Formulation Development

Ergonomic system microscope Leica DM1000 LED

The Leica DM1000 LED features long-life LED illumination that provides near daylight, bright illumination with constant color temperature and emits less heat.

The LED also eliminates the need for lamp changes, which saves time and money. Because of its low power consumption, the system is energy efficient. Users of the Leica DM1000 LED benefit from the system’s ability to uniquely adapt to every user.

It is ideal for all clinical laboratory applications, especially for cytology, haematology, and pathology. For special diagnostics requirements, the microscope is certified for in-vitro-diagnostics (IVD) like in-vitro-fertilization (IVF).

The LevMixer™ 10 L single-use mixing system is a low volume mixer designed for both upstream and downstream applications.

The THUNDER Imager Tissue allows real-time fluorescence imaging of 3D tissue sections typically used in neuroscience and histology research. Acquire rich, detailed images of thick tissues free of haze from out-of-focus blur.

Even fine structures deep in tissues can be resolved thanks to Computational Clearing, an innovative Leica technology. Image detailed morphological structures like axons and dendrites of neurons in a brain slice. The high image quality, even with thick tissue sections, is combined with the well-known speed, fluorescence efficiency, and ease of use of widefield microscopes.

Color CMOS Camera K5C

The powerful, focused research choice

When small details make all the difference, the K5C microscope camera gives you the power to find them. The color CMOS camera of choice for the materials and life science research expert, the K5C helps you to distinguish, study and document the small details in high resolution.

The K5C enables you to capture high-resolution images at any magnification level due to its 20 MP CMOS sensor. You’ll get insights and results for live images fast, thanks to the frame rate of 32 fps, helping you use speed to your imaging advantage.

STELLARIS 8 CRS Coherent Raman Scattering Microscope 

When you need to study structures that cannot be visualized with traditional fluorescent microscopy methods, the STELLARIS 8 Coherent Raman Scattering (CRS) microscope enables you to implement label-free chemical imaging into your workflow to answer those challenging research questions.

Filterless readers provide consistent results with steady temperature regulation

The SpectraMax® ABS and ABS Plus absorbance microplate readers provide the flexibility, sensitivity, and convenience for a wide range of assays such as ELISAs, microbial growth, and protein quantitation. Both readers feature an 8-channel read head for fast reads and a subset feature, the temperature independent PathCheck sensor that automatically normalizes and ensures accurate absorbance values by detecting pipetting errors. Combined with a wide application base, industry-leading SoftMax® Pro Software and validation tools, these readers fit in every lab and every budget.

Uniquely Ergonomic System Microscope Leica DM1000

The ergonomically designed Leica DM1000 with adjustable features and easy-to-use controls adapts to every user to improve comfort and convenience while working at the microscope.

Featuring high-quality optical performance, the Leica DM1000 is ideal for all clinical laboratory applications, in particular cytology, haematology, and pathology. For special diagnostics requirements, the microscope is certified for in-vitro-diagnostics (IVD) like in-vitro-fertilization (IVF).

Its advanced capabilities, including fluorescence, make it well suited also for complex tasks.

Next-generation fluorescent imaging solution for the assurance of monoclonality and automated confluence across diverse cell types

Demonstrating that cell lines are monoclonal – or that a gene was edited as expected – can be a time-consuming and highly-subjective process when relying on conventional technologies. The CloneSelect® Imager and CloneSelect® Imager FL are a high-throughput automated solutions for imaging and analyzing mammalian cells. Tracking the formation of a colony from a single cell is effortless as barcoded plates are tracked over time. Automated acquisition and analysis provides accurate, objective, and consistent results.