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 ...

Argonne and Northwestern University scientists teamed up to understand how light interacts with metallic nanoframes, with ...

A new analysis reveals what happens when very short or narrow electron beams encounter a particle. The research is published ...

Support grids are a key part of electron microscopy measurements; the choice of the grid can directly influence the quality and accuracy of the final image. This is particularly true for transmission ...

An international team of researchers built a highly sensitive quantum microscope and used it to directly observe, for the ...

Electron microscopy combined with X-ray microanalysis represents a pivotal suite of techniques that have transformed research in materials science, physics and engineering. Utilizing focused beams of ...

Through a combination of smarter material choices and machine learning techniques, a team led by Sarah Haigh at the University of Manchester showed how these graphene “nano-aquariums” can work with ...

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 ...

Scientists from the Ludwig Maximilian University of Munich (LMU) and Nanyang Technological University in Singapore recently ...

Thermo Scientific Maps Software is an imaging and correlative workflow software suite compatible with the full line of Thermo Scientific SEM, DualBeam (FIB SEM) and TEM platforms. Researchers and ...