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Aryl nucleophilic cleavage

Table 3.13. Nucleophilic cleavage of resin-bound aryl esters. Table 3.13. Nucleophilic cleavage of resin-bound aryl esters.
Heterocycles containing an NH group, such as pyrroles, indoles, imidazoles, triazoles, etc., can be linked to insoluble supports as N-alkyl, N-aryl, or N-acyl derivatives (Table 3.29). The optimal choice depends mainly on the NH acidity of the heterocycle in question. Increasing acidity will facilitate the acidolytic cleavage of N-benzyl groups and the nucleophilic cleavage of /V-acyl groups from these heterocycles. [Pg.99]

Alcohols and phenols can be attached to support-bound alcohol linkers as carbonates [467,665,666], although few examples of this have been reported. For the preparation of carbonates, the support-bound alcohol needs to be converted into a reactive carbonic acid derivative by reaction with phosgene or a synthetic equivalent thereof, e.g. disuccinimidyl carbonate [665], carbonyl diimidazole [157], or 4-nitrophenyl chloro-formate [467] (see Section 14.7). The best results are usually obtained with support-bound chloroformates. The resulting intermediate is then treated with an alcohol and a base (DIPEA, DMAP, or DBU), which furnishes the unsymmetrical carbonate. Carbonates are generally more resistant towards nucleophilic cleavage than esters, but are less stable than carbamates. Aryl carbonates are easily cleaved by nucleophiles and are therefore of limited utility as linkers for phenols. [Pg.112]

Few examples have been described of nucleophilic cleavage of carbonate- or carbamate-linked alcohols from insoluble supports. A serine-based linker for phenols releases the phenol upon fluoride-induced intramolecular nucleophilic cleavage of an aryl carbamate (Entry 2, Table 3.36). A linker for oligonucleotides has been described, in which the carbohydrate is bound as a carbonate to resin-bound 2-(2-nitrophen-yl)ethanol, and which is cleaved by base-induced 3-elimination (Entry 3, Table 3.36). Trichloroethyl carbonates, which are susceptible to cleavage by reducing agents such as zinc or phosphines, have been successfully used to link aliphatic alcohols to silica gel (Entry 4, Table 3.36). These carbonates can also be cleaved by acidolysis (Table 3.22). [Pg.112]

The oxidation-labile TL 1.44 (102) was readily prepared from aminomethyl PS resin and used to decorate the aryl moiety with C-C coupling reactions (e.g. Heck, Stille, Suzuki, and Sonogashira protocols). Oxidation of the hydrazide moiety to acyl diazene [copper acetate or A -bromosuccinimide (NBS)] and nucleophilic cleavage (methanol or n-propylamine) produced the desired aryl products. [Pg.23]

The nucleophilic cleavage of aryl alkyl ethers gives the corresponding phenol with only 1 equiv. of thiophenol in the presence of N-methyl-2-pyrrolidinone (NMP) in a catalytic amount of potassium carbonate. The aromatic nitro and chloro substituents which are displaced with stoichiometric thiolates are preserved by this method. Moreover, a(B-unsaturated carbonyl compounds do not undergo Michael addition of thiolate under these conditions. [Pg.29]

As in the case of imines, during the oxidation of arylhydrazones nucleophilic attack occurs at the a-carbon [Eq. (16)]. If the nucleophile is water, and R is an aryl substituent, cleavage under formation of the parent ketone, nitrogen, and ArH is observed [118]. [Pg.560]

On the other hand, with aryl sulfonates (58) (R = aryl), nucleophilic substitution occurs with preferential sulfur-oxygen bond cleavage since aryl substituents show little tendency to undergo nucleophilic attack (Scheme 44). The relative order of nucleophilicity towards the sulfur atom is similar to that obtaining at a carbonyl carbon atom4b and is reported to be as shown in Figure 3. [Pg.111]

