A DFT study of the interaction between [Cd(H2O)3]2+ and monodentate O-, N-, and S-donor ligands: bond interaction analysis

Silva, Victor Hugo Malamace da; Quattrociocchi, Daniel Garcez Santos; Stoyanov, Stanislav R.; Carneiro, José Walkimar de M.; Costa, Leonardo Moreira da; Ferreira, Gláucio B.

doi:10.1007/s00894-017-3571-x

Cited by 6 publications

(1 citation statement)

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“…That results likely in a shift in population of bonding and antibonding orbitals, which then in relation to orbital overlap strengthens or weakens the M–D bonding interactions of each donor function, individually. The charge properties of each single donor atom designate the corresponding size and energy level of their valence orbitals and thus their reactivity toward the valence orbitals of the metal cation . The resulting overlap population (OPDOS, MPA, NPA) and the subsequent ratio of bonding and antibonding interactions, which can be described with the bond order (e.g., MBO, Wiberg bond indices) or electron delocalization (δ), then define the bond strengths of each single M–D interaction.…”

Section: Resultsmentioning

confidence: 99%

Effect of Oxygen-Donor Charge on Adjacent Nitrogen-Donor Interactions in Eu³⁺ Complexes of Mixed N,O-Donor Ligands Demonstrated on a 10-Fold [Eu(TPAMEN)]³⁺ Chelate Complex

2021

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To reduce high-level radiotoxic waste generated by nuclear power plants, highly selective separation agents for minor actinides are mandatory. The mixed N,O-donor ligand N,N,N′,N′-tetrakis[(6-carboxypyridin-2-yl)methyl]ethylenediamine (H4TPAEN; 1) has shown good performance as a masking agent in Am3+/Eu3+ separation studies. Adjustments on the pyridyl backbone to raise the hydrophilicity led to a decrease in selectivity and a decrease in M3+–Nam interactions. An enhanced basicity of the pyridyl N-donors was given as a cause. In this work, we examine whether a decrease in O-donor basicity can promote the M3+–Nam interactions. Therefore, we replace the deprotonated “charged” carboxylic acid groups of TPAEN4– by neutral amide groups and introduce N,N,N′,N’-tetrakis[(6-N″,N′′-diethylcarbamoylpyridin-2-yl)methyl]ethylenediamine (TPAMEN; 2) as a new ligand. TPAMEN was crystallized with Eu(OTf)3 and Eu(NO3)3·6H2O to form positively charged 1:1 [Eu(TPAMEN)]3+ complexes in the solid state. Alterations in the M–O/N bond distances are compared to [Eu(TPAEN)]− and investigated by DFT calculations to expose the differences in charge/energy density distributions at europium(III) and the donor functionalities of the TPAEN4– and TPAMEN. On the basis of estimations of the bond orders, atomic charges spin populations, and density of states in the Eu and potential Am and Cm complexes, the specific contributions of the donor–metal interaction are analyzed. The prediction of complex formation energy differences for the [M(TPAEN)]− and [M(TPAMEN)]3+ (M3+ = Eu3+, Am3+) complexes provide an outlook on the potential performance of TPAMEN in Am3+/Eu3+ separation.

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Section: Resultsmentioning

confidence: 99%

Effect of Oxygen-Donor Charge on Adjacent Nitrogen-Donor Interactions in Eu³⁺ Complexes of Mixed N,O-Donor Ligands Demonstrated on a 10-Fold [Eu(TPAMEN)]³⁺ Chelate Complex

2021

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DFT analysis of the interaction between Hg2+ and monodentate neutral ligands using NBO, EDA, and QTAIM

et al. 2020

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Density functional theory study on the inner shell of hydrated M2+(H2O)1-7 cluster ions for M = Zn, Cd and Hg

Yuan

Zhang

2020

Computational and Theoretical Chemistry

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A DFT study of the interaction between [Cd(H2O)3]2+ and monodentate O-, N-, and S-donor ligands: bond interaction analysis

Cited by 6 publications

References 56 publications

Effect of Oxygen-Donor Charge on Adjacent Nitrogen-Donor Interactions in Eu³⁺ Complexes of Mixed N,O-Donor Ligands Demonstrated on a 10-Fold [Eu(TPAMEN)]³⁺ Chelate Complex

Effect of Oxygen-Donor Charge on Adjacent Nitrogen-Donor Interactions in Eu³⁺ Complexes of Mixed N,O-Donor Ligands Demonstrated on a 10-Fold [Eu(TPAMEN)]³⁺ Chelate Complex

DFT analysis of the interaction between Hg2+ and monodentate neutral ligands using NBO, EDA, and QTAIM

Density functional theory study on the inner shell of hydrated M2+(H2O)1-7 cluster ions for M = Zn, Cd and Hg

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A DFT study of the interaction between [Cd(H2O)3]2+ and monodentate O-, N-, and S-donor ligands: bond interaction analysis

Cited by 6 publications

References 56 publications

Effect of Oxygen-Donor Charge on Adjacent Nitrogen-Donor Interactions in Eu3+ Complexes of Mixed N,O-Donor Ligands Demonstrated on a 10-Fold [Eu(TPAMEN)]3+ Chelate Complex

Effect of Oxygen-Donor Charge on Adjacent Nitrogen-Donor Interactions in Eu3+ Complexes of Mixed N,O-Donor Ligands Demonstrated on a 10-Fold [Eu(TPAMEN)]3+ Chelate Complex

DFT analysis of the interaction between Hg2+ and monodentate neutral ligands using NBO, EDA, and QTAIM

Density functional theory study on the inner shell of hydrated M2+(H2O)1-7 cluster ions for M = Zn, Cd and Hg

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Product

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Effect of Oxygen-Donor Charge on Adjacent Nitrogen-Donor Interactions in Eu³⁺ Complexes of Mixed N,O-Donor Ligands Demonstrated on a 10-Fold [Eu(TPAMEN)]³⁺ Chelate Complex

Effect of Oxygen-Donor Charge on Adjacent Nitrogen-Donor Interactions in Eu³⁺ Complexes of Mixed N,O-Donor Ligands Demonstrated on a 10-Fold [Eu(TPAMEN)]³⁺ Chelate Complex