he changes in free energy, enthalpy, and entropy for the complex formation reactions between uranyl(VI) ion and diethylenetriamine (dien) in dimethyl sulfoxide have been determined by potentiometric and calorimetric measurements at 25-degrees-C in a medium of ionic strength 0.1 mol dm-3. The amine forms a very stable 1 : 1 complex which results stabilized only by the highly favourable enthalpy change. Entropy change is negative and opposes the reaction. The comparison of the thermodynamic data concerning complexation of uranyl(VI) by charged and uncharged ligands reveals that in this case (uncharged ligand) the enthalpy contribution is mainly related to the formation of the metal-ligand bonds while the entropy term might be associated with the decrease in the translational and conformational entropy occurring in the complexation of the ligand. FTIR and calorimetric measurements have been carried out to study the effect of traces of water on the equilibria in solution. It has been found that water can interfere in the complexation reaction giving rise to the formation of a dinuclear hydroxo Complex in which probably two mu2 - OH bridges link two monomer moieties.

Thermodynamic Parameters of the Complexation of Uranyl(VI) by Diethylenetriamine in Dimethyl Sulfoxide.

DI BERNARDO, PLINIO;ZANONATO, PIER LUIGI
1993

Abstract

he changes in free energy, enthalpy, and entropy for the complex formation reactions between uranyl(VI) ion and diethylenetriamine (dien) in dimethyl sulfoxide have been determined by potentiometric and calorimetric measurements at 25-degrees-C in a medium of ionic strength 0.1 mol dm-3. The amine forms a very stable 1 : 1 complex which results stabilized only by the highly favourable enthalpy change. Entropy change is negative and opposes the reaction. The comparison of the thermodynamic data concerning complexation of uranyl(VI) by charged and uncharged ligands reveals that in this case (uncharged ligand) the enthalpy contribution is mainly related to the formation of the metal-ligand bonds while the entropy term might be associated with the decrease in the translational and conformational entropy occurring in the complexation of the ligand. FTIR and calorimetric measurements have been carried out to study the effect of traces of water on the equilibria in solution. It has been found that water can interfere in the complexation reaction giving rise to the formation of a dinuclear hydroxo Complex in which probably two mu2 - OH bridges link two monomer moieties.
1993
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11577/2462792
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