Diaryl diketones

The halogen atoms of the geminal dihalo derivatives of diaryl diketones and of heterocyclic ketones can be replaced in reactions with sulfur compounds 0e.g., sodium hydrogen sulfide, thioacetic acid, phosphorus pentasulfide), thioketones being formed.318,319 Staudinger and Freudenberger,320 for instance, obtained thiobenzophenone in 46% yield from benzophenone dichloride (dichlorophenylmethane) and a hot alcoholic solution of sodium hydrogen sulfide ... 

Diaryl diketones. Highly hindered ary 1 CO to provide the 1,2-diketones. 

Diaryl diketones. Highly hindered aryllithiums such as mesityllithium react with... 

The most common use of the Paal-Knorr condensation begins with a 1,4-diketone and yields a 2,5-disubstituted furan. This method has been used to produce dialkyl and disilyl furans however, the most popular use of this strategy is for the production of 2,5-diaryl furans. In addition to their utility as synthetic intermediates, these compounds are under investigation for novel electronic and pharmaceutical applications. 

Diaryl-1,2-diketone konnen zu Hydroxy-ketonen bzw. Glykolen reduziert werden z.B. ... 

Ordinary ketones are generally much more difficult to cleave than trihalo ketones or p-diketones, because the carbanion intermediates in these cases are more stable than simple carbanions. However, nonenolizable ketones can be cleaved by treatment with a 10 3 mixture of t-BuOK—H2O in an aprotic solvent such as ether, dimethyl sulfoxide, 1,2-dimethoxyethane (glyme), and so on, or with sohd t-BuOK in the absence of a solvent. When the reaction is applied to monosubstituted diaryl ketones, that aryl group preferentially cleaves that comes off as the more stable carbanion, except that aryl groups substituted in the ortho position are more readily cleaved than otherwise because of the steric effect (relief of stain). In certain cases, cyclic ketones can be cleaved by base treatment, even if they are enolizable. " OS VI, 625. See also OS VH, 297. 

Examples of reactions involving replacement and cyclization are the long-known preparation of thiophenes (89) from 1,4-diketones, and the formation of l,2-dithiole-3-thione (90) from the salicylate ester analog (91).120 In the latter instance, oxidative cyclization with formation of an S—S bond has occurred this is a common feature of these reactions, particularly if such a link is needed to complete a five-membered ring. Another example of this aspect is afforded by the reaction of the propane-1,3-dione derivatives (92) which yield 3,5-diaryl-1,2-dithiolylium salts (93) when heated with phosphorus pentasulfide in carbon disulfide, followed by perchloric acid.121... 

A desymmetrizing reduction of a dicarbonyl has also been achieved as a route to flMfi-aldol adducts. Yamada and coworkers have shown that a chiral cobalt complex catalyzes the desymmetrization of diaryl-1,3-diketones in excellent yield and enantioselectivity, greatly favoring the anti isomer [Eq. (10.65)]. Anti selectivity is rationalized using a Felkin-Anh model ... 

The cycloaddition reactions of the unsymmetrical a-diazo-/3-diketone, 2-diazo-l-phenyl-l,3-butanedione 330, with diaryl imines 331 took place with high regioselectivity, affording exclusively the 6-methyl-5-phenyl-substituted 477-l,3-oxazin-4-ones 332 via the acetylphenylketene, generated by the thermal Wolff rearrangement of 330 (Equation 32) <2002HAC165>. 

The lower members of the homologous series of 1. Alcohols 2. Aldehydes 3. Ketones 4. Acids 5. Esters 6. Phenols 7. Anhydrides 8. Amines 9. Nitriles 10. Polyhydroxy phenols 1. Polybasic acids and hydro-oxy acids. 2. Glycols, poly-hydric alcohols, polyhydroxy aldehydes and ketones (sugars) 3. Some amides, ammo acids, di-and polyamino compounds, amino alcohols 4. Sulphonic acids 5. Sulphinic acids 6. Salts 1. Acids 2. Phenols 3. Imides 4. Some primary and secondary nitro compounds oximes 5. Mercaptans and thiophenols 6. Sulphonic acids, sulphinic acids, sulphuric acids, and sul-phonamides 7. Some diketones and (3-keto esters 1. Primary amines 2. Secondary aliphatic and aryl-alkyl amines 3. Aliphatic and some aryl-alkyl tertiary amines 4. Hydrazines 1. Unsaturated hydrocarbons 2. Some poly-alkylated aromatic hydrocarbons 3. Alcohols 4. Aldehydes 5. Ketones 6. Esters 7. Anhydrides 8. Ethers and acetals 9. Lactones 10. Acyl halides 1. Saturated aliphatic hydrocarbons Cyclic paraffin hydrocarbons 3. Aromatic hydrocarbons 4. Halogen derivatives of 1, 2 and 3 5. Diaryl ethers 1. Nitro compounds (tertiary) 2. Amides and derivatives of aldehydes and ketones 3. Nitriles 4. Negatively substituted amines 5. Nitroso, azo, hy-drazo, and other intermediate reduction products of nitro com-pounds 6. Sulphones, sul-phonamides of secondary amines, sulphides, sulphates and other Sulphur compounds... 

