Microfluidic three-dimensional cell spheroid co-culture chip technology
We introduce a hanging-drop-based microfluidic co-culture (μ-CCD) chip technology generating uniform 3D cell spheroids in top-layer hanging droplets, merging and co-culturing them in the bottom-layer hanging droplets. The liquid added to the confrontation channels contacts the droplets, overcomes the surface tension, and merges spheroids into the newly formed hanging droplets of the bottom layer, minimizing manual intervention that may affect the reproducibility and viability of cell spheroids.
Degradable Implantable Flexible Microelectrode Patch with High-Resolution Electrical Stimulation, Electrophysiological Signal Sensing, and Cellular Regenerative Therapy
A Wearable and Self-powered Multifunctional Module for Active Infectio n Prevention, Accelerated Wound Healing and Noninvasive Healing Moni toring
Demonstration of a Superior Deep-UV Surface-Enhanced Resonance Ram an Scattering (SERRS) Substrate and Single-Base Mutation Detection in O ligonucleotides
Direct Reprogramming of Human Fibroblasts into Retinal Progenitor Cells by Small Molecules to Treat Photoreceptor Degeneration Induced Blindness
Technology maturity:Prototype
Exhibiting purpose:Display of scientific results
Trading preferences:Negotiate by self
Coming soon!