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Ozonolysis products of the

Problem 8.13 Contrast the ozonolysis products of the following isomers ... [Pg.279]

The same year, Gerlach described a synthesis of optically active 1 from (/ )- ,3-butanediol (7) (Scheme 1.2). The diastereomeric esters produced from (-) camphorsulfonyl chloride and racemic 1,3-butanediol were fractionally recrystallized and then hydrolized to afford enantiomerically pure 7. Tosylation of the primary alcohol, displacement with sodium iodide, and conversion to the phosphonium salt 8 proceeded in 58% yield. Methyl-8-oxo-octanoate (10), the ozonolysis product of the enol ether of cyclooctanone (9), was subjected to Wittig condensation with the dilithio anion of 8 to give 11 as a mixture of olefin isomers in 32% yield. The ratio, initially 68 32 (E-.Z), was easily enriched further to 83 17 (E Z) by photolysis in the presence of diphenyl disulfide. The synthesis was then completed by hydrolysis of the ester to the seco acid, conversion to the 2-thiopyridyl ester, and silver-mediated ring closure to afford 1 (70%). Gerlach s synthesis, while producing the optically active natural product, still did not address the problem posed by the olefin geometry. [Pg.4]

Drimane-8a,l 1-diol (41) and its 11-monoacetate (42) are suitable starting compounds for the synthesis of a series of drimanes and not only of them. Only the diol (41) was found in natural sources and was isolated from tobacco [51] and from a special gland of African elephant [52], Data about the synthesis of these compounds from the ambreinolide [39] and of the hydroxy acetate (42) from the sclareol (3) have been already reported [42]. Barrero et al. [42] showed also that if the reduction of the ozonolysis product of the mixture of esters (54) is done with LiAlFE instead of NaBH4, the diol (41) is obtained in a 95% yield (Scheme 11). [Pg.406]

A typical example of an application of ozonolysis in synthesis is the cleavage of the alkene unit in 351 to give aldehyde 352, with loss of formaldehyde, a part of Smith s synthesis of (+)-thiazinotrienomycin In this case, the reductive workup used triphenylphosphine. Ozonolysis of 353 gave aldehyde 354, an intermediate in Corey s synthesis of the Cecropia Moth Juvenile hormone, via a reductive workup with DMS. Note that the electron rich vinyl ether moiety reacted in preference to the simple alkene moiety. The ozonolysis product of the methyl vinyl ether was a methyl ester. This method is particularly useful for the preparation of protected acids. In general, electron rich alkenes are oxidized faster than electron-poor alkenes. [Pg.269]

Rhodium catalyst is used to convert linear alpha-olefins to heptanoic and pelargonic acids (see Carboxylic acids, manufacture). These acids can also be made from the ozonolysis of oleic acid, as done by the Henkel Corp. Emery Group, or by steam cracking methyl ricinoleate, a by-product of the manufacture of nylon-11, an Atochem process in France (4). Neoacids are derived from isobutylene and nonene (4) (see Carboxylic acids, trialkylacetic acids). [Pg.94]

Compound 4 was epoxidized to give 15 (Scheme 3) and the MS fragmentation of 15 is given by the broken-line mlz (relative abundance). To ensure the location of the double bonds, the epoxidation and the MS of 15 was compared with the products of the ozonolysis identified by GC and MS (as marked by the broken lines)6. The use of the various derivatization products via oxidation, combined with other spectroscopic methods, is discussed in Section III. [Pg.493]

Ozonolysis in the presence of NaOH or NaOCH3 in methanol with CH2CI2 as a cosolvent leads to formation of esters. This transformation proceeds by trapping both the carbonyl oxide and aldehyde products of the fragmentation step.149... [Pg.789]

