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Functionalized Iron–Nitrogen–Carbon Electrocatalyst Provides a Reversible Electron Transfer Platform for Efficient Uranium Extraction from Seawater

Hui Yang, Xiaolu Liu, Mengjie Hao, Yinghui Xie, Xiangke Wang, He Tian, Geoffrey I. N. Waterhouse, Paul E. Kruger, Shane G. Telfer, Shengqian Ma

2021Advanced Materials370 citationsDOI

Abstract

Abstract Uranium extraction from seawater provides an opportunity for sustainable fuel supply to nuclear power plants. Herein, an adsorption–electrocatalysis strategy is demonstrated for efficient uranium extraction from seawater using a functionalized iron–nitrogen–carbon (Fe–N x –C–R) catalyst, comprising N‐doped carbon capsules supporting FeN x single‐atom sites and surface chelating amidoxime groups (R). The amidoxime groups bring hydrophilicity to the adsorbent and offer surface‐specific binding sites for UO 2 2+ capture. The site‐isolated FeN x centres reduce adsorbed UO 2 2+ to UO 2 + . Subsequently, through electrochemical reduction of the FeN x sites, unstable U(V) ions are reoxidized to U(VI) in the presence of Na + resulting in the generation of solid Na 2 O(UO 3 ·H 2 O) x , which can easily be collected. Fe–N x –C–R reduced the uranium concentration in seawater from ≈ 3.5 ppb to below 0.5 ppb with a calculated capacity of ≈ 1.2 mg g ‐1 within 24 h. To the best of the knowledge, the developed system is the first to use the adsorption of uranyl ions and electrodeposition of solid Na 2 O(UO 3 .H 2 O) x for the extraction of uranium from seawater. The important discoveries guide technology development for the efficient extraction of uranium from seawater.

Topics & Concepts

UraniumUranylSeawaterAdsorptionExtraction (chemistry)ElectrocatalystCarbon fibersInorganic chemistryMaterials scienceElectrochemistryCatalysisNuclear chemistryChemistryElectrodeOrganic chemistryMetallurgyPhysical chemistryOceanographyComposite materialGeologyComposite numberRadioactive element chemistry and processingChemical Synthesis and CharacterizationNuclear Materials and Properties