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Ketones, aromatic, synthesis

Baumgartner, M.T., Jimenez, L.B., Pierini, A.B. and Rossi, R.A. (2002) Reactions of o-iodohalobenzenes with carbanions of aromatic ketones. Synthesis of l-aryl-2-(o-halophenyl)ethanones. Journal of the Chemical Society, Perkin Transactions 2, 1092-1097. [Pg.347]

Scheme 3.31 Silver(I)-catalyzed aromatic ketone synthesis. Scheme 3.31 Silver(I)-catalyzed aromatic ketone synthesis.
Ketone Synthesis. In the Friedel-Crafts ketone synthesis, an acyl group is iatroduced iato the aromatic nucleus by an acylating agent such as an acyl haUde, acid anhydride, ester, or the acid itself. Ketenes, amides, and nittiles also may be used aluminum chloride and boron ttitiuotide are the most common catalysts (see Ketones). [Pg.557]

Hydroxyl Group. The OH group of cyanohydrins is subject to displacement with other electronegative groups. Cyanohydrins react with ammonia to yield amino nitriles. This is a step in the Strecker synthesis of amino acids. A one-step synthesis of a-amino acids involves treatment of cyanohydrins with ammonia and ammonium carbonate under pressure. Thus acetone cyanohydrin, when heated at 160°C with ammonia and ammonium carbonate for 6 h, gives a-aminoisobutyric acid [62-57-7] in 86% yield (7). Primary and secondary amines can also be used to displace the hydroxyl group to obtain A/-substituted and Ai,A/-disubstituted a-amino nitriles. The Strecker synthesis can also be appHed to aromatic ketones. Similarly, hydrazine reacts with two molecules of cyanohydrin to give the disubstituted hydrazine. [Pg.411]

BORSCHE - BEECH Aromatic Aldehyde Synthesis Synthesis of aromatic aldehydes and of akyl aryl ketones from aldoximes or semcaibazones and aromatic dlazonum salts... [Pg.43]

ROBINSON - ALLAN - KOSTANECKI Chromone Synthesis Synthesis of chromones or coumannes from o acyioxy aromatic ketones... [Pg.321]

The most important method for the synthesis of aromatic ketones 3 is the Friedel-Crafts acylation. An aromatic substrate 1 is treated with an acyl chloride 2 in the presence of a Lewis-acid catalyst, to yield an acylated aromatic compound. Closely related reactions are methods for the formylation, as well as an alkylation procedure for aromatic compounds, which is also named after Friedel and Crafts. [Pg.116]

Diols (pinacols) can be synthesized by reduction of aldehydes and ketones with active metals such as sodium, magnesium, or aluminum. Aromatic ketones give better yields than aliphatic ones. The use of a Mg—Mgl2 mixture has been called the Gomberg-Bachmann pinacol synthesis. As with a number of other reactions involving sodium, there is a direct electron transfer here, converting the ketone or aldehyde to a ketyl, which dimerizes. [Pg.1560]

The present method is successful with a wide variety of ketones (see Table). Cyclic ketones (entries 1-4, 8) produce benzoannelated products in excellent overall yields. There is no need to purify the intermediate both the nucleophilic addition of methallylmagnesium chloride and the aromatic cyclization take place cleanly. Acyclic ketones (entries 5-7) also provide high yields of benzoannelated product. Aromatic ketones are particularly interesting substrates for this reaction since they provide substituted biphenyls, which are potentially useful materials for liquid crystal synthesis and whose preparation through classical methodology is often not straightforward. The conditions for the cationic cyclization step can be modified to accommodate acid-sensitive functionality. For example, cyclization of 3 to 4, the latter a precursor for 3-methyl-8,14-dehydromorphinan, was accomplished in 77% yield by treatment of 3 at... [Pg.218]

An ingenious strategy developed by Jun s group makes use of a chelating 3-picolin-2-yl group for performing C-C bond forming reactions. In the particular example shown, for the synthesis of aromatic ketones, methylvinyl ketone is added to suppress unwanted reductive amination processes (Equation (130)). [Pg.141]

Similarly, ketimines (benzylimines of aromatic ketones) undergo the rhodium-catalyzed ortho-alkenylation with alkynes to give or/ o-alkenylated aromatic ketones after hydrolysis.61 This method is applied to an efficient one-pot synthesis of isoquinoline derivatives by using aromatic ketones, benzylamine, and alkynes under Rh catalysis (Equation (55)). [Pg.226]

The Pd-catalyzed reaction of simple arenes and nitriles provides a useful synthesis of aromatic ketones.120 The reaction of toluene and benzonitrile in the presence of Pd(OAc)2 as a catalyst in DMSO and TFA gives diarylketones (Equation (92)). The presence of DMSO is essential in this reaction. [Pg.237]

Michler s ketone (6.155) and related carbonyl compounds can be used to obtain colour salts directly by reaction with a reactive intermediate such as an aromatic amine (the ketone synthesis), as in the case of crystal violet (6.164 Cl Basic Violet 3) shown in Scheme 6.31. [Pg.332]

