MM Separator M96, uncoated
excl. VAT. | 1 unit(s) per Pack Qty.
Art. No. 2141.1
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Made from acrylic glas for optimal visual inspection needs, and from chemically resistant polyoxymethylene (POM) (versions “P”) for routine use of organic solvents.
MM-Separators are designed for optimal magnetic bead separation in terms of speed and bead pellet positioning, as well as stability and user-friendliness.
magtivio’s MM-Separators are intended for magnetic separation of MagSi beads from liquid samples for isolation and purification of nucleic acids and proteins, immunoprecipitation, immunoassays (ELISA), cell sorting, and purification of biomolecules.
MM Separator M96
MM-Separators M96 enable easy separation of beads from liquids for multiple sample processing with 8- or 12-channel pipettes. The separators hold 24 magnets that are placed for magnetic separation of beads in 96 wells.
MM-Separators M96 allow magnetic particles to be pulled to the side of wells for optimal access to the bottom and easy supernatant removal. The product is suitable for U- and V-bottom shaped 96 well microplates and for most PCR plates, skirted or semi- and non-skirted.
Application area: anual use with 96 well microplates and PCR plates.
Compatible with 8- or 12-channel multi-pipettes.
|Max. number of samples||96|
|L x W x H||12.8 x 8.6 x 2.5 cm|
- Subtotal: 0.00
|Art. No.||Version||Pack Qty.||Price||Quantity|
|2154.1||P version||1 unit(s)||
Delivery date currently unknown
Specific Application of Silica- and of Carboxylated Beads
|Bead surface||Silica beads||Carboxylated beads|
|Compatible Buffer Systems||Chaotropic buffers||PEG-based, low pH or chaotropic buffers|
|Binding Mechanism||Precipitation with chaotropic salts||Precipitation by polymers like PEG, divalent cations (e.g. Mg2+) or chaotropic salts|
|Elution||Low salt conditions||Low salt conditions or pH shift from acidic to alkalineconditions|
|Recommended use||Recommended in case chaotropic conditions can be applied.||Recommended if flexibility in buffer systems is necessary or if non-chaotropic conditions have to be applied. Results in higher purity and recovery rate under non-chaotropic conditions.|