Csp-H functionalization of phenols: an effective access route to valuable materials Csp-C bond formation

In the vast majority of top-selling pharmaceutical and industrial products, phenolic structural motifs are highly prevalent. Non-functionalized simple phenols serve as building blocks in the synthesis of value-added chemicals. It is worth mentioning that lignin, being the largest renewable biomass source of aromatic building blocks in nature, mainly consists of phenolic units, which enable the production of structurally diverse phenols. Given their remarkable applicability in the chemical value chain, many efforts have been devoted to increasing the molecular complexity of the phenolic scaffold. Among the key techniques, direct functionalization of Csp 2 -H is a powerful tool, enabling the construction of new Csp 2 -C bonds in an economical and atomic manner. Herein we present and summarize the large plethora of direct Csp 2 -H functionalization methods that enables scaffold diversification of simple, unprotected phenols, leading to the formation of new Csp 2 -C bonds. In this review article, we intend to summarize the contributions that appeared in the literature mainly in the last 5 years dealing with the functionalization of unprotected phenols, both catalytic and non-catalytic. Our goal is to highlight the key findings and the ongoing challenges in the stimulating and growing research dedicated to the development of new protocols for the valorization of phenols. Simple phenols are crucial in the chemical value chain. Efforts aim to enhance their molecular complexity, with direct functionalization of Csp 2 -H as a key technique, facilitating economical and atomic construction of new Csp 2 -C bonds.