Nanofiber Well Culture Plates

Patent-pending electrospun fibre multiwell plates for high-throughput cell culture, cancer research, stem cell, and regenerative medicine

  • True 3D cell culture surfaces
  • Available in three orientations
    • NanoAligned – aligned fibre matrix – mimics white matter of the brain
    • NanoECM – random orientation – mimics native decellularised tissue
    • NanoHep – increases viability and enzyme expression for hepatocytes
  • No special media or reagents needed for use
  • Batch to batch consistency
  • Plates are plasma surface treated and ready to use directly out of the package for tissue culture work
  • Approximate diameter of the nanofiber polymers are 700nm
  • The thickness of the fibre layers on the bottom of the plate is ~20µm thick
  • Custom manufactured scaffolds for large bioreactors and in vivo tissue engineering applications are also available
  • Plate types available include 6 , 24 , 96 and 384 well plate

Product Numbers

Product                NanoECM                NanoAligned                NanoHep
6 well plate                0601                           0602                          0601N
24 well plate              2401                           2402                          2401N
96 well plate              9601                           9602                          9601N
384 well plate            38401                        38402                       38401N

Nanofiber Solutions

Nanofiber Solutions designs and manufactures complex three-dimensional (3D) structures. Their platform technology mimics the extracellular matrix found within the body, providing a realistic environment for all types of cells whether in the body or on a lab bench. Their fibre products are patent pending and are ideal for use in high throughput cell culture, cancer research, stem cell and regenerative medicine. In addition to their range of standard products, Nanofiber Solutions can also design custom scaffolds for large bioreactors and in vivo tissue engineering applications.