An international research team led by Forschungszentrum Jülich has succeeded in visualizing magnetism inside solids with ...

XRM microscopy, combined with machine learning, revolutionizes materials research by enhancing imaging techniques for failure ...

Researchers at the universities of Amsterdam and Utrecht have observed the formation of nanocavities in montmorillonite clay under exposure to gamma-aminobutyric acid, a molecule commonly found on ...

Electron microscopes have much greater resolving power than light microscopes that use electromagnetic radiation and can obtain much higher magnifications of up to 2 million times, while the best ...

Electron microscopes are some of the most powerful tools in science, allowing us to capture images at a scale so tiny that we can observe individual atoms! Unlike traditional light microscopes ...

Recently there has been a spate of scientific papers containing the phrase “ vegetative electron microscopy/microscope “. The term suggests a device for scanning broccoli, but it is utter ...

THE two-dimensional structure of montmorillonite has been illustrated by electron micrographs of the face view of the plates1–3. We report what we believe to be the first micrograph to be ...

They created five different materials that could be performance-tested. The authors took detailed measurements of the structure of the composite materials using scanning electron microscopy.

They created five different materials that could be performance-tested. The authors took detailed measurements of the structure of the composite materials using scanning electron microscopy.

In this work, polypropylene (PP) and its polymer nanocomposites (PNCs) films containing very low contents (2–6 wt %) of Cloisite 20A natural montmorillonite clay platelets were investigated. In a ...

While the original electron microscope arrived in the early 1930’s (there’s still a controversy to this day over who invented the very first one), scientists have relied on what are known as ...

The subatomic world is hard to image not just because it’s incredibly tiny, but super fast too. Now physicists at the University of Arizona have developed the world’s fastest electron ...