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Leica Microsystems

Leica Microsystems

Leica Microsystems ist ein weltweit führender Hersteller von Mikroskopen und wissenschaftlichen Instrumenten. Im 19. Jahrhundert als Familienunternehmen gegründet, war die Geschichte des Unternehmens auf dem Weg zum Weltkonzern von beispielloser Innovation geprägt.

Die traditionell enge Zusammenarbeit mit der Wissenschaft ist der Schlüssel zur Innovationstradition von Leica Microsystems, die auf die Ideen der Anwender zurückgreift und auf deren Bedürfnisse zugeschnittene Lösungen schafft. Auf globaler Ebene ist Leica Microsystems in drei Divisionen gegliedert, die alle zu den führenden Anbietern in ihrem jeweiligen Bereich gehören: Life Science, Industrie und Medizin.

Das Unternehmen ist in über 100 Ländern mit 6 Produktionsstandorten in 5 Ländern, Vertriebs- und Serviceorganisationen in 20 Ländern und einem internationalen Händlernetz vertreten. Der Hauptsitz des Unternehmens liegt in Wetzlar, Deutschland.

https://www.leica-microsystems.com/de

See More Than Just Your Image

Despite the emergence of new imaging methods in recent years, true 3D resolution is still achieved by Confocal Laser Scanning Microscopy (CLSM). Through a combination of novel, extremely fast scanning…

DIVE Multiphoton Microscope Image Gallery

Today’s life science research focusses on complex biological processes, such as the causes of cancer and other human diseases. A deep look into tissues and living specimens is vital to understanding…

Live Cell Isolation by Laser Microdissection

Laser microdissection is a tool for the isolation of homogenous cell populations from their native niches in tissues to downstream molecular assays. Beside its routine use for fixed tissue sections,…
Array tomography image of T-cells in mouse lymph nodes.

High Resolution Array Tomography with Automated Serial Sectioning

The optimization of high resolution, 3-dimensional (3D), sub-cellular structure analysis with array tomography using an automated serial sectioning solution, achieving a high section density on the…

Macroscale to Nanoscale Pore Analysis of Shale and Carbonate Rocks

Physical porosity in rocks, like shale and carbonate, has a large effect on the their storage capacity. The pore geometries also affect their permeability. Imaging the visible pore space provides…

Which Sensor is the Best for Confocal Imaging?

The Hybrid Photodetectors (HyD) are! Why that is the case is explained in this short Science Lab article.

See the Structure with Microscopy - Know the Composition with Laser Spectroscopy

The advantages of a 2-in-1 materials analysis solution combining optical microscopy and laser induced breakdown spectroscopy (LIBS) for simultaneous visual and chemical inspection are described in…

Visualization of DNA Molecules

Precise low angle rotary shadowing with heavy metals (like platinum) can be used in transmission electron microscopy (TEM) to observe molecular details of objects previously absorbed on a thin, low…

The Future of Fluorescence in Vascular Neurosurgery

In vascular neurosurgery, surgical microscopes are used to provide a magnified and illuminated view of the surgical field. Although surgeons benefit greatly from the superb image quality and optical…
Light sheet microscopy tilescan of zebrafish.

Using U-Shaped Glass Capillaries for Sample Mounting

The DLS microscope system from Leica Microsystems is an innovative concept which integrates the Light Sheet Microscopy technology into the confocal platform. Due to its unique optical architecture,…

Practical Applications of Broad Ion Beam Milling

Mechanical polishing can be time consuming and frustrating. It can also introduce unwanted artifacts when preparing cross-sectioned samples for electron backscatter diffraction (EBSD) in the scanning…
Basalt imaged with crossed polarizers

Digital Microscopy in Earth Science

Classical polarized light (compound) microscopes can only be used for prepared samples, because the working distance they offer is insufficient for whole samples. This means that thicker and bigger…
Multiphoton microscopy of an unstained mouse skin section acquired using the 4Tune detector.

Mission Impossible Accomplished: Tunable Colors for Non-descanning Detection

Leica Microsystems’ 4Tune detector, the key component of the SP8 DIVE Deep In Vivo Explorer, provides spectrally tunable image recording with non-descanning detection. An innovative solution for…
Mammalian cell culure. Phase contrast and fluorescence image.

Introduction to Mammalian Cell Culture

Mammalian cell culture is one of the basic pillars of life sciences. Without the ability to grow cells in the lab, the fast progress in disciplines like cell biology, immunology, or cancer research…
„Confetti-Mouse“, taken with the 4Tune spectral detector of Leica’s Deep in-vivo Explorer SP8 DIVE.

