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Oxygen arylation

Phenolic compounds can be condensed forming aryl-aryl and aryl-oxygen-aryl (ether linkages) bonds to yield diaryl and diaryl ether polymers (59). These are in many ways similar to natural humic acids, confirming earlier research by others (60-62) that humic acids are formed from the copolymerization of phenolic compounds with amino acids, peptides, and amino sugars. [Pg.367]

For the coupling of binaphthyl compounds, the authors note that 0.55 equivalents of PIFA and a temperature below 0 °C are necessary conditions to obtain the best yields (Table 5). Carbon-carbon bond formation occurs between the most highly oxygenated aryl rings of the naphthyl units. [Pg.485]

Fananas-Mastral and Feringa have developed an efficient Cu-catalysed oxygen-arylation of diall l phosphonates (387) using diatyliodonium salts (388). The reaction proceeded under mild conditions to give access to valuable mixed allqrl aiyl phosphonates (389) in very good yields and near perfect selectivity toward the monoarylation (Scheme 117). ... [Pg.277]

The migratory aptitude decreases from p-nitrophenyl over phenyl and / -tolyl to /j-anisyl. ° This substituent effect argues in favor of a two-step mechanism, i.e., nucleophilic addition of the metalated a-carbon onto the aryl //7TO-position to give the bridged intermediate 354 and subsequent scission of the oxygen-aryl bond (Scheme 1-277). [Pg.176]

Neutral oxygen-containing compounds in Solubility Groups I, II and V which either contain the CHjCO— group attached to H, alkyl, aryl, or ester H R... [Pg.1068]

Carbon-oxygen bonds are formed by the Ullmann reaction (- coupling of aryl halides with copper) which has been varied in alkaloid chemistry to produce diaryl ethers instead of biaryls. This is achieved by the use of CuO in basic media (T. Kametani, 1969 R.W. Dos-kotch, 1971). [Pg.294]

When allylic alcohols are used as an alkene component in the reaction with aryl halides, elimination of /3-hydrogen takes place from the oxygen-bearing carbon, and aldehydes or ketones are obtained, rather than y-arylated allylic alcohoIs[87,88]. The reaction of allyl alcohol with bromobenzene affords dihydrocinnamaldehyde. The reaction of methallyl alcohol (96) with aryl halides is a good synthetic method for dihydro-2-methylcinnamaldehyde (97). [Pg.142]

Anomalous Fischer cyclizations are observed with certain c-substituted aryl-hydrazones, especially 2-alkoxy derivatives[l]. The products which are formed can generally be accounted for by an intermediate which w ould be formed by (ip50-substitution during the sigmatropic rearrangement step. Nucleophiles from the reaction medium, e.g. Cl or the solvent, are introduced at the 5-and/or 6-position of the indole ring. Even carbon nucleophiles, e.g. ethyl acetoacelate, can be incorporated if added to the reaction solution[2]. The use of 2-tosyloxy or 2-trifluoromethanesulfonyloxy derivatives has been found to avoid this complication and has proved useful in the preparation of 7-oxygen-ated indoles[3]. [Pg.64]

The nucleophilic reactivity of the oxygen has been observed in acetylation by acetic anhydride of 2-aryl- and 2-heteroaryl-A-2-thiazoline-4-ones (181) (388, 397, 410, 414, 416, 419, 422, 426. 427) and methylation of 5-(4 -chlorophenyl)-A-2-thiazoline-4-one (416) (Scheme 94). [Pg.423]

Aryl ethers are best prepared by the Williamson method (Section 16 6) Alkylation of the hydroxyl oxygen of a phenol takes place readily when a phenoxide anion reacts with an alkyl halide... [Pg.1008]

Cleavage of alkyl aryl ethers by hydrogen halides always proceeds so that the alkyl-oxygen bond is broken and yields an alkyl halide and a phenol as the final prod nets Either hydrogen bromide or hydrogen iodide is normally used... [Pg.1010]

The first step in the reaction of an alkyl aryl ether with a hydrogen halide is pro tonation of oxygen to form an alkylaryloxonium ion... [Pg.1011]

You learned in Section 17 8 of the relationship among hemiacetals ketones and alcohols the for mation of phenol and acetone is simply an example of hemiacetal hydrolysis The formation of the hemiacetal intermediate is a key step in the synthetic procedure it is the step in which the aryl—oxygen bond is generated Can you suggest a reasonable mechanism for this step" ... [Pg.1023]

In presence of—C=C— or of aromatic ring In presence of—C=0 bond In presence of two carbon-oxygen bonds In presence of two carbon-carbon double bonds Aryl-C=0... [Pg.311]

