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

Researchers from the Physical Chemistry and Theory departments at the Fritz Haber Institute have found a new way to image ...

Microscopes have long been scientists’ eyes into the unseen, revealing everything from bustling cells to viruses and nanoscale structures. However, even the most powerful optical microscopes have been ...

Researchers propose a synergistic computational imaging framework that provides wide-field, subpixel resolution imaging ...

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

In a study published in Nature Methods on December 2, a research team led by Profs. Xu Tao and Ji Wei from the Institute of ...

The demand for disposable miniature imaging platforms (DMIPs) is growing rapidly. Used for commercial, scientific, medical, and educational purposes, DMIPs have numerous applications but can be ...

Engineers have developed an experimental strategy to control and observe the chemical reaction of a single nanocatalyst using an optical microscope -- Expected to contribute to catalyst design based ...

This material is usually nearly invisible in optical microscopes because it has no optical resonances. To resolve this issue, ...

Researchers have developed a way to visualise boron nitride layers that are one atom thick. These ultrathin sheets are ...