Resorcinol, substituted

For the preparation of 4-substituted coumarins, a phenol may be condensed with ethyl acetoacetate under the influence of sulphuric acid. Thus resorcinol (II) readily undergoes this condensation (which is represented diagrammatically above) to give 7-hydroxy-4-methyl-coumarin (III). Note that the coumarins, like all 2 pyrones, are systematically lactones. 

Phenol, 0-, m- and p-cresol, catechol, resorcinol, hydro-quinone (and other nuclear substituted phenols), 1 - and 2-naphthoi... 

The Reaction has the following limitations (i) a compound that can liberate nitrous acid in acid solution is required (e.g., a metallic nitrite or a nitroso-amine, p. 204). (2) Nitrophenols and />-substituted phenols do not give the test. (3) Among the dihydroxyphenols. only resorcinol gives a satisfactory positive test. 

Several substituted cyclohexane derivatives may also be obtained by the reduction of a benzenoid precursor. Partial reduction of resorcinol, for example, and subsequent methyla-tion yields 2-methylcyclohexane-I,3-dione, which is frequently used in steroid synthesis (M.S. Newman, 1960 see also p. 71f.), From lithium-ammonia reduction of alkoxybenzenes l-alkoxy-l,4-cyclohexadienes are obtained (E.J. Corey, 1968 D). 

The chemical properties of the naphthaleneols are similar to those of phenol and resorcinol, with added reactivity and complexity of substitution... 

Nitro-l-diazo-2-naphthol-4-sulfonic acid prefers the 2-position in spite of the nitro group, and increasing alkalinity favors ortho coupling with diazophenols. 1-Naphthalenesulfamic acid [24344-19-2] (ArNHSO H) and N-nitro-1-naphthylamine [4323-69-7] (ArNHNO ) couple exclusively in the para position. The substitution of resorcinol [108-46-3] and y -phenylenediamine [108-45-2] is compHcated and has been discussed (29,30). The first azo dyes from aniline, eg. Aniline Yellow [60-09-3] (19) (Cl Solvent Yellow 1 Cl 11000) were manufactured in 1861 and Bismark Brown [10114-58-6] (20) (Cl Basic Brown 1 Cl 21000) appeared in 1863. The reaction is as follows ... 

Although resorcinol [108-46-3], C H O, a dihydric phenol, is a comparatively weak bactericide, a nuclear-substituted alkyl derivative, -hexylresorcinol [136-77-6], has a phenol coefficient of 45, and has had considerable use as a topical antiseptic. 

As tannins contain many phenolic -type subunits (Fig. 3), one may be tempted to think that they will exhibit a similar reactive potential to that of phenol, and that therefore procedures used in standard PF production can be transferred to those containing tannin. This, however, is not the case. The real situation is that tannin is far more reactive than unsubstituted phenol due to the resorcinol and catchecol rings present in the tannin. This increase in hydroxyl substitution on the two aromatic rings affords an increase in reactivity to formaldehyde by 10 to 50... 

A change in the pK of the molecule by elimination of the acidic enol function and inclusion of basic nitrogen leads to a marked change in biologic activity. That agent, chromonar (13) shows activity as a coronary vasodilator. Alkylation of ethyl acetoacetate with 2-chlorotriethylamine affords the substituted ketoester (10). Condensation with resorcinol in the presence of sulfuric acid affords directly the substituted coumarin (11). 

Hydrogenolysis of methylenediisoxazoles have been useful in preparing substituted resorcinols and aminophenols (7). The isoxazole annelation reaction (71,89,90,91,103) is well suited to the synthesis of steroids and other complex molecules. 

Introduction of nonmesogenic units in polymer chains. (E.g., using meta-substituted aromatic monomers such as isophthalic acid or resorcinol). This results in the formation of kinks in polymer chain, which disrupt lateral interactions. 

Substituted phenols such as cresols, p-fcrf-butylphenol, / -phcnylphenol, resorcinol, and cardanol (derived from cashew nut shells) have also been used as precursors for phenolic resins. Alkylphenols with at least three carbons in the substituent lead to more hydrophobic phenolic resins that are compatible with many oils, natural resins, and rubbers.7 Such alkylphenolic resins are used as modifying and crosslinking agents for oil varnishes, as coatings and printing inks, and as antioxidants and stabilizers. Bisphenol-A (2,2-p-hydroxyphenylpropane),... 

Formaldehyde aftertreatment was employed to link together pairs of amino-substituted dye molecules by a methylene bridge (10.211). The required reactivity of the sites in the dye towards formaldehyde was ensured by pairs of o- and p-directing electron-donating groups provided by resorcinol, m-phenylenediamine or 3-aminophenol. 

Even fully substituted aromatic compounds can be prepared utilizing the Mi-chael/Dieckmann strategy. As reported by Covarrubias-Zuniga and coworkers (Scheme 2.32) [67], reaction of the anion of l-allyl-l,3-acetonedicarboxylate (2-138) and the ynal 2-139 afforded the intermediate 2-140 which led to the resorcinol 2-142 with spontaneous aromatization under acidic conditions via 2-141 in an overall yield of 32 %. 2-142 was transformed into mycophenolic acid (2-143) in only a few additional steps [68]. 

In 2011, Hartwig and coworkers reported the total synthesis of taiwaniaquinol B (55, Scheme 11.9), a member of a family of diterpenoids that are derived from the abietane skeleton [36]. A key aspect of the Hartwig synthesis of taiwaniaquinol B was the use of the iridium-catalyzed borylation reaction to accomplish the C(5) functionalization of resorcinol derivative 53. This regioselectivity for the overall bromination is complementary to that which would be obtained using a standard electrophilic aromatic substitution (EAS) reaction. In the transformation of 53 to 54, a sterically controlled borylation was first accomplished, which was then followed by treatment of the boronic ester intermediate with cupric bromide to... 

Fig. 11 Plots of log EM vs number of bridge methylenes for the formation of catechol, resorcinol, and hydroquinone polymethylene ethers by intramolecular nucleophilic substitution in 99% Me2SO. (Reproduced with permission from Dalla Cort et al., 1980)...

A rare example of substitution kinetics at mercury(II) is provided by the adaptation of replacement of coordinated 4-(2-pyridylazo)resorcinol by l,2-cyelohexanediamine-./V,./V,./V,./V,-tetraacetate to analysis for sulfite or thiosulfite (324). 

Thus, the unsubstituted starting compound 69 was treated with resorcinol in the presence of trifluoroacetic acid (TFA) to yield 70. Then, reaction of 69 with the cyclic a,/3-unsaturated ketone in the presence of lithium hydride gave the 7-substituted heteroaromatic compound 71, and ethyl cyanoacetate afforded the cross-conjugated product 72, whereas reaction with pyrimidine-2,4,6-trione in the presence of triethylamine yielded the addition product 73. Indole also been reacted with 69, and heating of the dichloromethane solution for 90 min in the presence of TFA yielded the addition product 74 in excellent yield (95%) <1998ZOR450> (Scheme 12). 

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