Thermo 384-Well Magnet Plates
- Make Thermo
- Hertz Does Not Apply
- Model 384-Well magnet Plates
- Serial N/A
- Weight 1.0 Lb
- Voltage Does Not Apply
- Warranty 30-Day Warranty, 100% Parts and Labor
- Dimensions 6.0in x 5.0in x 1.0in
- Shipping Type FedEx Ground
- Item Condition VG (Very Good)
- Manufacturing Date Does Not Apply
Product Information
The Thermo 384-Well Magnet Plates are designed for magnetic bead separation, featuring 384 wells with a standard, flat bottom and 425 round posts. The plate is compatible with BioTek Plate Washers and can be used for various applications such as DNA and protein assays, cell isolation, and purification. This used equipment is in very good condition, with a 30-Day Warranty, and can confidently support warranty as it functions as intended. The plate has 52MGO neodymium (NdFeB) magnets, a red anodized aluminum frame, and gripper accessible. It is perfect for laboratories conducting high-throughput magnetic bead-based assays.
Key Features- 384 wells with a standard, flat bottom and 425 round posts
- 52MGO neodymium (NdFeB) magnets
- Red anodized aluminum frame, gripper accessible
- Compatible with BioTek Plate Washers
- 30-Day Warranty
- Plate Type: Standard
- Well Bottom Shape: Flat
- No of Magnets: 425 Round Posts
- Magnet Strength: 52MGO
- Magnet Type: Neodymium (NdFeB)
- Frame Material: Red Anodized Aluminum
- Pellet Location: 4 Sided
- Post Diameter: 3.1mm
- Magnetic Orientation: Axial North Poles Up
- Gripper Accessible: Yes
- SLAS Base: No
Metric: 2.72 kg
Imperial: 6.0 lb
Metric: 30.48 cm x 27.94 cm x 20.32 cm
Imperial: 12.0 in x 11.0 in x 8.0 in
903180
Harmonized Code Details903180 - Other instruments and apparatus for physical or chemical analysis
Testimonials
“REUZEit has been a great partner for our used equipment needs and always provide timely updates of new arrivals of consigned equipment.”
“Great company to work with. Tammy completed our first international equipment shipment with ease.”
“Fast response, open to adjusting schedule as needed, and great customer interaction.”