Ch 14: Hydration Of Alkenes Using Hg - Chemistry

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Chapter 14: Organometallic Compounds

Oxymercuration-Demercuration of Alkenes alkene alkoxymercuration-demercuration to give an alcohol 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 Hg2+ salts such as mercury acetate, Hg(OAc)2, in aqueous THF
Unfortunately, mercury compounds are generally quite toxic
Regioselectivity predicted by Markovnikov's rule (major product is the more 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 :

Questions:

Related reactions

MECHANISM FOR REACTION OF ALKENES WITH Hg(OAc)2 / H2O
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 cyclic 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 oxymercuration part of the reaction.
Step 4:(mechanism not shown) The hydride reduces the Hg off, creating a C-H bond while breaking the C-Hg bond. This is the demercuration part of the process. This step is not stereoselective.