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Chapter 19: Q42E (page 648)

Ketones react with dimethylsulfonium methylide to yield epoxides. Suggest a mechanism for the reaction.

Short Answer

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Step by step solution

01

Step-by-Step -SolutionStep 1: Definition of Epoxide

The epoxide is a three-member cyclic ring containing an oxygen atom. So we can say that epoxide contains an oxygen atom and two carbon atoms in the ring structure. As the three-member ring is highly strained so it is very reactive. Epoxides generally favor ring-opening reactions.

02

Mechanism of the reaction

In this reaction dimethylsulfonium, methylidene is reacted with a ketone to give epoxide. Dimethylsulfonium is a sulfur ylide. The mechanism involves a nucleophilic addition reaction.

Mechanism

In the above mechanism carbon of sulfur, ylide attacks the electrophilic carbon atom of the carbonyl group. Simply it is an addition of sulfur ylide to a carbonyl group. In the next step, intramolecular substitution takes place in which negatively charge oxygen attacks the carbon and $-S {({CH}_{3})}_{2}$ remove as a leaving group.

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Most popular questions from this chapter

Propose structures for molecules that meet the following descriptions.

Assume that the kinds of carbons (1°, 2°, 3°, or 4°) have been assigned

by DEPT–NMR.

(a) $C_{6} H_{12} O$ ; IR: 1715 ${cm}^{- 1}$ ; ¹³C NMR: 8.0 $δ$ (1°), 18.5 $δ$ (1°), 33.5 $δ$ (2°),

40.6 $δ$ (3°), 214.0 $δ$ (4°)

(b) $C_{5} H_{10} O$ ; IR: 1730 ${cm}^{- 1}$ ; ¹³C NMR: 22.6 $δ$ (1°), 23.6 $δ$ (3°), 52.8 $δ$ (2°),

202.4 (3°)

(c) $C_{6} H_{8} O$ ; IR: 1680 ${cm}^{- 1}$ ; ¹³C NMR: 22.9 $δ$ (2°), 25.8 $δ$ (2°), 38.2 $δ$ (2°),

129.8 d(3°), 150.6 $δ$ (3°), 198.7 $δ$ (4°)

Draw structures corresponding to the following names:

(a) 3-Methylbutanal (b) 4-Chloro-2-pentanone

(c) Phenylacetaldehyde (d) cis-3-tert-Butylcyclohexanecarbaldehyde

(e) 3-Methyl-3-butenal (f) 2-(1-Chloroethyl)-5-methylheptanal

Cyclohexanone forms a cyanohydrin in good yield but 2,2,6-trimethylcyclohexanonedoes not. Explain.

The S_N2 reaction of (dibromomethyl)benzene, C₆H₅CHBr₂, withNaOH yields benzaldehyde rather than (dihydroxymethyl)benzene,C₆H₅CH(OH)₂. Explain.

At what position would you expect to observe IR absorptions for the following molecules?

a.

b.

c.

d.

See all solutions

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