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Acetals elimination reactions

Whereas nucleophilic substitution occurs on heating with water, aqueous potassium carbonate, silver oxide or sodium acetate, elimination reactions occur on heating an alkyl halide with ethanolic potassium hydroxide. Both unimolecular (El) and bimolecular (E2) pathways occur, the former with tertiary and the latter with primary and secondary halides. The reactions of alkyl halides with oxygen nucleophiles are summarized in Scheme 2.3. [Pg.29]

Three-dimensional potential energy diagrams of the type discussed in connection with the variable E2 transition state theory for elimination reactions can be used to consider structural effects on the reactivity of carbonyl compounds and the tetrahedral intermediates involved in carbonyl-group reactions. Many of these reactions involve the formation or breaking of two separate bonds. This is the case in the first stage of acetal hydrolysis, which involves both a proton transfer and breaking of a C—O bond. The overall reaction might take place in several ways. There are two mechanistic extremes ... [Pg.454]

When acetic anhydride is used in the CF3CCI3 and zinc reaction with aldehydes, the initial addition product undergoes an elimination reaction to give 2-chloro-l,l,l-trifluoro-2-alkenes exclusively [60, 63] (equation 51)... [Pg.681]

In 1970, it was disclosed that it is possible to achieve the conversion of dimethylformamide cyclic acetals, prepared in one step from vicinal diols, into alkenes through thermolysis in the presence of acetic anhydride." In the context of 31, this two-step process performs admirably and furnishes the desired trans alkene 33 in an overall yield of 40 % from 29. In the event, when diol 31 is heated in the presence of V, V-dimethylforrnamide dimethyl acetal, cyclic dimethylformamide acetal 32 forms. When this substance is heated further in the presence of acetic anhydride, an elimination reaction takes place to give trans olefin 33. Although the mechanism for the elimination step was not established, it was demonstrated in the original report that acetic acid, yV, V-dimethylacetamide, and carbon dioxide are produced in addition to the alkene product."... [Pg.146]

The El reactions can involve ion pairs, just as is true for S l reactions (p. 398), This effect is naturally greatest for nondissociating solvents it is least in water, greater in ethanol, and greater still in acetic acid. It has been proposed that the ion-pair mechanism (p. 400) extends to elimination reactions too, and that the S l, Sn2, El, and E2 mechanisms possess in common an ion-pair intermediate, at least occasionally. ... [Pg.1308]

Cyclization of 148 with l,8-diazabicyclo[5.4.0]undec-7-ene (DBU) and a subsequent elimination reaction with acetic anhydride and pyridine furnished compound 149. °- Compound 149 was found to be an important key compound for the following synthesis of carba-sugars of the a-L-altro, fi-D-gluco, P-h-allo, and a-D manno modifications. [Pg.45]

Then again, many elimination reactions are found to occur much, more readily in that member of a pair of geometrical isomerides in which the atoms or groups to be eliminated are trans to each other than in the isomer in which they are cis (p. 255). As is seen in the relative ease of elimination from and and syn aldoxime acetates to yield the same cyanide ... [Pg.52]

Several important classes of polar monomers have so far eluded copolymerization by the Pd(II) system. Vinyl chloride insertion, for example, leads to catalyst deactivation following P-halide elimination to form inert chloride species such as 1.32, as shown by Jordan [90], Similarly, attempted vinyl acetate copolymerization results in deactivation by an analogous acetate elimination process, although the ester chelate intermediate that forms after insertion also effectively shuts down the reaction [90], Therefore, -elimination of polar groups represents a significant and unresolved problem for late transition metal polymerization systems unless access of the metal to it is restricted. [Pg.199]

Evidently, this approach is not limited to the formation of nitronates, nitroso acetals or enoximes. The rearrangements of these compounds by elimination reactions, the trapping of intermediates and finally their reactions with various reagents are of equal importance. It should be emphasized that silylation of AN as a process in organic chemistry is characterized by an unrivalled completeness and diversity of transformations. Hence, the silylation can be considered as a separate field of application of AN in organic synthesis. [Pg.607]

Elimination Reactions with Silyl Nitronates and Ene Nitroso Acetals... [Pg.654]

Silylation of AN and cyclic nitronates affords SENA and BENA or cyclic N-siloxy-ene nitroso acetals as the major primary products (see Sections 3.2.1.3 and 3.5.1). All these relatively unstable derivatives can undergo various elimination reactions, which will be considered in separately. [Pg.654]

