Olefination Cope elimination reaction

Amine oxides 2, which can be prepared by oxidation of amines 1, react upon heating to yield an olefin 3 and a hydroxylamine 4. This reaction is called the Cope elimination reaction,and as a synthetic method is a valuable alternative to the Hofmann degradation reaction of quaternary ammonium salts. 

In addition to being a valuable method for the preparation of olefins, the Cope elimination reaction also gives access to iV,A -disubstituted hydroxylamines. 

Cope elimination reaction. Formation of an olefin and a hydroxylamine by pyrolysis of an amine oxide. 

Pyrolysis of the oxide of tertiary amine 1 yields olefin 2 and hydroxylamine 3. This olefination method is known as the Cope elimination reaction.1-3... 

As the name suggests, the reverse Cope elimination reaction involves formation of a tertiary amine oxide from a hydroxylamine and olefin.17,18 For example, reaction of N-methylhydroxylamine (49) with 2,2-diphenyl-4-pentenal (50) in ethanol at room temperature gave amine oxide 51 in 51% yield, together with the expected nitrone 52. It has been suggested the mechanism of the reverse Cope reaction could be a radical chain reaction19,20 however, more recent studies have confirmed the mechanism is analogous to the concerted Cope elimination.17... 

Cope Elimination Reaction Cope Rearrangement Corey-Bakshi-Shibata Reduction Corev-Kim Oxidation Corey-Winter Olefin Synthesis Comforth Rearrangement Coumarin-Benzofuran Ring Contraction Crafts (see Friedel-Crafts Reaction)... 

There is a similar commercially available product based on related chemistry. It is a product of a process based on the oxidation of methyl-bis-tallow amine [204933-93-7]. The oxidation product of methyl-bis-tallow amine is a trialkylami-neoxide, a precursor to hydroxylamine stabilization chemistry. The trialkylami-neoxide is converted to a hydroxylamine and a long-chain olefin during the initial melt compounding of the pol5uner by a Cope elimination reaction, as shown below. 

Elimination. Ahphatic amine oxides having an ahphatic hydrogen P to the nitrogen form olefins and diaLkyl hydroxylamines when heated. This reaction is known as the Cope elimination (17)... 

A. C. Cope and E. R. Trumbull, Olefins from amines the Hofmann elimination reaction and amine... 

J. K. Crandall, M. Apparu, Base-Promoted Isomerizations of Epoxides, Org. React. 1983, 29, 345—443. A. C. Cope, E. R. Trumbull, Olefins from Amines The Hofmann Elimination Reaction and Amine Oxide Pyrolysis, Org. React. 1960, 11, 317-493. 

Volume 9 deals with the majority of addition and elimination reactions involving aliphatic compounds. Chapter 1 covers electrophilic addition processes, mainly of water, acids and halogens to olefins and acetylenes, and Chapter 2 the addition of unsaturated compounds to each other (the Diels-Alder reaction and other cycloadditions). This is followed by a full discussion of a-, y- and S-eliminations (mainly olefin and alkyne forming) and fragmentation reactions. In Chapter 4 carbene and carbenoid reactions, and in Chapter 5 alkene isomerisation (including prototropic and anionotropic, and Cope and Claisen rearrangements), are discussed. 

However, when the temperature is increased to 120°C, the principal reaction is the elimination to olefin. The thermal decomposition of dimethyl dodecyl amine oxide at 125°C in a sealed system, as opposed to a vacuum used by Cope and others, produces 2-methyl-5-decyhsoxa2ohdine, dimethyl dodecyl amine, and olefin (23). The amine oxide oxidi2es XW-diaLkylhydroxylainine to the nitrone during the pyrolysis and is reduced to a tertiary amine in the process. 

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