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Henry Reaction (Nitroaldol Reaction)
The Henry reaction, also known as the nitroaldol reaction, is utilized to synthesize β-nitroalcohols from aldehydes or ketones and nitroalkanes. Since the proton at the α-position of the nitroalkanes has high acidity, it is easily removed by a base, and the resulting anion is stable due to the nitro group. The anion reacts with a carbonyl compound to afford the corresponding product. The β-nitroalcohols are regarded as useful intermediates since they can be converted into nitroalkenes by dehydration and the hydroxy and nitro group can be converted to other functional groups. A number of asymmetric Henry reactions utilizing various kinds of asymmetric catalysts have been reported in recent years.
- Reagents:
- Aldehydes, Ketones, Nitroalkanes
- Reactants:
- Organic bases, Inorganic bases
- Products:
- β-Hydroxy nitro compounds
- Scheme:
-
- Original literature:
-
- Formation synthétique d’alcools nitrés
- Review literature:
-
- Recent Advances and Perspectives on the Zinc-Catalyzed Nitroaldol (Henry) Reaction
- Recent Advances in the Catalytic Asymmetric Nitroaldol (Henry) Reaction
