The Leica DMi8 inverted microscope, with built-in modularity, grows and adapts to ever-changing research needs. With this new concept, life scientists can custom-configure an inverted microscope now and upgrade it in the future for applications ranging from basic imaging to advanced fluorescence microscopy. The Leica DMi8 is equipped with an additional incident illumination port, the Infinity Port, which facilitates the integration of additional light sources and laser systems for advanced applications.
Researchers are looking to improve productivity and advance their research. Automated extraction allows scientists to focus on science instead of routine nucleic acid or recombinant protein purification. The Maxwell® 16 System offers automation through walk-away extraction that saves time and labor by eliminating reagent preparation, pipetting and centrifugation steps. It allows you to extract DNA or protein from up to 16 samples in 30 – 45 minutes. The Maxwell® 16 System makes Nucleic Acid and Protein extraction fast and simple.
The Olympus FluoView™ FV1000 is a next-generation imaging system designed for high-resolution, confocal observation of both fixed and living cells. The FV1000 offers advances in confocal system performance while providing the speed and sensitivity required for live cell imaging with minimal risk of damage to living specimens.
Milli-Q® Direct systems produce both pure (Type 3) and ultrapure (Type I) water directly from tap. The pure water is produced by reverse osmosis techniques designed and optimized by us before it is stored in a tank. Pure water can be sourced though a front valve of the tank or sent by a delivery pump to feed instruments such as a glassware washing machine, or further processed by the Milli-Q® Direct to produce ultrapure water.
The moorLDI2™ is still the most popular and versatile laser Doppler imaging system, equally at home in clinical and research environments.
moorLDI2-HIR™. The moorLDI2-HIR blood perfusion imager offers the highest spatial resolution of all Moor imagers with 256 x 256 measurements at 100 microns resolution. A focussed laser beam of diameter less than 100 microns is used, together with high resolution encoders in the position control of the laser beam scanning mirror.
The Multi Wire Myograph System – 610M myograph system. This 4-channel multi myograph system is a highly sophisticated yet robust research instrument. It is an easy-to-use system for in vitro studies of small and large blood vessels, trachea or gut mounted as larger ring preparations (up to 10 mm).
The MultiTherm shaker is a temperature controlled vortexer, useful for a variety of molecular biology applications.. Despite its modest 8 x 11 in. footprint, all popular tubes and plates are compatible, including as many as six 50ml tubes. Speed, time and temperature settings are continuously visible on the LCD, simultaneously showing both actual and selected values. Integral over-temperature control ensures long life, safety and sample integrity.
Nano-Series calorimeters represent the highest sensitivity and unmatched flexibility for the investigation of biological samples. The Nano ITC2G is focused on the measurement of ligand binding and reaction kinetics, with increased baseline stability and more tolerance to environment temperature fluctuations. New heat sensing architecture ensures the highest data quality for reproducible results using the new easy-to-use NanoAnalyze data analysis software.
·Improved baseline stability
·Stable reproducible baselines
·Improved temperature control and stability