Affiliation:
1. School of Natural and Environmental Sciences Newcastle University Bedson Building NE1 7RU Newcastle Upon Tyne UK
Abstract
AbstractC−F Insertion reactions, where an organic fragment formally inserts into a carbon–fluorine bond in a substrate, are highly attractive, yet largely unexplored, methods to prepare valuable fluorinated molecules. The inherent strength of C−F bonds and the resulting need for a large thermodynamic driving force to initiate C−F cleavage often leads to sequestering of the released fluoride in an unreactive by‐product. Recently, however, several groups have succeeded in overcoming this challenge, opening up the study of C−F insertion as an efficient and highly atom‐economical approach to prepare fluorinated compounds. In this article, the recent breakthroughs are discussed focusing on the key conceptual advances that allowed for both C−F bond cleavage and subsequent incorporation of the released fluoride into the product.
Funder
School of Natural and Environmental Sciences, Newcastle University