THINCERT 96 WELL CELL CULTURE RECEIVER PLATE, PS, F-BOTTOM, CLEAR, TC, STERILE, LID WITH CONDENSATION RINGS, 8 PCS./BAG
THINCERT® 96 WELL HTS INSERT
The new ThinCert® 96 well HTS insert is the optimal tool for scientists who want to generate tissue models (e.g., endothelia and epithelia) for transport, uptake, or co-culture studies in submersed as well as air-lift culture with an automation-friendly format.
The two-component system comprises a 96 well porous membrane plate manufactured entirely from polycarbonate (PC) and a corresponding polystyrene (PS) receiver plate. The tissue culture treated PC membrane allows for an ideal exchange of nutrients and substances, creating in vivo-like cultivation conditions to facilitate optimal cell growth, monolayer formation, and tissue differentiation.
THINCERT 96 WELL RECEIVER PLATE, PS, F-BOTTOM, CLEAR, STERILE, LID WITH CONDENSATION RINGS, 8 PCS./BAG
THINCERT 96 WELL HTS INSERT, TC, STERILE, PERMEABLE PC MEMBRANE, PORE DIAMETER: 0.4 µm, WITH RECEIVER PLATE, F-BOTTOM, LID WITH CONDENSATION RINGS, SINGLE PACKED
THINCERT 96 WELL HTS INSERT, TC, STERILE, TRANSP. PC MEMBRANE, PORE DIAMETER: 0.4 µm, WITH RECEIVER PLATE, F-BOTTOM, LID WITH CONDENSATION RINGS, SINGLE PACKED
COMBINING THE BEST OF TWO WORLDS
THINCERT® HTS INSERT WITH OPTIMISED TRANSPARENCY (ITEM NO. 655641)
By combining high membrane permeability and best possible transparency, Greiner Bio-One is offering a unique 96 well insert version, exclusively designed for applications that require both high diffusion rates as well as microscopic readouts. This is assured by a special pore arrangement and a high pore density of 2 x 107/cm2.
Proven even better
ThinCert® HTS insert with translucent membrane (item no. 655640)
In addition, a product version featuring a translucent membrane and a pore density of 1 x 108/cm2 complements the portfolio for experiments that need highest diffusion rates while imaging is not required.
- Patented assembly technology – robust and reliable bonding of membrane
- Excellent membrane flatness – optimal and reproducible cell culture conditions
- Optimised fit – prevention of media wicking
- Enlarged access ports – convenient access for pipettes, robots and TEER electrodes