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You no longer need to be an expert microscopist to evaluate even the smallest samples. Our intuitive microscopy solutions are designed to quickly provide answers with the confidence you need. Discover our microscopy family designed to characterize microscopic samples for quality control, analytical...

Scientists and engineers in both academia and industry are constantly facing new challenges that require highly localized characterization of a wide range of samples and materials. The ongoing drive to improve the quality of these materials means that structural and compositional information at the...

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.

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.

Our full cryo-TEM portfolio features state-of-the-art technology with a range of automation features designed to extend accessibility, reduce the need for user intervention, and enable easily organizing, viewing, and sharing data.

Sample preparation Introduction to the microscope Image formation and aberrations, Accelerator Condenser lens and parallel illumination Objective, lens, stage, and projection Detectors and cameras, Single particle analysis data collection and EPU Entire workflow uninterrupted

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.

By placing your sample on the stage and directing light through it, the filters, detectors, and camera, you will be able to visualize and capture an image of your sample. Learn about basic light path and filter configurations, what governs the limit of resolution, and the differences between upright...

Regular instrument calibration and adjustment are required for high-precision imaging of fluorescent probes, particularly in multicolor applications such as confocal laser scanning microscopy that involve multiple exposures, repetitive scans, or three-dimensional sectioning.

Other capabilities include: Pre-aligned and lock-in-place components that use automatic recognition and stored alignment, allowing any user to reconfigure an instrument in seconds Lasers and other components that can be interchanged and shared with every instrument in the DXR3 Raman family Optional,...

Thermo Scientific AutoScript TEM Software is a scripting environment combining a TEM-specific Python API with the Python editor. Thermo Scientific software packages for electron/ion microscopy, such as Maps Software and Tomography Software for automation and for mapping, are great for making...

From telescope to microscope, Meet Jordi Petriz, PhD As a kid fascinated with the night sky, Jordi Petriz once asked his father to explain the origin of the stars. His father’s surprising response reveals how the younger Petriz’s upbringing was a catalyst to becoming a trailblazing scientist.

The proof is in the images. With the Thermo Scientific DXR3 family of Raman instruments, you can use Raman spectroscopy and microscopy to quickly create research-grade chemical images—giving you instant information on the chemical, structural, and elemental characteristics of your sample.