Researchers at TU Graz have proven that espresso is a favourable alternative to the highly toxic and radioactive uranyl acetate in the analysis of biological samples.

TEM works by accelerating electrons, typically with energies between 80 and 300 kV, and directing them through a specimen thin enough for electron transmission. Because of their very short wavelength ...

Graphene could transform everything from electric cars to smartphones, but only if we can guarantee its quality. The ...

Researchers at the Institute of Electron Microscopy and Nanoanalysis (FELMI-ZFE) at Graz University of Technology (TU Graz) ...

Scientists at the Technical University of Graz have proposed using regular coffee as an alternative to traditional contrast media in the preparation of biological samples for electron microscopy. This ...

Researchers develop reliable method using transmission electron microscopy to verify graphene's single-atom thickness, ...

The FEI 200kV Titan Themis Scanning Transmission Electron Microscope (STEM) is a scanning transmission electron microscope with several key capabilities. This microscope positions Michigan Tech ...

Researchers developed a method to enhance 3D imaging of lithium-ion battery electrodes, improving visualization of internal ...

In this interview, AZoMaterials speaks with Professor Sarah Haigh, Professor of Materials Characterization at the University of Manchester, about her pioneering work in electron microscopy and its ...

Using machine learning to guide microscopes could reveal greater insights into the brain's connectome and deepen our ...

Researchers at Graz University of Technology found that ordinary espresso can replace toxic uranyl acetate for electron ...