The equilibrium properties of a charged plane immersed in an aqueous electrolyte solution are examined using a generalized Poisson–Boltzmann equation that takes into account the finite ion size by modeling the solution as a suspension of polarizable insulating spheres in water. This formalism is applied to a general solution composed of two or more counterion species with different valences, sizes, and effective permittivity values. It is shown that, due to the dependence of the dielectrophoretic force on the ion size and effective permittivity value, the concentration of the smaller counterion strongly increases while that of the larger one decreases in the immediate vicinity of the charged surface. As a result the surface potential value ...
The structure of water in an interfacial region differs from bulk due to surface-induced water orde...
The dielectric continuum model has rightfully been and continues to be a major workhorse for theory ...
The physical origin of charged interfaces involving electrolyte solutions is in the thermodynamic eq...
Electrostatic interactions in an aqueous medium are analysed with amphiphile-water systems as models...
The electrical double layer is examined using a generalized Poisson-Boltzmann equation that takes in...
A theory is presented to quantify the electrostatic forces in thin aqueous electrolyte films between...
The structure of the diffuse part of the electric double layer at solid-electrolyte solution interfa...
The structure and differential capacitance of the diffuse part of the electric double layer at solid...
Electric double layers are ubiquitous, arising in some form in almost every situation involving an i...
The potential of mean force between two spherical and like-charged macroions in a salt-free aqueous ...
Contact between a charged metal surface and an electrolyte implies a particular ion distribution nea...
The interaction between two dielectric plates immersed in an electrolyte solution is examined by usi...
International audienceCharged interfaces in water are widespread in industry and biology. The intera...
The results of variable dielectric coefficient Poisson-Boltzmann calculations of the counter-ion con...
Forces and aggregation rates involving spherical particles are studied numerically within the theory...
The structure of water in an interfacial region differs from bulk due to surface-induced water orde...
The dielectric continuum model has rightfully been and continues to be a major workhorse for theory ...
The physical origin of charged interfaces involving electrolyte solutions is in the thermodynamic eq...
Electrostatic interactions in an aqueous medium are analysed with amphiphile-water systems as models...
The electrical double layer is examined using a generalized Poisson-Boltzmann equation that takes in...
A theory is presented to quantify the electrostatic forces in thin aqueous electrolyte films between...
The structure of the diffuse part of the electric double layer at solid-electrolyte solution interfa...
The structure and differential capacitance of the diffuse part of the electric double layer at solid...
Electric double layers are ubiquitous, arising in some form in almost every situation involving an i...
The potential of mean force between two spherical and like-charged macroions in a salt-free aqueous ...
Contact between a charged metal surface and an electrolyte implies a particular ion distribution nea...
The interaction between two dielectric plates immersed in an electrolyte solution is examined by usi...
International audienceCharged interfaces in water are widespread in industry and biology. The intera...
The results of variable dielectric coefficient Poisson-Boltzmann calculations of the counter-ion con...
Forces and aggregation rates involving spherical particles are studied numerically within the theory...
The structure of water in an interfacial region differs from bulk due to surface-induced water orde...
The dielectric continuum model has rightfully been and continues to be a major workhorse for theory ...
The physical origin of charged interfaces involving electrolyte solutions is in the thermodynamic eq...