General Reaction
Aldehydes and ketones undergo nucleophilic addition reactions with Grignard reagents (RMgX).
- The carbanion-like carbon of the Grignard reagent (R–) acts as a nucleophile.
- It attacks the electrophilic carbonyl carbon of the aldehyde/ketone.
- This gives a tetrahedral alkoxide intermediate.
- On acidic hydrolysis (H₃O⁺ or NH₄Cl(aq)), the alkoxide is protonated to give an alcohol.
Reactions by Substrate
- Formaldehyde (H–CHO):
- Reaction: H–CHO + RMgX → R–CH₂–O⁻MgX → (acid workup) primary alcohol (R–CH₂–OH).
- Other Aldehydes (R–CHO):
- Reaction: R–CHO + RMgX → R₂–CH–O⁻MgX → (acid workup) secondary alcohol.
- Ketones (R₂–C=O):
- Reaction: R₂C=O + RMgX → R₃C–O⁻MgX → (acid workup) tertiary alcohol.
Summary
- Formaldehyde → primary alcohol
- Aldehyde → secondary alcohol
- Ketone → tertiary alcohol
This reaction is widely used in alcohol synthesis and is a fundamental carbon–carbon bond-forming reaction in organic chemistry.