Science Lab

Science Lab

Science Lab

Willkommen auf dem Wissensportal von Leica Microsystems. Hier finden Sie wissenschaftliches Forschungs- und Lehrmaterial rund um das Thema Mikroskopie. Das Portal unterstützt Anfänger, erfahrene Praktiker und Wissenschaftler gleichermaßen bei ihrer täglichen Arbeit und ihren Experimenten. Erkunden Sie interaktive Tutorials und Anwendungshinweise, entdecken Sie die Grundlagen der Mikroskopie ebenso wie High-End-Technologien. Werden Sie Teil der Science Lab Community und teilen Sie Ihr Fachwissen.
Separation of cells based on their tracking status: A colourised binary mask of a time-lapse microscopy field of view of medium confluency with individual cells highlighted as survivors if they can be tracked since the initial movie frame (cyan), incomers if they migrated into the field of view throughout the movie (yellow) or mistracks if an error occurred in the automated trajectory reconstruction (red).

Tracking Single Cells Using Deep Learning

AI-based solutions continue to gain ground in the field of microscopy. From automated object classification to virtual staining, machine and deep learning technologies are powering scientific…
Analysis of anatomy and axon orientation of an adult mouse brain tissue with QLIPP.

Learning the Cellular Architecture from its Optical Properties

In the last 3 years, microscopists have started to use "AI based" solutions for a wide range of applications, including image acquisition optimization (smart microscopy), object classification, image…
Mikroskop für Routineuntersuchungen Ivesta 3.

Wie man das geeignete Mikroskop für die Sichtprüfung auswählt

Dieser Artikel hilft Anwendern bei der Auswahl eines Mikroskops als Hilfsmittel für die routinemäßige Sichtprüfung. Es werden wichtige Faktoren beschrieben, die berücksichtigt werden sollten.

How to Use a Digital Microscope to Streamline Inspection Processes

Watch this webinar for inspiration and expert advice on how to make quality control simpler, quicker, and easier. Learn how to perform comprehensive visual inspection, including comparison,…
Dynamic Signal Enhancement powered by Aivia: Truly simultaneous multicolor imaging of live cells (U2OS) in 3D

Artificial Intelligence and Confocal Microscopy – What You Need to Know

This list of frequently asked questions provides “hands-on” answers and is a supplement to the introductory article about Dynamic Signal Enhancement powered by Aivia "How Artificial Intelligence…
Dynamic Signal Enhancement powered by Aivia: Truly simultaneous multicolor imaging of live cells (U2OS) in 3D

How Artificial Intelligence Enhances Confocal Imaging

In this article, we show how artificial intelligence (AI) can enhance your imaging experiments. Namely, how Dynamic Signal Enhancement powered by Aivia improves image quality while capturing the…

Designing your Research Study with Multiplexed IF Imaging

Multiplexed tissue analysis is a powerful technique that allows comparisons of cell-type locations and cell-type interactions within a single fixed tissue sample. It is common for researchers to ask…

Formulated Product Characterization with SRS Microscopy

Creams, pastes, gels, emulsions, and tablets are ubiquitous across a wide range of manufacturing sectors from pharmaceuticals and consumer health products to agrochemicals and paint. To improve…
REM-Aufnahme der vollständigen Li-NMC-Elektrodenprobe, die die beiden porösen Schichten und den Metallfilm in der Mitte der Struktur zeigt.

Querschnitt-Ionenstrahlfräsen von Batteriekomponenten

Für ein umfassendes Verständnis von Lithiumbatteriesystemen ist eine qualitativ hochwertige Oberflächenpräparation erforderlich, um die innere Struktur und Morphologie zu untersuchen. Aufgrund der…
Beckman Coulter LinkBeckman Coulter LogoGenedata LinkIDBS LogoIDBS LinkIDBS LogoAbcam Limited LinkAbcam Limited LogoMolecular Devices LinkMolecular Devices LogoPhenomenex LinkPhenomenex LogoSciex LinkSciex LogoAldevron LinkAldevron LogoIDT LinkIDT Logo
Scroll to top