Ketene derivatives oxide

More definitive evidence for the formation of an oxirene intermediate or transition state was presented recently by Cormier 80TL2021), in an extension of his earlier work on diazo ketones 77TL2231). This approach was based on the realization that, in principle, the oxirene (87) could be generated from the diazo ketones (88) or (89) via the oxocarbenes 90 or 91) or from the alkyne (92 Scheme 91). If the carbenes (90) (from 88) and (91) (from 89) equilibrate through the oxirene (87), and if (87) is also the initial product of epoxidation of (92), then essentially the same mixture of products (hexenones and ketene-derived products) should be formed on decomposition of the diazo ketones and on oxidation of the alkyne this was the case. 

Ketene derivatives S,S-Acetals and ketals Diphenyl-2-(l,3-dithianyl)phosphine oxide, 126... 

Parallel chemical oxidation of deuterium labeled biphenylacetylene with metachloro-perbenzoic acid yielded the same product as was obtained in the enzymatic reaction. These observations exclude the possible oxidation of the acetylenic terminal C—H bond, because such a reaction would not be compatible with complete conservation of the deuterium atom. Thus, the formation of a ketene derivative was postulated (Scheme 5). However, the nature of the intermediate from which the ketene derivative is formed remains to be elucidated. An oxirene structure was suggested in parallel to alkene epoxidation however, oxirenes are very unstable species due to electronic and steric factors It is currently believed that a complex between the acetylenic n electrons and cytochrome P450 iron-oxene moiety is formed, leading to the formation of the ketene. ... 

Oxidation of Ketene Silyl Acetals. Singlet oxygen oxidizes KSAs resulting in a cleavage of C-C bonds (eq 16),4 the reaction presumably proceeding through a silyl peroxide intermediate. Lead(IV) acetate and m-chloroperbenzoic acid" oxidize KSAs to or-acetoxy (or hydroxy) carboxylic acid derivatives. Oxidative dimerization of ketene silyl acetals by TiCU (eq 17) can be understood in terms of single-electron transfer to the Lewis acids.4 ... 

Oxidation of i-vlnylidene complex [RU2(jt-L)(m-CO)(CO)2Cp21 (L - C=CH2) yields /i-ketene derivative (L - m-C(0)CH2) which readily decarbonylates producing the complex with L = W-CH2, whereas reduction forms (z-CHMe and n-C2U derivatives. Details are given for co-condensation reactions between arenes and Os atoms with the i -ray crystal structure of a dinuclear product, [OS2 (M-CHC6H3Me2-3,5) (>7 -C6H3Me3-l, 3,5)2]. ... 

General Reaction Chemistry of Sulfonic Acids. Sulfonic acids may be used to produce sulfonic acid esters, which are derived from epoxides, olefins, alkynes, aHenes, and ketenes, as shown in Figure 1 (10). Sulfonic acids may be converted to sulfonamides via reaction with an amine in the presence of phosphoms oxychloride [10025-87-3] POCl (H)- Because sulfonic acids are generally not converted directiy to sulfonamides, the reaction most likely involves a sulfonyl chloride intermediate. Phosphoms pentachlotide [10026-13-8] and phosphoms pentabromide [7789-69-7] can be used to convert sulfonic acids to the corresponding sulfonyl haUdes (12,13). The conversion may also be accompHshed by continuous electrolysis of thiols or disulfides in the presence of aqueous HCl [7647-01-0] (14) or by direct sulfonation with chlorosulfuric acid. Sulfonyl fluorides are typically prepared by direct sulfonation with fluorosulfutic acid [7789-21-17, or by reaction of the sulfonic acid or sulfonate with fluorosulfutic acid. Halogenation of sulfonic acids, which avoids production of a sulfonyl haUde, can be achieved under oxidative halogenation conditions (15). 

Benzonitrile oxide reacted with 3-phenyl-4-benzylideneisoxazolinone to produce two isomeric spiro compounds (Scheme 153) (72MI41609,72MI41608). The reaction of benzonitrile oxide with ketene produced a spiro derivative (67MI41600) with allenes, bis(spiroisoxazo-lines) along with monoaddition products were formed (Scheme 154) (79JOC2796, 70CR(C)-(271)1468). 

In context with the formation of peraminosubstituted 1,4,5,8-tetraazaful-valenes of type 85 it must be mentioned that the bis-vinylogous compounds 94 can be easily prepared by reaction of acetamidine with bisimidoylchlo-rides derived from oxalic acid (96S1302). In the course of a complex reaction a cyclic ketene aminal was produced it immediately underwent an oxidative dimerization to yield deeply colored TAFs. Tlieir high chemical stability can be compared with that of indigoid dyes and manifests itself, for example, by the fact that they are soluble in hot concentrated sulfuric acid without decomposition. Tire same type of fulvalene is also available by cy-... 

