Oppenauer oxidation oxidants

Oppenauer oxidation Oxidation of primary and secondary alcohols with ketones in the presence of metal alkoxides to afford the conesponding aldehydes and ketones. 320... 

Oppenauer oxidation Oxidation of secondary alcohols is accomplished with Et2A10Et and CE3COMe at room temperature. 

Secondary alcohols may be oxidised to the corresponding ketones with aluminium ferf.-butoxlde (or tsopropoxlde) In the presence of a large excess of acetone. This reaction Is known as the Oppenauer oxidation and Is the reverse of the Meerweln - Ponndorf - Verley reduction (previous Section) it may bo expressed ... 

Mccrwein-Pormdorf-Verley reduction Michael reaction Oppenauer oxidation... 

Meerwein-Ponndorf-Veriey Reduction opposite of Oppenauer oxidation Synthesis 1994, 1007 Organic Reactions 1944, 2, 178... 

The widely used Moifatt-Pfltzner oxidation works with in situ formed adducts of dimethyl sulfoxide with dehydrating agents, e.g. DCC, AcjO, SO], P4O10, CCXTl] (K.E, Pfitzner, 1965 A.H. Fenselau, 1966 K.T. Joseph, 1967 J.G. Moffatt, 1971 D. Martin, 1971) or oxalyl dichloride (Swem oxidation M. Nakatsuka, 1990). A classical procedure is the Oppenauer oxidation with ketones and aluminum alkoxide catalysts (C. Djerassi, 1951 H. Lehmann, 1975). All of these reagents also oxidize secondary alcohols to ketones but do not attack C = C double bonds or activated C —H bonds. 

Oppenauer oxidation Opposed jet mills Opposition searches Oprimol 01 PROCESS... 

Most terpene-based citral (5) produced is based on the catalytic oxidative dehydrogenation of nerol (47) and geraniol (48), or by the Oppenauer oxidation of nerol and geraniol (123—125). 

A carbonyl group cannot be protected as its ethylene ketal during the Birch reduction of an aromatic phenolic ether if one desires to regenerate the ketone and to retain the 1,4-dihydroaromatic system, since an enol ether is hydrolyzed by acid more rapidly than is an ethylene ketal. 1,4-Dihydro-estrone 3-methyl ether is usually prepared by the Birch reduction of estradiol 3-methyl ether followed by Oppenauer oxidation to reform the C-17 carbonyl function. However, the C-17 carbonyl group may be protected as its diethyl ketal and, following a Birch reduction of the A-ring, this ketal function may be hydrolyzed in preference to the 3-enol ether, provided carefully controlled conditions are employed. Conditions for such a selective hydrolysis are illustrated in Procedure 4. 

The oxidation of a hydroxyl group by an aluminum alkoxide-catalyzed hydrogen exchange with a receptor carbonyl compound is known as the Oppenauer oxidation. For oxidation of steroidal alcohols the reaction is generally... 

The Oppenauer oxidation has found considerable application in steroid chemistry since it is the most convenient method for converting the commonly... 

Commercially available aluminum isopropoxide, aluminum butoxide and aluminum phenoxide are generally of sufficient purity for use in Oppenauer oxidations provided that these reagents are obtained from a freshly opened container and are freely soluble in the reaction solvent. The reagents may be conveniently stored as 20-40 per cent solutions in anhydrous benzene or toluene. 

Oppenauer oxidation, 236 Oxidation of allylic alcohols with dichloro-dicyanobenzoquinone, 248 Oxidation of allylic alcohols with manganese dioxide, 247... 

In the androstane and pregnane series the 7-methyl-A -3-ketones (36) are produced from 3j -acetoxy-A -7-ketones (34) with methyllithium, and subsequent Oppenauer oxidation of (35). ° ... 

The orally active progestational agent 17a-ethynyltestosterone (56) was subsequently obtained by Oppenauer Oxidation. Similarly ethynyla-tion of 3-ethoxyandrosta-3,5-dien-17-one followed by acid hydrolysis afforded the 17a-ethynyl compound (56). ... 

Hydrolysis of the acetate (71) followed by Oppenauer oxidation gives B-norcholest-4-en-3-one in high yield. An analogous reaction sequence can be used to prepare B-norprogesterone and derivatives of B-nortestosterone from pregnenolone acetate and dehydroepiandrosterone acetate, respectively."" ... 

Oppenauer oxidation and spontaneous cychzation to give 73. This represents an interesting chemical route from the cinchona to the indole alkaloids. 

Hydroxysanguinarinebetaine (367) is formed on Oppenauer oxidation of Chelidonine (366) as a red compound (65MI2) (Scheme 109). Deprotonation of the benzo[c]phenanthridine alkaloid Fagaronine (93T10305), which is known to inhibit various reverse transcriptases (77MI1), resulted in the... 

The reduction of ketones to secondary alcohols and of aldehydes to primary alcohols using aluminum alkoxides is called the Meerw>ein-Ponndorf-Verley reduction. The reverse reaction also is of synthetic value, and is called the Oppenauer oxidation. ... 

The reverse reaction, the so-called Oppenauer oxidation, is carried out by treating a substrate alcohol with aluminum tri-r-butoxide in the presence of acetone. By using an excess of acetone, the equilibrium can be shifted to the right, yielding the ketone 1 and isopropanol ... 

As a synthetic method however the Oppenauer oxidation is of limited importance. 

Oppenauer oxidation of the enol ether (34) affords the corresponding 17 ketone (37) (the enol ether is stable to the basic oxidation conditions). This ketone affords the corresponding 17a-ethynyl compound on reaction with metal acetylides. Hydrolysis of the enol ether under mild conditions leads directly... 

In a modification of this scheme, hydroxypregnenolone is first acetylated under mild conditions to the 3-acetate and then under forcing conditions with caproic anhydride to give the acetate-caproate (122). Ester interchange with methanol removes the acetate at 3 Oppenauer oxidation affords hydroxyprogesterone caproate (124). ... 

The much simpler steroid, 253, was fortuitously found to fulfill this role when injected into animals. Its lack of oral activity was overcome by incorporation of the 7a-thioacetate group. Reaction of the ethisterone intermediate, 77b, with a large excess of an organomagnesium halide leads to the corresponding acetylide salt carbonation with CO2 affords the carboxyllic acid, 251. This is then hydrogenated and the hydroxy acid cy-clized to the spirolactone. Oppenauer oxidation followed by treatment with chloranil affords the 4,6-dehydro-3-ketone (254). Conjugate addition of thiolacetic acid completes the synthesis of spironolactone (255), an orally active aldosterone antagonist. ... 

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