Recent Mechanistic Insights in the Singlet Oxygen Ene Reaction

 

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Abstract

Singlet oxygen reacts with alkenes, which bear allylic hydrogens, in an ene fashion to afford allylic hydroperoxides. This reaction, apart from its synthetic usefulness, has received extensive mechanistic attention. Numerous experimental studies (e.g., trapping of intermediates, deuterium kinetic isotope effects, regio- or stereoselectivity studies etc.) and to a lesser extend computational work, support a stepwise mechanism with the formation of a three-membered ring (perepoxide-like) intermediate. This Account mainly highlights our group’s earlier and recent experimental efforts to ascertain facts relating to this concept.

1 Introduction

2 Theoretical Calculations

3 Kinetic Isotope Effects

4 Regioselectivity

4.1 ‘cis Effect’ Selectivity

4.2 Anti ‘cis Effect’ Selectivity

4.3 The Large Group Nonbonding Effect

4.4 Geminal Selectivity with Respect to Allylic or Vinyl Substituent

4.5 Electron-Withdrawing Group at the α- and β-Position

4.6 Regioselective Self-Sensitized Oxygenation of Fullerene Derivatives

4.7 Solvent and Electronic Effects

4.7.1 Site Selectivity in the ^¹O₂ Ene Reaction of α,β-Unsaturated Esters and Acids

4.7.2 Site Selectivity in the ^¹O₂ Ene Reaction of Allylic Alcohols

4.7.3 Syn Selectivity of β,β-Dimethylstyrene

4.7.4 Site Selectivity of Isobutenylarenes

4.7.5 ‘Push-Pull’ Electronic Effect

5 Studies on Diastereoselectivity

5.1 Diastereoselectivity in Self-Sensitized Oxygenation of a Fullerene Derivative

5.2 Diastereoselectivity in the ^¹O₂ Ene Reaction of Chiral Functionalized Alkenes

6 Stereochemistry

7 Hypersensitive Probes in the ^¹O₂ Ene Reaction

8 The ^¹O₂ Ene Reaction in Confined Media

9 Concluding Remarks

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