The Future of Electronic Paper: Fast-switching, Full-Color E-Readers

By Dr. Harry Zervos, Technical Analyst, IDTechEx

The success of e-reader technology so far has only wetted the appetite for new devices with more functionality. The Kindle, for all its success, has its limitations and the technology companies behind it are fully aware of that. That is why E Ink, and its parent company PVI, are working intensely on the next generation of e-readers. Requirements include flexibility, the transition from black and white to full color displays, and switching speeds able to support video playback.

E Ink’s electrophoretic technology is not the only company in the race though. Other companies are developing low-power, bi-stable, paper-like displays, with two different approaches—one MEMS based and one based on the phenomenon of electrowetting—described below.

Qualcomm’s Mirasol display is a MEMs based technology using interferometric modulators. Liquavista’s display on the other hand is based on the electrowetting properties of solid materials in order to construct its unit cells.


The Interferometric Modulator (IMOD) element is a simple MEMS (micro-electro-mechanical system) device that is composed of two conductive plates. One is a thin film stack on a glass substrate, the other is a reflective membrane suspended over the substrate. There is a gap between the two that is filled with air. The IMOD element has two stable states. When no voltage is applied, the plates are separated, and light hitting the substrate is reflected as shown above. When a small voltage is applied, the plates are pulled together by electrostatic attraction and the light is absorbed, turning the element black. This is the fundamental building block from which Qualcomm’s mirasol displays are made. The color of each element is determined by the size of the gap between the two plates, which leads to the creation of RGB pixels (the blue element has the smallest gap).

IMOD pixels are characterized by bistability (due to electromechanical memory also known as hysteresis), allowing for low power consumption. Finally, switching speeds in the order of microseconds allows for excellent video playback capabilities.


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