2D conjugated metal–organic frameworks (2D c ‐MOFs) have experienced a booming development over the past decade as innovative sensing materials for electroanalytical applications. These materials inherit the advantages of traditional MOFs, such as porosity and structural flexibility, which enable sufficient and adjustable interactions with analytes while overcoming conductivity limitations to facilitate electric signal transduction. This review provides an overview of recent advancements in 2D c ‐MOF‐based electroanalytical systems. The various types of 2D c ‐MOF‐based sensors and the optimization strategies employed to enhance their sensing performance are summarized. By highlighting the achievements of 2D c ‐MOFs in analyzing a wide range of analytes in both gaseous and liquid states, this review underscores the versatility and considerable potential of these materials. Finally, the perspectives on the challenges and opportunities that lie ahead for future research in this field are presented.
Fu et al. (Wed,) studied this question.
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