Surface electrostatic potential Ψ is a key characteristic of colloid particles. Since the surface of the particles adsorbs various compounds and facilitates chemical reactions between them, Ψ largely affects the properties of adsorbed reactants and governs the flow of chemical reactions occurring between them. One of the most popular methods for estimating Ψ in hydrophilic colloids, such as micellar surfactant solutions and related systems, is the application of molecular probes, predominantly acid–base indicator dyes. The Ψ value is calculated from the difference of the probe’s indices of the apparent acidity constant between the examined colloid solution and, usually, some other colloid solution with noncharged particles. Here, we show ho...
Surfactants are known to form, above a given critical concentration, micellar aggregates. Far from c...
Thesis (Ph.D.)--University of Washington, 2016-12The study of particle charging behavior in apolar m...
The interface interactions between surfactants oleic acid and oleylamine and magnetic nanoparticles ...
Surface electrostatic potential Ψ is a key characteristic of colloid particles. Since the surface of...
Exploiting acid–base indicators as molecular probes is one of the most popular methods for determini...
We report on combined experimental and theoretical investigations of the water/micelle interface of ...
Zeta potential is an important colloid parameter that dictates many intriguing phenomena such as col...
MS2 bacteriophage is often used as a model for evaluating pathogenic viruses' behavior in aqueous so...
A thesis submitted in partial fulfillment of the requirements for the degree of Master of Science in...
International audienceColloidal nano/micro-(bio)particles carry an electrostatic charge in aqueous m...
Thesis (Ph.D.)--University of Washington, 2015The creation and stabilization of electric charge in a...
Electric charging of colloidal particles in nonpolar solvents plays a crucial role for many industri...
Surfactants are known to form, above a given critical concentration, micellar aggregates. Far from c...
Thesis (Ph.D.)--University of Washington, 2016-12The study of particle charging behavior in apolar m...
The interface interactions between surfactants oleic acid and oleylamine and magnetic nanoparticles ...
Surface electrostatic potential Ψ is a key characteristic of colloid particles. Since the surface of...
Exploiting acid–base indicators as molecular probes is one of the most popular methods for determini...
We report on combined experimental and theoretical investigations of the water/micelle interface of ...
Zeta potential is an important colloid parameter that dictates many intriguing phenomena such as col...
MS2 bacteriophage is often used as a model for evaluating pathogenic viruses' behavior in aqueous so...
A thesis submitted in partial fulfillment of the requirements for the degree of Master of Science in...
International audienceColloidal nano/micro-(bio)particles carry an electrostatic charge in aqueous m...
Thesis (Ph.D.)--University of Washington, 2015The creation and stabilization of electric charge in a...
Electric charging of colloidal particles in nonpolar solvents plays a crucial role for many industri...
Surfactants are known to form, above a given critical concentration, micellar aggregates. Far from c...
Thesis (Ph.D.)--University of Washington, 2016-12The study of particle charging behavior in apolar m...
The interface interactions between surfactants oleic acid and oleylamine and magnetic nanoparticles ...