The diozonolysis of cyclo-1,3-dienes leads to a mixture of substituted 1,2-dioxanes <1990OJO1369, 19890B145> the product composition, but not the stereochemistries of the reaction products, was determined by H and O NMR spectroscopy. 3,3-Diphenyl-l,2-dioxan-4-one was isolated and characterized by H NMR spectroscopy as one reaction product of the ozonolysis of (diphenylmethylene)cyclopropane <2001HCA1943>. [Pg.712]

The selectivity of the ozone reaction in pure solvent or water-solvent systems is known from early studies conducted by chemists under analytical and preparative aspects (Bailey, 1958). Inert solvents (e. g. pentane, carbon tetrachloride) provide an opportunity to produce and study oxidation products of the ozonolysis, such as ozonides at low temperatures (Criegee, 1975). Only in the last two decades have ozonation techniques been developed and studied that utilize the higher ozone solubility, enhanced mass transfer rates, higher reaction rates etc. to be found in water-solvent systems. [Pg.154]

The double bond is cleaved by ozonolysis. Each of the doubly bonded carbons becomes doubly bonded to oxygen in the product. [Pg.139]

Given the structures of ozonolysis products, deduce the structure of the unsaturated hydrocarbon that produced them. [Pg.41]

Enol ethers of 1,2- and 1,3-diketones afford on ozonolysis products that are not in full agreement with the Criegee mechanism, because in some cases products of the Baeyer-Villiger rearrangement are formed. The main product in the ozonolysis of the enol ether 180 is a mixture of spiranic stereoisomers 181 involving a lactone and a 1,2,4-trioxolane ring (Scheme 62) <2004HCA2025>. [Pg.236]

The C-Si bond of an SMA can also be cleaved by oxidizing reagents like cerium ammonium nitrate (CAN). Starting from (V-bis(trimethylsilyl)methylazetidinones, treatment with CAN probably leads to the oxidation product of the two C-Si bonds, i.e., the corresponding disilylketal that is hydrolyzed into the formamide to give the N-H azetidinones (yields >80%). This constitutes an alternate and more efficient way to sequential fluoride-induced desilylation. Peterson olefination, ozonolysis, and formamide decomposition when deprotection of bis(trimethylsilyl)methylated azetidinones into NH-azetidinones is required.228,230... [Pg.293]

Synthetic routes to this class of compounds have often been long and complicated the original route for AG5473/5507 required 20 steps. Therefore, the ability to reduce the number of steps has considerable advantage. Guo and colleagues have developed an 11-step synthetic route to AG5473/5507.35 This sequence incorporates an effective ozonolysis protocol for the introduction of an aldehyde moiety 23 that is an essential step to the production of the tricyclic diazamide core 24 (Scheme 11.6). In the reaction sequence, a protected acetylene is added to acetoxyamide 25, to... [Pg.169]

One method for the synthesis of hydroxyalkyl-substituted P-lactams is by the Staudinger reaction, the most frequently used method for the synthesis of P-lactams.86 This method for the preparation of 4-acetoxy- and 4-formyl-substituted P-lactams involves the use of diazoketones prepared from amino acids. These diazoketones are precursors for ketenes, in a diastereoselective, photochemically induced reaction to produce exclusively tram-substituted P-lactams. The use of cinnamaldimines 96, considered as vinylogous benzaldimines, resulted in the formation of styryl-substituted P-lactams. Ozonolysis, followed by reductive workup with dimethyl sulfide, led to the formation of the aldehyde 97, whereas addition of trimethyl orthoformate permitted the production of the dimethyl acetal 98 (Scheme 11.26). [Pg.181]

The four related compounds oxalomycin (157), neooxalomycin (158), cur-romycin A (159), and curromycin B (160) were reported in 1985 157 and 158 were isolated from a yet to be identified Streptomyces species (79, 80) and 159 and 160 from an ethidium bromide-treated strain of S. hygroscopicus (81, 82). The absolute configuration of oxalomycin (157) and neooxalomycin (158) has been determined by application of a combination of X-ray crystallography and chemical correlation to degradation products, the important derivatives being the p-bromobenzoate 161, obtained from 157 by ozonolysis-reduction, acetylation, partial hydrolysis, and reacylation with p-bromobenzoyl chloride, and the erythro acetate 162 which was obtained along with the threo compound 163 after acetylation of the ozonolysis products of 157 (79, 80). No stereochemical infor-... [Pg.285]

