Synergy Neo2 and Synergy H1 Now Available with Expanded Temperature Control Range

July 28, 2021

Now with temperature control up to 70 ºC, BioTek’s Synergy Neo2 Hybrid Multi-Mode Reader and Synergy H1 Hybrid Multi-Mode Reader aid in more assay workflows than ever before. Application flexibility extends to enzyme kinetics, protein stability and aggregation, and projects incorporating loop mediated isothermal amplification (LAMP) assays.
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BioTek's Cytation 7 Cell Imaging Multi-Mode Reader Named ‘Best New Drug Discovery & Development Product’ at Scientists’ Choice Awards

May 5, 2021

BioTek Instruments is pleased to announce that the Cytation 7 Cell Imaging Multi-Mode Reader was awarded ‘Best New Drug Discovery & Development Product’ of 2020. The honor was voted upon by SelectScience members across the world and celebrated at the 2021 Scientists’ Choice Awards online awards ceremony.
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New Cytation C10 Confocal Imaging Reader

February 2, 2021

BioTek Instruments, a part of Agilent, is excited to unveil the Cytation C10, an advanced, automated Confocal Imaging Reader. This versatile and multi-functional automated system is ideal for research laboratories and core facilities looking to increase productivity while reaping high-quality qualitative and quantitative data to support cell-based research.
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BioTek Receives Patent for Automated Media Exchange (AMX) Module for the MultiFlo FX Multi-Mode Dispenser

January 28, 2021

BioTek Instruments, an Agilent Technologies, Inc., company, announces that it was granted a patent by the United States Patent and Trademark Office for the Automated Media Exchange (AMX) module for the MultiFlo FX Multi-Mode Dispenser. In cell biology workflows, the automated MultiFlo FX with AMX module enables hands-free, gentle, and highly consistent media exchanges and washing in 96- and 384-well microplate formats without disturbing sensitive cells. This promotes viability and long-term differentiation in 3-dimensional (3D) cell culture models as well as effective maintenance of loosely adherent 2-dimensional (2D) cell cultures.
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