Researchers have discovered how to design and place single-photon sources at the atomic scale inside ultrathin 2D materials, ...

Using the world’s most powerful X-ray laser, scientists have filmed atoms performing an eternal quantum dance that never ...

Image by the US National Institutes of Health, CC 3.0 Image by the US National Institutes of Health, CC 3.0 A new dual-light microscope lets researchers observe micro- and nanoscale activity inside ...

From left, graduate student Ian Campbell and Michael Shatruk, a professor in the FSU Department of Chemistry and Biochemistry ...

Scientists at the RIKEN Center for Emergent Matter Science (CEMS) in Japan have discovered a way to make a superconducting ...

Diamond nanoparticles containing nitrogen-vacancy centers can now monitor cellular metabolism in real time, targeting ...

If quantum computing is going to become an every-day reality, we need better superconducting thin films, the hardware that enables storage and processing of quantum information. Too often, these thin ...

Architects Jestico + Whiles were challenged to make the Cavendish Laboratory's science accessible to the public while meeting ...

Just last month (November 5, 2025), Veeco announced a major order for its Propel®300 MOCVD system from a leading power ...

Thought Leaders Rhea Stringer Electron Microscopist John Innes Centre In this interview, News Medical speaks with Rhea ...

Electron microscopy plays a critical role in battery research by providing high-resolution insights into material structures.

The ability to precisely study and manipulate electrons in electron microscopes could open new possibilities for the development of both ultrafast imaging techniques and quantum technologies. Over the ...