Graphene Quantum Dots Propel Innovations in Bioimaging, Displays, and Quantum Technologies Graphene quantum dots drive innovations in bioim ...

Germanium nanocrystals and quantum dots have emerged as pivotal components in modern semiconductor applications, owing to their unique quantum confinement effects and tunable optoelectronic ...

Scientists from TU Delft (The Netherlands) have observed quantum spin currents in graphene for the first time without using magnetic fields. These currents are vital for spintronics, a faster and ...

Germanium nanocrystals have emerged as a highly promising class of materials due to their unique optical, electronic, and structural properties. Exhibiting quantum confinement effects and tunable ...

Quantum computing just got a significant boost thanks to researchers at the University of Osaka, who developed a much more efficient way to create "magic states" a key component for ...

Computing 'A first in applied physics': Breakthrough quantum computer could consume 2,000 times less power than a supercomputer and solve problems 200 times faster ...

Scientists suggest quantum entanglement in myelin sheaths generates consciousness, offering a groundbreaking new perspective on brain function and cognition.

The recent work by Karnatak, Schönenberger and their colleagues could soon inspire further studies assessing the kinetic inductance and quantum coherence in moiré superconductors.

Prof. Jackson, Assistant Professor of Chemistry at UIUC, received the Kavli Foundation Emerging Leader in Chemistry Award for advancing AI-powered quantum modeling in polymer science. In this lecture, ...