Workflow Solutions for Sample Preparation Methods for Material Science
This brochure presents and explains appropriate workflow solutions for the most frequently required sample preparation methods for material science samples.
Automatic Alignment of Sample and Knife for High Sectioning Quality
Automatic alignment of sample and knife on the ultramicrotome UC Enuity, enabling even untrained users to create ultrathin sections with reduced risk of losing precious sections.
High Quality Sectioning in Ultramicrotomy
Discover the significance of achieving high-quality uniform sections with ultramicrotomy for precise imaging in electron microscopy.
Five Inverted-Microscope Advantages for Industrial Applications
With inverted microscopes, you look at samples from below since their optics are placed under the sample, with upright microscopes you look at samples from above. Traditionally, inverted microscopes…
Structural and Chemical Analysis of IC-Chip Cross Sections
This article shows how electronic IC-chip cross sections can be efficiently and reliably prepared and then analyzed, both visually and chemically at the microscale, with the EM TXP and DM6 M LIBS…
High-Quality EBSD Sample Preparation
This article describes a method for EBSD sample preparation of challenging materials. The high-quality samples required for electron backscatter diffraction are prepared with broad ion-beam milling.
How Marine Microorganism Analysis can be Improved with High-pressure Freezing
In this application example we showcase the use of EM-Sample preparation with high pressure freezing, freeze substiturion and ultramicrotomy for marine biology focusing on ultrastructural analysis of…
How to Prepare and Analyse Battery Samples with Electron Microscopy
This workshop covers the sample preparation process for lithium and novel battery sample analysis, as well as other semiconductor samples requiring high-resolution cross-section imaging.
New Imaging Tools for Cryo-Light Microscopy
New cryo-light microscopy techniques like LIGHTNING and TauSense fluorescence lifetime-based tools reveal structures for cryo-electron microscopy.
