Plates, No, Flat bottom, Bottles
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Treated or non-treated surface models Black or clear versions Can be used for both top and bottom reading instruments 96 Half-Area Well microplates are available in a range of configurations. Bottoms are 60% thinner than conventional polystyrene plates resulting in lower background fluorescence…
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Meets 384 well microplate standards for automation Low water absorption of polymer prevents loss of protein drop volume The CrystalEX 384-well is the only microplate designed for full automation in crystal screening, built to meet industry standards for 384 well microplate footprint and…
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384 Well Plates
Thermo Scientific NuncFour times more wells in the same footprint as 96 well plates MaxiSorp™ surface Available in white, clear or black Total volume per well: 120 µL 384 well plates allow miniaturization of assays and are compatible with robotics, automated readers and liquid handling systems. Plates are…
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Immuno™ Clear Standard Modules
Thermo Scientific NuncPerform applications which are delivering well-to-well reproducibility with Thermo Scientific™ Immuno Clear Standard Modules, which feature Nunc™ module plates developed for ELISA techniques. Manufactured to fit standard equipment, modules provide flexible use of components with small…
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Fluorescent and luminescent assays Raised well bottoms for higher sensitivity Flood reservoirs reduce contamination Corning® 1536 well microplates are the highest density microplates available for high throughput screening while conforming to standard microplate footprint and…
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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…
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Well, Plate
CorningCorning® Special Optics 96 Well Microplates have black walls with ultra thin, clear bottoms for sharp, clear images and minimal background in fluorescent assays Designed to reduce well-to-well crosstalk during fluorescent assays Can be used for both top and bottom reading instrument …
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Black, flat bottom Nonbinding surface 360 µL well volume Bottoms are 60% thinner than conventional polystyrene plates, resulting in lower background fluorescent and enabling readings down to 340 nm. Microplates are designed to reduce well-to-well crosstalk during…
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Superior performance compared to competitor plates: Lower CVs, higher signal-to-noise ratios, and Lower background fluorescence Processed for superior flatness with minimal variability within plate and between plates Non-sterile Without lid
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Designed for sitting drop crystallization Meets 96 well microplate standards for automation Low water absorption of polymer prevents loss of protein drop volume Microplate is manufactured from an advanced polymer with high resistance to commonly used solvents, including acetone,…
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Stacked plates can be easily separated Working volume up to 1.5 µL Extra wells can be used as controls Treated or untreated versions available Low volume microplates are primarily suited for the immobilization of large molecules, such as antibodies, that have large…
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Excellent signal dynamic range due to low background fluorescence and enhanced signal intensity Superior flatness minimizes variability within a plate and between plates Flat bottom wells are compatible with automated dispensers including the PerkinElmer FlexDrop™ NBS…
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Conical flat bottoms 1 Protein well 1 Reservoir The 96 wellCOC Protein Crystallization Microplate features 1:1, 4 µL conical flat bottom wells treated for hydrophilicity. Each well contains one 4 µL conical flat bottom protein well and one 100 µL reagent…
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Black with clear flat bottom Working volume 5-40 µL Round well design reduces wicking Non-binding (NBS) surface is a Corning proprietary treatment technology used on polystyrene microplates to create a non-ionic hydrophilic surface (polyethylene oxide-like) that minimizes molecular…
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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…
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1536 Well Black with Clear Flat Bottom Polystyrene NBS Microplate Compatible with standard readers and automation Compatible for bar coding Superior performance compared to competitor plates: Lower CVs, higher signal-to-noise ratios, and lower background fluorescence NBS surface can reduce…
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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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Round or flat bottoms Sterile or non-sterile versions Polypropylene Model 6928F08 is a clear, round bottom, untreated microplate. It is sterile and certified DNase- and RNase-free. It is resistant to many common organic solvents (e.g., DMSO, ethanol, methanol) and has a total well volume of 95…
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White wall plates are designed to reduce well-to-well crosstalk during luminescent assays Recommended working volume of up to 20 to 80uL Enhanced flatness provides low intra- and inter- plate CV’s Nonbinding (NBS) surface is a Corning proprietary treatment technology used on…
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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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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…