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Bendable E-paper Displays Full Color Scale

By Mats Tiborn, Chalmers University of Technology | October 14, 2016

Less than a micrometer thin, flexible, and giving all the colors that a regular LED display does, it still needs ten times less energy than a Kindle tablet. Researchers at Chalmers University of Technology have developed the basis for a new electronic paper. Their results were recently published in the high impact journal Advanced Materials.

When Andreas Dahlin, Assistant Professor at Chalmers University of Technology, and his PhD student Kunli Xiong were working on placing conductive polymers on nanostructures they discovered that the combination would be perfectly suited to creating electronic displays as thin as paper. A year later the results were ready for publication.

“The ’paper’ is similar to the Kindle tablet. It isn’t lit up like a standard display, but rather reflects the external light which illuminates it. Therefore, it works very well where there is bright light, such as out in the sun, in contrast to standard LED displays that work best in darkness. At the same time, it needs only a tenth of the energy that a Kindle tablet uses, which itself uses much less energy than a tablet LED display,” says Dahlin.

It all depends on the polymers’ ability to control how light is absorbed and reflected. The polymers that cover the whole surface lead the electric signals throughout the full display and create images in high resolution. The material is not yet ready for application, but the basis is there. The team has tested and built a few pixels. These use the same red, green, and blue (RGB) colors that together can create all the colors in standard LED displays. The results so far have been positive, what remains now is to build pixels that cover an area as large as a display.

“We are working at a fundamental level but even so, the step to manufacturing a product out of it shouldn’t be too far away. What we need now are engineers,” says Dahlin.

One obstacle today is that there is gold and silver in the display.

“The gold surface is 20 nanometers thick so there is not that much gold in it. But at present there is a lot of gold wasted in manufacturing it. Either we reduce the waste or we find another way to reduce the production cost,” says Dahlin.

Dahlin thinks the best application for the displays will be well-lit places such as outside or in public places to display information. This could reduce the energy consumption and at the same time replace signs and information screens that aren’t currently electronic today with more flexible ones.

Source: Chalmers University of Technology  

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