Ketones epoxide preparation

The acidity difference of hydrogen atoms adjacent to divalent sulfur compared to oxygen stems from the greater polarizability of sulfur and the longer C-S-bond length d-orbitals are not involved. In most cases treatment of dithianes with w-BuLi at temperatures of -30 °C is sufficient for the preparation of the lithio-derivatives. With pKA values of approximately 30, lithiated dithianes can react with aldehydes or ketones, epoxides and acid derivatives, but also with alkyl halides without competing elimination reactions. 

Trifluoroacetimidoyllithiums 75 have been prepared from imidoyl iodides by reaction with n-BuLi at — 78 °C and have been trapped with aldehydes, ketones, epoxides,... 

An alternative approach to epoxides utilizes aldehydes or ketones instead of alkenes as precursors for epoxide preparation. 

Tt-Allylnickel halides. Billington has reviewed the preparation of these complexes from allylic halides using Ni(CO)4 or Ni(COD)2, and their use in synthesis, mainly of natural products (54 references). These complexes react with a wide range of both aliphatic and aryl bromides or iodides as well as aldehydes, ketones, epoxides, and quinones. One advantage is that both allyl ligands react. They do not react with acid chlorides, esters, ethers, nitriles, or acetals. 

Corey-Chaykovsky epoxidation Preparation of epoxides from aldehydes and ketones. 102... 

Epoxides of a-methylene ketones. Epoxidation of a-methylene ketones is generally unsatisfactory. The desired epoxides have usually been prepared by epoxidation of allylic alcohols followed by oxidation. Another route involves oxidation of salts of Mannich bases with alkaline hydrogen peroxide (equation I). 

Sources of Alcohols 615 Preparation of Alcohols by Reduction of Aldehydes and Ketones 617 Preparation of Alcohols by Reduction of Carboxylic Acids 620 Preparation of Alcohols from Epoxides 620... 

In 2002, Shing et al. reported glucose-derived ketones 391 and 392. Ketone 391 epoxidizes tran -stilbene with up to 71% ee [277]. A series of L-arabinose-derived ketones 393-399 followed, and up to 90% ee was obtained for tran -stilbene epoxide with ketone 396 [278], In the same year, Zhao et al. reported three fructose-derived ketones and aldehydes 400-402 for the asymmetric epoxidation [279], Aldehyde 402 achieved 94% ee for tran -stilbene. hi 2009, Davis et al. presented a variety of conformationally restricted ketones 403, prepared from A-acetyl-D-glucosamine which show useful selectivities with terminal olefins (styrene 81% ee. Fig. 7.19) [280]. 

Medroxyprogesterone acetate (74) is stmcturaHy related to and has been prepared from hydroxyprogesterone (39) (Fig. 10). Formation of the bis-ketal accomplishes the protection of the ketones and the required migration of the double bond. Epoxidation with peracetic acid produces a mixture of epoxides (75), with a predominating. Treatment of the a-epoxide with methyl magnesium bromide results in diaxial opening of the epoxide. Deprotection of the ketones provides (76), which is dehydrated to (77) by treatment with dilute sodium hydroxide in pyridine. Upon treatment with gaseous hydrochloric... 

Garyophyllene. (-)-CaryophyUene can be isolated from Indian turpentine and has been used to prepare a number of woody aroma products. The epoxides are produced by reaction with peracids. Acetylation of caryophyUene also gives a usehil methyl ketone (180) (Fig. 8). Acid-catalyzed rearrangement of caryophyUene in the presence of acetic acid gives a mixture of esters, which are related to caryolan-l-ol and clovan-2-ol (181). 

Other modifications of the polyamines include limited addition of alkylene oxide to yield the corresponding hydroxyalkyl derivatives (225) and cyanoethylation of DETA or TETA, usuaHy by reaction with acrylonitrile [107-13-1/, to give derivatives providing longer pot Hfe and better wetting of glass (226). Also included are ketimines, made by the reaction of EDA with acetone for example. These derivatives can also be hydrogenated, as in the case of the equimolar adducts of DETA and methyl isobutyl ketone [108-10-1] or methyl isoamyl ketone [110-12-3] (221 or used as is to provide moisture cure performance. Mannich bases prepared from a phenol, formaldehyde and a polyamine are also used, such as the hardener prepared from cresol, DETA, and formaldehyde (228). Other modifications of polyamines for use as epoxy hardeners include reaction with aldehydes (229), epoxidized fatty nitriles (230), aromatic monoisocyanates (231), or propylene sulfide [1072-43-1] (232). 

Dioxolanes haye been prepared from a carbonyl compound and an epoxide (e.g., ketone/SnC, CCI4, 20°, 4 h, 53% yield or aldehyde/ Et4N Br, 125-220°, 2-4 h, 20-85% yield ). Perhalo ketones can be protected by reaction with ethylene chlorohydrin under basic conditions (K2CO3, pentane, 25°, 2 h, 85% yield or NaOH, EtOH—H2O, 95% yield ). 

In a typical Knof procedure, 3jS-hydroxyandrost-5-en-17-one acetate is epoxidized with perbenzoic acid (or m-chloroperbenzoic acid ) to a mixture of 5a,6a- and 5)5,6)5-epoxides (75) in 99 % yield. Subsequent oxidation with aqueous chromium trioxide in methyl ethyl ketone affords the 5a-hydroxy-6-ketone (76) in 89% yield. Baeyer-Villiger oxidation of the hydroxy ketone (76) with perbenzoic acid (or w-chloroperbenzoic acid ) gives keto acid (77) in 96% yield as a complex with benzoic acid. The benzoic acid can be removed by sublimation or, more conveniently, by treating the complex with benzoyl chloride and pyridine to give the easily isolated )5-lactone (70) in 40% yield. As described in section III-A, pyrolysis of j5-lactone (70) affords A -B-norsteroid (71). Knof used this reaction sequence to prepare 3)5-hydroxy-B-norandrost-5-en-17-one acetate, B-noran-... 

Rearrangement of fluorine with concomitant ring opening takes place in fluorinated epoxides Hexafluoroacetone can be prepared easily from perfluo-ropropylene oxide by isomerization with a fluorinated catalyst like alumina pre treated with hydrogen fluoride [26, 27, 28] In ring-opening reactions of epoxides, the distribution of products, ketone versus acyl fluoride, depends on the catalyst [29] (equation 7) When cesium, potassium, or silver fluoride are used as catalysts, dimenc products also are formed [29]... 

Isolated carbonyls always give epoxides from the Corey-Chaykovsky reaction. Take the aldehyde substrate as an example. Spiro epoxide 30 was produced from the reaction of trisnorsqualene aldehyde 28 (R20 represents the polyene side-chain with 20 carbons) with substituted sulfur ylide 29, prepared in situ from cyclopropyldiphenylsulfonium tetrafluoroborate and KOH. " For the epoxidation of ketones, the Corey-Chaykovsky reaction works well for diaryl- (31), arylalkyl- (32), ... 

---