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

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 ...

Nanomaterials are improving ophthalmic care by enhancing drug delivery, diagnostic imaging, and tissue regeneration. This review highlights current applications and regulatory challenges in ocular ...

In a new study, physicists at the University of Colorado Boulder have used a cloud of atoms chilled down to incredibly cold temperatures to simultaneously measure acceleration in three dimensions—a ...

The Quantum Leap: Charting the Future of Computing Global breakthroughs in hardware, simulation and research are pushing quantum computing closer to solving complex, real-world problems.

IBM now describing its first error-resistant quantum compute system Company is moving past focus on qubits, shifting to functional compute units.

IQM Quantum Computers in collaboration with analyst firm Omdia (LON:INF), today unveiled the third edition of its State of Quantum Report, revealing that the ...

Physicists recently mapped the hidden shape that underlies the quantum behaviors of a crystal, using a new method that’s expected to become ubiquitous.

A new book on quantum physics is pleasingly full of cutting-edge topics. Yet it isn't the accessible work it promised to be ...

Quantum computers are beginning to become powerful tools for studying some of the most fundamental forces in the universe – and some of the trickiest to understand.

Using optical tweezers composed of laser light, researchers have developed a novel way to manipulate individual atoms and create a state of hyper-entanglement. This breakthrough could lead to new ...

Classical AI is not a competitor to quantum; it’s a critical enabling technology for realizing quantum’s potential.