4- Hydroxy-4- cyclohexanone

Diacetates of 1,4-butenediol derivatives are useful for double allylation to give cyclic compounds. l,4-Diacetoxy-2-butene (126) reacts with the cyclohexanone enamine 125 to give bicyclo[4.3.1]decenone (127) and vinylbicy-clo[3.2.1]octanone (128)[85,86]. The reaction of the 3-ketoglutarate 130 with cij-cyclopentene-3,5-diacetate (129) affords the furan derivative 131 [87]. The C- and 0-allylations of ambident lithium [(phenylsulfonyl)methylene]nitronate (132) with 129 give isoxazoline-2-oxide 133, which is converted into c -3-hydroxy-4-cyanocyclopentene (134)[S8]. Similarly, chiral m-3-amino-4-hyd-roxycyclopentene was prepared by the cyclization of yV-tosylcarbamate[89]. 

A Methylamino)phenol. This derivative, also named 4-hydroxy-/V-methy1ani1ine (19), forms needles from benzene which are slightly soluble in ethanol andinsoluble in diethyl ether. Industrial synthesis involves decarboxylation of A/-(4-hydroxyphenyl)glycine [122-87-2] at elevated temperature in such solvents as chlorobenzene—cyclohexanone (184,185). It also can be prepared by the methylation of 4-aminophenol, or from methylamiae [74-89-5] by heating with 4-chlorophenol [106-48-9] and copper sulfate at 135°C in aqueous solution, or with hydroquinone [123-31 -9] 2l. 200—250°C in alcohoHc solution (186). 

Cyclohexanol can be deterrnined colorimetricaHy by reaction with -hydroxy-ben2aldehyde in sulfuric acid (18). This method can be used in the presence of cyclohexanone and cyclohexane. Cyclohexanol and cyclohexanone both show a maximum absorbency at 535 nm but at 625 nm the absorption by cyclohexanone is negligible, whereas cyclohexanol shows appreciable absorption. 

Hydroxymethylmethyldiazirine (209 unprotonated) formed propionaldehyde as the sole product by thermal nitrogen extrusion 4-hydroxy-l,2-diazaspiro[2.5]oct-l-ene (218) formed a mixture of cyclohexanone (73%), cyclohexenol (21%) and cyclohexene oxide (5%). Thermal decomposition of difluorodiazirine (219) was investigated intensively. In this case there is no intramolecular stabilization possible. On heating for three hours to 165-180 °C hexafluorocyclopropane and tetrafluoroethylene were formed together with perfluorofor-maldazine 64JHC59). 

The application of this addition to aminomethylene ketones provides a convenient synthesis of monoamides of pimelic acid (508). It should be noted that the corresponding oxidation of hydroxy methylene cyclohexanone leads to ring contraction and formation of cyclopentanoic acid. 

Reaction of 2-amino-3-hydroxypyridine and cyclohexanone 433 in boiling AcOH yielded N, 1 -diphenyl-6-hydroxy-3-methyl-11 -0x0-1,2-dihydro-11 //-pyrido[2,l-Z)]quinazoline-2-carboxamide (434) (98MI2, 99USP5908840, 99USP5914327). 

Cyclohexanone gives c-caprolactone, bp 102-10477 mm, which may polymerize on standing. The lactone may be converted easily to the corresponding e-hydroxy-hydrazide by heating on a steam bath with a slight excess of 100% hydrazine hydrate. The crude hydrazide may be recrystallized from ethyl acetate, mp 114-115°. 

Hydroxyglutakonitrile, 46, 48 H> droxylamine O sulfonic acid, addi tion to cyclohexanone, 46, 83 18 Hydroxy 18,20/1 oxido-5 pregnene, 46,56... 

Cyclohexanon + l-Brom-3-methyl-------------- 3-Methyl-2-(]-hydroxy-cydohexyl)-buten-... 

Besitzen Aldehyd und Keton a-H-Atome, so werden diese zunachst durch Hydroxy-methyl-Gruppen ersetzt. Auf diese Weise erhalt man z. B. aus Acetaldehyd und vier Molen Formaldehyd Pentaerythrit (73% d.Th.)4 bzw. aus Cyclohexanon mit fiinf Molen Formaldehyd 2-Hydroxy-1,1,3,3-tetrakis-[hydroxymethyl]-cyclohexan (73-85% d.Th.). Da es sich hierbei zunachst um eine Aufbaureaktion handelt, wird diese Umsetzung in Bd. VI/la/2, S. 1314f. geschlossen abgehandelt (vgl. auch Lit.s). 

Auf analoge Weise erhalt man galvanostatisch (200 mA) aus 5-Oxo-cycloocten 1-Hydroxy-bicyclo[3.3.0 pctan (69% d. Th.) bzw. aus 2-[Buten-(3)-yl]-cyclohexanon 1-Hydroxy-9-methyl-bicyclo[4.3,0]nonan (67% d. Th.)2 ... 

The chromic acid oxidation of cyclohexanone to adipic acid via 2-hydroxy-cyclohexanone and cyclohexane-l,2-dione is third order , viz. 

