Aryl ethers, formation with

Amines, polymeric, immobilization of the Cu(II) complexes, 134 Arsonic acid, polymer-bound, generated, 139 Aryl ethers, formation with Nafion, 51t... 

For alkyl aryl ether formation with allylic rearrangement, see, for example Danishefsky, S. Berman, E. M. Ciufolini, M. Etheredge, S. J. Segmuller, B. E. JACS 1985,107, 3891. 

Fig- 7-15. Cleavage of the methyl aryl ether bond with formation of methanesulfonic acid during neutral sulfite pulping (Gierer, 1970). 

Fig. 7-28. Cleavage of methyl aryl ether bonds with simultaneous formation of methyl mercaptan (CH3SH), dimethyl sulfide (CH3SCH3), and dimethyl disulfide (CH3SSCH3) during kraft pulping (Gierer, 1970). R = H or methyl group.

Very early reports on these systems described them as polycondensates, consisting of broad molar-mass distributions with randomly branched topologies. The methods of synthesis included Friedel-Crafts coupling of benzyl alcohols [108] and the polymerization of 2,5,6-tribromophenol involving aryl ether formation [109], In addition, hyperbranched natural carbohydrate polymers, such as amylopectin, dextrin, and glycogen have been extensively studied [73-75]. 

Treatment of oestrone with tetraphenylbismuth monotrifluoroacetate gave oestrone phenyl ether and exemplified, in part, a new procedure for aryl ether formation.31 A detailed study was reported of the formation of benzyl ethers by sequential reaction of alcohols with chloro(phenylmethylene)dimethylammonium chloride and sodium hydrogen telluride.32 Steroidal alcohols, inter alia, were converted into hydrolytically stable silyl ethers by reaction with B N Sil or BulPh2I which were generated in situ from the selenosilane and iodine.33 The 5a-hydroxycholestane (21) was protected in this way. 

J Gierer, I Noren, S Wannstrdm. Formation of Condensation Products on Treatment of Non-phenolic Lignin Units of the P-aryl Ether Type with Alkali Model Studies on a Novel Mode of Alkaline Lignin Condensation. Holzforschung 41 79-82, 1987. 

Ring arylation of phenols with aryl halides to produce arylphenols is competitive with aryl ether formation. As discussed in Chapter 3.3.2, it is known that the ring arylation proceeds with Pd(0)-PPh3 catalyst. 

The pioneering work by Guibe and Saint M Leux described the Pd-catalyzed extrusion of CO2 from an alkyl allyl carbonate to afford the corresponding etheri (Scheme 31). The alkoxide formed in the mechanistic cycle (Scheme 1), in the absence of any pronucleophile, acts itself as the nucleophile, attacking the cationic rj -allylpalladium complex. Applications to the preparation of allyl aryl ethers were reported later. The formation of allyl aryl ethers occnrs with overall retention of configuration. ... 

The aryl ether formation was, until the late 1990s, the domain of copper-catalyzed processes, namely the Ullmann reaction. Around 15 years ago, Hartwig and Buchwald independently discovered the palladium-catalyzed alkoxylation of aryl halides with phenols. Later, these reactions were extended to aliphatic alcohols and to hydroxide as nucleophiles (vide infra. Scheme 5-159). The mechanism of the reductive elimination has been elucidated on isolated complexes. ... 

Oxonium salt formation. Shake up 0 5 ml. of ether with 1 ml. of cone. HCl and note that a clear solution is obtained owing to the formation of a water-soluble oxonium salt. Note that aromatic and aliphatic hydrocarbons do not behave in this way. In general diaryl ethers and alkyl aryl ethers are also insoluble in cone. HCl. 

Allyl aryl ethers are used for allylation under basic conditionsfh], but they can be cleaved under neutral conditions. Formation of the five-membered ring compound 284 based on the cyclization of 283 has been applied to the syntheses of methyl jasmonate (285)[15], and sarkomycin[169]. The trisannulation reagent 286 for steroid synthesis undergoes Pd-catalyzed cyclization and aldol condensation to afford CD rings 287 of steroids with a functionalized 18-methyl group 170]. The 3-vinylcyclopentanonecarboxylate 289, formed from 288, is useful for the synthesis of 18-hydroxyestrone (290)[I7I]. 

