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Cyclohexanone: acylation

V-Acylation of oxaziridine (54) is of more importance, yielding 2-acyloxaziridines which were unaccessible otherwise until recently. Oxaziridines (54) derived from cyclohexanone, butanone or benzaldehyde are acylated readily by acetic anhydride, acid chlorides or isocyanates. Oxaziridines from aliphatic aldehydes, too unstable to be isolated, may be trapped in situ by benzoylation (67CB2593). [Pg.204]

In their original communication on the alkylation and acylation of enamines, Stork et al. (3) had reported that the pyrrolidine enamine of cyclohexanone underwent monoacylation with acid chlorides. For example, the acylation with benzoyl chloride led to monobenzoylcyclohexanone. However, Hunig and Lendle (33) found that treatment of the morpholine enamine of cyclopentanone with 2 moles of propionyl chloride followed by acid hydrolysis gave the enol ester (56), which was proposed to have arisen from the intermediate (55). [Pg.20]

Experimental evidence, obtained in protonation (3,6), acylation (1,4), and alkylation (1,4,7-9) reactions, always indicates a concurrence between electrophilic attack on the nitrogen atom and the -carbon atom in the enamine. Concerning the nucleophilic reactivity of the j3-carbon atom in enamines, Opitz and Griesinger (10) observed, in a study of salt formation, the following series of reactivities of the amine and carbonyl components pyrrolidine and hexamethylene imine s> piperidine > morpholine > cthyl-butylamine cyclopentanone s> cycloheptanone cyclooctanone > cyclohexanone monosubstituted acetaldehyde > disubstituted acetaldehyde. [Pg.102]

There is some spectral evidence that acylation of enamines of cyclic ketones with acid chlorides having an a-hydrogen in the presence of triethylamine proceeds via the ketene and subsequent cycloaddition (84). The intermediate cyclobutanone is then opened to give the enamino ketone which is hydrolyzed to the 2-acyl cyclohexanone. In the case of enamines of larger cyclic ketones the alternate mode of the cyclobutanone opening predominates, with the formation of ring-expanded 1,3-diketones upon... [Pg.139]

While pyridine and quinoline N-oxides do not react directly with enamines, they have been found to form a-pyridyl and 2-quinolinyl-2 -cyclohexanones in good yields after prior acylation (371,372). [Pg.381]

From the outset, the further O acylation of the initial ketonic products was recognized. Detailed studies have been made of the benzoylation of morpholinoeyclohexene (379-382) and of the effect of the amine moiety of cyclohexanone derived enamines on the ratio of produets (iS5) obtained from acylations. [Pg.385]

In the acylation of enamines derived from 3-substituted cyclohexanones, 6-acylated products were favored over 2-acylated products (398), thus revealing another selective enamine reaction sequence. The use of oxalyl bromide for the acylation of enamines has also been described (399). [Pg.389]

The addition of phenylisocyanate (427) to enamines was soon found to lead to double acylation products. In the case of the cyclohexanone derived enamine, the first proposal (428) of a second acylation on nitrogen was... [Pg.396]

The addition of phenylisocyanate to aldehyde-derived enamines resulted in the formation of aminobutyrolactams (438,439). As aminal derivatives these produets can be hydrolyzed to the linear aldehyde amides and thus furnish a route to derivatives of the synthetically valuable malonaldehyde-acid system. With this class of reactions, a second acylation on nitrogen becomes possible and the six-membered cyclization products have been reported (440). Closely related to the reactions of enamines with isocyanates is the condensation of cyclohexanone with urea in base (441). [Pg.398]

In an analogous sequence, reductive alkylation of aminoalcohol, 46, with cyclohexanone affords the secondary amine (47). Acylation with benzoyl chloride affords hexylcaine (48) in a reaction that may again involve acyl migration. [Pg.12]

Changing the functionality on the alicyclic ring from an amine to a carboxylic acid leads to a compound that shows antiallergic activity, acting possibly by means of inhibition of the release of allergic mediators. Thus, condensation of acylated indole with cyclohexanone carboxylic acid affords directly oxarbazole (29). ... [Pg.169]

Example The synthesis of aryl cyclohexanones (71) illustrates some of the problems in this area. Of the two possible 1,3-diCO discoonections (71a and b) we may dismiss (a) as it leads to no simplification of the problem. The ring-chain disconnection (b) suggests the acylation of a symmetrical cyclohexanone and so is very promising. [Pg.231]

The problem arises in controlling the reaction. Cyclohexanone enolises easily but attacks Itself easily too. Direct acylation with RC02Jit and EtO catalyst gives poor yields. " Clearly a specific enol is needed. An activating group could easily be added, as in (72), but acylation of this, to replace the last remaining proton, is not a good idea (cf p 211 ),... [Pg.231]

