YI Tan, HUANG Jun-long, CEN Zong-heng, JI Yi-wei, LIU Shao-hong. N/S co-doped carbon nanosheets for the efficient electrochemical extraction of uranium from seawater[J]. New Carbon Mater., 2024, 39(6): 1108-1116. DOI: 10.1016/S1872-5805(24)60885-1
Citation: YI Tan, HUANG Jun-long, CEN Zong-heng, JI Yi-wei, LIU Shao-hong. N/S co-doped carbon nanosheets for the efficient electrochemical extraction of uranium from seawater[J]. New Carbon Mater., 2024, 39(6): 1108-1116. DOI: 10.1016/S1872-5805(24)60885-1

N/S co-doped carbon nanosheets for the efficient electrochemical extraction of uranium from seawater

  • Carbon-based catalysts are promising materials for the electrochemical extraction of uranium from seawater. However, their practical application is often limited by high cost and low catalytic activity. Using low-cost polystyrene sulfonic acid resin and melamine as raw materials, a class of nitrogen and sulfur co-doped carbon nanosheets (CNSs) with high catalytic activity has been developed by a low-temperature hydrothermal treatment and high-temperature carbonization. Because of their high conductivity and high catalytic activity, CNS-based electrodes can catalyze uranyl ions in seawater into easily recoverable Na2O(UO3·H2O)x precipitates at −2 V, and achieve an extraction capacity of up to 3 923.7 mg g−1 with a uranium removal of 98.1% in uranium-spiked seawater (1.0×103 mg L−1). In situ Raman spectroscopy showed that a large number of uranium compounds appeared on the surface of the composite electrode within 40 min of extraction. The electrode also recovered 72.7% of the uranium in natural seawater, demonstrating excellent prospects for this application. This work provides a new approach into the design of low-cost, metal-free electrocatalysts for the efficient uranium extraction from natural seawater.
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