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CLS3335-5EA
Sigma-Aldrich
Corning(R) CellBIND(R) Multiple Well Plate (C15-1351-715)
Price: $74.34List Price: $82.60Corning ® CellBIND ® Cell Culture Multiwell Plates Nonreversible lids with condensation rings to reduce contamination Individual alphanumerical codes for well identification Uniform footprint for ease in stacking CellBIND ® surface -
CLS3336-50EA
Sigma-Aldrich
Corning(R) CellBIND(R) Multiple Well Plate (C15-1351-716)
Price: $519.80List Price: $577.55Corning ® CellBIND ® Cell Culture Multiwell Plates Nonreversible lids with condensation rings to reduce contamination Individual alphanumerical codes for well identification Uniform footprint for ease in stacking CellBIND ® surface -
CLS3337-50EA
Sigma-Aldrich
Corning(R) CellBIND(R) Multiple Well Plate (C15-1351-717)
Price: $531.43List Price: $590.48Corning ® CellBIND ® Cell Culture Multiwell Plates Nonreversible lids with condensation rings to reduce contamination Individual alphanumerical codes for well identification Uniform footprint for ease in stacking CellBIND ® surface -
CLS3338-50EA
Sigma-Aldrich
Corning(R) CellBIND(R) Multiple Well Plate (C15-1351-718)
Price: $624.00List Price: $693.33Corning ® CellBIND ® Cell Culture Multiwell Plates Nonreversible lids with condensation rings to reduce contamination Individual alphanumerical codes for well identification Uniform footprint for ease in stacking CellBIND ® surface -
CLS3382-10EA
Sigma-Aldrich
Corning(R) HTS Transwell(R) 96 well permeable support system, accessory plates (C15-1351-760)
Price: $416.94List Price: $463.27Product is an accessory for the Corning ® HTS Transwell ® -96 Permeable Support system 96 individually isolated wells that are tc-treated (for cell attachment) and sterile For use in cell growth or assay steps of an experiment Used to -
CLS3383-10EA
Sigma-Aldrich
Corning(R) HTS Transwell(R) 96 well permeable support system, accessory plates (C15-1351-761)
Price: $299.39List Price: $332.65Product is an accessory for the Corning ® HTS Transwell ® -96 Permeable Support system Open plate for cell growth and feeding stage, sterile, not treated (for cell attachment) Removable sterile media stabilizer included to minimize -
CLS3583-10EA
Sigma-Aldrich
Corning(R) HTS Transwell(R) 96 well permeable support system, accessory plates (C15-1352-097)
Price: $391.22List Price: $434.69Product is an accessory for the Corning ® HTS Transwell ® -96 Permeable Support system Plate is treated for optimal cell attachment For use in cell growth or assay steps of an experiment Used for fluorescent evaluation When used with HTS -
CLS7369-5EAThe HTS Transwell-96 permeable support contains Transwell ® unit (1 integral tray with 96 wells), reservoir plate (for cell growth steps), receiver plate (96 wells for growth or assay steps) and 2 sterile lids 5 sets per case Application
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CLS3574-50EA
Sigma-Aldrich
Corning(R) NBS(TM) 384 well microplates (C15-1352-049)
Price: $922.29List Price: $1,024.76White wall plates are designed to reduce well-to-well crosstalk during luminescent assays Recommended working volume of up to 20 to 80μL Enhanced flatness provides low intra- and inter- plate CV′s. Nonbinding (NBS) surface is a Corning -
CLS3574BC-50EA
Sigma-Aldrich
Corning(R) NBS(TM) 384 well microplates (C15-1352-064)
Price: $1,100.57List Price: $1,222.86Non-Binding surface (NBS ™ ) multiwell plates have a modified polymer surface (PS) which results in a non-ionic hydrophilic surface (polyethylene oxide-like), thereby minimizing bio-interaction and enhancing the signal-to-noise ratio. Results -
CLS3575-50EA
Sigma-Aldrich
Corning(R) NBS(TM) 384 well microplates (C15-1352-065)
Price: $862.29List Price: $958.10Black wall plates have reduced autofluorescence, higher signal to background ratio and lower CV′s. Nonbinding (NBS ™ ) surface is a Corning proprietary treatment technology used on polystyrene microplates to create a nonionic -
CLS3575BC-10EA
Sigma-Aldrich
Corning(R) NBS(TM) 384 well microplates (C15-1352-082)
Price: $288.37List Price: $320.41Non-Binding surface (NBS ™ ) multiwell plates have a modified polymer surface (PS) which results in a non-ionic hydrophilic surface (polyethylene oxide-like), thereby minimizing bio-interaction and enhancing the signal-to-noise ratio. Results