Skip to content
Tech News
← Back to articles

MIT Study Lights Way for Bright, Efficient Quantum Dot LED TV Screens

read original more articles

In a summer full of heat waves and high temps, you're probably not focused on the energy efficiency of your TV or smartphone screen when your air conditioner is blasting. But you are probably wishing for brighter, bolder colors and pitch-black dark scenes for the Love Island finale or the rumored iPhone 18.

A group of MIT and Samsung researchers is looking to do just that -- give you better picture quality and energy efficiency for your future TV, VR headset and smartphone screens. A paper published Friday in the journal Science Advances demonstrates an advancement that could bring highly efficient new quantum dot LED technology to your living room sooner.

"With quantum dots, the color quality of the screen would be more visually appealing and more optically flexible. One can mix and match those quantum dot colors more precisely to generate any color that is needed," Vladimir Bulović, the study's senior author and a professor of emerging technology at MIT, said in a statement.

The researchers studied tiny changes that happen inside LEDs that use quantum dots, including slicing them into extremely thin slivers. Think of quantum dots as very small semiconductors that give precise colors and top-notch picture quality in our computers and TVs. However, researchers found key ways that the manufacturing process and lifespan for QD-LEDs could be improved.

QD-LEDs are complicated

One way researchers suggest improving QD-LEDs' longevity and efficiency is to put them in "an acrylate-based resin" to extend their lifespan. Doing so will help prevent the QD-LEDs from degrading so soon -- which could mean better-performing QD-LEDs and better picture quality for you.

Researchers tested this in a few ways, including examining red, green and blue QD-LEDs. They developed a way to slice a QD-LED thinly to see what happens at different layers of material, where they saw structural and chemical changes. When QD-LEDs merge, they lose their shape and release more hydrogen and oxygen, which can speed up degradation. Encapsulating the QD-LEDs in a resin helped.

That doesn't stop degradation completely, but slows it while improving efficiency and lifespan.

"This version of quantum dot LEDs would be better than anything that exists now -- simpler to make, more efficient, and higher performing," Bulović said. "This could open vistas into many more ways of thinking about this technology, not just for the sake of displays or lighting, but also for sensors, lasers, and so on."

A brighter future for TVs?

... continue reading