Add to ORKGTransient currents in electrophoretic ink displays are a result of the movement of charged particles when an electric field is applied. These charges have an influence on the electric field, even for concentrations much lower than the space charge limit. This effect can result in a significant increase of the switching time of the display. 1
We study the effects of paper structure on electrophotography using a phase-field type continuum mod...
<p>The manipulation of small particles - that is, colloids, droplets, capsules, macromolecules, or l...
Reverse-emulsion electrophoretic display technology is based on an electro-responsive ink comprised ...
Transient currents in electrophoretic ink displays are a result of the movement of charged particles...
Electrophoretic display is realized by controlling colored nanoparticles moving in micrometer spaces...
Optical tweezers can be used as a valuable tool to characterize electrophoretic display (EPD) system...
Electrokinetic displays are increasingly popular due to important benefits such as low power consump...
The deposit can induce an extra potential drop near the electrode, depending on the suspension compo...
A lot can be learned about the charge transport inside electronic paper from current measurements. U...
The response of an electrochemical process on a potentiostatic voltage pulse is known from literatur...
Electrophoretic displays attracted a lot of attention recently due to its low cost, low weight, low ...
Reverse-emulsion electrophoretic display (REED) technology is based on an electro-responsive ink com...
Electrophoretic displays, also known as EPD, are main examples of the E-papers category because of t...
It is well known that during constant voltage electrophoretic deposition (EPD) from a non-aqueous ce...
The shortage of color in traditional electrophoretic displays (EPDs) can be compensated by three-col...
We study the effects of paper structure on electrophotography using a phase-field type continuum mod...
<p>The manipulation of small particles - that is, colloids, droplets, capsules, macromolecules, or l...
Reverse-emulsion electrophoretic display technology is based on an electro-responsive ink comprised ...
Transient currents in electrophoretic ink displays are a result of the movement of charged particles...
Electrophoretic display is realized by controlling colored nanoparticles moving in micrometer spaces...
Optical tweezers can be used as a valuable tool to characterize electrophoretic display (EPD) system...
Electrokinetic displays are increasingly popular due to important benefits such as low power consump...
The deposit can induce an extra potential drop near the electrode, depending on the suspension compo...
A lot can be learned about the charge transport inside electronic paper from current measurements. U...
The response of an electrochemical process on a potentiostatic voltage pulse is known from literatur...
Electrophoretic displays attracted a lot of attention recently due to its low cost, low weight, low ...
Reverse-emulsion electrophoretic display (REED) technology is based on an electro-responsive ink com...
Electrophoretic displays, also known as EPD, are main examples of the E-papers category because of t...
It is well known that during constant voltage electrophoretic deposition (EPD) from a non-aqueous ce...
The shortage of color in traditional electrophoretic displays (EPDs) can be compensated by three-col...
We study the effects of paper structure on electrophotography using a phase-field type continuum mod...
<p>The manipulation of small particles - that is, colloids, droplets, capsules, macromolecules, or l...
Reverse-emulsion electrophoretic display technology is based on an electro-responsive ink comprised ...