Sulfur tetrafluoride [7783-60-0] SF, replaces halogen in haloalkanes, haloalkenes, and aryl chlorides, but is only effective (even at elevated temperatures) in the presence of a Lewis acid catalyst. The reagent is most often used in the replacement of carbonyl oxygen with fluorine (15,16). Aldehydes and ketones react readily, particularly if no alpha-hydrogen atoms are present (eg, benzal fluoride [455-31-2] from benzaldehyde), but acids, esters, acid chlorides, and anhydrides are very sluggish. However, these reactions can be catalyzed by Lewis acids (HP, BF, etc). [Pg.268]

Displacement reactions with oxygen nucleophiles are of potential commercial interest. Alkaline hydrolysis provides 2-fluoro-6-hydroxypyridine [55758-32-2], a precursor to 6-fluoropyridyl phosphoms ester insecticides (410—412). Other oxygen nucleophiles such as bisphenol A and hydroquinone have been used to form aryl—pyridine copolymers (413). [Pg.336]

Fig. 13. Phenolic host inclusion chemistry (a) schematic representation of the cage stmcture (open circles denote oxygen of OH, R corresponds to aryl part... Fig. 13. Phenolic host inclusion chemistry (a) schematic representation of the cage stmcture (open circles denote oxygen of OH, R corresponds to aryl part...
The synthesis of a new class of inorganic polymers (21) with a backbone consisting of alternating sulfur(VI) and nitrogen atoms, and with variable alkyl or aryl substituents as well as a fixed oxygen substituent on sulfur, has recentiy been accompHshed (83—85). These polymers are stmcturaHy analogous to poly(alk5l/arylphosphazenes). [Pg.261]

Phosgene reacts with a multitude of nitrogen, oxygen, sulfur, and carbon centers. Reaction with primary alkyl and aryl amines yield carbamoyl chlorides which are readily dehydrohalogenated to isocyanates. Secondary amines also form carbamoyl chlorides. [Pg.312]

Phosphoms compounds are effective flame retardants for oxygenated synthetic polymers such as polyurethanes and polyesters. Aryl phosphates and chloroalkyl phosphates are commonly used, although other compounds such as phosphonates are also effective. The phosphoms compounds can promote char formation, thereby inhibiting further ignition and providing an efficient thermal insulation to the underlying polymer. [Pg.373]

Ultraviolet radiation causes cleavage of the aryl ether linkage (23). DMPPO undergoes oxidation when exposed to ultraviolet light and oxygen by direct attack on the aromatic ring to produce a variety of ring-cleaved and quinoidal stmctures (24). [Pg.328]

The /V-alkyl-/V-aryl- -PDAs (where the aryl is phenyl and the alkyl may be cyclohexyl, 1,3-dimethylbutyl or 1-methylethyl) ate the most widely used /)-PDAs. These derivatives reduce the rate of crack growth and also the number of cracks. The alkyl-aryl- -PDAs are in general excellent antiozonants, particularly in dynamic environments. These derivatives are destroyed only slowly by oxygen and increase the scorchiness of the stock only slightly. These are intermediate in staining among the three classes of -PDAs. [Pg.237]

This class was first reported in 1924 and was formed 62HC(17)l) by cyclization of a-bromo-/3-aryl-y-nitroketones. The direct synthesis by oxygenation of 2-isoxazolines has not been reported. To date only 3-substituted derivatives have been prepared. Aryl-nitromethanes react with nitrostilbene to form isoxazoline A-oxide by a nitrile ion displacement (Scheme 138) <62HC(17)1, 68TL3375). [Pg.102]


See other pages where Oxygen arylation is mentioned: [Pg.86]    [Pg.342]    [Pg.206]    [Pg.53]    [Pg.86]    [Pg.342]    [Pg.206]    [Pg.53]    [Pg.181]    [Pg.59]    [Pg.187]    [Pg.222]    [Pg.21]    [Pg.1011]    [Pg.322]    [Pg.221]    [Pg.268]    [Pg.552]    [Pg.103]    [Pg.247]    [Pg.443]    [Pg.269]    [Pg.237]    [Pg.237]    [Pg.155]    [Pg.437]    [Pg.464]    [Pg.217]    [Pg.425]    [Pg.93]    [Pg.209]   


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1,3-Migration of an aryl group from oxygen

Aryl Oxygen Compounds

Aryl derivatives carbon-oxygen bond formation

Aryl ether synthesis, carbon-oxygen bond formation

Aryl-oxygen bond formation

Aryl-oxygen bonds, reductive cleavage

Carbon-oxygen bonds aryl ether synthesis

Metal-aryl compounds, oxygenation

Oxygen aryl-metal complexes

Oxygen arylation/oxidation

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