Overview : ProMEPS™ Automated Microphysiology System combines advanced microfluidic technology with fully automated operation to support a wide range of human microphysiology models, including blood-brain barrier,...
Overview : The NanoCalibur™ nanoparticle synthesis system utilizes advanced microfluidic technology and a closed-loop feedback control system to achieve high-precision homogeneous synthesis of nanoparticles....
Function Overview : MEPS-TBC 3D organ chip integrates 2D vascular endothelium and 3D tissue culture, utilizing microfluidic technology to precisely regulate shear stress and mediator flow, and to...
Function Overview: The MEPS-TBC-CH 2D organ chip is made of polystyrene, with a size of 25 mm x 75 mm, and features a down-channel design that supports 2...
Functional Overview : MEPS-TBC-WL 3D organoids utilize a hybrid 2D and 3D tissue barrier modeling technology that can be loaded with a wide range of cells and substrates to simulate complex three-dimensional...
Function Overview : MEPS-VOC 3D organ wafer utilizes 2D and 3D hybrid co-culture technology to construct 3D microtissues with blood vessels, reproducing the real vascular structure and tumor...
