Issue 79, 2024

Unveiling the potential of MOF-based single-atom photocatalysts for the production of clean fuel and valuable chemical

Abstract

Harnessing solar energy through photocatalysis has excellent potential for powering sustainable chemical production, supporting the United Nations' environmental goals. Single-atoms (SAs) dispersed on catalyst surfaces are gaining attention for their highly active and durable nature. Metal–organic frameworks (MOFs) can provide enough reactive sites to sustain selectivity and durability over time because of their tunable channels and functional groups. Owing to their organized structures, MOFs are ideal platforms for securing individual atoms and promoting solar-driven reactions. Few reviews have, however, reflected the possibility of combining MOFs and SAs to produce potent photocatalysts that may produce clean fuels and valuable chemicals. This review provides a general overview of methods for combining MOFs and SAs to generate photocatalysts. The challenges associated with these MOF-based single-atom systems are also critically examined. Their future development is discussed as continued refinement helps to more fully leverage their advantages for boosting photocatalytic performances – turning sunlight into chemicals in a manner that supports sustainable development. Insights gained here could illuminate pathways toward realizing the profound potential of MOF-based single-atom photocatalysts to empower production driven by renewable solar energy.

Graphical abstract: Unveiling the potential of MOF-based single-atom photocatalysts for the production of clean fuel and valuable chemical

Article information

Article type
Highlight
Submitted
12 7 2024
Accepted
29 8 2024
First published
30 8 2024

Chem. Commun., 2024,60, 10989-10999

Unveiling the potential of MOF-based single-atom photocatalysts for the production of clean fuel and valuable chemical

R. Chen, G. Liu, B. Xia, T. Liu, Y. Xia, S. Liu, A. Talebian-Kiakalaieh and J. Ran, Chem. Commun., 2024, 60, 10989 DOI: 10.1039/D4CC03479A

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