Abstract
A continuous aerosol route is demonstrated for the gas-phase synthesis of the copper-based metal-organic framework (Cu-MOF) supported on CeO2nanoparticle clusters, which can be used to fabricate MOF-derived Cu@CeO2hybrid nanomaterials for the catalysis of reversed water-gas shift reaction (RWGS). The results show that both metal surface area and metal dispersion were enhanced by decreasing the Cu/Ce atomic ratio of the hybrid material. Incorporation of the CeO2nanoparticle cluster enhanced both activity and stability of the MOF-derived nanostructured catalysts. In addition to high selectivity and sufficient operation stability toward RWGS, a superior high catalytic activity under a relatively low-temperature operation was achievable (i.e., TOFCO2= 0.1635 s-1at 400 °C) in comparison to the reported values in the literature. The present development for MOF-derived nanostructured materials produced by using an aerosol-based evaporation-induced self-assembly method opens up opportunities for the design of nanostructured catalysts useful for a variety of applications in CO2capture and utilization.
Original language | English |
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Pages (from-to) | 8883-8893 |
Number of pages | 11 |
Journal | ACS Applied Nano Materials |
Volume | 5 |
Issue number | 7 |
DOIs | |
Publication status | Published - 2022 Jul 22 |
Keywords
- CO
- CO
- aerosol
- copper
- hydrogen
- metal-organic framework
ASJC Scopus subject areas
- General Materials Science