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Boosting uranium extraction from Seawater by micro-redox reactors anchored in a seaweed-like adsorbent

Yinshan Zhang, Yingcai Wang, Zhimin Dong, Youqun Wang, Yuhui Liu, Xiaohong Cao, Zhibin Zhang, Chao Xu, Ning Wang, Yunhai Liu, Chao Xu, Ning Wang, Yunhai Liu, Yunhai Liu

2024Nature Communications103 citationsDOIOpen Access PDF

Abstract

Efficient extraction of uranium from seawater is expected to provide virtually infinite fuel sources to power nuclear reactors and thus enable sustainable development of nuclear energy. The extraction efficiency for uranium greatly depends on the availability of active adsorption sites on the adsorbents. Maximization of the utilization rate of the binding sites in the adsorbent is vital for improving adsorption capacity. Herein, micro-redox reactors functioned by Cu(I)/Cu(II) conversion are constructed internally in an adsorbent bearing both amidoxime and carboxyl groups to induce active regeneration of the inactivated binding sites to enhance uranium capture. This adsorbent has high adsorption capacity (962.40 mg-U/g-Ads), superior anti-fouling ability as well as excellent uranium uptake (14.62 mg-U/g-Ads) in natural seawater after 56 days, placing it at the top of high-performance sorbent materials for uranium harvest from seawater. Extraction of uranium from seawater could help with sustainable development of nuclear energy. Here the authors incorporated Cu(I)/Cu(II) microredox reactors in a seaweed-like adsorbent to enhance uranium capture by taking advantage of its adsorption and reduction effects.

Topics & Concepts

UraniumSeawaterAdsorptionBoosting (machine learning)Extraction (chemistry)AlgaeRedoxChemistryChemical engineeringEnvironmental scienceEnvironmental chemistryMaterials scienceBiologyChromatographyInorganic chemistryEcologyMetallurgyOrganic chemistryComputer scienceEngineeringMachine learningRadioactive element chemistry and processingRadioactive contamination and transferChemical Synthesis and Characterization
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