Diols (glycols), such as those formed by dihydroxylation of alkenes, are cleaved by periodic acid (HI04). The products are the same ketones and aldehydes that would be formed by ozonolysis-reduction of the alkene. Dihydroxylation followed by periodic acid cleavage serves as a useful alternative to ozonolysis, and the periodate cleavage by itself is useful for determining the structures of sugars (Chapter 23). [Pg.496]

T he ozonolysis of pure hydrocarbon olefins has been studied by gen-erations of chemists ever since 1905 when Harries established the interaction of ozone with double bonds. During this continued research practically all aspects of the ozonolysis reaction have been extensively scrutinized, starting from the nature and products of the initial ozone-double bond interaction, via the mechanistic and stereochemical course of the ozone cleavage, to the correlation between the nature of the starting material and the reaction products. Consequently, the ozonolysis of hydrocarbon olefins is rather well understood. [Pg.50]

Figure 4. NMR spectrum of the ozonolysis product of trans-2,3-dibromo-2-butene... Figure 4. NMR spectrum of the ozonolysis product of trans-2,3-dibromo-2-butene...
Product Studies. Table I outlines the organic and inorganic products of the ozonolysis reactions. The ozonolysis products of n-alkylmercuric halides and di-n-alkylmercurials were a mixture of carboxylic acids which had a carbon chain equal to or shorter than the alkyl group of the parent organomercurial. [Pg.83]

The inorganic products of the ozonolysis reactions were determined for three different organomercurials. Ozonolysis of two dialykylmer-curials produced a mixture of mercuric chloride, mercurous chloride, and mercuric oxide (Reactions 3 and 14, Table I) while one alkylmercuric halide gave only mercuric and mercurous chlorides (Reaction 13, Table I). A known mixture of the three salts was tested for its stability to the reaction conditions. The salts were ozonized as a solution/mixture with methylene chloride. Powder x-ray diffraction showed no difference in the mercury salt mixture after a 2-hour ozonation at 10°C. [Pg.83]

Another potential dark source of in the atmosphere, more particularly in the boundary layer, is from the reactions between ozone and alkenes. The ozonolysis of alkenes can lead to the direct production of the OH radical at varying yields (between 7 and 100%) depending on the structure of the alkene, normally accompanied by the co-production of an (organic) peroxy radical. As compared to both the reactions of OH and NO3 with alkenes the initial rate of the reaction of ozone with an alkene is relatively slow, this can be olfset under regimes where there are high concentrations of alkenes and/or ozone. For example, under typical rural conditions the atmospheric lifetimes for the reaction of ethene with OH, O3 and NO3 are 20 h, 9.7 days and 5.2 months, respectively in contrast, for the same reactants with 2-methyl-2-butene the atmospheric lifetimes are 2.0 h, 0.9 h and 0.09 h. [Pg.46]

See other pages where Ozonolysis products of the is mentioned: [Pg.281]    [Pg.3]    [Pg.281]    [Pg.3]    [Pg.497]    [Pg.79]    [Pg.546]    [Pg.606]    [Pg.729]    [Pg.740]    [Pg.515]    [Pg.606]    [Pg.729]    [Pg.740]    [Pg.176]    [Pg.144]    [Pg.229]    [Pg.224]    [Pg.549]    [Pg.772]    [Pg.398]    [Pg.571]    [Pg.653]    [Pg.57]    [Pg.124]    [Pg.561]    [Pg.67]    [Pg.57]    [Pg.62]    [Pg.637]   
See also in sourсe #XX -- [ Pg.63 ]

See also in sourсe #XX -- [ Pg.63 ]



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