Test
Manufactured from clear medical grade polystyrene for strength and visibility. Corning™ Clear Polystyrene 96-Well Microplates present an excellent solution for cell culture and colorimetric (absorbance) assays. Use 96-well microplates for laboratory miniaturization and automation.
Choose from four binding surfaces of these 96-well plates for reliable and reproducible results in colormetric assays.
Array | 8 x 12 |
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No. of Wells | 96 |
Format | Standard |
Plate Blocking | None |
Product Type | Microplate |
Color | Clear |
Material | Polystyrene |
Sterility | Non-sterile |
Detection Method | Colorimetric |
Conduct quantitative and qualitative immunoassays like ELISA and binding assays with these white, 96-well immuno plates.
Array | 8 x 12 |
---|---|
No. of Wells | 96 |
Format | Standard |
Product Type | Microplate |
Color | White |
Manufactured from clear medical grade polystyrene for strength and visibility. Corning™ Clear Polystyrene 96-Well Microplates present an excellent solution for cell culture and colorimetric (absorbance) assays. Use 96-well microplates for laboratory miniaturization and automation.
Manufactured from clear medical grade polystyrene for strength and visibility. Corning™ Clear Polystyrene 96-Well Microplates present an excellent solution for cell culture and colorimetric (absorbance) assays. Use 96-well microplates for laboratory miniaturization and automation.
Array | 8 x 12 |
---|---|
No. of Wells | 96 |
Format | Standard |
Volume (Metric) Working | 75 to 200 μL |
Color | Clear |
Material | Polystyrene |
Binding Type | Not Treated |
For diagnostics and immunological research applications. Greiner Bio-One 96-Well High Binding Standard ELISA Microplates is free of detectable DNase, RNase, human DNA.
Array | 8 x 12 |
---|---|
No. of Wells | 96 |
Format | Standard |
Color | Clear |
Surface Treatment | Microlon 600 |
Material | Polystyrene |
Binding Type | High Binding |
Manufactured from medical grade polystyrene for strength. Corning™ 96-Well Black or White Polystyrene Microplates are used for florescent and luminescent assays. Lot tested for opacity and low fluorescent/luminescent background.
No. of Wells | 96 |
---|---|
Volume (Metric) Working | 75 to 200 μL |
Material | Polystyrene |
Well Shape | Flat Bottom (F-well) |
Sterility | Non-sterile |
Accessory for the HTS Transwell™-96 Permeable Support system
Saves on valuable reagents by reducing the amount of reagent required per well, while retaining the ability to be read in standard microplate readers. Corning™ 96-Well Half Area Microplates are an economical solution for all of your assay diagnostic needs and are available in different colors and treatments.
Manufactured from clear medical grade polystyrene for strength and visibility. Corning™ Clear Polystyrene 96-Well Microplates present an excellent solution for cell culture and colorimetric (absorbance) assays. Use 96-well microplates for laboratory miniaturization and automation.
Untreated surface is hydrophobic in nature and binds bio-olecules through passive interactions. Corning™ Costar™ Clear Multiple Well Plates provide an ideal solution for immobilization of large molecules, such as antibodies, that have large hydrophobic regions that can interact with the surface.
Format | Standard |
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Lid | With Lid |
Color | Clear |
No. per Case | 100/Cs. |
Surface Treatment | Non-treated |
Material | Polystyrene |
No. per Pack | 5/Pk. |
Well Shape | Flat Bottom (F-well) |
Sterility | Sterile |
Binding Type | Medium Binding |
Allow miniaturization of assays and other applications including high-volume DNA library manipulation and solid-phase binding
For consistent performance in binding assays. Greiner Bio-One MICROLON™ 600 High Binding 96-Well ELISA Assay Microplates are free of detectable DNAse, RNase and human DNA.
Perform applications which are delivering well-to-well reproducibility with Immuno Clear Standard Modules. Manufactured to fit standard equipment.
Ideal for work with nonpolar proteins and peptides. Greiner Bio-One 24 Well No-Bottom Microplate features chimney-well design to help prevent cross-contamination.