Laser Beam Shaping for Multicolor Multiphoton Microscopy

Multiphoton Microscopy is one of the current hot topics in life science research. The new Leica TCS SP8 DIVE from Leica Microsystems presents a series of beneficial new innovations, including a freely…
Convalaria

Introduction to Widefield Microscopy

This article gives an introduction to widefield microscopy, one of the most basic and commonly used microscopy techniques. It also shows the basic differences between widefield and confocal…

Optimization of the Interplay of Optical Components for Aberration Free Microscopy

Optical microscopes are used to magnify objects which are otherwise invisible for the human eye. For this purpose high quality optics is necessary to achieve appropriate resolution. However, besides…

Primary Beam Splitting Devices for Confocal Microscopes

Current fluorescence microscopy employs incident illumination which requires separation of illumination and emission light. The classical device performing this separation is a color-dependent beam…
Airy-Muster in der Fokusebene.

Was macht das Pinhole im konfokalen Mikroskop?

Diese kurze einführende Schrift soll die Bedeutung des Pinholes erläutern und ist für Leser gedacht, die nicht allzu viel Zeit mit der Theorie und den Details der konfokalen Mikroskopie verbringen…
Comparison when observing a rodent model organism with a Greenough versus CMO (common main objective) stereo microscope for a task like surgery.

Rodent and Small-Animal Surgery

Learn how you can perform rodent (mouse, rat, hamster) and small-animal surgery efficiently with a microscope for developmental biology and medical research applications by reading this article.
Image Guided Surgery

Navigating Through the Brain

One of the challenges of neurosurgery is orientation at the surgical site. When resecting tumors, removing arteriovenous malformations, or clipping aneurysms, surgeons often have to work near healthy…
Left: Tissue cells marked with an immunolabel (FITC) illuminated with wide-band UV excitation. Note the tissue structure with blue autofluorescence. Right: Same tissue and same immunostaining with FITC label illuminated with epi-illumination using narrow-band blue (490 nm) light. Note the increased image contrast (Ploem, 1967)

Milestones in Incident Light Fluorescence Microscopy

Since the middle of the last century, fluorescence microscopy developed into a bio scientific tool with one of the biggest impacts on our understanding of life. Watching cells and proteins with the…

Porous Ceramics - Sample Preparation for SEM

Application Note for Leica EM RES102 - Ceramic membrane filters with pore sizes down to a few nanometres must be investigated in cross-section with regard to the structure of the pores. The smallest…
HeLa cells stimulated with LPS. Image has been subjected to deconvolution.

Chronic Inflammation Under the Microscope

In the course of chronic inflammation certain body areas are recurrently inflamed. This goes along with many human diseases. With the help of widefield light microscopy, the underlying processes can…

What is OCT?

Optical Coherence Tomography (OCT) is a non-invasive, non-contact imaging modality used to visualize and monitor changes to the morphology of biological tissue. OCT employs low-coherence…
Wifi education solutions

Factors for Selecting Student Microscopes

If chosen carefully, educational microscopes will open windows to a cosmos of minute detail which delight young minds in schools and universities – and ideally keeps them fascinated enough to make…
Gene editing with Cas9

Gene Editing with CRISPR/Cas9 - Breakthrough in Genome Engineering

The CRISPR/Cas9 system is one of several different bacterial systems for defense against viral attacks. It consists of two main components. One is a small piece of RNA which binds to the viral target…

Paper Samples - Sample Preparation for SEM

Application Note for Leica EM RES102 - A coated paper sample has been prepared with ion beam slope cutting in order to test the procedure with regard to its applicability. With the use of ion beam…
Transgenic zebrafish larva where fluorescent proteins label the heart muscle blue, blood and blood vessels red, and all circulatory system cells green. Image recorded with a M205 FA microscope.

Imaging and Analyzing Zebrafish, Medaka, and Xenopus

Discover how to image and analyze zebrafish, medaka, and Xenopus frog model organisms efficiently with a microscope for developmental biology applications from this article.

Erfolgreiche endodontische Behandlung mit Dental-Operationsmikroskopen

In der Endodontie hängt die zielgerichtete Behandlung nicht nur von den technischen Fähigkeiten und dem Wissen des Zahnarztes ab. Es kommt auch auf die klare, detaillierte Visualisierung des…
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