Recent Developments in the Electroreductive Functionalization of Carbon–Halogen Bonds
Kingshuk Mahanty, Atreyee Halder, Debabrata Maiti, Suman De Sarkar
Abstract
Abstract Electrochemical organic transformations have witnessed significant progress over the past decades owing to their idiosyncratic redox nature. Electrochemistry is globally acknowledged for its sustainability and environmental friendliness, whilst several well-known redox processes are available that do not generate chemical waste or toxic by-products. Apart from this, electrochemistry has adequate potential to steer numerous non-spontaneous reactions, such as cross-coupling, C–C bond cleavage, radical generation, directed C–H functionalization, etc., in a straightforward manner. Beyond electrochemical oxidation reactions, electrochemical reductive transformations have also been enriched in the last few years. Electrochemical reduction can be facilitated by using different strategies, for example, by using a sacrificial electrode or a sacrificial reagent, or can be accomplished in a divided cell. In this short review, different methods for the functionalization of C–halogen bonds, including detailed mechanistic approaches, are discussed. 1 Introduction 2 Different Strategies for Electrochemical Reduction 3 Functionalization of Carbon–Halogen Bonds through Electrochemical Reduction 3.1 E lectroreductive Hydrodehalogenation 3.2 Electroreductive C–C Coupling of Organohalides 3.2.1 Aryl–Aryl C–C Coupling 3.2.2 Aryl–Alkenyl C–C Coupling 3.2.3 Aryl–Alkyl C–C Coupling 3.2.4 Alkyl–Alkenyl C–C Coupling 3.2.5 Alkyl–Alkyl C–C Coupling 3.3 Electroreductive Coupling of Organohalides with Carbonyls (C=O) 3.4 Electroreductive Coupling of Organohalides with Organoboranes 4 Conclusion