Red-Shifting Blue Light Photoredox Catalysis for Organic Synthesis: A Graphical Review

Photoredox catalysis has revolutionized synthetic chemistry in recent decades. However, the field has traditionally used high-energy blue/ultraviolet light to activate chromophores. High-energy irradiation is associated with several drawbacks (e.g., activation of sensitive functional groups, undesired metal-ligand homolysis, back-ground activation of molecules, and poor penetration), which has led researchers to develop alternative systems with lower energy deep red (DR) or near-infrared (NIR) light. This graphical review provides a concise overview of photophysical principles relevant to photoredox catalysis. Several applications that benefit from low-energy irradia-tion, such as large-scale batch reactions, photodynamic therapy, biological labeling, and multi-photon excitation are reviewed.