Life Sciences Products & Reviews

For use as reservoir tray with HTS Transwell Permeable Supports TC-treated for cell attachment Same footprint as standard 24 well plate but with single rectangular well

(This is the suggested replacement for 3678) Square well top for easier robotic pipetting Round bottom for better Z factor and minimized trapped air Conical well molded in the shape of a light cone for efficiency Recommended working volume of 2 to 20 µL Black walls reduce well-to-well crosstalk and autofluorescence during fluorescent assays High binding surface is a general purpose surface that binds medium (>10kD) and l…

(This is the suggested replacement for 3677) Square well top for easier robotic pipetting Round bottom for better Z factor and minimized trapped air Conical well molded in the shape of a light cone for efficiency Recommended working volume of 2 to 20 µL Black walls reduce well-to-well crosstalk and autofluorescence during fluorescent assays Not treated (or medium binding) polystyrene surface is hydrophobic in nature and…

(This is the suggested replacement for 3674) Square well top for easier robotic pipetting Round bottom for better Z factor and minimized trapped air Conical well molded in the shape of a light cone for efficient Recommended working volume of 2 to 20 µL White walls reduce well-to-well crosstalk, enhance luminescent signals and have low background luminescence and fluorescence Not treated (or medium binding) polystyrene su…

(This is the suggested replacement for 3673) Square well top for easier robotic pipetting Round bottom for better Z factor and minimized trapped air Conical well molded in the shape of a light cone for efficiency Recommended working volume of 2 to 20 µL White walls reduce well-to-well crosstalk, enhance luminescent signals and have low background luminescence and fluorescence Nonbinding surface (NBS) is a Corning proprie…

(This is the suggested replacement for 3676) Square well top for easier robotic pipetting Round bottom for better Z factor and minimized trapped air Conical well molded in the shape of a light cone for efficiency Recommended working volume of 2 to 20 µL Black walls reduce well-to-well crosstalk and autofluorescence during fluorescent assays Nonbinding surface (NBS) is a Corning proprietary treatment technology used on po…

No logo or lettering for improved heat sealing and ease of liquid handling Low base designed for optional bottom reader sensitivity 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™ Not treated (or medium bi…

No logo or lettering for improved heat sealing and ease of liquid handling Low base designed for optimal bottom reader sensitivity 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™ Working volume of up to 10…

No logo or lettering for improved heat sealing and ease of liquid handling Low base designed for optimal bottom reader sensitivity Optically clear flat well bottom permits direct microscopic viewing Can be used for both top and bottom reading instruments Corning® CellBIND® surface treated for optimal cell attachment Sterilized by gamma radiation and certified nonpyrogenic Excellent signal dynamic range due to low backg…

This is the suggested replacement for 354771 and 356771. No logo or lettering for improved heat sealing and ease of liquid handling Low base designed for optional bottom reader sensitivity 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 includ…

No logo or lettering for improved heat sealing and ease of liquid handling Raised well bottoms for higher sensitivity 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™ Working volume of up to 10 µL Bar coded…

No logo or lettering for improved heat sealing and ease of liquid handling Raised well bottoms for higher sensitivity 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™ Working volume of up to 10 µL Bar coded…

No logo or lettering for improved heat sealing and ease of liquid handling Raised well bottoms for higher sensitivity 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™ Working volume of up to 10 µL Bar coded…

No logo or lettering for improved heat sealing and ease of liquid handling Raised well bottoms for higher sensitivity 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™ Working volume of up to 10 µL Bar coded…

No logo or lettering for improved heat sealing and ease of liquid handling Raised well bottoms for higher sensitivity 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™ Working volume of up to 10 µL Bar coded…

No logo or lettering for improved heat sealing and ease of liquid handling Raised well bottoms for higher sensitivity 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™ TC-treated for optimal cell attachment…

No logo or lettering for improved heat sealing and ease of liquid handling Raised well bottoms for higher sensitivity 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™ Working volume of up to 10 µL Bar coded…

No logo or lettering for improved heat sealing and ease of liquid handling Raised well bottoms for higher sensitivity 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™ TC-treated for optimal cell attachment…

High optical-quality glass bottom, black microplates are ideal for performing high content cell-based assays using imaging systems. The glass bottom provides a flat and optically clear surface that reduces autofocus time, increases throughput and is ideal for cell growth.High optical quality and scratch-resistant glassGlass bottom thickness of 200 µm is well suited for imaging microscopyWell bottom flatness Low background fluo…

High optical-quality glass bottom, black microplates are ideal for performing high content cell-based assays using imaging systems. The glass bottom provides a flat and optically clear surface that reduces autofocus time, increases throughput and is ideal for cell growth. High optical quality and scratch-resistant glass Glass bottom thickness of 200 µm is well suited for imaging microscopy Well bottom flatness Low backgro…

Corning® BioCoat™ Collagen I 96-well half area Black/Clear glass bottom plate is comprised of black TC-treated COC resin with a uniform application of rat tail collagen type I. Glass bottom, with lid, 1/bag, 10/case.High optical quality and scratch-resistant glassGlass bottom thickness of 200 µm is well suited for imaging microscopyWell bottom flatness Low background fluorescence and minimal crosstalk to provide the highest po…

Corning® BioCoat™ Collagen I 384-well Black/Clear glass bottom plate is comprised of black TC-treated COC resin with a uniform application of rat tail collagen type I. Glass bottom, with lid, 1/bag, 10/caseHigh optical quality and scratch-resistant glassGlass bottom thickness of 200 µm is well suited for imaging microscopyWell bottom flatness Low background fluorescence and minimal crosstalk to provide the highest possible opt…

Corning® BioCoat™ Fibronectin 96-well half area clear plate is comprised of black TC-treated COC resin with a uniform application of human fibronectin. Glass bottom, with lid, 10/caseHigh optical quality and scratch-resistant glassGlass bottom thickness of 200 µm is well suited for imaging microscopyWell bottom flatness Low background fluorescence and minimal crosstalk to provide the highest possible optical quality for cell b…

Corning® BioCoat™ Fibronectin 384-well black clear plate is comprised of black TC-treated COC resin with a uniform application of human fibronectin. Glass bottom, with lid, 10/case High optical quality and scratch-resistant glass Glass bottom thickness of 200 µm is well suited for imaging microscopy Well bottom flatness Low background fluorescence and minimal crosstalk to provide the highest possible optical quality for c…

Corning® BioCoat™ Poly-D-Lysine 96-well half area black/clear plate is comprised of black TC-treated COC resin with a uniform application of Poly-D-Lysine. Glass bottom, 1/pack, 10/aseHigh optical quality and scratch-resistant glassGlass bottom thickness of 200 µm is well suited for imaging microscopyWell bottom flatness Low background fluorescence and minimal crosstalk to provide the highest possible optical quality for cell…