Abstract

• Characteristics of MOF-based materials for catalytic CO 2 reduction are summarized. • The origins of the active sites in MOF-based materials are summarized. • Recent progress in the MOF-based CO 2 reduction has been reviewed. • Challenges and perspectives of MOF-based materials for CO 2 reduction are discussed. Metal–organic frameworks (MOFs) have attracted much attention in photo- and electrocatalytic CO 2 reduction into value-added chemicals. In this review, we specially focus on the active sites of MOF-based materials to achieve visible-light absorption and efficient charge separation for photocatalytic CO 2 reduction, and conductivity for electrocatalytic CO 2 reduction, respectively. Firstly, the unique characteristics of MOF-based materials for catalytic CO 2 reduction are introduced. Subsequently, an overview on the recent progress and development of MOF-based materials for catalytic CO 2 reduction are summarized by categorizing the types of the MOF-based materials and the origin of the active sites. The active metal nodes/clusters and organic ligands can be assembled in pristine MOFs for catalytic CO 2 reduction. Diverse active species are also popular to integrate with MOFs to form MOF composites for catalytic CO 2 reduction. Besides, MOFs and their composites are intensively explored as templates and/or precursors to synthesize MOF derivatives for catalytic CO 2 reduction. Finally, the challenges and perspectives for further development towards MOF-based materials for CO 2 reduction are proposed. We have tried our best to summarize the MOF-based materials for photo- and electrocatalytic CO 2 reduction, aiming to inspire further ideas and exploration in this research field.

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