BMG LABTECH CLARIOstar microplate reader

Sunday, 01 July, 2018 | Supplied by: BMG LABTECH Pty Ltd



BMG LABTECH’s CLARIOstar multimode microplate reader with Atmospheric Control Unit (ACU) offers full flexibility in cellular assays, allowing scientists to independently regulate and ramp O2 and CO2 concentrations from 0.1–20% over time.

Combined with BMG LABTECH’s patented Linear Variable Filter (LVF) Monochromator technology, the CLARIOstar is not only said to be the most sensitive monochromator-based plate reader today, it is suitable for a wide range of applications such as long-term cell proliferation, migration and invasion studies, hypoxia and cytotoxity, pH control, viral uptake, microbial growth assays and measuring metabolic activity.

The versatility of continuously adjustable wavelengths and bandwidths means that users no longer need to choose between performance and flexibility. The modular microplate reader can feature up to six different detection modes with a dedicated full-spectrum UV/Vis spectrometer for absorbance, a high-energy laser for AlphaScreen and high sensitivity for fluorescence intensity (including FRET), fluorescence polarisation, luminescence (including BRET) and time-resolved fluorescence (including TR-FRET).

BMG LABTECH’s microplate readers are said to be reliable, provide high quality data output and increase productivity. Additional value is provided by lower reagent use, unlimited software licences, and free application and technical support.

For more information: www.bmglabtech.com/clariostar.

Online: www.bmglabtech.com
Phone: 03 5973 4744
Related Products

DMT Starter System tissue organ bath system for education

The sleek Starter System by DMT is a tissue organ bath that teaches students about the variation...

PCR Biosystems RiboShield RNase Inhibitor

PCR Biosystems' RiboShield RNase Inhibitor is now available as a standalone product. The...

Cayman Chemical Testosterone ELISA Kit

Cayman Chemical's Testosterone ELISA Kit is a competitive assay that can be used for the...


  • All content Copyright © 2020 Westwick-Farrow Pty Ltd