Learn More

Scanning Electron Microcopy (SEM) has developed into a critical tool within numerous different research fields, spanning everything from materials science to forensics to industrial manufacturing. As soon as microscopic information about the surface or near-surface region of a specimen is needed,...

Thermo Fisher Scientific Electron Microscope Upgrade Program, Regularly upgrading your microscope allows you to enhance the capabilities of current system and utilize the instrument in the most effective and productive way possible.

Watch an overview of the STEM Sample Holder and learn how to: Prepare, load, and image samples Improve analysis of materials and biological sample Achieve sub-nanometer resolution on a desktop instrument, Our solution streamlines the transmission microscopy workflow for users who need quick answers...

Since the introduction of electron microscopes in the 1930s, scanning electron microscopy (SEM) has developed into a critical tool within numerous different research fields, spanning everything from materials science, to forensics, to industrial manufacturing, and even to the life sciences.

Since the introduction of electron microscopes in the 1930s, scanning electron microscopy (SEM) has developed into a critical tool within numerous different research fields, spanning everything from materials science, to forensics, to industrial manufacturing, and even to the life sciences.

Transmission electron microscopy (TEM) is a high-resolution imaging technique in which a beam of electrons passes through a thin sample to produce an image. The electron beam is impacted by the sample’s thickness/density, composition and, in some cases, crystallinity.

TheThermo Scientific Prisma E Scanning Electron Microscope (SEM) combines a wide array of imaging and analytical modalities with advanced automation to offer the most complete solution of any instrument in its class.

Advanced materials characterization labs require access to the latest techniques and will push analytical tools, including SEMs, to the extremes of their capabilities. Most of these labs are multi-user facilities that accommodate users with varying degrees of experience.

For scientists to advance their understanding of complex samples and develop innovative materials, they must have access to robust, precise instrumentation capable of correlating form and function, as well as resolving space, time and frequency.

The Thermo Scientific Volumescope 2 Scanning Electron Microscope (SEM) is our state-of-the-art serial block-face imaging system. Keep control of experiments with easy to use technology and protect a wide range of possible samples with tried and tested solutions for every acquisition step.

MicroED is an exciting new technique that allows fast, high-resolution structural determination of small molecules and proteins. Atomic details can be extracted from individual nanocrystals (<200 nm in size), even in a heterogeneous mixture.

To truly optimizeTEM and STEM imaging, EDX and EELS may require acquisition of different signals at different accelerating voltages. The rules may vary from sample to sample but, it is generally accepted that: 1) the best imaging is done at the highest possibleaccelerating voltage above which...

For scientists to advance their understanding of complex samples and develop innovative materials, they must have access to robust, precise instrumentation capable of correlating form and function, as well as resolving space, time and frequency.

The Thermo Scientific Talos F200C TEM is a 20-200 kV thermionic (scanning) transmission electron microscope uniquely designed for performance and productivity across a wide range of samples and applications, such as 2D and 3D imaging of cells, organelles, asbestos, polymers, and soft materials, both...

The Thermo Scientific Talos F200S(S)TEM is a (scanning) transmission electron microscope that combines outstanding high-resolution STEM and TEM imaging with industry-leading energy dispersive X-ray spectroscopy (EDS) .