white, Flat bottom, Supplies, 96
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F96 MicroWell™ Plates
Thermo Scientific NuncMaxiSorp™ and PolySorp™ surfaces for solid phase immuno assays Non-treated surfaces for screening assays Working volume range: 50 - 250 µl/well
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Raised well rims Comes with high binding, TC-treated or non-treated surface Built to proposed industry standard footprint These solid black and white, opaque polystyrene plates are tested on a lot-to-lot basis for capacity and low fluorescent/ luminescent background. Plates have…
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Features low background fluorescence and minimal light scattering Reduces well-to-well crosstalk Conforms to standard microplate footprint and dimensions Working volume of 25 to 125 µL 96 well half-area NBS microplates use Corning's proprietary treatment technology for nonbinding surface on…
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Immobilizer™ Streptavidin Plates and Modules
Thermo Scientific NuncRapid coupling of biotinylated bio-molecules Streptavidin is covalently bound to the surface Ready to use Excellent binding capacity Minimal leaching of coupled biomolecules from the surface Binding site easily accessible Low non-specific binding High signal to…
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96 Well Half-Area Microplates
CorningBlack or white flat bottoms Reduced well-to-well crosstalk Non-sterile Microplates have half the growth area of standard 96 well microplates. Model 6928C15 (white bottom) enhances luminescent signals and has low background luminescence and fluorescence. It is designed to reduce well-to-well…
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96 Well CVG and Polymer Base Optical Bottom Plates
Thermo Scientific NuncWhite or black upper structure with polymer bottom plates combine the clarity of virgin crystalline polystyrene with optimal surface for a wide range of HTS applications Working volume range: 50 - 200 µl/well Optimum clarity for viewing well contents
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96 Well Half-Area Assay Plates
CorningSaves reagents Fits standard readers Polystyrene Unique half-area plates achieve assay miniaturization without using 384 well plates. Half-area plates can help save on rare and expensive reagents by reducing the amount of reagent needed per well, while still retaining the ability to be read in…