Nanoco and Plessey partner to shrink full-colour microLED pixels using quantum dots

  

Using its existing monolithic process, Plessey will integrate the Nanoco CFQD quantum dots into selected regions of blue LED wafers to add red and green light. This shrinks the smallest practical pixel size from today’s 30µm to just 4µm, a reduction of 87%.

The process will enable the production of smaller, higher-resolution, microLED displays in applications such as AR/VR devices, watches, and mobile devices, while enhancing both colour rendition and energy efficiency.

For pixels of 30µm or greater, colour conversion is currently performed by adding phosphors to the blue die. However, since the smallest phosphor particle is around 30µm, the efficiency of colour conversion deteriorates as the pixel size shrinks. Nanoco’s CFQD quantum dot technology overcomes this limitation while delivering efficient, compact device packaging.

“Quantum dots offer the best solution for today’s emerging display requirements. The nano-sized emitters with narrow band emission make them a suitable solution for Plessey’s microLED display roadmap, which will see pixels being driven down to 4µm in size by 2019,” said Mike Lee, President of Corporate and Business Development at Plessey.

Dr. Brian Gally, Nanoco’s Head of Product commented: “The combination of Plessey’s blue microLEDs with Nanoco’s red and green cadmium free quantum dots gives display customers the performance they require to rapidly commercialise products.”

According to Plessey, when compared with other display technologies, microLEDs are brighter, smaller, lighter, more energy-efficient and have a longer operating life. Where they replace OLEDs, for example in AR/VR goggles or head-up displays, they are said to be able to offer ten times the resolution, 100 times the contrast ratio, and up to 1,000 times the luminance.

They are able to this despite halving the power consumption, doubling battery life in portable devices. They also feature perfect blacks, realistic colour, and immunity to burn-in or decay over time.