Diaryl-1,2,3,5-oxathiadiazines (277 from sulfur trioxide and aryl isocyanates) with (3-diketones yield pyrimidines (278). s-Triazine reacts with RCH2CN to give 4-aminopyrimidines (279 see Section 3.2.1.6.1 for a similar reaction), and with electron-rich alkenes and alkynes to yield pyrimidines such as (280) from EtC = CMe (Section 3.2.1.10.2). 

Dialkyl- and diaryl-acetylenes are selectively converted to a-diketones (equation 121), whereas terminal alkynes give the corresponding carboxylic acid with loss of one carbon atom.337... 

The interaction between ammonia and l-R1-3-aryl-substituted ben-zo[c]pyrylium salts 30, as well as 3,4-diaryl-substituted indeno[e l,2-]-benzo[c]pyrylium, and other substituted cations having a similar fragment is more complicated, especially in hydroxyl-containing solvents. In these cases, mixtures in different ratios are obtained that contain isoquinolines 138, 3-hydroxy-3,4-dihydroisoquinolines 137, OR-adducts 109, anhydro-bases 119, diketones 29, a-naphthylamines 140, and a-naphthols 141 (88UP2). 

The base-catalysed reaction sequence (formulated in Expt 8.17) is thought to proceed via an intermediate heterocyclic pinacol which on acidification yields the required hydantoin as a result of a pinacolic rearrangement. The procedure is applicable in general to diaryl-1,2-diketones. 

Polyhydroxy- phenols. amino acids, di- and polyamino compounds, amino alcohols. Sulphonic acids. Sulphinic acids. Salts. sulphinic acids, aminosulphonic acids and sulphonamides. Some diketones and /3-keto esters. Ethers and acetals. Lactones. Acyl halides. Diaryl ethers. intermediate reduction products of nitro compounds. Sulphones, sulphonamides of secondary amines, sulphides, sulphates and other sulphur compounds. 

Quinolyl)pyrazoIo[3,4-i7]pyridazincs were prepared by cyclocondensation reactions of an anilino-pyrazole acid with acetaldehyde <02JHC869>. Cyclopentadienyl-derived y-diketones and arylhydrazines condensed to 4-(l,4-diaryl-2//-cyclopent[d]pyridazin-2-yl)-benzenesulfonamides <02H(57)2383>. Sulfonated polyfphthalazinone ether sulfone)s 37 were prepared by polycondensation of 4-(4-hydroxyphenyl)phthalazinone 36 with various ratios of disodium 5,5 -sulfonylbis(2-fluorobenzenesulfonate) and bis(4-fluorophenyl)sulfone <02P5335>. 

Interestingly, as reported in the previous section, two unconnected mechanisms seem to operate in the TBCHD-sensitized photooxidation of several substituted 2,3-diaryl-5,6-dihydro-1,4-dioxins 22a-c, and substituted 2,3,5,6-tetraphenyl-1,4-dioxin, 64a-d, yielding, as major products, 1,2-ethanedioldibenzoates 24a-c, and (Z)-stilbenediol dibenzoates 66a-d respectively, together with variable amounts of the corresponding a-diketones [90, 111] (Eqs. (27)]. 

Sonogashira coupling of alkyne 50 with aryl iodide 51 affords the diaryl alkyne 52 oxidation of which produces the 1,2-diketone 53. Hydrolysis of the acetal moiety prior to a proline-induced aldol cyclisation generates a chromanone from which the [ljbenzopyrano-[2,3-c][l]benzopyranone rotenoid system is obtained <07T11878>. 

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