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Metal–Organic‐Framework‐Based Photocatalysts Optimized by Spatially Separated Cocatalysts for Overall Water Splitting

Jijie Zhang, Tianyu Bai, Hui Huang, Mei‐Hui Yu, Xiaobin Fan, Ze Chang, Xian‐He Bu

2020Advanced Materials253 citationsDOI

Abstract

Abstract Efficient charge separation and utilization are critical factors in photocatalysis. Herein, it is demonstrated that the complete spatial separation of oxidation and reduction cocatalysts enhances the efficacy of charge separation and surface reaction. Specifically, a Pt@NH 2 ‐UiO‐66@MnO x (PUM) heterostructured photocatalyst with Pt and MnO x as cocatalysts is designed for the optimization of the NH 2 ‐UiO‐66 photocatalyst. Compared with the pristine NH 2 ‐UiO‐66, Pt@NH 2 ‐UiO‐66 (PU), and NH 2 ‐UiO‐66@MnO x (UM) samples, the PUM sample exhibits the highest hydrogen production activity. As cocatalysts, Pt favors trapping of electrons, while MnO x tends to collect holes. Upon generation from NH 2 ‐UiO‐66, electrons and holes flow inward and outward of the metal–organic framework photocatalyst, accumulating on the corresponding cocatalysts, and then take part in the redox reactions. The PUM photocatalyst greatly prolongs the lifetime of the photogenerated electrons and holes, which favors the electron–hole separation. Furthermore, the PUM sample facilitates overall water splitting in the absence of sacrificial agents, thereby demonstrating its potential as a modification method of MOF‐type semiconductors for the overall water‐splitting reaction.

Topics & Concepts

PhotocatalysisMaterials scienceWater splittingRedoxPhotocatalytic water splittingMetalSemiconductorCharge carrierElectronCatalysisChemical engineeringNanotechnologyInorganic chemistryOptoelectronicsChemistryOrganic chemistryPhysicsEngineeringMetallurgyQuantum mechanicsAdvanced Photocatalysis TechniquesMetal-Organic Frameworks: Synthesis and ApplicationsCovalent Organic Framework Applications
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