The problem of electrostatic interactions between colloidal particles in an electrolyte solution has been solved within the Debye–Hückel approximation using the boundary condition of constant potential. The model has been validated in two independent ways – by considering the limiting cases obtained from DLVO theory and comparison with the available experimental data. The presented methodology provides the final part of a complete theory of pairwise electrostatic interactions between spherical colloidal particles; one that embraces all possible chemical scenarios within the boundary conditions of constant potential and constant charge
In a colloidal system in which the amount of added electrolyte is sufficiently low (e.g., nonaqueous...
When Debye length is comparable or larger than the distance between two identical particles, the ove...
In this thesis we have investigated electrostatic interactions at dielectric interfaces using theore...
An explicit expression, free from adjustable parameters, is derived for the effective pair interacti...
We derive a rigorous analytical formalism and propose a numerical method for the quantitative evalua...
International audienceWe derive a rigorous analytical formalism and propose a numerical method for t...
We present a theory which allows us to calculate the interaction potential between charge-regulated ...
We study the effective interaction between differently charged polyelectrolyte-colloid complexes in ...
The potential of mean force between two spherical and like-charged macroions in a salt-free aqueous ...
Force measurements between three types of latex particles of diameters down to 1 μm with sulfate and...
Theoretical approaches to calculating electrostatic interactions between charged particles of dielec...
ABSTRACT: Small metallic particles used in forming nanostructured to impart novel optical, catalytic...
Based on computer simulations of the primitive model of electrolytes, we show that the effective int...
Force profiles as well as aggregation and deposition rates are studied for asymmetrically charged pa...
The electrostatic interaction of charged spherical colloids trapped at an interface between a nonpol...
In a colloidal system in which the amount of added electrolyte is sufficiently low (e.g., nonaqueous...
When Debye length is comparable or larger than the distance between two identical particles, the ove...
In this thesis we have investigated electrostatic interactions at dielectric interfaces using theore...
An explicit expression, free from adjustable parameters, is derived for the effective pair interacti...
We derive a rigorous analytical formalism and propose a numerical method for the quantitative evalua...
International audienceWe derive a rigorous analytical formalism and propose a numerical method for t...
We present a theory which allows us to calculate the interaction potential between charge-regulated ...
We study the effective interaction between differently charged polyelectrolyte-colloid complexes in ...
The potential of mean force between two spherical and like-charged macroions in a salt-free aqueous ...
Force measurements between three types of latex particles of diameters down to 1 μm with sulfate and...
Theoretical approaches to calculating electrostatic interactions between charged particles of dielec...
ABSTRACT: Small metallic particles used in forming nanostructured to impart novel optical, catalytic...
Based on computer simulations of the primitive model of electrolytes, we show that the effective int...
Force profiles as well as aggregation and deposition rates are studied for asymmetrically charged pa...
The electrostatic interaction of charged spherical colloids trapped at an interface between a nonpol...
In a colloidal system in which the amount of added electrolyte is sufficiently low (e.g., nonaqueous...
When Debye length is comparable or larger than the distance between two identical particles, the ove...
In this thesis we have investigated electrostatic interactions at dielectric interfaces using theore...