The 2 Main Electron Microscopy Techniques: SEM vs TEM
Microscopy is a huge and active field. Sometimes, it’s easy to forget the basics. Read our biologists’ guide to electron microscopy techniques.
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Microscopy is a huge and active field. Sometimes, it’s easy to forget the basics. Read our biologists’ guide to electron microscopy techniques.
Microscopy is a huge and active field. Sometimes, it’s easy to forget the basics. Read our biologists’ intro to applications of electron microscopy.
The electron microscope (EM) – where electrons, rather than photons, make the image – fell out of fashion for a while, but it has come back refreshed. Modern electron microscopes cost less, use less electricity, and are generally easier to maintain than the older models, so it is likely that you can get your hands on one. Read on to learn more about this technique, and how to implement it into your research.
In recent years, three-dimensional (3D) scanning electron microscopy techniques have gained recognition in the biological sciences. In particular, array tomography, serial block face scanning electron microscopy (SBFSEM) and focused ion beam scanning electron microscopy (FIBSEM) (described in Three-Dimensional Scanning Electron Microscopy for Biology) have shown an increase in biological applications, elucidating ultrastructural details of cells…
It doesn’t matter how excited you are about the research or how intriguing the biology is, if you cannot record it – and record it well – it won’t matter. Here I will tell you how to take the perfect electron micrograph.
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