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Theoretical Insights into Phenanthroline-Based Ligands toward the Separation of Am(III)/Eu(III)

Yao Zou, Jian‐Hui Lan, Li‐Yong Yuan, Cong‐Zhi Wang, Qun‐Yan Wu, Zhifang Chai, Peng Ren, Wei‐Qun Shi

2022Inorganic Chemistry16 citationsDOI

Abstract

The bistriazinyl-phenanthroline representative ligand, BTPhen, shows excellent extraction and separation ability for trivalent actinides and lanthanides. Herein, we first designed three phenanthroline-based nitrogen-donor ligands (L1, L2, and L3), and then studied the structural and bonding properties as well as thermodynamic properties of the probable complexes, ML(NO3)3 (M = Am or Eu and L = L1, L2, or L3), using scalar relativistic density functional theory. Our charge decomposition analysis revealed an obviously higher charge transfer from the ligand to Am(III) compared with the Eu(III) case for the studied complexes. Spin density analysis further showed a more significant degree of Am-to-ligand spin delocalization and the corresponding spin polarization on the ligands. According to the thermodynamic analysis, ligand L3 has the strongest complexation capacity for both Am(III) and Eu(III) ions, while ligand L1 has the highest Am(III)/Eu(III) selectivity in binary octanol/water solutions. We expected that this work can provide valuable theoretical support for the design of effective ligands for actinide(III)/lanthanide(III) separation in high level liquid waste.

Topics & Concepts

ChemistryLanthanidePhenanthrolineDelocalized electronLigand (biochemistry)ActinideDensity functional theorySelectivityIonInorganic chemistryPhysical chemistryComputational chemistryCrystallographyOrganic chemistryCatalysisReceptorBiochemistryRadioactive element chemistry and processingChemical Synthesis and CharacterizationLanthanide and Transition Metal Complexes