A research team has discovered a unique quantum state at the interface between organic materials and two-dimensional semiconductors. Faster, more efficient, and more adaptable technologies are widely ...

If successful, the product could contribute to LEDs, display screens, and other devices that many people use every day.

Quantum chemistry is quietly entering a new phase, one where some of the hardest problems in materials science are finally ...

While the 21st century has been bumpy, it has also ushered in monumental scientific and technological breakthroughs that have ...

University of Oklahoma materials scientists have magnetised perovskite CsPbBr 3 quantum dots – known for their bright ...

Widely considered impossible, a team of materials scientists from the University of Oklahoma has successfully magnetized ...

Breakthrough photonic quantum chip emits ultra-short 2 nm X-ray waves, advancing quantum materials and powering next-gen ...

Dong noted that most quantum dots change color when their physical size changes. In this case, the shift came from chemical ...

With the successful introduction of manganese into perovskite nanoparticles, researchers have 'doped the undopable'.

A team of University of Oklahoma materials scientists has done what many in the field thought impossible: magnetize quantum dots by ...

A team of University of Oklahoma materials scientists has done what many in the field thought impossible: magnetize quantum ...

Research has revealed how minute structural modifications in advanced perovskite materials critically influence their light-emission properties. The research, titled "Structure–Emission Property ...