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Cryo-electron tomography (cryo-ET) allows the 3D visualization of a small volume of a vitreous biological sample with nanometer resolution. Protein complexes ...

The brain is probably the most complex organ in our body. One of the most fascinating challenges neuroscience faces today is mapping the complete connectivity ...

Cathodoluminescence is commonly used to probe light emission characteristics in semiconductor LED materials.

Cryo-electron tomography (cryo-ET) is an emerging technique that allows scientists to determine the structure of biological complexes within their cellular ...

Cathodoluminescence processes can be divided into two categories: coherent and incoherent CL. But what is the difference between these? In this blog post we ...

In our previous blog post, we discussed how faster and more efficient EM systems can speed up large-scale projects, benefit EM facilities and overall let the ...

Cryo-electron tomography (ET) in combination with cryo-focused ion beam (FIB) milling allows the study of biological structures in near native conditions at a ...

Cathodoluminescence is commonly used to pre-screen geological samples and combined with other SEM techniques for in-depth study. Various CL imaging modes can ...

The development of high throughput electron microscopy techniques in the last decade has made increasingly large imaging projects possible. Now that systems ...

Eukaryotic cells contain a complex network of membrane-bound organelles where specialized processes of the cell take place.

Cathodoluminescence is a specific form of luminescence caused by ‘free’ electrons (or simply electron propagating through space).

Comparing the morphology of healthy and diseased cells or tissues or examining the effect of drug treatments is extremely important for understanding of the ...