Electrochemical deposition of uranium oxide with an electrocatalytically active electrode using double potential step technique

The development of effective uranium-removal techniques is of great significance to the environment and human health. In this work, a double potential step technique (DPST) was applied to remove U(VI) from uranium-containing wastewater using a carbon felt electrode modified by graphene oxide/phytic...

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Veröffentlicht in:	Chinese chemical letters 2022-08, Vol.33 (8), p.3762-3766
Hauptverfasser:	Huang, Jie, Liu, Zhirong, Huang, Dejuan, Jin, Tianxiang, Qian, Yong
Format:	Artikel
Sprache:	eng
Schlagworte:	Double potential step technique Electrochemical deposition Graphene oxide Nanocomposites Uranium
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creator	Huang, Jie Liu, Zhirong Huang, Dejuan Jin, Tianxiang Qian, Yong
description	The development of effective uranium-removal techniques is of great significance to the environment and human health. In this work, a double potential step technique (DPST) was applied to remove U(VI) from uranium-containing wastewater using a carbon felt electrode modified by graphene oxide/phytic acid composite (GO-PA@CF). The application of DPST can inhibit water splitting and prevent GO-PA from adsorbing other interfering ions in wastewater. The GO-PA composite can effectively accelerate the electrochemical reduction rate of U(VI), which significantly improved the electrochemical deposition rate of uranium oxide. As a result, the maximum removal efficiency and maximum removal capacity of GO-PA@CF electrode reached 98.7% and 1149.3 mg/g, respectively. The removal efficiency remained 97.2% after five cycles of reuse. Moreover, the removal efficiency of GO-PA@CF electrode can reach more than 70% in simulated wastewater. [Display omitted] A double potential step technique was applied to remove U(VI) from uranium-containing wastewater using a carbon felt electrode modified by graphene oxide/phytic acid composite. This removal system showed an excellent removal capacity and a remarkable reusability.
doi_str_mv	10.1016/j.cclet.2021.11.008
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In this work, a double potential step technique (DPST) was applied to remove U(VI) from uranium-containing wastewater using a carbon felt electrode modified by graphene oxide/phytic acid composite (GO-PA@CF). The application of DPST can inhibit water splitting and prevent GO-PA from adsorbing other interfering ions in wastewater. The GO-PA composite can effectively accelerate the electrochemical reduction rate of U(VI), which significantly improved the electrochemical deposition rate of uranium oxide. As a result, the maximum removal efficiency and maximum removal capacity of GO-PA@CF electrode reached 98.7% and 1149.3 mg/g, respectively. The removal efficiency remained 97.2% after five cycles of reuse. Moreover, the removal efficiency of GO-PA@CF electrode can reach more than 70% in simulated wastewater. [Display omitted] A double potential step technique was applied to remove U(VI) from uranium-containing wastewater using a carbon felt electrode modified by graphene oxide/phytic acid composite. This removal system showed an excellent removal capacity and a remarkable reusability.</description><identifier>ISSN: 1001-8417</identifier><identifier>EISSN: 1878-5964</identifier><identifier>DOI: 10.1016/j.cclet.2021.11.008</identifier><language>eng</language><publisher>Elsevier B.V</publisher><subject>Double potential step technique ; Electrochemical deposition ; Graphene oxide ; Nanocomposites ; Uranium</subject><ispartof>Chinese chemical letters, 2022-08, Vol.33 (8), p.3762-3766</ispartof><rights>2022</rights><rights>Copyright © Wanfang Data Co. Ltd. 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In this work, a double potential step technique (DPST) was applied to remove U(VI) from uranium-containing wastewater using a carbon felt electrode modified by graphene oxide/phytic acid composite (GO-PA@CF). The application of DPST can inhibit water splitting and prevent GO-PA from adsorbing other interfering ions in wastewater. The GO-PA composite can effectively accelerate the electrochemical reduction rate of U(VI), which significantly improved the electrochemical deposition rate of uranium oxide. As a result, the maximum removal efficiency and maximum removal capacity of GO-PA@CF electrode reached 98.7% and 1149.3 mg/g, respectively. The removal efficiency remained 97.2% after five cycles of reuse. Moreover, the removal efficiency of GO-PA@CF electrode can reach more than 70% in simulated wastewater. [Display omitted] A double potential step technique was applied to remove U(VI) from uranium-containing wastewater using a carbon felt electrode modified by graphene oxide/phytic acid composite. 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In this work, a double potential step technique (DPST) was applied to remove U(VI) from uranium-containing wastewater using a carbon felt electrode modified by graphene oxide/phytic acid composite (GO-PA@CF). The application of DPST can inhibit water splitting and prevent GO-PA from adsorbing other interfering ions in wastewater. The GO-PA composite can effectively accelerate the electrochemical reduction rate of U(VI), which significantly improved the electrochemical deposition rate of uranium oxide. As a result, the maximum removal efficiency and maximum removal capacity of GO-PA@CF electrode reached 98.7% and 1149.3 mg/g, respectively. The removal efficiency remained 97.2% after five cycles of reuse. Moreover, the removal efficiency of GO-PA@CF electrode can reach more than 70% in simulated wastewater. [Display omitted] A double potential step technique was applied to remove U(VI) from uranium-containing wastewater using a carbon felt electrode modified by graphene oxide/phytic acid composite. This removal system showed an excellent removal capacity and a remarkable reusability.</abstract><pub>Elsevier B.V</pub><doi>10.1016/j.cclet.2021.11.008</doi><tpages>5</tpages></addata></record>
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subjects	Double potential step technique Electrochemical deposition Graphene oxide Nanocomposites Uranium
title	Electrochemical deposition of uranium oxide with an electrocatalytically active electrode using double potential step technique
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