Unlike the acid-catalyzed ether cleavage reaction discussed in the previous section, which is general to all ethers, the Claisen rearrangement is specific to allyl aryl ethers, Ar—O—CH2CH = CH2. Treatment of a phenoxide ion with 3-bromopropene (allyl bromide) results in a Williamson ether synthesis and formation of an allyl aryl ether. Heating the allyl aryl ether to 200 to 250 °C then effects Claisen rearrangement, leading to an o-allylphenol. The net result is alkylation of the phenol in an ortho position. 

Coming back to the chain reaction sequence (Scheme 8-50) the inclusion of the final step shown here demonstrates clearly that the initial formation of the aryl radical from the diazo ether (Scheme 8-49) may be only an initiation step. The arguments of Broxton concerning whether the homolytic dediazoniation starts with the diazo ether or with the diazonium ion therefore become irrelevant. 

The first palladium-catalyzed formation of aryl alkyl ethers in an intermolecular fashion occurred between activated aryl halides and alkoxides (Equation (28)), and the first formation of vinyl ethers occurred between activated vinyl halides and tin alkoxides (Equation (29)). Reactions of activated chloro- and bromoarenes with NaO-Z-Bu to form /-butyl aryl ethers occurred in the presence of palladium and DPPF as catalyst,107 while reactions of activated aryl halides with alcohols that could undergo /3-hydrogen elimination occurred in the presence of palladium and BINAP as catalyst.110 Reactions of NaO-/-Bu with unactivated aryl halides gave only modest yields of ether when catalyzed by aromatic bisphosphines.110 Similar chemistry occurred in the presence of nickel catalysts. In fact, nickel catalysts produced higher yields of silyl aryl ethers than palladium catalysts.108 The formation of diaryl ethers from activated aryl halides in the presence of palladium catalysts bearing DPPF or a CF3-subsituted DPPF was also reported 109... 

In addition to /3-H elimination, olefin insertion, and protonolysis, the cr-metal intermediate has also proved to be capable of undergoing a reductive elimination to bring about an alkylative alkoxylation. Under Pd catalysis, the reaction of 4-alkenols with aryl halides affords aryl-substituted THF rings instead of the aryl ethers that would be produced by a simple cross-coupling mechanism (Equation (126)).452 It has been suggested that G-O bond formation occurs in this case by yy/z-insertion of a coordinated alcohol rather than anti-attack onto a 7r-alkene complex.453... 

Complex iron(III) salts are frequently used in oxidative arene coupling reactions and quinone formation and tetra-n-butylammonium hexacyanoferrate(III) has several advantages in it use over more conventional oxidative procedures. When used as the dihydrogen salt, Bu4N[H2Fe(CN)6], it oxidizes 2,6-di-z-buty 1-4-methylphenol (1) to the coupled diarylethane (2), or aryl ethers (3) and (4) (Scheme 10.4), depending on the solvent. It is noteworthy that no oxidation occurs even after two days with the tris-ammonium salt. 

Prior to imide formation, the imide-aryl ether ketimine copolymers were converted to the imide-aryl ether ketone analogue by hydrolysis of the ketimine moiety with para-toluene sulfonic acid hydrate (PTS) according to a literature procedure [51,52,57-59]. The copolymers were dissolved in NMP and heated to 50 °C and subjected to excess PTS for 8 h. The reaction mixtures were isolated in excess water and then rinsed with methanol and dried in a vacuum oven to afford the amic ester-aryl ether ether ketone copolymer, 2e (Scheme 8.)... 

Results from the dissociative reduction of aryl ethers led to a number of important generalizations. These are classical stepwise systems initially forming jr -type radical anions. In this case, the intrinsic barriers for the formation of the intermediate radical anions are dominated by solvent reorganization with only a small (sometimes negligible) contribution from internal reorganization. Thus, the ETs to these systems are properly described by Marcus theory, in which the harmonic approximation satisfactorily accounts for both outer and inner reorganization factors. On the... 

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