CLS3991
Corning® 96 well NBS™ Microplate
flat bottom, black polystyrene, bag of 5 ×, non-sterile, lid: no
Synonym(s):
cell culture plate, multi well plates, multiple well plates
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About This Item
UNSPSC Code:
41121800
NACRES:
NB.13
Material:
black bottom
black polystyrene
flat bottom
polystyrene
black polystyrene
flat bottom
polystyrene
Size:
96 wells
material
black bottom
black polystyrene
flat bottom
polystyrene
sterility
non-sterile
non-sterile
feature
lid: no
lid: no
skirt
plate format: 96 well standard
packaging
pack of 25
bag of 5 ×
manufacturer/tradename
Corning 3991
maximum volume
360 μL
size
96 wells
well volume
360 μL
well working volume
75-200 μL
working volume
200 μL
color
black
suitability
suitable for (cell cuture)
binding type
NBS™ (non-binding surface)
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General description
Non-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 have demonstrated NBS′s ability to significantly reduce protein and nucleic acid binding to polymers (<2 ng/cm2; over 90% reduction of protein binding compare to PS & PP surface), maintain enzyme activity, and inhibit adhesion of a number of cell lines. These novel surface technologies for assay plates are ideal for homogeneous assays such as Scintillation Proximity Assay (SPA). In addition to a 20+ fold increase in signal-to-noise ratio, selected assays have also displayed improved sensitivity and specificity. The recommended working volume of up to 75 μL to 200 μL for 96 well plates and 20μL to 80 μL for 384 well plates.
Legal Information
Corning is a registered trademark of Corning, Inc.
NBS is a trademark of Corning, Inc.
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Abdisalan M Noor et al.
BMC infectious diseases, 11, 121-121 (2011-05-17)
Countries aiming for malaria elimination require a detailed understanding of the current intensity of malaria transmission within their national borders. National household sample surveys are now being used to define infection prevalence but these are less efficient in areas of
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