For instance, 2-methylpropene reacted with acetic acid at 18°C in the presence of Al-bentonite to form the ester product (75). Ion-exchanged bentonites are also efficient catalysts for formation of ketals from aldehydes or ketones. Cyclohexanone reacted with methanol in the presence of Al-bentonite at room temperature to give 33% yield of dimethyl ketal after 30 min of reaction time. On addition of the same clay to the mixture of cyclohexanone and trimethyl orthoformate at room-temperature, the exothermic reaction caused the liquid to boil and resulted in an almost quantitative yield of the dimethyl ketal in 5 min. When Na- instead of Al-bentonite is used, the same reaction did not take place (75). Solomon and Hawthorne (37) suggest that elimination reactions may have been involved in the geochemical transformation of lipid and other organic sediments into petroleum deposits. [Pg.479]

Kluger and Brandi (1986b) also studied the decarboxylation and base-catalysed elimination reactions of lactylthiamin, the adduct of pyruvate and thiamin (Scheme 2). These reactions are nonenzymic models for reactions of the intermediates formed during the reaction catalysed by the enzyme pyruvate decarboxylase. The secondary j3-deuterium KIE for the decarboxylation was found to be 1.09 at pH 3.8 in 0.5 mol dm-3 sodium acetate at 25°C. In the less polar medium, 38% ethanolic aqueous sodium acetate, chosen to mimic the nonpolar reactive site in the enzyme, the reaction is significantly faster but the KIE was, within experimental error, identical to the KIE found in water. This clearly demonstrates that the stabilization of the transition state by hyperconjugation is unaffected by the change in solvent. [Pg.209]

Cyclic ketene acetals, which have utility as co-polymers with functional groups capable of cross-linking, etc., have been prepared by the elimination of HX from 2-halomethyl-l,3-dioxolanes. Milder conditions are used under phase-transfer conditions, compared with traditional procedures, which require a strong base and high temperatures. Solid liquid elimination reactions frequently use potassium f-butoxide [27], but acceptable yields have been achieved with potassium hydroxide and without loss of any chiral centres. The added dimension of sonication reduces reaction times and improves the yields [28, 29]. Microwave irradiation has also been used in the synthesis of methyleneacetals and dithioacetals [30] and yields are superior to those obtained with sonofication. [Pg.394]

Incubation of the reaction mixture was done in screw capped tubes to eliminate losses of naphthalene due to volatilization. The reaction system for Experiment 1 consisted of 10 ml of cell suspension, 0.05 uCi of C-na thalene, and 100 ug of cold naphthalene in 200 pi of ethyl acetate. The reaction mixjtme for Experiment 2 consisted of 5 ml of cell suspension and 0.8 pCi of C-naphthalene in 50 pi of ethyl acetate. The mixtures were incubated at room temperature for 10 hours with gentle shaking. The reaction mixtures were then extracted three times with equal volumes of ethyl acetate (Experiment 1) or hexane acetone (4 1, v v) ] xperiment 2). A statistically significant increase in non-extractable activity (primarily polar, water soluble metabolite) for live cells over... [Pg.333]

A-Alkylhydroxylamines react with substituted allyl acetates (e.g. 15, equation 11) in palladium catalyzed addition-elimination reactions giving the corresponding A-alkyl, A-allylhydroxylamines 16. The reaction proceeds with high regioselectivity but complete racemization. A similar reaction with 0-acyl hydroxamic acids has been carried out using allylic a-alkoxycarbonyloxyphosphonates. ... [Pg.122]

The proposed mechanism involves the formation of ruthenium vinylidene 97 from an active ruthenium complex and alkyne, which upon nucleophilic attack of acetic acid at the ruthenium vinylidene carbon affords the vinylruthenium species 98. A subsequent intramolecular aldol condensation gives acylruthenium hydride 99, which is expected to give the observed cyclopentene products through a sequential decarbonylation and reductive elimination reactions. [Pg.211]

See other pages where Acetals elimination reactions is mentioned: [Pg.105]    [Pg.391]    [Pg.119]    [Pg.142]    [Pg.213]    [Pg.18]    [Pg.28]    [Pg.601]    [Pg.135]    [Pg.276]    [Pg.211]    [Pg.386]    [Pg.220]    [Pg.391]    [Pg.407]    [Pg.104]    [Pg.1490]    [Pg.1561]    [Pg.351]    [Pg.87]    [Pg.663]    [Pg.9]    [Pg.52]    [Pg.286]    [Pg.483]    [Pg.241]   
See also in sourсe #XX -- [ Pg.1329 ]

See also in sourсe #XX -- [ Pg.96 , Pg.276 ]



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