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Scanning Electron Microscopy for the Life Sciences

Scanning electron microscopy for biological samples

Scanning electron microscopy (SEM) is a fundamental technique in the study of biological samples, offering high-resolution, three-dimensional images that reveal intricate details of cellular structures and microorganisms. This technique utilizes a focused beam of electrons to scan the sample surface, generating detailed images with exceptional clarity and depth. This invaluable tool has revolutionized our understanding of biological systems, facilitating important discoveries and advancements in various scientific fields. With its ability to capture fine details and provide valuable insights into the morphology and structure of biological samples, SEM continues to be an essential tool to propel significant discoveries and innovations.

Versatile solutions for life sciences

Scanning electron microscopes

Thermo Fisher Scientific is dedicated to producing versatile, easy-to-use, analytical SEMs that are ideally suited for your specific needs.

Environmental scanning electron microscopy

Environmental scanning electron microscopy (ESEM) is a special technique used to image biological samples in their natural, hydrated state.

Array tomography

Turn any Thermo Scientific SEM into a volume EM microscope with the addition of automated array tomography.

Serial block-face SEM

A complete in situ microtome sectioning workflow. Excellent Z-resolution when combined with multi-energy deconvolution scanning electron microscopy (MED-SEM). The automation and ease-of-use increases your productivity, granting isotropic resolution for your large volume samples.

Volume electron microscopy resources

Volume EM is a group of techniques that reveals the 3D ultrastructure of cells and tissues at micron to millimeter volume scales, at nanometer-level resolutions.

Imaging data processing and visualization

Cutting-edge solutions, designed for scanning electron microscopes, offering high-resolution imaging and robust analytics, transforming complex data into insightful knowledge.

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