Abstract
The arylation of organic compounds is a tremendously important tool in organic synthesis, since substituted (het)arenes are essential moieties in many applications ranging from organic intermediates to natural products, pharmaceuticals, and materials. Therefore, an effective, sustainable, and economic synthetic accesses to such compounds is of great demand. This chapter covers the arylation of carbon and heteroatom compounds via an electrooxidative pathway. Direct dehydrogenative methods without the application of a metal catalyst as well as constant-current electrolyses are emphasized. The electrochemical synthesis of biaryl compounds, arylalkanes and arylalkenes, as well as arylated nitrogen, oxygen, and sulfur compounds are described in detail. Additionally, the synthesis of heterocycles through anodic arylation reactions is discussed.