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Electrokinetic phenomena refers to a variety of effects resulting from an electrical double layer.
According to J.Lyklema, the complete family of electrokinetic phenomena includes:
The phenomena are related to the electrokinetic phenomena and consequently to the colloid chemistry.
An interesting approach combining electrokinetic phenomena and microfluidics is digital microfluidics.
There are detailed descriptions of electrokinetic phenomena in many books on interface and colloid science:
The DL is closely related to electrokinetic phenomena and electroacoustic phenomena.
The main processing method for controlling the fluid under this technology platform is the capillary electrophoresis, which is an electrokinetic phenomena.
Electrokinetic phenomena and electroacoustic phenomena are the usual sources of data for calculation of zeta potential.
Electrokinetic phenomena are a family of several different effects that occur in heterogeneous fluids or in porous bodies filled with fluid.
There are two important surface related phenomena: Electrokinetic phenomena and Electroacoustic phenomena.
A streaming current and streaming potential are two interrelated electrokinetic phenomena studied in the areas of surface chemistry and electrochemistry.
Sedimentation potential is the field of electrokinetic phenomena dealing with the generation of an electric field by sedimenting colloid particles.
Interfacial potential is responsible for the formation of the electric double layer, which has a broad range of applications in what is termed electrokinetic phenomena.
There is also a recent IUPAC technical report on the subject of interfacial double layer and related electrokinetic phenomena.
There is an IUPAC Technical Report prepared by a group of world experts on the electrokinetic phenomena.
It is also important for the theory of double layer and related electrokinetic phenomena and electroacoustic phenomena in colloids and other heterogeneous systems.
Electrokinetic phenomena generally measure zeta potential, and a zero zeta potential is interpreted as the point of zero net charge at the shear plane.
Following "Fundamentals of Interface and Colloid Science" by Lyklema (1995), the complete family of electrokinetic phenomena includes:
This length scale arises naturally in discussions of electrostatic, electrodynamic and electrokinetic phenomena in electrolytes, polyelectrolytes and colloidal dispersions.
The Dukhin number is a dimensionless parameter that characterizes the contribution of the surface conductivity to a variety of electrokinetic phenomena, such as, electrophoresis and electroacoustic phenomena.
This electrokinetic phenomenon was observed for the first time in 1807 by Ferdinand Frederic Reuss (Moscow State University), who noticed that the application of a constant electric field caused clay particles dispersed in water to migrate.