Corning® 384-well Clear Flat Bottom Polystyrene Not Treated Microplate, with Lid, Sterile
On demand
Order number :
3680
Corning® 384-well Clear Flat Bottom Polystyrene Not Treated Microplate, 20 per Bag, with Lid, Sterile
Not treated (or medium binding) polystyrene surface is hydrophobic in nature and binds biomolecules through passive interactions. It is suitable primarily for the immobilization of large molecules, such as antibodies, that have large hydrophobic regions that can interact with the surface.
Features
- Recommended working volume of up to 20 to 80 µL
- Conforms to standard microplate footprint and dimensions
- Not treated polystyrene surface is hydrophobic in nature and binds biomolecules through passive interactions
- Is suitable primarily for the immobilization of large molecules, such as antibodies, that have large hydrophobic regions that can interact with the surface
- Untreated microplates have a binding capacity of approximately 100 to 200ng IgG/cm²
There are no specifications
There are no report
You May Also Like
Nunc™ Edge™ 96-Well, Nunclon Delta-Treated, Flat-Bottom Microplate, With Lid, Case of 50
(Ex-work price)
$ 104 $ 152
$ 104 $ 152
In stock
Nunc™ MicroWell™ 96-Well, Nunclon Delta-Treated, Flat-Bottom Microplate, With Lid, Case of 50
(Ex-work price)
$ 275 $ 404
$ 275 $ 404
In stock
Thermo Scientific™ 96 Well Round (U) Bottom Plate, TC Surface, No Lid
(Ex-work price)
$ 197 $ 289
$ 197 $ 289
In stock
Corning® 384-well Flat Clear Bottom White Polystyrene Low Flange Poly-D-Lysine Coated Microplates
(Ex-work price)
$ 3,849
$ 3,849
On demand
Corning® BioCoat® Poly-D-Lysine 12-well Clear Flat Bottom TC-treated Multiwell Plate, with Lid
(Ex-work price)
$ 109
$ 109
On demand
Corning® 384-well Low Flange White Flat Bottom Polystyrene TC-treated Microplates, with Bar Code, with Lid, Sterile
(Ex-work price)
$ 646
$ 646
On demand
BRANDplates® Microtitration Plates, 96-well, CellGrade™ Plus, White, F-Bottom, Transparent Bottom, BIO-CERT® Cell Culture Sterile, 1 pack = 5 piece(s)
(Ex-work price)
$ On demand
$ On demand