ALPAQUA Magnum FLX® Enhanced Universal Magnet Plate

Product Code: A000400

One Magnet Plate for Many Applications

  • Almost any 96-well microplate, any robotic platform
  • Large sample volumes, low elution volumes
  • Powered by Solid-Core Ring Magnets

ALPAQUA strongest 96-well magnet plate containing proprietary Solid-Core ring magnets yields the fastest magnetic bead separation with reaction volumes as large as 2 mL and elution in as little as 10 µl. Compatible with virtually all 96-well microplates. Integrated Spring Cushion Technology enables optimum performance on robotic platforms.

Key Features of the Magnum FLX®

  • Solid-Core ring magnets enable the fastest separation
  • Low to high reaction volumes
  • Elution volumes as low as 10 μL
  • Accommodates most 96-well microplate types
  • Universal liquid handler compatibility
  • Integrated Spring Cushion Technology

Fastest Separation & Resuspension of Beads

  • The Magnum FLX plate 96- well magnet combines the high-performing features of all Alpaqua magnet plates with new Solid-Core ring magnets. The increased magnetic material and the lower location of the magnetic ring makes this our strongest and fastest 96-well magnet plate.
  • The universal nature of the Magnum FLX magnet plate and high level of performance provide for better results while directly translating into time and cost savings.

Up to 4.5x Faster Separation
No other single magnet plate enables rapid separation of samples up to 2 mL in volume and elution in as little as 10 µl. The unique geometry and strength of Solid-Core ring magnets in the Magnum FLX magnet plate can facilitate up to 4.5x faster separation than our 96S Magnet Plate.

Designed with Automation in Mind

  • SBS footprint and elevated base for maximum liquid handler compatibility, and integrated Spring Cushion Technology

Why do I need Spring Cushion Technology?
Alpaqua microplates with integrated Spring Cushion Technology give way when tips come in contact with a well bottom, thus compensating for physical tolerances between labware and pipettors that can compromise precision aspiration.

  • Protects instruments & consumables
  • Improves pipetting consistency
  • Maximizes usage of reagents & samples
  • Minimizes tip vacuum & head contamination
  • Accelerates automated method development