Unveiling the Critical Role of Surface Hydroxyl Groups for Electro-Assisted Uranium Extraction from Wastewater

The electro-driven extraction of uranium from fluorine-containing uranium wastewater is anticipated to address the challenge of separating fluoro-uranium complexes in conventional technologies. Herein, we developed hydroxy-rich cobalt-based oxides (CoO x ) for electro-assisted uranium extraction fro...

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Veröffentlicht in:	Inorganic chemistry 2023-12, Vol.62 (51), p.21518-21527
Hauptverfasser:	Zhou, Li, Lian, Jie, Li, Qiuyang, Li, Jin, Shao, Yuwen, Wu, Gang, Ding, Tao, Cui, Xudong, Chen, Tao, Zhu, Wenkun
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container_issue	51
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container_title	Inorganic chemistry
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creator	Zhou, Li Lian, Jie Li, Qiuyang Li, Jin Shao, Yuwen Wu, Gang Ding, Tao Cui, Xudong Chen, Tao Zhu, Wenkun
description	The electro-driven extraction of uranium from fluorine-containing uranium wastewater is anticipated to address the challenge of separating fluoro-uranium complexes in conventional technologies. Herein, we developed hydroxy-rich cobalt-based oxides (CoO x ) for electro-assisted uranium extraction from fluorine-containing wastewater. Relying on theoretical calculations and other spectral measurements, the hydroxy-rich CoO x nanosheets can enhance the affinity for uranium due to the existence of a substantial quantity of hydroxyl groups. Accordingly, the CoO x nanosheets exhibit outstanding U(VI) removal efficiency in the presence of fluorine ions. Through the utilization of X-ray absorption fine structure (XAFS), we confirm that hydroxy-rich CoO x nanosheets capture free uranyl ions to form a sturdy 2Oax-1U-3Oeq configuration, which can be achieved through electro-driven fluorine–uranium separation. Notably, for the first time, the whole reaction process of uranium species on the CoO x surface from the initial uranium single atom growth to uranium oxide nanosheets is monitored by aberration-corrected transmission electron microscopes (AC-TEM). This work provides a paradigm for the advancement of novel functional materials as electrocatalysts for uranium extraction, as well as a new approach for studying the evolution mechanism of uranium species.
doi_str_mv	10.1021/acs.inorgchem.3c03967
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Chem</addtitle><date>2023-12-25</date><risdate>2023</risdate><volume>62</volume><issue>51</issue><spage>21518</spage><epage>21527</epage><pages>21518-21527</pages><issn>0020-1669</issn><eissn>1520-510X</eissn><abstract>The electro-driven extraction of uranium from fluorine-containing uranium wastewater is anticipated to address the challenge of separating fluoro-uranium complexes in conventional technologies. Herein, we developed hydroxy-rich cobalt-based oxides (CoO x ) for electro-assisted uranium extraction from fluorine-containing wastewater. Relying on theoretical calculations and other spectral measurements, the hydroxy-rich CoO x nanosheets can enhance the affinity for uranium due to the existence of a substantial quantity of hydroxyl groups. Accordingly, the CoO x nanosheets exhibit outstanding U(VI) removal efficiency in the presence of fluorine ions. 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title	Unveiling the Critical Role of Surface Hydroxyl Groups for Electro-Assisted Uranium Extraction from Wastewater
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