Ch 6: Alkene + ozone

Chapter 6: Reactions of Alkenes: Addition Reactions

Ozonolysis of Alkenes

Reaction type: Electrophilic Addition

Summary

Overall transformation : C=C to 2 x C=O Ozonolysis implies that ozone causes the alkene to break (-lysis) Reagents : ozone followed by : a reducing work-up, either Zn in acetic acid or dimethyl sulfide, (CH₃)₂S an oxidising work-up, usually H₂O₂(under these conditions, carboxylic acids are obtained instead of aldehydes) It is convenient to view the process as cleaving the alkene into two carbonyls The substituents on the C=O depend on the substituents on the original C=C. The work-up determines the oxidation state of the products
	REDUCTIVE work-up			OXIDATIVE work-up

QUESTION What would be the products of the reactions of each of the following with O₃ followed by Zn / acetic acid ?
(a) ethene ? (b) 1-butene ?	ANSWER ANSWER		(c) cis or trans-2-butene ? (d) 2-methylpropene ?	ANSWER ANSWER

MECHANISM FOR REACTION OF ALKENE OZONOLYSIS
Step 1: The π electrons act as the nucleophile, attacking the ozone at the electrophilic terminal O. A second C-O is formed by the nucleophilic O attacking the other end of the C=C.
Step 2: The cyclic species called the malozonide rearranges to the ozonide.
Step 3: The ozonide decomposes on work-up. Reductive work-up with (usually Zn / acetic acid) gives the two carbonyl groups.

© Dr. Ian Hunt, Department of Chemistry