Oxymercuration-Demercuration of Alkenes
Reaction type: Electrophilic Addition
Summary
- Overall transformation C=C to H-C-C-OH
- This is an alternative method for hydrating alkenes to give alcohols
- Typical reagents are mercury acetate, Hg(OAc)2 in aqueous THF
- Unfortunately, mercury compounds are generally quite toxic
- Regioselectivity predicted by Markovnikov's rule (most highly substituted alcohol)
- The reaction is not stereoselective
- Reaction proceeds via the formation of a cyclic mercurinium ion (compare with bromination of alkenes)
- The mercurinium ion is opened by the attack of water to complete the oxymercuration.
- When the water attacks, it does so at the more highly substituted carbon.
- Demercuration is effected by a reduction using sodium borohydride, NaBH4
- If the reaction is carried out in the presence of an alcohol rather than water, then ethers are obtained via an alkoxymercuration :
- The only difference here is a change in the nucleophile from H2O to ROH
| Step 1: The C=C π electrons act as the nucleophile with the electrophilic Hg and loss of an acetate ion as a leaving group, forming the mercurinium ion. |  |
| Step 2: Water functions as a nucleophile and attacks one of the carbons substituted with mercury resulting in cleavage of the C-Hg bond. | |
| Step 3: The acetate ion functions as a base deprotonating the oxonium ion to give the alcohol. This completes the oxymercurationpart of the reaction. | |
| Step 4:(mechanism not shown) The hydride reduces the Hg off, creating aC-H bond while breaking the C-Hg bond. This is the demercuration part of the process. | |
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