Brady et al. patented the SPOR of two putative Alzheimer s disease PET tracers. " Scheme 13.7 illustrates the radiosynthesis, by nucleophilic cleavage with fluorine-18, of two fluorous analogues of p-amyloid PET tracers such as PIB (Pittsburgh compound and DDNP (Tl-dicyano-T-ib-Cdimethylaminol-T-naphthalenyllpropene)." " Precursors are attached to the resin by their sulfonyl moiety, bound to an aryl or alkyl group that could... [Pg.419]

Substitution Reactions on Side Chains. Because the benzyl carbon is the most reactive site on the propanoid side chain, many substitution reactions occur at this position. Typically, substitution reactions occur by attack of a nucleophilic reagent on a benzyl carbon present in the form of a carbonium ion or a methine group in a quinonemethide stmeture. In a reversal of the ether cleavage reactions described, benzyl alcohols and ethers may be transformed to alkyl or aryl ethers by acid-catalyzed etherifications or transetherifications with alcohol or phenol. The conversion of a benzyl alcohol or ether to a sulfonic acid group is among the most important side chain modification reactions because it is essential to the solubilization of lignin in the sulfite pulping process (17). [Pg.139]

The strength of their- car bon-halogen bonds causes aryl halides to react very slowly in reactions in which carbon-halogen bond cleavage is rate-detenrrining, as in nucleophilic substitution, for example. Later in this chapter we will see exanples of such reactions that do take place at reasonable rates but proceed by mechanisms distinctly different from the classical SnI and Sn2 pathways. [Pg.972]

The use of iodotrimethylsilane for this purpose provides an effective alternative to known methods. Thus the reaction of primary and secondary methyl ethers with iodotrimethylsilane in chloroform or acetonitrile at 25—60° for 2—64 hours affords the corresponding trimethylsilyl ethers in high yield. The alcohols may be liberated from the trimethylsilyl ethers by methanolysis. The mechanism of the ether cleavage is presumed to involve initial formation of a trimethylsilyl oxonium ion which is converted to the silyl ether by nucleophilic attack of iodide at the methyl group. tert-Butyl, trityl, and benzyl ethers of primary and secondary alcohols are rapidly converted to trimethylsilyl ethers by the action of iodotrimethylsilane, probably via heterolysis of silyl oxonium ion intermediates. The cleavage of aryl methyl ethers to aryl trimethylsilyl ethers may also be effected more slowly by reaction with iodotrimethylsilane at 25—50° in chloroform or sulfolane for 12-125 hours, with iodotrimethylsilane at 100—110° in the absence of solvent, " and with iodotrimethylsilane generated in situ from iodine and trimcthylphenylsilane at 100°. ... [Pg.157]

The aryl-thallium bond is thus apparently capable of displacement either by electrophilic or by suitable nucleophilic reagents. Coupled with its propensity for homolytic cleavage (spontaneous in the case of ArTlIj compounds, and otherwise photochemically induced), ArTlXj compounds should be capable of reacting with a wide variety of reagents under a wide variety of conditions. Since the position of initial aromatic thallation can be controlled to a remarkable degree, the above reactions may be only representative of a remarkably versatile route to aromatic substitution reactions in which organothallium compounds play a unique and indispensable role. [Pg.173]

See other pages where Aryl nucleophilic cleavage is mentioned: [Pg.31]    [Pg.637]    [Pg.659]    [Pg.46]    [Pg.70]    [Pg.70]    [Pg.79]    [Pg.115]    [Pg.115]    [Pg.630]    [Pg.797]    [Pg.31]    [Pg.31]    [Pg.981]    [Pg.797]    [Pg.47]    [Pg.95]    [Pg.43]    [Pg.70]    [Pg.214]    [Pg.218]    [Pg.210]    [Pg.283]    [Pg.253]    [Pg.252]    [Pg.176]    [Pg.343]    [Pg.879]    [Pg.939]    [Pg.1074]    [Pg.575]   
See also in sourсe #XX -- [ Pg.70 , Pg.109 ]



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Aryl nucleophiles

Nucleophilic Cleavage of Aryl Esters

Nucleophilic arylation

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