poly(arylene ether sulfone)s and poly(arylene ether ketone)s have quite similar structures and properties, and the synthesis approaches are quite similar in many respects. However, most of the poly(arylene ether sul-fone)s are amorphous while some of the poly(arylene ether)s are semicrystalline, which requires different reaction conditions and approaches to the synthesis of these two polymer families in many cases. In the following sections, the methods for the synthesis of these two families will be reviewed. 

The most practical method for the preparation of polyfarylcnc ether)s employs nucleophilic aromatic substitution (SnAi). Although nucleophilic substitution can occur via four principal mechanisms,49 the most important mechanism utilized for the synthesis of poly(arylene etlier)s has been SnAt, in which activating groups are present on the aromatic ring (Scheme 6.10). 

The nucleophilic aromatic substitution reaction for the synthesis of poly(arylene ether ketone)s is similar to that of polysulfone, involving aromatic dihalides and aromatic diphenolates. Since carbonyl is a weaker electron-withdrawing group titan sulfonyl, in most cases, difluorides need to be used to afford high-molecular-weight polymers. Typically potassium carbonate is used as a base to avoid the... 

Figure 7.6 Mechanism of novolac synthesis via electrophilic aromatic substitution.

Smith, Jason A., 431 Sn2+ compounds, 233 Sn4+ compounds, 232 SNAr reaction. See also Nucleophilic aromatic substitution reaction poly(arylene ether sulfone) synthesis via, 336-340... 

Homolytic aromatic substitution often requires high temperatures, high concentrations of initiator, long reaction times and typically occurs in moderate yields.Such reactions are often conducted under reducing conditions with (TMSlsSiH, even though the reactions are not reductions and often finish with oxidative rearomatization. Reaction (68) shows an example where a solution containing silane (2 equiv) and AIBN (2 equiv) is slowly added (8h) in heated pyridine containing 2-bromopyridine (1 equiv) The synthesis of 2,3 -bipyridine 75 presumably occurs via the formation of cyclohexadienyl radicals 74 and its rearomatization by disproportionation with the alkyl radical from AIBN. ... 

The versatility of ArTlXj compounds as intermediates for the synthesis of substituted aromatic compounds has been substantially extended by the observation that the aryl-thallium bond is extremely labile photochemically. The resulting aryl radical can then be captured by appropriate reagents (see below) to give substituted aromatic compounds. A remarkable feature of these photochemical conversions of ArTlXj compounds to substituted aromatics is that, as before, the new substituent always enters the ring at the position to which thallium was originally attached. 

Joyeau, R. Dugenet, Y. Wakselman, M. Synthesis of fused P-lactams by copper promoted intramolecular aromatic substitution. J. Chem. Soc. Chem. Common. 1983, 431 432. 

Aromatic substitution by sulphonyl azides has been applied to the synthesis of cyclic sulphonamides not as readily available by other methods 16h For example, thermolysis of biphenyl-2-sulphonyl azide (60) in w-dodecane or in cyclohexane 78> at 150 °C gives high yields (partic-... 

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