Electrochemical Deposition with Redox Replacement of Lanthanum with Uranium in Molten LiCl-KCl

Eakin, Jeffrey A; Molina, Daniel E.; Guo, Xiaofeng; Beyenal, Haluk; Ivory, Cornelius F.

doi:10.1149/1945-7111/acc09c

Cited by 7 publications

(5 citation statements)

References 46 publications

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“…The study conducted by Eakin, which revealed that, within a limited electrolysis time, uranium would selectively deposit at the active site on the surface of the tungsten electrode and react with a portion of LiCl-KCl to form a monolayer of uranium. 47 Pseic studied the morphological changes of uranium metal on the electrode surface during potential scanning of CV, the SEM images of the surface of the tungsten electrode are shown in Fig. 5.…”

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confidence: 99%

The Electrode Kinetics of UCl₃ in LiCl-KCl Molten Salt

Fang,

Liu,

Yao

et al. 2024

J. Electrochem. Soc.

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A comprehension of the electrochemical characteristics of uranium ions is crucial for the efficient separation of uranium from other actinides and fragment elements during electrorefining in pyroprocessing. In this study, cyclic voltammetry and square wave voltammetry were used to study LiCl-KCl-UCl3 molten salt system at 773 K. The BET adsorption model was employed in this study to provide a more comprehensive description of the kinetic process of uranium ion on the working electrode surface. By comparing the simulated results with experimental data, it is observed that there is a strong agreement between them, indicating an accurate depiction of the redox process of uranium ion on the electrode surface. Additionally, this model facilitates the analysis of uranium metal deposition on the electrode surface, thereby further substantiating the rationality and efficacy of the model.

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Section: = ( )mentioning

confidence: 99%

The Electrode Kinetics of UCl₃ in LiCl-KCl Molten Salt

Fang,

Liu,

Yao

et al. 2024

J. Electrochem. Soc.

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“…14 The higher solubility of lanthanides relative to that of actinides in chloride molten salts can be used to process spent nuclear fuel, as demonstrated in the chloride salt electrorefining process at Idaho National Laboratory. 15 Previously, solubilities of LaF 3 , CeF 3 , and SmF 3 in LiF− BeF 2 −UF 4 (62.8−36.4−0.8 mol %) salt as well as YF 3 and CeF 3 in NaF−BeF 2 (61−39 mol %) salt were measured to support MSRE. 16 Solubilities are also published for ARE salts, including the measurements of BaF 2 , LaF 3 , CeF 3 , SmF 3 , and YF 3 in NaF−ZrF 4 −UF 4 (50−46−4 mol %) salt.…”

Section: Introductionmentioning

confidence: 95%

“…These fission products affect neutronics and system operation through parasitic absorption of neutrons . The higher solubility of lanthanides relative to that of actinides in chloride molten salts can be used to process spent nuclear fuel, as demonstrated in the chloride salt electrorefining process at Idaho National Laboratory …”

Section: Introductionmentioning

confidence: 99%

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Density Measurements of Molten LiF–BeF₂ and LiF–BeF₂–LaF₃ Salt Mixtures by Neutron Radiography

Moon,

McFarlane,

Andrews

et al. 2024

ACS Omega

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“…Recent advancements in uranium electrodeposition, utilizing molten salts and covalent organic frameworks, have been demonstrated with various substrates, including Polyaniline/Graphite sheet, phytic acid-doped polypyrrole/carbon felt electrode, and tungsten electrodes [20]. Recently, investigations into the cathodic reduction of U(III) ions on inert (tungsten) and reactive (gallium, cadmium) electrodes were conducted at temperatures ranging from 623 K to 923 K using cyclic and square wave voltammetry [21].…”

Section: Introductionmentioning

confidence: 99%

Uranium electrodeposition at boron-doped diamond electrodes

Acevedo-González,

Peña-Duarte,

Lagle

et al. 2024

J Appl Electrochem

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The uranium electrodeposition process on a boron-doped diamond electrode (BDD) surface at varying potentials as a means of environmental uranium remediation has been studied. The chronoamperometry technique was employed for the electrodeposition process, applying potentials ranging from − 0.60V to -2.00V vs. the reversible hydrogen electrode (RHE). A 2mM uranyl acetate dihydrate (UO 2 (C 2 H 3 O 2 ) 2 •2H 2 O) solution in 0.1M KClO 4 served as a model uranyl ion (UO 2 2+ ) source. Analysis using scanning electron microscopy, energy-dispersive X-ray uorescence spectroscopy, and atomic force microscopy (AFM) con rmed the presence of uranium and the formation of a thin layer on the electrode surface. Roughness measurements obtained through AFM analysis at different applied potentials vs. RHE were compared before and after uranium electrodeposition at BDD electrodes. Additionally, the identi cation of various uranium oxides resulting from the electrodeposition procedures was conducted using X-ray photoelectron spectroscopy (XPS) and Raman spectroscopy. These analyses revealed the presence of UO 2 , UO 3 , and U 3 O 8 on the BDD electrode surface due to the electrochemical deposition process, with a notable proportion of U 3 O 8 observed. Ultimately, the optimal potential for e cient U 6+ remediation from aqueous media and the formation of a uniform thin layer conducive to nuclear technology development was determined to be -1.75V vs. RHE.

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Electrochemical Deposition with Redox Replacement of Lanthanum with Uranium in Molten LiCl-KCl

Cited by 7 publications

References 46 publications

The Electrode Kinetics of UCl₃ in LiCl-KCl Molten Salt

The Electrode Kinetics of UCl₃ in LiCl-KCl Molten Salt

Density Measurements of Molten LiF–BeF₂ and LiF–BeF₂–LaF₃ Salt Mixtures by Neutron Radiography

Uranium electrodeposition at boron-doped diamond electrodes

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Electrochemical Deposition with Redox Replacement of Lanthanum with Uranium in Molten LiCl-KCl

Cited by 7 publications

References 46 publications

The Electrode Kinetics of UCl3 in LiCl-KCl Molten Salt

The Electrode Kinetics of UCl3 in LiCl-KCl Molten Salt

Density Measurements of Molten LiF–BeF2 and LiF–BeF2–LaF3 Salt Mixtures by Neutron Radiography

Uranium electrodeposition at boron-doped diamond electrodes

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Product

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The Electrode Kinetics of UCl₃ in LiCl-KCl Molten Salt

The Electrode Kinetics of UCl₃ in LiCl-KCl Molten Salt

Density Measurements of Molten LiF–BeF₂ and LiF–BeF₂–LaF₃ Salt Mixtures by Neutron Radiography