Products detected or isolated from these oxidations include the corresponding a-hydroxy ketone and a-diketone and also adipic acid (from cyclohexanone) in up to 95 % yield. However, IrCI gives a-chloroketone in quantitative yield . Evidently when the rate of oxidation exceeds enolisation attack is on the keto form, probably via a complex, although this is definite only for Ce(IV) perchlorate, to give a radical, e.g. 

It is noteworthy that while V(V) attacks a-hydroxy ketones faster than unsubstituted ketones by two orders of magnitude , Mn(III) pyrophosphate oxidises a-hydroxycyclohexanone more slowly than cyclohexanone. ... 

Substituted 1-hydroxy cyclohexane-1-carboxyhc acids, which could be prepared from the corresponding cyanohydrins by acid hydrolysis as described above, are important as pharmaceuticals and plant-protective agents. Although the compounds derived from 2- and 3-cyclohexanones have two stereogenic centers, stereoselective syntheses of these interesting products have been published only very recently. " Completely unexpected are the results of HNL-catalyzed additions to 4-substituted cyclohexanones, which do not possess a prochiral center. The (R)-PaHNL-catalyzed addition affords almost exclusively fran -isomers, whereas with (5 )-MeHNL cA-addition is favored (Table 4). ... 

The role of oxygen on the allyhc oxidation of cyclohexene over the FePcCli6-S/TBHP catalytic system was determined by using 2 labelled oxygen. Since more than 70% of the main cyclohexene oxidation products, 4,11, and 12, had labelled oxygen, we can assure that molecular oxygen acts as co-oxidant. However, under the reaction conditions the over-oxidation of 4 seems to be unavoidable. Labelled 2, 3- epoxy-l-cyclohexanone (13), 2-cyclohexen-l, 4-dione (14), and 4-hydroxy-2-cyclohexen-l-one (15) were detected as reaction products. 

Wittig-type olefination has been reported. The reaction is thought to involve the salt (47) and shows little stereoselectivity. 2.2.2 Ketones.- The stereochemistry of olefination of 2,3-epoxy- and protected 2-hydroxy cyclohexanones with ethylidenetriphenyl-... 

Acyl nitroso compounds (3, Scheme 7.2) contain a nitroso group (-N=0) directly attached to a carbonyl carbon. Oxidation of an N-acyl hydroxylamine derivative provides the most direct method for the preparation of acyl C-nitroso compounds [10]. Treatment of hydroxamic acids, N-hydroxy carbamates or N-hydroxyureas with sodium periodate or tetra-alkyl ammonium periodate salts results in the formation of the corresponding acyl nitroso species (Scheme 7.2) [11-14]. Other oxidants including the Dess-Martin periodinane and both ruthenium (II) and iridium (I) based species efficiently convert N-acyl hydroxylamines to the corresponding acyl nitroso compounds [15-18]. The Swern oxidation also provides a useful alternative procedure for the oxidative preparation of acyl nitroso species [19]. Horseradish peroxidase (HRP) catalyzed oxidation of N-hydroxyurea with hydrogen peroxide forms an acyl nitroso species, which can be trapped with 1, 3-cyclohexanone, giving evidence of the formation of these species with enzymatic oxidants [20]. 

ACETATE AND ALDEHYDES OR KETONES ETHYL 1-HYDROXYCYCLO-HEXYLACETATE, 53, 66 2- (Hydroxymethylene)cyclohexanone with p-toluenesulfonyl azide to give 2-diazocyclo-hexanone, 51, 86 y-HYDROXY-ct, (3-UNSATURATED ALDEHYDES VIA 1,3-BIS(METHYL-THIO) ALLYLLITHIUM trans-4-HYDROXY-2-HEXENAL, 54, 19... 

Cathodic reduction of 1,3-diphenyl-propenone leads to l-hydroxy-2-benzoyl-3,4-diphenyl cyclopentanes with exclusive cis configuration of the two phenyl groups. With l-phenyl-l-pentene-3-one the cyclodimer 2-methyl-3,5-diphenyl-4-(l-propionyl)-cyclohexanone is formed with a 100% yield in an intramolecular Michael addition via an electrogenerated base. The substituents are all in the most stable equatorial position [277]. 

Stereoselective Synthesis of )0-Hydroxy Sulfoxides Catalyzed by Cyclohexanone Monooxygenase... 

CASRN 15457-05-3 molecular formula C13H7F3N2O5 FW 328.20 Chemical/Physical. When fluorodifen as an aqueous suspension was irradiated using UV light (A, = 300 nm), 4-nitrophenol and 4-(trifluoromethyl)-2-aminophenol formed as the major products (>90% of total product formation). In addition, 4-(trifluoromethyl)-2-nitrophenol formed as a minor product (<1%) as well as 4-hydroxy-3-nitrobenzoic acid. In methanol, photolysis of fluorodifen yielded 4-nitrophenol and 2-amino-4-(trifluoromethyl)anisole. In cyclohexanone, 4-nitrophenol and 3-(trifluoromethyl)nitrobenzene were formed (Ruzo et al., 1980). 

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