Add to ORKGThere are a large number of purification and processing operations involving actinide species that rely on high-temperature molten salts as the solvent medium. One such application is the electrorefining of impure actinide metals to provide high purity material for subsequent applications. There are some drawbacks to the electrodeposition of actinides in molten salts including relatively low yields, lack of accurate potential control, maintaining efficiency in a highly corrosive environment, and failed runs. With these issues in mind we have been investigating the electrodeposition of actinide metals, mainly uranium, from room temperature ionic liquids (RTILs) and relatively high-boiling organic solvents. The RTILs we have focused on are co...
Nuclear energy and the fuel cycle process presents significant challenges today. Both economically a...
Molten salt electrorefining of uranium is an important recycling technique to potentially recover re...
This article is focused on the electrochemical behaviour of U ions in molten LiF–CaF2 (79–21 wt.%) e...
In the recent past, room-temperature ionic liquids (RTILs) are being explored for possible applicati...
This dissertation provides five topics—an assessment of different monitoring and analytical techniqu...
The Institute for Transuranium Elements ITU is building up an accurate database of actinide behavior...
Room temperature ionic liquids (RTILs) are salts that are liquids from as low as -96 °C to up to 100...
This research explores a novel method of increasing the solubility of uranium oxides and other actin...
Pyroprocessing, a treatment method for spent nuclear fuel (SNF), is currently being studied at the I...
A potentiometric sensor is being developed at the Idaho National Laboratory for real-time remote sur...
International audienceThis work is focused on the electrochemical behaviour of uranium in molten eut...
This Forum Article provides an overview of the reported studies on the actinide chemistry in ionic l...
This project seeks to determine if (1) inorganic-based ion exchange materials or (2) electrochemical...
The work presented in this thesis involves the utility of room temperature ionic liquids (RTILs) as ...
Molten salts have been widely used for the electrochemical preparation of lanthanum and uranium meta...
Nuclear energy and the fuel cycle process presents significant challenges today. Both economically a...
Molten salt electrorefining of uranium is an important recycling technique to potentially recover re...
This article is focused on the electrochemical behaviour of U ions in molten LiF–CaF2 (79–21 wt.%) e...
In the recent past, room-temperature ionic liquids (RTILs) are being explored for possible applicati...
This dissertation provides five topics—an assessment of different monitoring and analytical techniqu...
The Institute for Transuranium Elements ITU is building up an accurate database of actinide behavior...
Room temperature ionic liquids (RTILs) are salts that are liquids from as low as -96 °C to up to 100...
This research explores a novel method of increasing the solubility of uranium oxides and other actin...
Pyroprocessing, a treatment method for spent nuclear fuel (SNF), is currently being studied at the I...
A potentiometric sensor is being developed at the Idaho National Laboratory for real-time remote sur...
International audienceThis work is focused on the electrochemical behaviour of uranium in molten eut...
This Forum Article provides an overview of the reported studies on the actinide chemistry in ionic l...
This project seeks to determine if (1) inorganic-based ion exchange materials or (2) electrochemical...
The work presented in this thesis involves the utility of room temperature ionic liquids (RTILs) as ...
Molten salts have been widely used for the electrochemical preparation of lanthanum and uranium meta...
Nuclear energy and the fuel cycle process presents significant challenges today. Both economically a...
Molten salt electrorefining of uranium is an important recycling technique to potentially recover re...
This article is focused on the electrochemical behaviour of U ions in molten LiF–CaF2 (79–21 wt.%) e...