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Complexation Study of Pu(III)-Isosaccharinate Using Absorption Spectroscopy and Density Functional Theory

Sangki Cho1, Ung Hwi Yoon2, Hyejin Cho1

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|October 14, 2025
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Summary
This summary is machine-generated.

This study determined the formation constant for the plutonium-isosaccharinic acid (PuISA2+) complex, crucial for understanding plutonium mobility in radioactive waste disposal. The findings aid in predicting plutonium behavior in nuclear waste environments.

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Area of Science:

  • Nuclear Chemistry
  • Environmental Chemistry
  • Radiochemistry

Background:

  • Plutonium exhibits complex aqueous chemistry due to multiple oxidation states.
  • Isosaccharinic acid (ISA), a cellulose degradation product, forms stable complexes with actinides, influencing radionuclide mobility.
  • Understanding plutonium-ligand interactions is vital for nuclear waste management.

Purpose of the Study:

  • To determine the formation constant of the plutonium(III)-isosaccharinic acid (PuISA2+) species.
  • To elucidate the coordination structure of the PuISA2+ complex.
  • To enhance understanding of plutonium chemical behavior in radioactive waste disposal systems.

Main Methods:

  • Absorption spectroscopy was used to record spectra of Pu(III)-ISA complexes.
  • Principal component analysis and derivative spectroscopy were employed for data analysis and background correction.
  • Density functional theory (DFT) calculations explored the complex's coordination structure.

Main Results:

  • The formation constant for the PuISA2+ species was determined as log β1' = 2.38 ± 0.07.
  • Spectroscopic data provided insights into the complex's spectral characteristics.
  • DFT calculations suggested a tridentate coordination involving one carboxyl and two hydroxyl groups.

Conclusions:

  • The determined formation constant provides quantitative data on Pu-ISA complexation.
  • The study enhances the understanding of plutonium's chemical behavior in alkaline environments relevant to waste disposal.
  • This research contributes to predicting and managing plutonium mobility in nuclear waste repositories.