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Oxygen atom reduction

A much more frequently used reaction is the cleavage of unsaturated compounds to aldehydes (equations 98 and 99). Alkenes and cycloalkenes that possess one or two hydrogens at the double bonds are oxidized by ozone to ozonides, which have to be reduced to prevent a subsequent oxidation to acids by the excess oxygen atom. Reductions are carried out, usually without isolation of the ozonides, by catalytic hydrogenation over palladium catalyst [80, 81,1106] or Raney nickel [55] or by treatment with... [Pg.77]

Oxidation is defined as a loss of electrons, loss of hydrogen atoms, or gain of oxygen atoms. Reduction is defined as a gain of electrons, gain of hydrogen atoms, or loss of oxygen atoms. [Pg.265]

Because the acylated product has a delocahsed lone pair and is less reactive than PhNHi. You may have been surprised that LiAlHi reduction completely removes the carbonyl oxygen atom. To help explain this, please draw the likely intermediate. [Pg.75]

Reductive coupling of carbonyl compounds to yield olefins is achieved with titanium (0), which is freshly prepared by reduction of titanium(III) salts with LiAIH4 or with potassium. The removal of two carbonyl oxygen atoms is driven by T1O2 formation- Yields are often excellent even with sensitive or highly hindered olefins. (J.E. McMurry, 1974, 1976A,B). [Pg.41]

Constitution of Harmine and Harmaline. Harmaline is a dihydro-harmine. Both bases on reduction yield tetrahydroharmine and in both the single oxygen atom is present as methoxyl. Knowledge of the constitution of the two alkaloids is mainly due to the work of O. Fischer and his colleagues, and more recently to the researches of Perkin and Robinson. [Pg.489]

In addition to simple dissolution, ionic dissociation and solvolysis, two further classes of reaction are of pre-eminent importance in aqueous solution chemistry, namely acid-base reactions (p. 48) and oxidation-reduction reactions. In water, the oxygen atom is in its lowest oxidation state (—2). Standard reduction potentials (p. 435) of oxygen in acid and alkaline solution are listed in Table 14.10- and shown diagramatically in the scheme opposite. It is important to remember that if or OH appear in the electrode half-reaction, then the electrode potential will change markedly with the pH. Thus for the first reaction in Table 14.10 O2 -I-4H+ -I- 4e 2H2O, although E° = 1.229 V,... [Pg.628]

The oxygen atom in these molecules can in many cases be dispensed with as well substitution of sulfur for nitrogen affords a molecule whose salient biologic properties are those of a sedative and tranquilizer. Friedel-Crafts acylation of the n-butyl ether of thiophenol with benzoyl chloride gives the corresponding benzophenone. Reduction of the ketone (15) followed by... [Pg.43]

The oxygen atom at 21 is similarly an expendable group. Reaction of 241 (obtained from 185 by the usual procedure for introduction of the 9a-fluoro group) with methanesulfonyl chloride affords the 21 mesylate (242a). Replacement of the leaving group at 21 with iodine by means of potassium iodide in acetone followed by reduction of the halogen with zinc in acetic acid leads to fluorometholone (243). ... [Pg.203]

Amide reduction occurs by nucleophilic addition of hydride ion to the amicle carbonyl group, followed by expulsion of the oxygen atom as an alumi-nate anion leaving group to give an iminium ion intermediate. The intermediate iminium ion is then further reduced by JL1AIH4 to yield the amine. [Pg.816]

The overall hydroxylation or epoxidation reaction catalyzed by cytochrome P450s involves the insertion of one oxygen atom, derived from molecular oxygen, into a C-H bond or into the Jt-system of an olefin, with the concomitant reduction of the... [Pg.350]

From a study of the decompositions of several rhodium(II) carboxylates, Kitchen and Bear [1111] conclude that in alkanoates (e.g. acetates) the a-carbon—H bond is weakest and that, on reaction, this proton is transferred to an oxygen atom of another carboxylate group. Reduction of the metal ion is followed by decomposition of the a-lactone to CO and an aldehyde which, in turn, can further reduce metal ions and also protonate two carboxyl groups. Thus reaction yields the metal and an acid as products. In aromatic carboxylates (e.g. benzoates), the bond between the carboxyl group and the aromatic ring is the weakest. The phenyl radical formed on rupture of this linkage is capable of proton abstraction from water so that no acid product is given and the solid product is an oxide. [Pg.230]

See other pages where Oxygen atom reduction is mentioned: [Pg.445]    [Pg.447]    [Pg.1091]    [Pg.445]    [Pg.447]    [Pg.1091]    [Pg.108]    [Pg.218]    [Pg.120]    [Pg.324]    [Pg.163]    [Pg.246]    [Pg.129]    [Pg.136]    [Pg.143]    [Pg.248]    [Pg.568]    [Pg.706]    [Pg.241]    [Pg.2]    [Pg.396]    [Pg.807]    [Pg.89]    [Pg.216]    [Pg.360]    [Pg.108]    [Pg.530]    [Pg.666]    [Pg.717]    [Pg.744]    [Pg.376]    [Pg.399]    [Pg.110]    [Pg.104]    [Pg.280]    [Pg.937]    [Pg.153]    [Pg.87]    [Pg.66]    [Pg.463]    [Pg.988]   
See also in sourсe #XX -- [ Pg.363 ]



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Atoms reduction

Oxygen atom

Oxygen atomic

Oxygen reduction

Oxygenates reduction

Reduction oxygenation

Reductive oxygenation

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