New research from the University of Oklahoma addresses and resolves light emission challenges commonly encountered in quantum ...

The findings are available in Nature Communications. Quantum dots, or QDs, are so small that if you scaled up a single quantum dot to the size of a baseball, a baseball would be the size of the moon.

Quantum digital signatures (QDS) offer an information-theoretically secure solution for ensuring data integrity, authenticity ...

A new publication from Opto-Electronic Sciences; DOI   10.29026/oes.2025.240028 , discusses eco-friendly quantum-dot ...

The Global Quantum Dots Market is projected to witness substantial growth from 2025 to 2035, driven by advancements in display technology, solar ener ...

Quantum light is often unstable. It can flicker like stars or fade out like a weak flashlight. But new research from the University of Oklahoma has found a way to make it shine steadily for long ...

Quantum dots (QDs) enable advancements in neuromorphic computing, offering unique properties for efficient data storage and ...

The properties of quantum dots (QDs) are determined by various factors, including size, shape, composition, and structure, such as whether they are solid or hollow. To utilize QDs effectively across ...

Colloidal quantum dot light sources can flicker like stars and fade like dying flashlights. Now research from the University ...

In 1982, Japanese researchers first predicted, by theoretical modelling, that QDs — semiconductor nanosized crystals — should enable semiconductor lasers to have remarkable temperature ...