Science Lab

Science Lab

Science Lab

Bienvenue sur le portail de connaissances de Leica Microsystems. Vous y trouverez des recherches scientifiques et du matériel didactique sur le thème de la microscopie. Le portail aide les débutants, les praticiens expérimentés et les scientifiques dans leur travail quotidien et leurs expériences. Explorez les didacticiels interactifs et les notes d'application, découvrez les bases de la microscopie ainsi que les technologies de pointe. Faites partie de la communauté Science Lab et partagez votre expertise.
SEM image of the sample consisting of reed and brewers’ spent grain after surface polishing using the UC Enuity cryochamber at -120°C. The sample was transferred to the cryo-SEM (Zeiss Sigma 300) using the EM VCT500 transfer system. Courtesy of Claudia Mayrhofer, ZFE, Graz, Austria.

Ultramicrotome UC Enuity in Practice: Stable 15 nm Sections at ZFE

After using the UCT and UC6 ultramicrotomes, Claudia Mayrhofer calls UC Enuity a leap in stability—so robust that vibrations and temperature shifts don’t spoil sections, even with multiple users. Auto…
Image of glass with primary corundum having numerous inclusions. It was taken with a microscope using polarization contrast.

Ensuring Glass Quality with the Polarization Microscopy Advantage

Glass is one of the oldest materials known. Today, it is used for many applications, e.g., optical instruments, windows, doors, solar panels, containers for food, beverages, and medicine, so strict…
OCSS Cataract Surgery Symposium

Expert Techniques for Superior Visualization in Cataract Surgery

Join renowned ophthalmic surgeons, Dr. Hussein Almuhtaseb and Mr. Simon Madge, as they share their clinical expertise and real-world surgical strategies during the 2025 Online Cataract Surgery…
LMD ionizer before & after cut.

Eliminating Electrostatic Interference in Laser Microdissection

Electrostatic charge in laser microdissection (LMD) causes two critical failures: samples stick to charged surfaces and are lost, or samples fly into adjacent wells and cause cross-contamination. We…

History, Developments and Trends of Microscopy in Cancer Research

Cancer is a global disease, with 18 million new cases diagnosed and 10 million cancer-related deaths worldwide in 2020. This burden is set to increase, with a projected increase in cases of ~55% by…
Mouse fibroblasts where F-actin is labelled with FITC (green), tubulin with Cy5 (red), and nuclei with DAPI (blue). Image courtesy of Dr. Günter Giese, Max Planck Institute for Medical Research, Heidelberg, Germany.

Overview of Fluorescent Dyes in terms of Applications and Properties

An introduction to commonly used fluorescent dyes and an overview of their characteristics are given in this article. Fluorescence microscopy is used for the study of specific cellular components with…

Researchers Insights: Microscopy in Cancer Research

Discover how imaging techniques are driving cancer research forward. In this issue, we present comprehensive multimodal studies using microscopy, as well as new directions in intraoperative cancer…
Leica Microsystems Life Science Product

Predictive Service Prevents Downtime in Ghent

At the VIB BioImaging Core in Ghent, Belgium, researchers depend on Leica’s Stellaris 8 confocal microscope to explore the frontiers of biomedical science. When Leica’s RemoteCare system detected a…
Zebrafish heart, DAPI (nuclei, blue), Tropomyosin (cardiomyocytes, red) and GFP (primordial cardiac layer, green). Courtesy of Anna Jazwinska, University of Fribourg, Switzerland.

A Guide to Fluorescence Microscopy

Fluorescence microscopy uses the ability of fluorophores, dyes, or fluorescent proteins to emit light of a specific wavelength after being excited with light of a shorter wavelength. Biomolecules can…
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