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New electronic paper could make inexpensive electronic displays

22 April 2015

Researchers have revamped an old e-paper concept to make an inexpensive handwriting-enabled e-paper suitable for large displays like whiteboards.

The black side of the microparticles contains magnetic nanoparticles. A magnet pulled across the surface of the white display attracts the black side and the balls flip to face the magnet (diagram: Yusuke Komazaki/ University of Tokyo)

Traditional ink and paper is convenient for both reading and writing. In e-paper development the writing feature has generally lagged behind. Handwriting-enabled displays mainly show up in the inexpensive, but feature-limited realm of children's toys, and in the high-end realm of touch-screen e-readers and smart pens.

A team of researchers from the University of Tokyo has now taken an e-paper technology originally developed in the 1970s and updated it to make a tough and inexpensive display that could be used like a whiteboard when a large writing space is required.

The display is made from bi-coloured microparticles about 0.1mm in diameter. One hemisphere of each particle is black and carries a negative charge, while the other is white and carries a positive charge. The particles are sandwiched between two electrodes. By switching the direction of the voltage across the electrodes the background display can be switched between black and white.

Such 'twisting ball' displays are not new, but the researchers were the first to integrate a magnetic field control component with the original electric control. In addition to carrying a negative charge, the black side of the microparticles also contains magnetic nanoparticles that make it possible to write on the screen.

A magnet pulled across the surface of the white display attracts the black side and the balls flip to face the magnet. In this way images and lines can be drawn on the display. A magnet with about the strength of a refrigerator magnet will work for this task.

Handwriting with a magnet is demonstrated on a prototype of the new e-paper (illustration: Yusuke Komazaki/University of Tokyo)

Applying a voltage will immediately erase the drawings. In the absence of a voltage or magnetic field, the image is maintained without using any energy.

The display is made from materials like acrylic polymer, silicone elastomer, and silicone oil that are relatively inexpensive and hold up well under UV light. Because of the e-paper's simple structure, large displays can be easily fabricated. In addition, the researchers could easily change the colour combinations by substituting different microparticle pigments.

The researchers believe low-cost, lightweight, and energy-saving electronic whiteboards are a suitable application for the new e-paper.

The team is working to improve the contrast of the display, which they believe can be achieved by increasing the amount of black and white pigment in the microparticles.


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