In this paper we propose a protocol to suppress double-layer forces between two microspheres immersed in a dielectric medium, being one microsphere metallic at a controlled potential ψ M and the other a charged one either metallic or dielectric. The approach is valid for a wide range of distances between them. We show that, for a given distance between the two microspheres, the double-layer force can be totally suppressed by simply tuning ψ M up to values dictated by the linearized Poisson-Boltzmann equation. Our key finding is that such values can be substantially different from the ones predicted by the commonly used proximity force approximation, also known as the Derjaguin approximation, even in situations where the latter is ...
We measure the colloidal interaction between two silica microspheres in an aqueous solution in the d...
The interaction between a polarizable particle and a reflecting wall is examined. A macroscopic appr...
By allowing the surface charge of one surface to affect the adsorption equilibrium of the other, we ...
AbstractForce probes such as AFM tips or laser trap latex beads have a dielectric constant much less...
The Donnan equilibrium is employed to evaluate the entropic repulsion between two charged plates tha...
We investigate the Casimir interaction between two dielectric spheres immersed in an electrolyte sol...
Direct force measurements between oppositely charged latex particles in aqueous electrolyte solution...
The Casimir force, named after the Dutch physicist who predicted in 1948 the existence of this attra...
We propose to use optical tweezers to probe the Casimir interaction between microspheres inside a li...
We show how the colloidal-probe technique, which is based on force measurements made with the atomic...
We present detailed measurements of the Casimir-Lifshitz force between two gold surfaces, performed ...
We study analytically two of the central problems of colloid science: the structure of the double la...
Derjaguin’s approximation provides the electrical-double-layer interaction force between two arbitra...
The Derjaguin approximation states that the interaction force between two curved surfaces is proport...
AbstractA theoretical study on the electric double-layer force between planar surfaces that may carr...
We measure the colloidal interaction between two silica microspheres in an aqueous solution in the d...
The interaction between a polarizable particle and a reflecting wall is examined. A macroscopic appr...
By allowing the surface charge of one surface to affect the adsorption equilibrium of the other, we ...
AbstractForce probes such as AFM tips or laser trap latex beads have a dielectric constant much less...
The Donnan equilibrium is employed to evaluate the entropic repulsion between two charged plates tha...
We investigate the Casimir interaction between two dielectric spheres immersed in an electrolyte sol...
Direct force measurements between oppositely charged latex particles in aqueous electrolyte solution...
The Casimir force, named after the Dutch physicist who predicted in 1948 the existence of this attra...
We propose to use optical tweezers to probe the Casimir interaction between microspheres inside a li...
We show how the colloidal-probe technique, which is based on force measurements made with the atomic...
We present detailed measurements of the Casimir-Lifshitz force between two gold surfaces, performed ...
We study analytically two of the central problems of colloid science: the structure of the double la...
Derjaguin’s approximation provides the electrical-double-layer interaction force between two arbitra...
The Derjaguin approximation states that the interaction force between two curved surfaces is proport...
AbstractA theoretical study on the electric double-layer force between planar surfaces that may carr...
We measure the colloidal interaction between two silica microspheres in an aqueous solution in the d...
The interaction between a polarizable particle and a reflecting wall is examined. A macroscopic appr...
By allowing the surface charge of one surface to affect the adsorption equilibrium of the other, we ...