Chugaev elimination

Chugaev elimination
Named after	Lev Chugaev
Reaction type	Elimination reaction
Identifiers
RSC ontology ID	RXNO:0000538

The Chugaev elimination is a chemical reaction that involves the elimination of water from alcohols to produce alkenes. The intermediate is a xanthate. It is named for its discoverer, the Russian chemist Lev Aleksandrovich Chugaev (1873–1922), who first reported the reaction sequence in 1899.

File:Cugaevalg.png

In the first step, a xanthate salt is formed out of the alkoxide and carbon disulfide (CS₂). With the addition of iodomethane, the alkoxide is transformed into a methyl xanthate.

File:Chugaev2.gif

At about 200 °C, the alkene is formed by an intramolecular elimination. In a 6-membered cyclic transition state the hydrogen atom is removed from the carbon atom β to the xanthate oxygen in a syn-elimination. The side product decomposes to carbonyl sulfide (OCS) and methanethiol.

File:Chugaev3.gif

The Chugaev elimination is similar in mechanism to other thermal elimination reactions such as the Cope elimination and ester pyrolysis. Xanthates typically undergo elimination from 120 to 200 °C, while esters typically require 400 to 500 °C and amine oxides routinely react between 80 and 160 °C. In the development of Cram's rule, structural assignment of the reaction products were made by applying Chugaev elimination, wherein the threo isomer reacts to the cis isomer of -α-methyl-stilbene and the erythro isomer to the trans version.^[1]

Cram Asymmetric Induction Chugaev Reaction

References

↑ Cram, Donald J.; Elhafez, Fathy Ahmed Abd (1952). "Studies in Stereochemistry. X. The Rule of "Steric Control of Asymmetric Induction" in the Syntheses of Acyclic Systems". Journal of the American Chemical Society. 74 (23): 5828–5835. doi:10.1021/ja01143a007.

Latscha, Hans P. (2002). Chemie-Basiswissen. Berlin: Springer.
L. Tschugaeff (1900). "Ueber das Thujen, ein neues bicyclisches Terpen". Berichte der deutschen chemischen Gesellschaft. 33 (3): 3118–3126. doi:10.1002/cber.19000330363.

External links

Animation of the mechanism of the Chugaev elimination

[1] Cram, Donald J.; Elhafez, Fathy Ahmed Abd (1952). "Studies in Stereochemistry. X. The Rule of "Steric Control of Asymmetric Induction" in the Syntheses of Acyclic Systems". Journal of the American Chemical Society. 74 (23): 5828–5835. doi:10.1021/ja01143a007.

[1]

v t e Alkenes
Alkenes	Ethene (C₂H₄) Propene (C₃H₆) Butene (C₄H₈) Pentene (C₅H₁₀) Hexene (C₆H₁₂) Heptene (C₇H₁₄) Octene (C₈H₁₆) Nonene (C₉H₁₈) Decene (C₁₀H₂₀)
Preparations	Dehydrohalogenation from haloalkane Dehydration reaction from alcohol Semihydrogenation from alkyne Bamford–Stevens reaction Barton–Kellogg reaction Boord olefin synthesis Chugaev elimination Cope reaction Corey–Winter olefin synthesis Grieco elimination Hofmann elimination Horner–Wadsworth–Emmons reaction Hydrazone iodination Julia olefination Kauffmann olefination McMurry reaction Peterson olefination Ramberg–Bäcklund reaction Shapiro reaction Takai olefination Wittig reaction Olefin metathesis Ene reaction Cope rearrangement
Reactions	Hydrogenation Halogenation Hydration Electrophilic addition Oxymercuration reaction Hydroboration Cyclopropanation Epoxidation Dihydroxylation Ozonolysis Hydrohalogenation Polymerization Diels–Alder reaction Wacker process Dehydrogenation Ene reaction Friedel-Crafts Alkylation

Chugaev elimination

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References

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