| Ene Reaction |
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| carbon-carbon bond forming reactions | |
| rearrangement reactions | |
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These reactions are promoted by heat and/or Lewis Acid s and often require highly activated substrates and/or high temperatures. Ene reaction products are also often found as unintended byproducts of other chemical reactions. The convention of referring to the reactive components of ene reaction as the "ene" and "enophile" can be confusing, as the enophile is very often itself an alkene. For most known ene reactions, the ene is electron-rich, and the enophile is electron-deficient. Unlike the Diels-Alder Reaction , only a handful of exotic inverse-electron demand ene reactions (electron-deficient ene, electron-rich eneophile) are known. Maleic anhydride is known to participate in many ene reactions; this is due to the combined electron-widthdrawing power of the two Carbonyl groups pendant to the alkene. REACTION MECHANISM Much like with Diels-Alder reactions, Lewis Acid s such as Boron Trifluoride or Aluminium Chloride can participate in metal-catalyzed ene reactions. These reactions are still pericyclic as they operate by generating the reactive complex which undergoes a concerted electrocyclic reaction. VARIATIONS Carbonyl ene reaction When a carbonyl is the enophile, the reaction is often called the carbonyl ene reaction. For example, Citronellal undergoes an Intramolecular ring-closure with a range of Lewis acid Catalysts such as Niobium Pentachloride . Conia reaction The intramolecular ene reaction of an unsaturated Ketone in which the enol-tautomer of the ketone serves as the ene is called the Conia reaction or '''Conia ene reaction'''. Singlet-oxygen ene reaction In the ''Singlet-oxygen ene reaction'', singlet-oxygen reacts with alkenes to form allylic peroxides. This reaction was first described in 1945 by Schenck and is sometimes called the ''Schenck ene reaction''. Miscellaneous
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