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Molecular Co-Catalyst Confined within a Metallacage for Enhanced Photocatalytic CO<sub>2</sub> Reduction

Dongdong Liu, Huirong Ma, Chao Zhu, Feng‐Yi Qiu, Wei‐Bin Yu, Lili Ma, Xianwen Wei, Ying‐Feng Han, Guozan Yuan

2024Journal of the American Chemical Society119 citationsDOI

Abstract

The construction of structurally well-defined supramolecular hosts to accommodate catalytically active species within a cavity is a promising way to address catalyst deactivation. The resulting supramolecular catalysts can significantly improve the utilization of catalytic sites, thereby achieving a highly efficient chemical conversion. In this study, the Co-metalated phthalocyanine ( Pc-Co ) was successfully confined within a tetragonal prismatic metallacage, leading to the formation of a distinctive type of supramolecular photocatalyst ( Pc-Co@Cage ). The host–guest architecture of Pc-Co@Cage was unambiguously elucidated by single-crystal X-ray diffraction (SCXRD), NMR, and ESI-TOF-MS, revealing that the single cobalt active site can be thoroughly isolated within the space-restricted microenvironment. In addition, we found that Pc-Co@Cage can serve as a homogeneous supramolecular photocatalyst that displays high CO 2 to CO conversion in aqueous media under visible light irradiation. This supramolecular photocatalyst exhibits an obvious improvement in activity (TON CO = 4175) and selectivity (Sel CO = 92%) relative to the nonconfined Pc-Co catalyst (TON CO = 500, Sel CO = 54%). The present strategy provided a rare example for the construction of a highly active, selective, and stable photocatalyst for CO 2 reduction through a cavity-confined molecular catalyst within a discrete metallacage.

Topics & Concepts

ChemistryPhotocatalysisCatalysisReduction (mathematics)PhotochemistryChemical engineeringOrganic chemistryMathematicsGeometryEngineeringCovalent Organic Framework ApplicationsAdvanced Photocatalysis TechniquesMetal-Organic Frameworks: Synthesis and Applications
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