J
Jean-Pierre Simonin
Researcher at University of Paris
Publications - 97
Citations - 3590
Jean-Pierre Simonin is an academic researcher from University of Paris. The author has contributed to research in topics: Electrolyte & Osmotic coefficient. The author has an hindex of 28, co-authored 93 publications receiving 2926 citations. Previous affiliations of Jean-Pierre Simonin include Centre national de la recherche scientifique & Pierre-and-Marie-Curie University.
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On the comparison of pseudo-first order and pseudo-second order rate laws in the modeling of adsorption kinetics
TL;DR: In this paper, a different method is proposed to analyze experimental results and it is employed here to reexamine experimental data taken from the literature, and it appears that the method generally used is flawed and that it unfairly favors pseudo-second order kinetics.
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Highly Efficient Separation of Actinides from Lanthanides by a Phenanthroline-Derived Bis-triazine Ligand
Frank W. Lewis,Laurence M. Harwood,Michael J. Hudson,Michael G. B. Drew,Jean-François Desreux,Geoffrey Vidick,Nouri Bouslimani,Giuseppe Modolo,Andreas Wilden,Michal Sypula,Trong-Hu Vu,Jean-Pierre Simonin +11 more
TL;DR: The improvement in the ligand's properties on replacing the bipyridine unit with a phenanthroline unit far exceeds what was anticipated based on ligand design alone.
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Real ionic solutions in the mean spherical approximation. 1. simple salts in the primitive model
TL;DR: In this paper, the authors describe departures from ideality in electrolytes in the framework of the primitive model of ionic solutions in which the solvent is a dielectric continuum, using the mean spherical approximation.
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Real Ionic Solutions in the Mean Spherical Approximation. 3. Osmotic and Activity Coefficients for Associating Electrolytes in the Primitive Model
TL;DR: In this paper, the association of ions of opposite charges is described using the BIMSA, based on the Wertheim formalism, and the hydration is taken into account by introducing a cation size and permittivity that are allowed to vary with concentration.
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Real Ionic Solutions in the Mean Spherical Approximation. 2. Pure Strong Electrolytes up to Very High Concentrations, and Mixtures, in the Primitive Model.
TL;DR: In this paper, activity and osmotic coefficients for aqueous solutions of pure nonassociating salts and their mixtures are described in the framework of the primitive model of ionic solutions in which the solvent is a dielectric continuum, using the mean spherical approximation (MSA).