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Hydrogenation, catalytic conjugated systems

Catalytic or sodium and alcohol reduction of thebainone-A enol methyl ether [vi] affords a substance initially allotted the structure [ix] as it is different from an isomeric substance obtained by the catalytic reduction of dihydrotbebaine- >, at that time believed to be [n] [3]. It is now clear that this base is in fact dihydrothebainone A°-enol methyl ether [x] and is formed from [vi] by 1 4-addition of hydrogen to the conjugated system. The product of catalytic reduction of dihydrothebaine- must therefore be the isomeric AB-enol methyl ether [ix] produced by saturation of the 8 14-double bond of [iv]. Bentley, Robinson, and Wain [5] have in this way obtained a base different from that obtained by Small and Browning [3], but believe their product is the true dihydrothebainone-A5-enol methyl ether [ix] as it can also be prepared in 98 per cent, yield by the sodium and liquid ammonia reduction of dihydrothebaine [xi] [5]. [Pg.198]

This enol ether [xxxi] is the product of catalytic or sodium amalgam reduction of thebainone-A enol methyl ether [vn] [3], from which it arises by 1 4-addition of hydrogen to the conjugated system, and it can also be prepared by the hydrogenation of thebaine in neutral solution [3]. It is very readily hydrolysed to dihydrothebainone, which doubtless arises from this during the reduction of thebaine in acid solution. (Dihydrothebainone was prepared by Speyer and Ereunds [10] by the reduction of thebaine in neutral solution and no doubt arose from the enol ether by hydrolysis during the isolation of the product.)... [Pg.226]

The Birch reductions of C C double bonds with alkali metals in liquid ammonia or amines obey other rules than do the catalytic hydrogenations (D. Caine, 1976). In these reactions regio- and stereoselectivities are mainly determined by the stabilities of the intermediate carbanions. If one reduces, for example, the a, -unsaturated decalone below with lithium, a dianion is formed, whereof three different conformations (A), (B), and (C) are conceivable. Conformation (A) is the most stable, because repulsion disfavors the cis-decalin system (B) and in (C) the conjugation of the dianion is interrupted. Thus, protonation yields the trans-decalone system (G. Stork, 1964B). [Pg.103]

The Birch reduction not only provides a method to prepare dienes from arenes which cannot be accomplished by catalytic hydrogenation but also gives a nonconju gated diene system rather than the more stable conjugated one... [Pg.439]

See other pages where Hydrogenation, catalytic conjugated systems is mentioned: [Pg.533]    [Pg.1003]    [Pg.235]    [Pg.80]    [Pg.395]    [Pg.114]    [Pg.138]    [Pg.256]    [Pg.326]    [Pg.1070]    [Pg.172]    [Pg.567]    [Pg.199]    [Pg.139]    [Pg.106]    [Pg.62]    [Pg.411]    [Pg.418]    [Pg.520]    [Pg.1044]    [Pg.48]    [Pg.204]    [Pg.678]    [Pg.1201]    [Pg.8]    [Pg.107]    [Pg.625]    [Pg.596]    [Pg.156]    [Pg.11]    [Pg.1009]    [Pg.434]    [Pg.14]    [Pg.148]    [Pg.273]    [Pg.379]    [Pg.913]    [Pg.76]    [Pg.78]    [Pg.89]    [Pg.246]    [Pg.375]    [Pg.407]    [Pg.408]    [Pg.550]    [Pg.125]   
See also in sourсe #XX -- [ Pg.383 ]



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Catalytic system

Conjugate hydrogenation

Conjugate system

Conjugated hydrogenation

Conjugated system conjugation)

Conjugated systems

Hydrogen systems

Hydrogenous systems

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