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Hydrogen, elimination production

The primary and secondary products of photolysis of common diazirines are collected in Table 4. According to the table secondary reactions include not only isomerization of alkenes and hydrogen elimination to alkynes, but also a retro-Diels-Alder reaction of vibrationally excited cyclohexene, as well as obvious radical reactions in the case of excited propene. [Pg.226]

In the case of the cyclohexane derivative 7 however, that bears an equatorial acetate group, two axial cis-/3-hydrogens are available, and elimination in both directions is possible. The pyrolysis of 7 yields the two elimination products 8 and 6. Formation of product 8 is strongly favored, because the new double bond is in conjugation to the ester carbonyl group. ... [Pg.108]

With substrates, where a /3-hydrogen as well as a /3 -hydrogen is available for elimination, product formation follows the so-called Hofmann rule, which states... [Pg.164]

Aliphatic aldehydes and ketones can be converted to gem-dichlorides by treatment with PCI5. The reaction fails for perhalo ketones. " If the aldehyde or ketone has an a hydrogen, elimination of HCl may follow and a vinylic chloride is a frequent side product ... [Pg.1195]

The reactions were between the alkyl bronude and OEt . The rate for isopropyl bromide was actually greater than that for ethyl bromide, if the temperature differenee is eonsidered. Neopentyl bromide, the next compound in the P-branching series, cannot be compared because it has no p-hydrogen and cannot give an elimination product without rearrangement. [Pg.1320]

A 30% solution of hydrogen peroxide in water was purchased from Mallinckrodt Chemical Works. The reaction requires 2 molar equivalents of hydrogen peroxide, the first to oxidize the selenide to the selenoxide and the second to oxidize the elimination product, benzeneselenenic acid, to benzeneseleninic acid. The submitters recommend that the hydrogen peroxide solution be taken from a recently opened bottle, or titrated to verify its concentration. [Pg.167]

Epoxides can also be reductively opened to form a radical. An example of an intramolecular cyclization of such a radical has recently been reported <06TL7755>. Treatment of 40 with Cp2TiCl generates an intermediate alkoxy radical, which then adds to the carbonyl of the formate ester. The product, 41, is formed as a 2 1 mixture of isomers at the anomeric carbon. This reaction is one of the first examples of a radical addition to an ester. The major byproduct of this reaction is the exo-methylene compound, 42, arising from a P-hydrogen elimination. [Pg.77]

Reactions leading to the formation of the catalytically active nickel hydride species from organonickel precursors (Section III) can be regarded as model reactions for olefin oligomerization reactions. The reactions described by Eq. (8) and Scheme 3 (Section III) show that RNiX compounds (R = methyl orallyl, X = halide or acetylacetonate) activated by Lewis acids add to double bonds under mild reaction conditions (-40° or 0°C). It follows further from these reactions that under conditions leading to olefin dimerization a rapid nickel hydride /3-hydrogen elimination reaction occurs. The fact that products resulting from olefin insertion into the nickel-carbon bond are only observed when /3-hydride... [Pg.119]

In addition to the favorable reaction cycle, the P-hydrogen elimination from Z7 leading to the formation of vinylborane side-products is also found to be competitive (Figure 7). In other words, side products are difficult to avoid in the associative reaction pathway. [Pg.203]

Reaction (9) generates methyl iodide for the oxidative addition, and reaction (10) converts the reductive elimination product acetyl iodide into the product and it regenerates hydrogen iodide. There are, however, a few distinct differences [2,9] between the two processes. The thermodynamics of the acetic anhydride formation are less favourable and the process is operated much closer to equilibrium. (Thus, before studying the catalysis of carbonylations and carboxylations it is always worthwhile to look up the thermodynamic data ) Under standard conditions the AG values are approximately ... [Pg.116]

The first steps involve coordination and cycloaddition to the metal. Insertion of a third molecule of ethene leads to a more instable intermediate, a seven-membered ring, that eliminates the product, 1-hexene. This last reaction can be a (3-hydrogen elimination giving chromium hydride and alkene, followed by a reductive elimination. Alternatively, one alkyl anion can abstract a (3-hydrogen from the other alkyl-chromium bond, giving 1-hexene in one step. We prefer the latter pathway as this offers no possibilities to initiate a classic chain growth mechanism, as was also proposed for titanium [8]. The byproduct observed is a mixture of decenes ( ) and not octenes. The latter would be expected if one more molecule of ethene would insert into the metallocycloheptane intermediate. Decene is formed via insertion of the product hexene into the metallo-cyclopentane intermediate followed by elimination. [Pg.185]

The product dichloride undergoes decomposition via p-hydrogen elimination. An intermediary iron dichlorohydride is formed alongside 2-methylpropene ... [Pg.314]

See other pages where Hydrogen, elimination production is mentioned: [Pg.137]    [Pg.137]    [Pg.147]    [Pg.43]    [Pg.137]    [Pg.137]    [Pg.147]    [Pg.43]    [Pg.44]    [Pg.190]    [Pg.91]    [Pg.265]    [Pg.288]    [Pg.268]    [Pg.59]    [Pg.126]    [Pg.248]    [Pg.258]    [Pg.280]    [Pg.373]    [Pg.325]    [Pg.817]    [Pg.370]    [Pg.33]    [Pg.203]    [Pg.74]    [Pg.75]    [Pg.339]    [Pg.159]    [Pg.163]    [Pg.120]    [Pg.140]    [Pg.304]    [Pg.210]    [Pg.67]    [Pg.69]    [Pg.180]    [Pg.442]    [Pg.624]    [Pg.29]    [Pg.658]   
See also in sourсe #XX -- [ Pg.244 ]



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