Corning® 384 Well Low Flange Black Flat Bottom Polystyrene NBS™ Microplate, 10 per Bag, without Lid, Nonsterile by Corning Life Sciences

4.7
/
5.0
  |  1 reviews
• Black 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 hydrophilic surface (polyethylene oxide-like) that minimizes molecular interactions • Ideal for reducing protein and nucleic acid binding at low concentrations, and increasing assay signal to noise


Corning® 384 Well Low Flange Black Flat Bottom Polystyrene NBS™ Microplate, 10 per Bag, without Lid, Nonsterile by Corning Life Sciences product image
Corning® 384 Well Low Flange Black Flat Bottom Polystyrene NBS™ Microplate, 10 per Bag, without Lid, Nonsterile
Request Pricing

Receive your quote directly from the manufacturer.




Average Rating: 4.7
1 Scientist has reviewed this product

5 out of 5
Ease of use
5 out of 5
After sales service
4 out of 5
Value for money


  • Status:

    Advanced Reviewer
  • Member since: 2014

  • Organization: Northwestern University



  • Ease of use
    5 out of 5
    After sales service
    5 out of 5
    Value for money
    4 out of 5
Rating: 4.7

  • Application Area: Fluorescent polarization/anisotropy assay

"We've tested several brands of plates with non-binding surfaces and found Corning's NBS plates to have the best signal to noise for Fluorescent polarization/anisotropy assays. Though a little pricier than other brands we found them well worth the higher price."

Review date: 10 Jul 2015 | Corning® 384 Well Low Flange Black Flat Bottom Polystyrene NBS™ Microplate, 10 per Bag, without Lid, Nonsterile

• Black 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 hydrophilic surface (polyethylene oxide-like) that minimizes molecular interactions
• Ideal for reducing protein and nucleic acid binding at low concentrations, and increasing assay signal to noise