Electronics

Smallest pixels ever created have a heart of gold

Smallest pixels ever created have a heart of gold
The smallest pixels ever created are made with a gold grain coated in an active polymer that switches color with electricity, sprayed onto a flexible reflective surface
The smallest pixels ever created are made with a gold grain coated in an active polymer that switches color with electricity, sprayed onto a flexible reflective surface
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The smallest pixels ever created are made with a gold grain coated in an active polymer that switches color with electricity, sprayed onto a flexible reflective surface
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The smallest pixels ever created are made with a gold grain coated in an active polymer that switches color with electricity, sprayed onto a flexible reflective surface

The display on a smartphone is a modern marvel, cramming millions of pixels into the space of a few inches – but soon this may look decidedly retro. Researchers at Cambridge University have managed to create the smallest pixels in the world, about a million times tinier than those in a phone. These new pixels could be used in huge, flexible displays that are relatively easy to manufacture and cheaper to run.

Each new pixel starts with a grain of gold, just a few nanometers wide. These are coated in an active polymer called polyaniline, and then placed onto a reflective surface that traps particles of light under each pixel. The idea is that when the polymer is electrically switched, it chemically changes, which in turn changes the color of the pixel.

These pixels can be made fairly easily and cheaply, too. The gold can be coated in polymer by the vat, and then sprayed onto a flexible surface of just about any size. They're bright enough to be seen in sunlight, and interestingly, once a pixel is switched to a certain color, it holds that color until it's instructed to switch again. That makes them potentially very energy efficient – if a still image is frozen on the screen, for example, it's not using any energy.

"The strange physics of light on the nanoscale allows it to be switched, even if less than a tenth of the film is coated with our active pixels," says Jeremy Baumberg, lead researcher on the study. "That's because the apparent size of each pixel for light is many times larger than their physical area when using these resonant gold architectures."

The team says this pixel design can be scaled up much larger than conventional displays and signs, even covering entire buildings, at a fraction of the cost to build and run. They might also lead to active camouflage materials – popularly called "invisibility cloaks."

The research was published in the journal Science Advances.

Source: University of Cambridge

2 comments
2 comments
Douglas Bennett Rogers
This would be especially valuable for a VR display.
b@man
Can we PLEASE get a 3D headset with reasonable resolution?