Corning® 384-well High Content Imaging Film Bottom Microplate, with Lid
On demand
Order number :
4681
Corning® 384-well High Content Imaging Film Bottom Microplate, with Lid
High optical quality Cyclic Olefin film black microplates are ideal for performing high content cell-based assays using imaging systems. With an ultra-clear film, a 127 µm film thickness, and an unprecedented flatness (whole plate and intra-well), these microplates are ideal for high resolution cellular imaging applications. The microplate and film are manufactured from cyclic olefin copolymer (COC), which has excellent optical properties, chemical resistance, and mechanical stability.
Features
- High optical quality Cyclic Olefin film
- Film bottom thickness of 127 µm is well suited for imaging microscopy
- Well bottom flatness <50 µm to ensure planarity for imaging devices
- Low background fluorescence and minimal crosstalk to provide the highest possible optical quality for cell based assays
- 384 well microplate geometry eliminates reagent loss due to wicking
There are no specifications
There are no report
You May Also Like
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
Nunc™ Edge™ 96-Well, Nunclon Delta-Treated, Flat-Bottom Microplate, With Lid, Case of 50
(Ex-work price)
$ 104 $ 152
$ 104 $ 152
In stock
Corning® 384-well Low Flange White Flat Bottom Polystyrene TC-treated Microplates, with Lid, Sterile
(Ex-work price)
$ 614
$ 614
On demand
Sarstedt™ lumox® multiwell, Cell Culture Plate, With Foil Base, 384 well, 1 piece(s)/blister, 4 piece(s)/inner box
(Ex-work price)
$ On demand
$ On demand
On demand
Corning® BioCoat® Collagen I 96-well White/Clear Flat Bottom TC-treated Microplate, 80/Case
(Ex-work price)
$ 1,586
$ 1,586
On demand
Nunc™ Edge™ 96-Well, Non-Treated, Flat-Bottom Microplate, Case of 160
(Ex-work price)
$ On demand
$ On demand