Most displays today struggle to show the full richness of colours that the human eye can perceive. There are different display technologies in play and they all have their limitations. But a new ...

New research has shown that a strong coupling of light and material increases the colour brilliance of OLED displays. This increase is independent of the viewing angle and does not affect energy ...

The world's first full colour digital 'skin' has been developed, and could be the key to a whole new class of change-on-demand digital clothes. The flexible display technology is pitched as a ...

Swiss researchers have developed video-display technology that can produce an unlimited range of colours. Tiny artificial "muscles" in the display generate different shades by expanding and ...

Different displays reproduce colours differently as they come with various colour gamut ranges. For example, if you watch a YouTube video on your smartphone and again if you watch the same video on ...

(Nanowerk News) Less than a micrometre thin, bendable and giving all the colours that a regular LED display does, it still needs ten times less energy than a Kindle tablet. Researchers at Chalmers ...

(Nanowerk News) Imagine sitting out in the sun, reading a digital screen as thin as paper, but seeing the same image quality as if you were indoors. Thanks to research from Chalmers University of ...

Back in the 1950s, when color TV was invented, everything was simple. TVs were either color or black-and-white, and you could tell at a glance which was which. Today, you can find TVs and monitors ...

Television screens and computer displays capable of producing a wider range of visible colours could someday be built incorporating tiny sections of electrically-activated polymer. This polymer ...