The use of organic photocatalysts has revolutionized the field of photoredox catalysis, allowing reactivities previously achievable only with transition-metal photocatalysts. This review highlights recent advancements in the utilization of an acridinium photocatalyst in organic synthesis, focusing on both late-stage functionalization of biorelevant molecules and activation of inert chemical bonds, with an emphasis on their mechanistic features.
The field of photoredox catalysis has been transformed by the use of organic photocatalysts, which give access to re-activities that were previously only possible with transition-metal photocatalysts. Recent advancements in the use of an acridinium photocatalyst in organic synthesis are covered in this review. Both the late-stage functionalization of biorelevant molecules and the activation of inert chemical bonds are explored, with an emphasis on their mechanistic features.
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