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

Ever since their discovery, quasicrystals have garnered much attention due to their strange structure. Today, they remain far from being well-understood. In a new study, scientists reveal, for the ...

A new momentum microscopy experimental station for photoelectron spectroscopy resolved in 3D momentum space with a microscopic field of view has been built at BL6U of UVSOR *, Institute for Molecular ...

Protein aggregates associated with neurodegenerative disease have stubbornly resisted researchers’ efforts to get a good look at them. They refuse to crystallize well or yield to standard ...

A video showing the structure and function of the transmission electron microscope. It details all the different compartments of the transmission electron microscope and the theory and principle of ...

There’s an old joke that you can’t trust atoms — they make up everything. But until fairly recently, there was no real way to see individual atoms. You could infer things about them using X-ray ...

Scientists are reporting the first 3-D images of an individual protein ever obtained with enough clarity to determine its structure. When Gang Ren whirls the controls of his cryo-electron microscope, ...

The high-powered, “game-changing” microscopes use electrons rather than light to visualize the shape of samples at near-atomic resolution. Only recently have they become available to scientists in the ...

A team of researchers from Case Western Reserve University School of Medicine have used Nobel prize-winning microscope technology to see full length serotonin receptors for the first time. The tiny ...

Function follows form. To a certain extent, the opposite of this guideline mainly followed by Bauhaus designers applies in biology: the form of a biomolecule determines its function. This has long ...