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

How the Quantum Twisting Microscope could give a better ‘picture’ of atom thin layers, and science in Ukraine a year into Russia’s invasion. To better visualise how electrons are ‘moving’ in materials ...

Researchers from the Physical Chemistry and Theory departments at the Fritz Haber Institute have found a new way to image layers of boron nitride that are only a single atom thick. This material is ...

Haozhe "Harry" Wang's electrical and computer engineering lab at Duke welcomed an unusual new lab member this fall: artificial intelligence. Using publicly available AI foundation models such as ...

Widefield nitrogen-vacancy microscope solves problem of there being no way to tell exactly how strongly magnetic a 2D material was. Australian researchers and their colleagues from Russia and China ...

Due to their unique properties, 2D materials, which consist of a single layer of atoms, are increasingly being used in optoelectronic devices, as quantum light sources and in integrated circuits.

Magnetism in two-dimensional materials is difficult to characterize because the materials’ extreme thinness renders conventional techniques ineffective. Researchers in Australia, Russia and China have ...

have found a new way to image layers of boron nitride that are only a single atom thick. This material is usually nearly invisible in optical microscopes because it has no optical resonances. To ...

(Nanowerk News) Australian researchers and their colleagues from Russia and China have shown that it is possible to study the magnetic properties of ultrathin materials directly, via a new microscopy ...