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Biowissenschaften

Biowissenschaften

Hier können Sie Ihr Wissen, Ihre Forschungsfähigkeiten und Ihre praktischen Anwendungen der Mikroskopie in verschiedenen wissenschaftlichen Bereichen erweitern. Erfahren Sie, wie Sie präzise Visualisierung, Bildinterpretation und Forschungsfortschritte erzielen können. Hier finden Sie aufschlussreiche Informationen über fortgeschrittene Mikroskopie, Bildgebungsverfahren, Probenvorbereitung und Bildanalyse. Zu den behandelten Themen gehören Zellbiologie, Neurowissenschaften und Krebsforschung mit Schwerpunkt auf modernsten Anwendungen und Innovationen.

Image of an integrated-circuit (IC) chip cross section acquired at higher magnification showing a region of interest.

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…

C. elegans adult hermaphrodite gonades acquired using THUNDER Imager. Staining: blue - DAPI (nucleus), green - SP56 (sperm), red - RME-2 (oocyte), magenta - PGL-1 (RNA + protein granules). Image courtesy of Prof. Dr. Christian Eckmann, Martin Luther University, Halle, Germany.

Life-Science-Forschung: Welche Mikroskopkamera ist die richtige für Sie?

Wie Sie entscheiden, welche Kamera für Ihre Life-Science-Mikroskopie-Experimente die Richtige ist. Welche Kamera von Leica Microsystems ist für Sie am besten geeignet?

Stereo microscopes are often considered the workhorses of laboratories and production sites.

Wichtige Faktoren, die Sie bei der Auswahl eines Stereomikroskops berücksichtigen sollten

Stereomikroskope zeichnen sich durch ihre Fähigkeit aus, einen 3D-Eindruck der Probe zu erzeugen. Daher eignen sie sich besonders gut für Inspektion und Nacharbeit, Qualitätskontrolle, Forschung und…

The principle of the FusionOptics technology: Of the two separate beam paths (1), one provides depth of field (2) and the other high resolution (3). In the brain, the two images of the sample are merged into a single, optimal 3D image (4).

What is the FusionOptics Technology?

Leica stereo microscopes with FusionOptics provide optimal 3D perception. The brain merges two images, one with large depth of field and the other with high resolution, into one 3D image.

Strain from using a microscope can lead to musculoskeletal pain.

Microscope Ergonomics

This article explains microscope ergonomics and how it helps users work in comfort, enabling consistency and efficiency. Learn how to set up the workplace to keep good posture when using a microscope.

Fluorescence microscope image of a life-science specimen

An Introduction to Fluorescence

This article gives an introduction to fluorescence and photoluminescence, which includes phosphorescence, explains the basic theory behind them, and how fluorescence is used for microscopy.

Spirogyra algae (Conjugation), Transmitted Light Differential Interference Contrast.

Differential Interference Contrast (DIC) Microscopy

This article demonstrates how differential interference contrast (DIC) can be actually better than brightfield illumination when using microscopy to image unstained biological specimens.

Inspection microscope image of a printed circuit board (PCB) taken with a ring light (RL) and near vertical illumination (NVI).

Microscope Illumination for Industrial Applications

Inspection microscope users can obtain information from this article which helps them choose the optimal microscope illumination or lighting system for inspection of parts or components.

Immersion Objectives

How an immersion objective, which has a liquid medium between it and the specimen being observed, helps increase the numerical aperture and microscope resolution is explained in this article.