Scientists at OIST have, for the first time, directly tracked the elusive “dark excitons” inside atomically thin materials.

Synthetic diamond research examines organic molecular interactions under the microscope. Scientists have long developed ...

Scientists directly observed dark excitons in atomically thin materials, revealing how they evolve and paving the way for ...

What makes Efficient Computer’s Electron E1 stand out is the programmable nature of the system’s dataflow. The chip has a ...

Using one of the world’s most advanced spectroscopy systems, researchers have developed a framework to guide studies in ...

Two-dimensional materials are only a few atoms thick yet hold great promise for the electronics of tomorrow. Because they are ...

An Alpha rocket blows up on the pad. The booster stage for Firefly Aerospace's next Alpha rocket was destroyed Monday in a ...

The NASA Interstellar Mapping and Acceleration Probe (IMAP), along with secondary payloads, launched aboard a Falcon 9 on ...

To celebrate some of these mini marvels, Northwestern University's Atomic and Nanoscale Characterization Experimental Center ...

Proteins can conduct electrons efficiently over tens of nanometers when contact resistance is removed, revealing their ...