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Tailored Metalloporphyrin-Based Three-Dimensional Covalent Organic Frameworks for Enhanced Photocatalytic CO <sub>2</sub> Reduction

Mengting He, Y. Andrew Wang, Yuan Ma, Lei Li, Na Yang, Ziqiu Ye, Xu Zhou, Yuanpeng Cheng, Youqi Zhang, Bo Gui, Lei Gao, Xu-Bing Li, Junliang Sun, L F Wu, C. Wang

2026Journal of the American Chemical Society23 citationsDOI

Abstract

The development of efficient photocatalysts for CO 2 reduction is essential for addressing climate and energy issues. Three-dimensional covalent organic frameworks (3D COFs) have emerged as potential candidates; however, challenges in their synthesis and structural analysis have hindered the rational design of high-performance photocatalysts. Here, we report the design and synthesis of a series of highly crystalline metalloporphyrin-based 3D COFs (3D-MPor-COF, M = Co, Ni, Pt) featuring 5-fold pts topology. Photocatalytic experiments reveal that the metal center significantly affects their activity, with 3D-CoPor-COF achieving a CO production rate of ∼11.3 mmol g –1 h –1 and 91.9% selectivity. Further optimization through pore enlargement yields isoreticular 3D-CoPor-Ph-COF, which exhibits a substantially enhanced rate of ∼20.7 mmol g –1 h –1 and 95.4% selectivity. These results highlight the critical role of tailoring pore environments─including both catalytic site identity and pore size─to optimize 3D COFs for photocatalytic CO 2 reduction, offering molecular-level insights for the development of COF-based photocatalysts in sustainable energy applications.

Topics & Concepts

ChemistryPhotocatalysisCovalent bondCatalysisRational designNanotechnologyChemical engineeringSustainable energyOrganic synthesisReduction (mathematics)Metal-organic frameworkDesign elements and principlesCovalent organic frameworkEnergy transformationRedoxLow energyCovalent Organic Framework ApplicationsAdvanced Photocatalysis TechniquesCO2 Reduction Techniques and Catalysts
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