Phenyl ethers, synthesis

Outline a reasonable synthesis of 4 nitrophenyl phenyl ether from chlorobenzene and phenol... 

Friedel-Crafts cyclization benzo[i]thiophenes from, 4, 873 Ethanol, 2-(4-imidazolyl)-synthesis, 5, 484 Ethanol, (S)-l-phenyl-synthesis, 1, 434 Ethanol, 2-phenyl-isochroman synthesis from, 3, 788 Ether, allyl pyridyl... 

Thermal [3,3] Claisen rearrangement of the 3-substituted phenyl allyl and pro-pargyl ethers synthesis of 4-halobenzo[d]furans 98H(48)2173. 

How would you prepare ethyl phenyl ether Use whichever method you think is more appropriate, the Williamson synthesis or the alkoxymercuration reaction. 

Iodosobenzene diacetate is used as a reagent for the preparation of glycol diacetates from olefins,9 for the oxidation of aromatic amines to corresponding azo compounds,10 for the ring acetylation of N-arylacetamides,11 for oxidation of some phenols to phenyl ethers,12 and as a coupling agent in the preparation of iodonium salts.13 Its hydrolysis to iodosobenzene constitutes the best synthesis of that compound.14... 

The 1,3,4-oxadiazole 113 is formed from the azo compound 112 by the action of triphenylphosphine <96SL652>. A general synthesis of 1,3.4-oxadiazolines consists in boiling an acylhydrazone with an acid anhydride (e.g., Scheme 18) <95JHC1647>. 2-Alkoxy-2-amino-l,3,4-oxadiazolines are sources of alkoxy(amino)carbenes the spiro compound 114, for instance, decomposes in boiling benzene to nitrogen, acetone and the carbene 115, which was trapped as the phenyl ether 116 in the presence of phenol <96JA4214>. 

The synthesis of 3-aryltetrahydroisoquinolines was accomplished by electrophilic aromatic substitution of polysubstituted phenols and phenyl ethers with Lewis acid-generated tosyliminium ions of 2-tosyl-3-methoxytetrahydroisoquinoline derivatives <00SL801>. In addition isoquinoline was reported to react with N-tosylated (R)- or (S)-amino acid fluorides to afford optically active dihydroimidazoisoquinolinones. The reaction proceeds via acylation followed by attack of the tosylamino group at Cl of the intermediate 2-tosylaminoacylisoquinolinium salt <00TL5479>. 

Intramolecular cyclization of 2-lithiobenzyl-2-halophenyl amines, ethers, and thioethers—Synthesis of phenanthridine, dibenzopyran, and dibenzothiopyran derivatives Having demonstrated the efficiency of this methodology for the preparation of indole derivatives, we prepared the 2-fluoro-phenyl ether and thioether 22 a, b to study their potential as substrates that could afford oxygen and sulfur heterocycles. However, treatment of 22 a, b with fBuLi afforded, after... 

This aldehyde synthesis is applicable to compounds of the aromatic series having a labile hydrogen atom (phenyl ethers,1 naphthols,2 dialkylanilines,3-4 naphthostyril,2 anthrones 2) and to certain hydrocarbons of requisite reactivity (anthracene,5-6 7 1,2-benzanthracene,6 3,4-benzpyrene,3 7 pyrene,8 styrene,9 and a, a-diarylethylenes 9). With polynuclear hydrocarbons the best results are secured by the use of a solvent such as o-dichloro-benzene. 9-Anthraldehyde has also been prepared by the action of hydrogen cyanide and aluminum chloride on anthracene in chlorobenzene.10... 

Figure 51. Anionic template synthesis of rotaxane 118 with a bis(phenyl ether) axle. The mechanical bond is formed by reaction of the phenolate-macrocycle complex [32-115] (supramolecular nucleophile) with the semiaxle intermediate 117. 

Examples of the preparation of alkyl benzyl ethers by the Williamson synthesis are included in Section 5.6.2, p. 583. An example of an alkyl phenyl ether is provided by the synthesis of phenacetin (Expt 6.109) where p-aminophenol is first converted into its Af-acetyl derivative by reaction with slightly more than one equivalent of acetic anhydride. Treatment of the product with ethanolic sodium ethoxide solution followed by ethyl iodide then yields the ethyl ether of AT-acetyl-p-phenetidine (phenacetin). This compound is biologically active and has been widely employed for example as an antipyretic and analgesic however, owing to undesirable side reactions, its use is now restricted. 

Tab. 18. Synthesis of triphenylenes 75 by oxidative coupling of biphenyl and phenyl ether components.

In the presence or absence of a copper catalyst, O-arylation of alcohols and phenols by Ph3Bi(OAc)2 proceeds to give the corresponding aryl ethers.196-198 The monophenylation of m-l,2-cyclopentanediol with Ph3Bi(OAc)2 in the presence of a Cu(n) complex bearing a chiral triamine or diamine ligand affords an a-hydroxy phenyl ether with moderate enantiomeric excesses up to 38% (Equation (127)).199 The copper-catalyzed O-arylation has been success-fully applied to the synthesis of immunosuppressive macrolides. 

The phenyl ether formation is always one of the last steps of the synthesis, the benzene rings being first subjected to nitration, chlorination, carboxylation, etc. 

The anions of phenols (phenoxide ions) may be used in the Williamson ether synthesis, especially with very reactive alkylating reagents such as dimethyl sulfate. Using phenol, dimethyl sulfate, and other necessary reagents, show how you would synthesize methyl phenyl ether. 

Synthesis of Phenyl Ethers A phenol (aromatic alcohol) can be used as the alkoxide fragment, but not the halide fragment, for the Williamson ether synthesis. Phenols are more acidic than aliphatic alcohols (Section 10-6), and sodium hydroxide is sufficiently basic to form the phenoxide ion. As with other alkoxides, the electrophile should have an unhindered primary alkyl group and a good leaving group. 

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