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Z724181

3D Biotek 3D Insert PS scaffold

for 12 well plates, 6 inserts

Synonym(s):

3D, 3D Cell Culture, 3D scaffolds, Scaffold, cell scaffolds

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About This Item

UNSPSC Code:
41122107
NACRES:
NC.41

material

clear polystyrene
clear wells

description

polystyrene (PS)

sterility

sterile

packaging

pack of 6 ea (6 inserts supplied in 12 well plate)

manufacturer/tradename

3D Biotek PS152012-6

size

12 wells

color

clear

pore size

200 μm (Fiber spacing)

binding type

non-treated surface

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General description

This is the ideal product for your daily 3D cell culture applications. 3D Insert PS is made from polystyrene, the same material as that of tissue culture plate. The combination of transparency of the material and the porous structure design of 3D Insert PS allows researchers to monitor the cell growth under an inverted light microscope without the need of using sophisticated equipment.

  • 12 well compatible
  • Fiber Diameter: 150u
  • Pore Size: 200u
  • 6 Inserts/Pack
3D Biotek offers cutting edge 3D cell culture products and technology at affordable prices. Now it is the right time to take advantage of our promotional offer and try our products. You will be amazed by how easy and convenient to use our 3D Insert cell culture scaffolds. Our 3D Insert cell culture scaffolds are:

  • Terminally sterilized by gamma irradiation and ready for use
  • Compatible with most of your current 2D assays
  • Easy for imaging. Cell growth can be monitored by light microscope, no need to purchase any additional sophisticated equipment.

Legal Information

3D Insert is a trademark of 3D Biotek, LLC

Certificates of Analysis (COA)

Search for Certificates of Analysis (COA) by entering the products Lot/Batch Number. Lot and Batch Numbers can be found on a product’s label following the words ‘Lot’ or ‘Batch’.

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Carlos E Caicedo-Carvajal et al.
Journal of tissue engineering, 2011, 362326-362326 (2011-11-11)
Isolation and amplification of primary lymphoma cells in vitro setting is technically and biologically challenging task. To optimize culture environment and mimic in vivo conditions, lymphoma cell lines were used as a test case and were grown in 3-dimension (3D)

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