Formulation Development

Uniquely Ergonomic System Microscopes With Intelligent Automation Leica DM3000 LED

Enhance Laboratory Workflow

The Leica DM3000 LED microscopes for pathology, cytology, haematology and many other applications feature a motorized nosepiece, condenser head, automated light intensity adjustment, and optional foot pedal. These intuitive microscopes improve workflows significantly. For special diagnostics requirements, the microscope is certified for in-vitro-diagnostics (IVD) like in-vitro-fertilization (IVF).

Leica DM750 Binocular

For a Student Friendly Classroom Environment

The Leica DM750 is the ideal microscope for the versatile needs of advanced college and university life science courses and professional training in medical, veterinary and dental schools.

Leica DM2000 LED - Ergonomic System Microscopes for Complex Clinical Applications

Measure heat flow, weight loss, dimension change, or mechanical properties as a function of temperature.

Our comprehensive pharmaceutical development service offering includes new drug development, early stage formulation and analytical development for both highly potent and non-potent drug products.

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.

Improve precision in ADME and Toxicology applications with a low-drug-absorption profile.

Nanoform’s award-winning Controlled Expansion of Supercritical Solutions (CESS®) technology is a bottom-up nanoparticle engineering approach that enables the creation of API nanoparticles and can unlock the full therapeutic potential of small molecule drugs.