Taro Toda scite author profile

The excess thermodynamic quantities of lanthanides and actinides in molten salts and liquid metals were studied for reductive extraction of minor actinides. The excess enthalpies and entropies of those elements in the molten chloride phase were found to be correlated with the ionic radii of metal ions possibly due to complex formation. In the liquid metal phase, on the other hand, the excess enthalpies were explained with Miedema's atomistic model and the excess entropies were explained with the vibrational entropy due to alloy formation. Using these correlations and models, some missing values of the excess thermodynamic quantities were evaluated and the separation factors of minor actinides from lanthanides were calculated in different reductive extraction systems. The higher separation factors were obtained in the system using aluminum or gallium than in the system using bismuth or cadmium as the liquid metal phase.

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Separation Factor of Americium from Cerium in Molten Chloride-Liquid Gallium Reductive Extraction System

Toda

Maruyama

Moritani

et al. 2009

Electrochemistry

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Electrooxidative simulation of stereoselectivity in microsomal allylic hydroxylation

Shono

Toda²,

Oshino³

1984

Tetrahedron Letters

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Thermodynamic Properties of Lanthanides and Actinides for Reductive Extraction of Minor Actinides

Toda

Maruyama

Moritani

et al. 2009

J. Nucl. Sci. Technol.

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Taro Toda

Electron transfer from nitrogen in microsomal oxidation of amine and amide. Simulation of microsomal oxidation by anodic oxidation

Thermodynamic Properties of Lanthanides and Actinides for Reductive Extraction of Minor Actinides

Separation Factor of Americium from Cerium in Molten Chloride-Liquid Gallium Reductive Extraction System

Electrooxidative simulation of stereoselectivity in microsomal allylic hydroxylation

Thermodynamic Properties of Lanthanides and Actinides for Reductive Extraction of Minor Actinides

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