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RSS feedExpert Knowledge on High Pressure Freezing and Freeze Fracturing in the Cryo SEM Workflow
Get an insight in the working methods of the laboratory and learn about the advantages of Cryo SEM investigation in EM Sample Preparation. Find out how high pressure freezing, freeze fracturing and…Read articleDrosophila larvae - Sample Preparation for Cryo-SEM
Application Note for Leica EM ACE900 - Drosophila larvae were sandwiched between two 3 mm aluminum slit carriers with the 100 μm cavities facing each other and high-pressure frozen with a Leica EM…Read articleGiardia lamblia - Sample Preparation for Cryo-SEM
Application Note for Leica EM ACE900 - A 100 mesh copper grid (12 um thickness) was dipped into a concentrated Giardia suspension and sandwiched between two flat 3 mm aluminum specimen carriers with…Read articleCarbon Coating for Polymeric Materials
Application Note fo Leica EM ACE600 - A solid understanding of polymer property-structure relationships is critical to improve and shorten development routes to new products. A direct way to determine…Read articleHigh-Resolution Carbon Coating: How much Carbon is too much?
Application Note for Leica EM ACE600 - Carbon support films are routinely used for high resolution TEM. Thickness is one of the main criteria to assess its usefulness for a particular experiment.…Read articleEach Atom Counts: Protect Your Samples Prior to FIB Processing
Application Note for Leica EM ACE600 - Focused ion beam (FIB) technology has become an indispensable tool for site-specific TEM sample preparation. It allows to extract electron transparent specimens…Read articleTobacco Leaf - Critical Point Drying Protocol for SEM
Application Note for Leica EM CPD300 - Critical point drying of tobacco leafs with subsequent platinum coating and SEM analysis.Read articleNematode E. dianae - Critical Point Drying Protocol for SEM
Application Note for Leica EM CPD300 - Critical point drying of nematode Eubostrichus dianae to detect the ectosymbiotic bacteria layer with subsequent gold coating ans SEM analysis.Read articleWall Cress Pod Protocol - Critical Point Drying of Arabidopsis thaliana for SEM
Application Note for Leica EM CPD300 - Critical point drying of wall cress (Arabidopsis thaliana) pod with subsequent gold coating and SEM analysis.Read articleBacteria Protocol - Critical Point Drying of E. coli for SEM
Application Note for Leica EM CPD300 - Critical point drying of E. coli with subsequent platinum / palladium coating and SEM analysis. Sample was inserted into a filter disc (Pore size: 16 - 40 μm)…Read articleThin Metal Foils with Coatings - Sample Preparation for SEM
Application Note for Leica EM RES102 - Thin foils are mostly unstable because of their thickness of a few microns. This makes it difficult to do slope cutting without any protection of the sample. A…Read articleUltra-thin Carbon Support Films for Improved STEM-EELS Analysis of Nanoparticles
Application Note for Leica EM ACE600 - Recent developments in aberration corrected transmission electron microscopes as well as further improvements in monochromaters and spectrometers have pushed the…Read articleWays to Reveal More from your Samples: Ultra-Thin Carbon Films
Application Note for Leica EM ACE600 - Much of the battle involved in obtaining good transmission electron microscopy data is in the specimen preparation itself. Even though some nanomaterials are…Read articleWrinkled Giant Hyssop Leaf Protocol
Application Note for Leica EM CPD300 - Critical point drying of wrinkled giant hyssop leaf with subsequent gold coating and SEM analysis.Read articleBlack Mould Protocol
Application Note for Leica EM CPD300 - Critical point drying of Black mould (Aspergilus niger) with subsequent platinum / palladium coating and SEM analysis to detect conidiospores. Sample was…Read article