Investigation of the Self-Diffusion Coefficients of Trivalent Gd3+ in aqueous solutions: The Effect of Hydrolysis and nitrate ion association

Authors

  • Rafik Besbes Sfax Preparatory Engineering Institute - BP 1172-3018 Sfax Tunisia
  • Noureddine Ouerfelli Faculté des Sciences de Tunis, 2092 El-Manar, Tunisia
  • Manef Abderabba Unité de recherche physico-chimique moléculaire (IPEST) Tunis-Tunisia
  • Patric Lindqvist-Reis Institute for Nuclear Waste Disposal (INE),Karlsruhe Institute of Technology (KIT) Hermann-von- Helmholtz-Platz 1, D-76344 Eggenstein Leopoldshafen Germany
  • Habib Latrous 1 Faculté des Sciences de Tunis, 2092 El-Manar, Tunisia

DOI:

https://doi.org/10.13171/mjc.1.6.2012.27.07.18

Abstract

In recent work, we have deduced that berkelium and gadolinium, which have 4f and 5f with half-filled configurations, also display similar diffusion properties. Results, using self-diffusion coefficients to study thermodynamic properties, show very similar behavior, which is understood given their similarities in charge, ionic size, mobility, conductance, and hydration number. In this paper we undertook a study of Gd3+ as an aid for deducing the thermodynamics properties of the Bk3+ .In first part we compare magnitudes of transport (self-diffusion coefficient) of the trivalent aquo ions of Gd III for two concentrations, C1 = 2 10-4 mol.L-1, C2 = 10-3 mol.L-1 , and in perchlorate and nitrate media . In second part, we studied the variation of D with the medium’s pH. Self-diffusion coefficients, D, of the trivalent f-elements aqua ions have been determined in an aqueous electrolyte support of Gd(NO3)3 and Nd(ClO4)3 and at a pH=2.5. (HNO3, HClO4 ) and at 25 °C using the open-end capillary method (O.E.C.M.).The variation of D versus pH shows three zonesWe changed the NO3- counter ion with ClO4- ,and found that measurements must be carried in perchloric acid medium so as to avoid pairing phenomena. Using association constants between Gd3+ and NO3- , and a hydration constant, we estimated self-diffusion coefficients for Gd(NO3)2+ and Gd(OH)2+ .The results justified our choice of working at pH = 2.5 which constitute an optimum condition to avoid hydrolysis and pairing phenomena. Our results were confirmed by mobility measurements using an electro migration technique.

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Published

2012-07-27

Issue

Vol. 1 No. 6 (2012)

Section

Physical Chemistry

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