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

The article highlights how integrated platforms—especially within scanning electron microscopes (SEM)—are enabling ...

A research team from the Hefei Institutes of Physical Science of the Chinese Academy of Sciences has constructed a copper (Cu ...

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

Carnegie Mellon University Associate Professor Sufei Shi has been selected by the Gordon and Betty Moore Foundation to be part of the 2025 cohort of Experimental Physics Investigators. He joins a ...

As metals undergo rolling, heating, forging, or other shaping steps, these dislocations act as atomic shuffling agents with selective bias. Rather than scrambling atoms purely at random, dislocations ...

A team of researchers at the University of Victoria (UVic) have achieved an advance in electron microscopy that will allow scientists to visualize atomic-scale structures with unprecedented clarity ...

Research suggests some metals’ semicore electrons may be more active on Earth’s surface than previously thought.

The discovery could significantly reduce the production costs of fuels, chemicals, and materials. A research team from the ...

A team of researchers from the University of Minnesota Twin Cities College of Science and Engineering and the University of Houston’s Cullen College of Engineering has discovered and measured the ...