The use of ethyl ethylthiomethyl sulphoxide in this reaction leads to the desired addition products in much better yields (95-97%). These products were then converted into ketene dithioacetal monoxide derivatives 430 by a sequence of reactions (equation 258)505. Reaction of 2-lithio-l,3-dithiane-l-oxide with benzophenone affords a mixture of the diastereoisomeric tertiary alcohols 431 in a ratio which is temperature dependent (cis trans changes from 3 1 at — 78 °C to 1 1 at room temperature)268. 

Several approaches to the 1,2,3-triazole core have been published in 2000. Iodobenzene diacetate-mediated oxidation of hydrazones 152 led to fused 1,2,3-triazoloheterocycles 153 <00SC417>. Treatment of oxazolone 154 with iso-pentyl nitrite in the presence of acetic acid gave 1,2,3-triazole 155, a precursor to 3-(W-l,2,3-triazolyl)-substituted a,P-unsaturated a amino acid derivatives <00SC2863>. Aroyl-substituted ketene aminals 156 reacted with aryl azides to provide polysubstituted 1,23-triazoles 157 <00HC387>. 2-Aryl-2T/,4/f-imidazo[43-d][l,2,3]triazoles 159 were prepared from the reaction of triethyl AM-ethyl-2-methyl-4-nitro-l//-imidazol-5-yl phosphoramidate (158) with aryl isocyanates <00TL9889>. 

The matrix photochemistry of 2v proved to be fairly complicated.108 The primary product of the photolysis of 2v is carbene lv, which was identified by ESR spectroscopy. Under the conditions of matrix isolation the carbene showed the expected reactivity towards molecular oxygen (formation of carbonyl oxide 7v) and carbon monoxide (formation of ketene lOv) (Scheme 22). In contrast to the oxocyclohexadienylidenes (la and derivatives) carbene lv slowly reacted with CO2 to give an a-lactone with the characteristic C=0 stretching vibration at 1896 cm-1. The latter reaction indicates that lv is — as expected — more nucleophilic than la. 

In the synthesis of D-eryt/zro-sphingosine (78 without BOC protection), the key step is the asymmetric aldol reaction of trimethylsilylpropynal 75 with ke-tene silyl acetal 76 derived from a-benzyloxy acetate. The reaction was carried out with 20 mol% of tin(II) triflate chiral diamine and tin(II) oxide. Slow addition of substrates to the catalyst in propionitrile furnishes the desired aldol adduct 77 with high diastereo- and enantioselectivity (syn/anti = 97 3, 91% ee for syn). In the synthesis of protected phytosphingosine (80, OH and NH2 protected as OAc and NHAc, respectively), the asymmetric aldol reaction is again employed as the key step. As depicted in Scheme 3-27, the reaction between acrolein and ketene silyl aectal 76 proceeds smoothly, affording the desired product 80 with 96% diastereoselectivity [syn/anti = 98 2) and 96% ee for syn (Scheme 3-27).50... 

Base-catalyzed addition of glycosyl oxides for anomeric O-activation has been extended meanwhile to trifluoroacetonitrile (see Scheme 9), to dichlor-oacetonitrile, to l-aryl-l,l-dichloroacetonitriles, and to ketene imines (46,51,52). Also 2-(glycosyloxy)-pyridine and -pyrimidine derivatives were readily prepared from the corresponding 2-halo precursors (78). However,... 

Abstract The basic principles of the oxidative carbonylation reaction together with its synthetic applications are reviewed. In the first section, an overview of oxidative carbonylation is presented, and the general mechanisms followed by different substrates (alkenes, dienes, allenes, alkynes, ketones, ketenes, aromatic hydrocarbons, aliphatic hydrocarbons, alcohols, phenols, amines) leading to a variety of carbonyl compounds are discussed. The second section is focused on processes catalyzed by Pdl2-based systems, and on their ability to promote different kind of oxidative carbonylations under mild conditions to afford important carbonyl derivatives with high selectivity and efficiency. In particular, the recent developments towards the one-step synthesis of new heterocyclic derivatives are described. 

In contrast to the foregoing observations, there are other reactions that generate oxirane derivatives as intermediates that undergo further transformations to a variety of compounds. For example, oxidation of ketenes 15 gives polyesters 17 via the intermediacy of oxiranones 16. The conversion 15 16 probably involves a nucleophilic attack of oxygen end of the... 

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