96-Well Low Elution Ring Magnet Plate for PCR Microplates
The Permagen 96-well low elution ring magnet plate was designed for use in manual or automation applications for Low Elution PCR assays down to 5 µL
Features
Low Elutions
As low as 5 µL separations from 96-well PCR plates
Fast Separations
Strong NdFeB Ring Magnets ensure fast, precise separations
Integrated Cushion (Now Available)
Cushion base compensates for labware and consumable inconsistencies
Robot Friendly
SBS/ ANSI footprint to fit into all liquid handling robots
Unique magnet design
- Unique magnet structure drives PCR plates to proper location on the magnets which is critical when working in low volumes
- Fast bead separations using strong NdFeB magnets
- Compatible with standard 96- well PCR Plates
- Side cuts allowing liquid handling robot gripper
- ANSI/ SBS compliant footprint to fit into all liquid handlers
- Integrated cushion base to help compensate for robot and labware inconsistences (available soon)
- Made in the USA
Compatibility
This magnet was designed to be compatible with common microplates, all liquid handler robots, and any magnetic beads
FAQ
Will this fit my Liquid handling robot
Yes, this plate has a standard SBS/ ANSI compliant footprint to fit into any liquid handler nest
Is this product available for private labeling?
Yes, all Permagen products are available to be private labeled with your company logo/ part numbers for resale
How Can I purchase this Product
Products can be purchased at our online shop, via. purchase order, over the phone, or by requesting a quote
What is the benefit of aluminum product?
Aluminum is much easier to make precision products out of then plastic. It stays flat and wont warp. This leads to more consistent results
Where are the beads pelleted?
Beads will form into approximately a 2 mm ring just above the well bottom
What microplates can I use
This plate accepts 96-Well PCR plates
When will this be available with the springs?
The cushion version is now available. Note: We do not use springs as they may corrode in a lab and fail. We use opposing magnets to achieve the cushioning affect
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