zeta potential
electrokinetic potential

Sometimes this dilution might affect properties of the sample and change zeta potential.

There are several theories that link electrophoretic mobility with zeta potential.

In a zeta-potential titration, the Zeta potential is the indicator.

Nevertheless, zeta potential is often the only available path for characterization of double-layer properties.

This phenomenon is widely used for measuring zeta potential in concentrated colloids.

Usually zeta potential is used for estimating the degree of DL charge.

This method is used for measuring electrophoretic mobility and then calculating zeta potential.

This type of titration is used to study the zeta potential of these surfaces under different conditions.

This effect is due to the zeta potential that exists due to a particle's surface charge in solution.

Zeta potential is a scientific term for electrokinetic potential in colloidal systems.

Electric potential at this plane is called electrokinetic potential or zeta potential.

NanoSight instruments can analyze particle size, concentration, aggregation, and zeta potential.

At the slipping plane the potential, Ψ, has decreased to what is known as the zeta potential.

"The zeta potential is rising, but slowly.

The value of streaming current observed in a capillary is usually related to the zeta potential through the relation:

The iso-electric point is the pH value at which the zeta potential is approximately zero.

Zeta potential is widely used for quantification of the magnitude of the electrical charge at the double layer.

However, zeta potential is not equal to the Stern potential or electric surface potential in the double layer.

In practice, the Zeta potential of dispersion is measured by applying an electric field across the dispersion.

Relevant properties of exosomes to detect include size, density, morphology, composition, and zeta potential.

There is also a group of traditional techniques for characterizing surface charge or zeta potential of nano-particles in solutions.

Calculation of zeta potential from the dynamic electrophoretic mobility requires information on the densities for particles and liquid.

Zeta potential at the surface of the bacteria and the collector were used instead of the surface potential.

There are commercially available instruments that exploit these effects for measuring dynamic electrophoretic mobility, which depends on zeta potential.

RBCs have a net negative charge called zeta potential which causes them to have a natural repulsion for one another.