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Hydroxy nitrate alkenes

A suspension of thallium (III) nitrate in hexane reacts with epoxides to give the corresponding -hydroxy nitrate esters in good yield. The same reagent in acetonitrile has been used to synthesize a-nitratoketones from substituted acetophenones, 1,2-dinitrate esters from alkenes, and 1,3-dinitrates from ring-opening nitration of cyclopropanes. ... [Pg.102]

Furoquinones, such as naphtho[2,3-b]fiiran-4,9-dione, naphtho[l,2-b]fiiran-4,5-dione, benzofuran-4,7-dione and benzofiiran-4,5-dione derivatives are available by the ceric ammonium nitrate mediated [3+2] cycloaddition of 2-hydroxy-1,4-naphthoquinones and 2-hydroxy-1,4-benzoquinones with alkenes or phenylacetylene <96CL451>. [Pg.139]

Bis [(trifluoromethyl)thio] acetaldehyde (83a) has been prepared from an enam-ine precursor (84), although refluxing in aqueous ethanolic HCl is required to effect this reaction.The aldehyde is less stable than its enol tautomer (83b), and many reactions typical of aldehydes fail. For example, addition of aqueous silver nitrate immediately yields the silver salt of (83b), rather than giving precipitation of (elemental) silver. The (trifluoromethyl)thio substituent has pseudohalogenic character and, together with the hydroxy group, stabilizes the alkene tautomer in the manner of a push-pull alkene. The enol-aldehyde equilibrium mixture in acetonitrile shows an apparent of 2.6 when titrated with aqueous hydroxide. [Pg.24]

Furopyranopyrandiones have been prepared by the cerium(iv) ammonium nitrate-mediated reaction of 4-hydroxy-277,577-pyrano[4,3- ]pyran-2,5-diones with alkenes (Scheme 14) <2003H(60)939>. [Pg.721]

Vicinal hydroxy carbamates are prepared by the osmium-catalyzed reaction of alkenes with A-chloro-A-metallocarbamates generated in situ from A-chloro-A-sodiocarbamates (easily prepared from the carbamate, tert-butyl hypochlorite, and sodium hydroxide in methanol) by reaction with silver nitrate77 or mercury(II) salts78 in acetonitrile, The greatest reactivity was, however, displayed by the A-chloro-A-sodiocarbamate/mercuryUI) nitrate/tetraethylam-monium acetate (relative ratio 1.5 0.75 1) system, unfortunately low yields of hydroxycarba-mates from trisubstituted alkenes were obtained, due to competitive formation of organomer-... [Pg.883]

Gasoline hydrocarbons volatilized to the atmosphere quickly undergo photochemical oxidation. The hydrocarbons are oxidized by reaction with molecular oxygen (which attacks the ring structure of aromatics), ozone (which reacts rapidly with alkenes but slowly with aromatics), and hydroxyl and nitrate radicals (which initiate side-chain oxidation reactions) (Stephens 1973). Alkanes, isoalkanes, and cycloalkanes have half-lives on the order of 1-10 days, whereas alkenes, cycloalkenes, and substituted benzenes have half- lives of less than 1 day (EPA 1979a). Photochemical oxidation products include aldehydes, hydroxy compounds, nitro compounds, and peroxyacyl nitrates (Cupitt 1980 EPA 1979a Stephens 1973). [Pg.107]

A series of hydroxy-, nitrooxy-, and dinitrooxyalkanes that are produced by reactions between alkenes and hydroxy and nitrate radicals were synthesized to develop procedures both for their collection from atmospheric samples and to facilitate their identification and analysis (Muthuramu et al. 1993). [Pg.71]

Reaction Scheme 7.2 summarizes the reaction mechanism for 1-butene (l-C4Hg) as an example of alkenes. The hydroxyalkyl radicals formed by the pathways (a) and (b) is a kind of alkyl radicals mentioned in the previous Sect. (7.2.2), and exclusively forms hydroxyperoxy radicals by the reaction with O2 in the atmosphere. From the hydroxyperoxy radicals, oxyradicals (hydroxybutoxy radicals) and NO2 (pathways (d), (k)), and partially hydroxybutyl nitrate (pathways (e), (1)) are produced by the reaction with NO as in the case of alkylperoxy radicals described in the previous paragraph. The yields of hydroxylalkyl nitrates are 2-6 % for C4-C6 alkenes (O Brien et al. 1998), which is about half of those for alkyl nitrates from the alkoxy radicals. Hydroxy alkoxy radicals formed in pathways (d) and (k) are known to follow the three reaction pathways, unimolecular decomposition ((g), (n)), H-atom abstraction by O2 ((h), (o)), and dihydroxyl radical formation by isomerization (p), corresponding to reactions (7.25), (7.24) and... [Pg.297]

Oxalic and malonic acids, as well as a-hydroxy acids, easily react with cerium(IV) salts (Sheldon and Kochi, 1968). Simple alkanoic acids are much more resistant to attack by cerium(IV) salts. However, silver(I) salts catalyze the thermal decarboxylation of alkanoic acids by ammonium hexanitratocerate(IV) (Nagori et al., 1981). Cerium(IV) carboxylates can be decomposed by either a thermal or a photochemical reaction (Sheldon and Kochi, 1968). Alkyl radicals are released by the decarboxylation reaction, which yields alkanes, alkenes, esters and carbon dioxide. The oxidation of substituted benzilic acids by cerium(IV) salts affords the corresponding benzilic acids in quantitative yield (scheme 19) (Hanna and Sarac, 1977). Trahanovsky and coworkers reported that phenylacetic acid is decarboxylated by reaction with ammonium hexanitratocerate(IV) in aqueous acetonitrile containing nitric acid (Trahanovsky et al., 1974). The reaction products are benzyl alcohol, benzaldehyde, benzyl nitrate and carbon dioxide. The reaction is also applicable to substituted phenylacetic acids. The decarboxylation is a one-electron process and radicals are formed as intermediates. The rate-determining step is the decomposition of the phenylacetic acid/cerium(IV) complex into a benzyl radical and carbon dioxide. [Pg.323]


See other pages where Hydroxy nitrate alkenes is mentioned: [Pg.193]    [Pg.527]    [Pg.298]    [Pg.381]    [Pg.105]    [Pg.702]    [Pg.172]    [Pg.172]    [Pg.178]    [Pg.882]    [Pg.346]    [Pg.1292]    [Pg.4746]    [Pg.46]    [Pg.172]    [Pg.379]    [Pg.20]    [Pg.120]   
See also in sourсe #XX -- [ Pg.298 ]




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