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Ligand-Assistant Iced Photocatalytic Reduction to Synthesize Atomically Dispersed Cu Implanted Metal-Organic Frameworks for Photo-Enhanced Uranium Extraction from Seawater. | LitMetric

AI Article Synopsis

  • * The study introduces a new photocatalyst, Cu SA@UiO-66-NH, which improves uranium uptake by using atomically dispersed copper that enhances charge transfer compared to traditional methods.
  • * This new catalyst not only effectively converts U(VI) to U(IV) but also shows strong antibacterial properties, achieving a uranium sorption capacity of 9.16 mg-U/g from seawater.

Article Abstract

Uranium extraction from natural seawater is one of the most promising routes to address the shortage of uranium resources. By combination of ligand complexation and photocatalytic reduction, porous framework-based photocatalysts have been widely applied to uranium enrichment. However, their practical applicability is limited by poor photocatalytic activity and low adsorption capacity. Herein, atomically dispersed Cu implanted UiO-66-NH (Cu SA@UiO-66-NH ) photocatalysts are prepared via ligand-assistant iced photocatalytic reduction route. N-Cu-N moiety acts as an effective electron acceptor to potentially facilitate charge transfer kinetics. By contrast, there exist Cu sub-nanometer clusters by the typical liquid phase photoreduction, resulting in a relatively low photocatalytic activity. Cu SA@UiO-66-NH adsorbents exhibit superior antibacterial ability and improved photoreduction conversion of the adsorbed U(VI) to insoluble U(IV), leading to a high uranium sorption capacity of 9.16 mg-U/g-Ads from natural seawater. This study provides new insight for enhancing uranium uptake by designing SA-mediated MOF photocatalysts.

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Source
http://dx.doi.org/10.1002/smll.202208002DOI Listing

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