A new microscopy technique allows scientists to see single-atom-thick boron nitride by making it glow under infrared light.

It’s relatively easy to understand how optical microscopes work at low magnifications: one lens magnifies an image, the next ...

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

Breakthrough photonic quantum chip emits ultra-short 2 nm X-ray waves, advancing quantum materials and powering next-gen ...

Within the white, clinical walls of a nondescript UNLV lab, a small team of neuroscientists are working on a project with potentially big implications for children suffering from seizures. Their goal: ...

Memorial Sloan Kettering Cancer Center researchers continued to make strides against cancer in 2025. Learn about some of ...

Bruker's Acquifer Imaging Machine (IM) is a fully automated widefield microscope with both brightfield and fluorescence imaging capabilities. It is best suited for high-content screening (HCS) and ...

A new study published in Nature Neuroscience provides a detailed look at how the psychedelic drug psilocybin facilitates the ...

A collaboration between the University of Edinburgh and Imperial College London has used a dual-view oblique plane ...

A team of researchers at Radboud University has discovered a promising new method to make ammonia—a key ingredient in ...

Scientists have observed the largest-known rotating structure in the cosmos - a gargantuan thread-like assemblage of hundreds ...

An international team of researchers says it has spotted the largest rotating structure of dark matter and gas-rich galaxies.