What is Clemmensen Reduction?
Reduction means a chemical reaction that results in a decrease in the oxidation state of the compound. In a reduction reaction, an atom in the element gains an electron and becomes negatively charged. One such reduction is the Clemmensen Reduction. In Clemmensen reduction, a carbonyl group is deoxygenated to an alkyl group by the action of hydrochloric acid (HCL) and zinc amalgam (Zn-Hg) to produce hydrocarbon. It is also used to reduce carbonyl groups to methyl groups, and alkyl groups and to produce natural products and other complex organic compounds. This reaction is named after a Danish-American chemist, Erik Christian Clemmensen,
Clemmensen Reduction Reaction
The Clemmensen reduction reaction is a reaction in which the deoxygenation of carbonyl groups (mainly aldehydes or ketones) takes place. This reaction is beneficial for reducing aryl-alkyl ketones. These aryl-alkyl ketones are basically formed via Friedel Crafts acylation. This reaction is useful in the reduction of acyl benzene to alkyl benzene and in the presence of zinc metals.
In this reaction, a carbonyl group reacts with zinc amalgam in the presence of concentrated hydrochloric acid to form an alkyl group.
Clemmensen Reduction
Clemmensen Reduction is a chemical reaction that reduces aldehydes or ketones to alkanes. It uses hydrochloric acid and zinc amalgam for its reduction. Clemmensen Reduction Reaction has many uses in organic synthesis which is helpful to produce organic compounds.
In this article, we will discuss Clemmensen Reduction and its mechanism along with examples and applications.
Table of Content
- What is Clemmensen Reduction?
- Example of Clemmensen Reduction
- Mechanism of Clemmensen Reduction Reaction
- Application of Clemmensen Reduction