Scientists have designed a paper-thin LCD screen that is light and flexible, paving the way for smart daily newspapers that could be uploaded onto the display in real time.
Researchers estimate that the technology would be cheap to produce, costing about USD 5 for a 5-inch screen.
The team focused on two key innovations for achieving highly flexible designs. The first is the recent development of optically rewritable LCDs.
Like conventional LCD displays, the display is structured like a sandwich, with a liquid crystal filling between two plates.
Unlike conventional liquid crystals where electrical connections on the plates create the fields required to switch individual pixels from light to dark, optically rewritable LCDs coat the plates with special molecules that realign in the presence of polarized light and switch the pixels.
This removes the need for traditional electrodes, reduces the structure's bulk and allows more choices in the type and thickness of plates.
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Consequently, optically rewritable LCDs are thinner than traditional LCDs, at less than half a millimetre thick, can be made from flexible plastic, and weigh only a few grams.
"It's only a little thicker than paper," said Jiatong Sun, from Donghua University in China.
Optically rewritable LCDs are durable and cheap to manufacture because of their simple structure. Moreover, like an electronic paper screen in an e-book, energy is only required to switch display images or text.
Therefore, running costs are low because these new LCDs do not need power to sustain an image once it is written on the screen.
The second innovation involves the spacers that create the separation of the plastic or glass plates.
"We put spacers between glass layers to keep the liquid crystal layer uniform," Sun said.
Spacers are used in all LCDs to determine the thickness of the liquid crystal. A constant thickness is necessary for good contrast ratio, response time and viewing angle.
However, when plates bend, it forces the liquid crystal away from the impact site and leaves sections of the screen blank and so alterations in spacer design are critical to prevent liquid crystal in flexible LCDs from moving excessively.
Developing a flexible design that overcomes this barrier has proven challenging.
The researchers tried three different spacer designs and found that a meshlike spacer prevented liquid crystal from flowing when their LCD was bent or hit.
This innovation enabled them to create the first flexible optically rewritable LCD.
An additional innovation involved improved colour rendering. The scientists report that until this study, optically rewritable LCDs had only been able to display two colours at a time.
Now, their optically rewritable LCD simultaneously displays the three primary colors. They achieved this by placing a special type of liquid crystal behind the LCD, which reflected red, blue and green.
To make this into a commercial product, Sun wants to improve the resolution of the flexible optically rewritable LCD.
"Now we have three colours but for full colour we need to make the pixels too small for human eyes to see," Sun said.