The production of optically active cyanohydrins, with nitrile and alcohol functional groups that can each be readily derivatized, is an increasingly significant organic synthesis method. Hydroxynitrile lyase (HNL) enzymes have been shown to be very effective biocatalysts for the formation of these compounds from a variety of aldehyde and aliphatic ketone starting materials.Recent work has also expanded the application of HNLs to the asymmetric production of cyanohydrins from aromatic ketones. In particular, commercially available preparations of these enzymes have been utilized for high ee (5)-cyanohydrin synthesis from phenylacetones with a variety of different aromatic substitutions (Figure 8.1). [Pg.259]

Roberge, C., Fleitz, F., Pollard, D. and Devine, P., Synthesis of optically active cyanohydrins from aromatic ketones evidence of an increased substrate range and inverted stereoselectivity for the hydroxynitrile lyase from Linum usitatissimum. Tetrahedron Asymm., 2007,18, 208. [Pg.261]

Ikariya and Noyori et al. also reported the synthesis of new chiral Cp Rh and Cp Ir complexes (13 and 14) bearing chiral diamine ligands [(R,R)-TsCYDN and (R,R)-TsDPEN] (Scheme 5.10) these are isoelectronic with the chiral Ru complex mentioned above, and may be used as effective catalysts in the asymmetric transfer hydrogenation of aromatic ketones [42], The Cp Ir hydride complex [Cp IrH(R,R)-Tscydn] (14c) and 5-coordinated amide complex (14d), both of which would have an important role as catalytic intermediates, were also successfully prepared. [Pg.115]

Highly efficient and stereoselective addition of tertiary amines to electron-deficient alkenes is used by Pete et al. for the synthesis of necine bases [26,27], The photoinduced electron transfer of tertiary amines like Af-methylpyrrolidine to aromatic ketone sensitizers yield regiospecifically only one of the possible radical species which then adds diastereospecifically to (5I )-5-menthyloxy-2-(5//)-furanone as an electron-poor alkene. For the synthesis of pyrrazolidine alkaloids in approximately 30% overall yield, the group uses a second PET step for the oxidative demethylation of the pyrrolidine. The resulting secondary amine react spontaneously to the lactam by intramolecular aminolysis of the lactone (Scheme 20) [26,27]. [Pg.197]

By this strategy, anilines 299 can be obtained from aromatics ketones 300 (equation 104). The Beckmann rearrangement/hydrolysis sequence is able to replace an acyl group by an amine and has been used in aromatic synthesis to attach directly nitrogen atoms to aromatic rings, providing an alternative strategy to the classical nitration/reduction sequence. [Pg.416]

The Friedel-Crafts acylation of aromatic compounds is an important synthesis route to aromatic ketones in the production of fine and specialty chemicals. Industrially this is performed by reaction of an aromatic compound with a carboxylic acid or derivative e.g. acid anhydride in the presence of an acid catalyst. Commonly, either Lewis acids e.g. AICI3, strong mineral acids or solid acids e.g. zeolites, clays are used as catalysts however, in many cases this gives rise to substantial waste and corrosion difficulties. High reaction temperatures are often required which may lead to diminished product yields as a result of byproduct formation. Several studies detail the use of zeolites for this reaction (1). [Pg.347]

In this paper we report the use of supported heteropoly acid (silicotungstic acid) and supported phosphoric acid catalysts for the acylation of industrially relevant aromatic feedstocks with acid anhydrides in the synthesis of aromatic ketones. In particular, we describe the acylation of thioanisole 1 with iso-butyric anhydride 2 to form 4-methyl thiobutyrophenone 3. The acylation of thioanisole with acetic anhydride has been reported in which a series of zeolites were used as catalysts. Zeolite H-beta was reported to have the highest activity of the zeolites studied (41 mol % conversion, 150°C) (2). [Pg.347]

The procedure for getting the polymer-bound ligands is very easy to reproduce. Three jS-functionalized aromatic ketones were successfully reduced to the corresponding alcohols by heterogeneous asymmetric hydrogen transfer reaction with formic acid-triethylamine azeotrope as the hydrogen donor. One of the product alcohols (19c) is an intermediate for the synthesis of optically active fluoxetine. [Pg.154]

See other pages where Ketones, aromatic, synthesis is mentioned: [Pg.1800]    [Pg.1800]    [Pg.527]    [Pg.25]    [Pg.201]    [Pg.419]    [Pg.147]    [Pg.226]    [Pg.50]    [Pg.214]    [Pg.1254]    [Pg.1255]    [Pg.50]    [Pg.597]    [Pg.92]    [Pg.113]    [Pg.112]    [Pg.39]    [Pg.428]    [Pg.150]    [Pg.40]    [Pg.41]    [Pg.55]    [Pg.141]   
See also in sourсe #XX -- [ Pg.70 ]



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Aromatic ketones

Aromatic synthesis

Ketone synthesis

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