In a related reaction, enolate 71 is undergoing an electrophilic chlorination with 2,2,6,6-tetrachloro-cyclohexanone (74, Fig. 39), eventually leading to a-chlorinated enol esters 75 [91]. However, a different mechanism cannot be completely ruled out, where the catalyst is not acylated by the ketene, but chlorinated by the tetrachloro-ketone to form [64c-Cl] as the reactive species. [Pg.165]

Methylene ketones, such as cyciopentanone and cyclohexanone, are also readily acylated by boron trifluoride thus cyclohexanone (I) affords 2-acetylcyclo-hexanone (II) ... [Pg.862]

Another recent patent (22) and related patent application (31) cover incorporation and use of many active metals into Si-TUD-1. Some active materials were incorporated simultaneously (e.g., NiW, NiMo, and Ga/Zn/Sn). The various catalysts have been used for many organic reactions [TUD-1 variants are shown in brackets] Alkylation of naphthalene with 1-hexadecene [Al-Si] Friedel-Crafts benzylation of benzene [Fe-Si, Ga-Si, Sn-Si and Ti-Si, see apphcation 2 above] oligomerization of 1-decene [Al-Si] selective oxidation of ethylbenzene to acetophenone [Cr-Si, Mo-Si] and selective oxidation of cyclohexanol to cyclohexanone [Mo-Si], A dehydrogenation process (32) has been described using an immobilized pincer catalyst on a TUD-1 substrate. Previously these catalysts were homogeneous, which often caused problems in separation and recycle. Several other reactions were described, including acylation, hydrogenation, and ammoxidation. [Pg.377]

Nitration of ketones or enol ethers provides a useful method for the preparation of a-nitro ketones. Direct nitration of ketones with HN03 suffers from the formation of a variety of oxidative by-products. Alternatively, the conversion of ketones into their enolates, enol acetates, or enol ethers, followed by nitration with conventional nitrating agents such as acyl nitrates, gives a-nitro ketones (see Ref. 79, a 1980 review). The nitration of enol acetates of alkylated cyclohexanones with concentrated nitric acid in acetic anhydride at 15-22 °C leads to mixtures of cis- and rrans-substituted 2-nitrocyclohexanones in 75-92% yield. 4-Monoalkylated acetoxy-cyclohexanes give mainly m-compounds, and 3-monoalkylated ones yield fra/w-compounds (Eq. 2.40).80... [Pg.16]

Zeolites have also been described as efficient catalysts for acylation,11 for the preparation of acetals,12 and proved to be useful for acetal hydrolysis13 or intramolecular lactonization of hydroxyalkanoic acids,14 to name a few examples of their application. A number of isomerizations and skeletal rearrangements promoted by these porous materials have also been reported. From these, we can underline two important industrial processes such as the isomerization of xylenes,2 and the Beckmann rearrangement of cyclohexanone oxime to e-caprolactam,15 which is an intermediate for polyamide manufacture. Other applications include the conversion of n-butane to isobutane,16 Fries rearrangement of phenyl esters,17 or the rearrangement of epoxides to carbonyl compounds.18... [Pg.33]

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]. [Pg.179]

The reaction of several a-amino acid esters with 0-lactones in chloroform solution gave hydroxyamide esters (equation 50), said to be useful fungicides (74JAP(K)74127918>. Enamines derived from cyclohexanone react smoothly with 0-propiolactone to give 3-(2-cyclo-hexanonyl)propionamides in reasonable yields (equation 51). No acylation of the enamine is observed. This reaction has been used as a key step in a new synthesis of 8-aza steroids (75JOC50). Cyclohexanone imines react in the same manner, except that the expected initial product cyclizes to give bicyclic lactams and enaminones (equation 52) (80T3047). [Pg.386]

This is a general method of preparing enamines from a secondary aliphatic amine and cyclohexanone or cyclopentanone. Acylation of such enamines is the first step in a general procedure for increasing the chain length of a carboxylic acid by 5 or 6 carbon atoms and of a dicarboxylic acid by 10 or 12 carbon atoms.6 Alkylation of enamines of cyclohexanones by alkyl halides 7 or electrophilic olefins,8 followed by hydrolysis, is a good route to a-monoalkyl cyclohexanones. [Pg.34]


See other pages where Cyclohexanone: acylation is mentioned: [Pg.427]    [Pg.397]    [Pg.16]    [Pg.309]    [Pg.216]    [Pg.54]    [Pg.140]    [Pg.98]    [Pg.167]    [Pg.23]    [Pg.575]    [Pg.768]    [Pg.1138]    [Pg.722]    [Pg.374]    [Pg.382]    [Pg.147]    [Pg.62]    [Pg.134]    [Pg.163]    [Pg.220]    [Pg.408]    [Pg.390]    [Pg.85]   
See also in sourсe #XX -- [ Pg.634 ]

See also in sourсe #XX -- [ Pg.634 ]




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Cyclohexanone: acylation oxidation

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