Recent Developments in the Chemistry of Lithiated Epoxides

 

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Abstract

Although the lithium base-induced β-elimination of epoxides to allylic alcohols is a well-known reaction, α-lithiation has also been described many times. The resulting lithiated epoxides, first postulated as intermediates by Cope in 1951, have been invoked in a wide range of reactions, with their carbenoid properties allowing for very different reactivities. This review covers the recent advances (˜1996 - mid 2002) in the rich chemistry of these main-group metal carbenoids, especially their generation by enan­tioselective α-deprotonation.

• 1 Introduction

• 2 Carbenoid Chemistry of Lithiated Epoxides: C-H Insertion and 1,2-Shifts

• 2.1 Transannular C-H Insertion

• 2.2 Transannular Rearrangement versus 1,2-Shift of Hydrogen

• 2.3 1,2-Shifts

• 2.4 Cyclopropanations

• 3 Carbenoid Chemitry of Lithiated Epoxides: Reductive Alkylation

• 3.1 Olefin Formation: Allylic Alcohols via Reductive Alkylation

• 3.2 Olefin Formation versus C-H Insertion

• 3.3 Olefin Formation versus Electrophile Trapping

• 4 Electrophile Trapping of Lithiated Epoxides

• 4.1 Lithiated Epoxides Bearing Anion Stabilising Groups

• 4.1.1 Transmetallation of Stabilised Lithiated Epoxides

• 4.1.2 Sulfonyl-stabilised Lithiated Epoxides

• 4.1.3 Carbonyl-stabilised Lithiated Epoxides

• 4.1.4 Oxazolinyl-stabilised Lithiated Epoxides

• 4.1.5 Imine-substituted Lithiated Epoxides

• 4.1.6 Trifluoromethyl-substituted Lithiated Epoxides

• 4.1.7 Silyl-stabilised Lithiated Epoxides in Synthesis

• 4.1.8 Phenyl-stabilised Lithiated Epoxide

• 4.2 ‘Remote’ Stabilisation of a Lithiated Epoxide

• 4.3 Generation of Non-stabilised and Destabilised Lithiated Epoxides

• 4.3.1 Desulfinylation of Sulfinyloxiranes

• 4.3.2 Deprotonation of ‘Simple’ Epoxides

• 5 Concluding Remarks

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