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W4223514679 abstract "Highly-efficient photocatalytic conversion of CO2 into valuable carbon-contained chemicals possesses a tremendous potential in solving the energy crisis and global warming problem. However, the inadequate separation of photogenerated electron-hole pairs and the unsatisfied capture of CO2 stay the chief roadblocks. Herein, we designed a novel photocatalyst for CO2 reduction by assembling three-dimensional graphene (3D GR) with a typical metal-organic framework material UIO-66-NH2 , aiming to construct a built-in electric field for charge separation as well as taking advantage of the typical 3D structure of GR for maximizing the exposed absorption site on the surface. The performance evaluation demonstrated that the photocatalytic activity has been improved for the composite materials compared with that of the pure UIO-66-NH2 . Further mechanism investigations proved that the enhanced photocatalytic performance is attributed to the synergy of enhanced CO2 absorption and inhibited photogenerated charge recombination, which could be owing to the better distribution and exposure of absorption and reaction sites on composites, and the redistribution of photogenerated carriers between 3D GR and UIO-66-NH2 . This study provides a promising pathway to probe nanocomposites based on MOFs in environmental improvement and other relevant fields." @default.
W4223514679 created "2022-04-15" @default.
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W4223514679 date "2022-05-19" @default.
W4223514679 modified "2023-10-16" @default.
W4223514679 title "Interfacial charge modulation via in‐situ fabrication of 3D conductive platform with MOF nanoparticles for photocatalytic reduction of CO2" @default.
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W4223514679 doi "https://doi.org/10.1002/chem.202200583" @default.
W4223514679 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/35403249" @default.
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