A neuroprosthetic implant that uses existing nerve or muscle signals to replace damaged muscle and restores movement
Leveraging open-source AI platforms, this technology enables automated image-based detection, prediction, and control of microfluidic single bubble/droplet formation.
A microfluidic lung chip applies controlled mechanical forces to hydrogel-embedded lung cells or organoids to model lung development in vitro.
Valveless pump device implanted during the Fontan surgical procedure in patients with single-ventricle congenital heart disease.
A single metasurface to obtain enhanced images for various magnetic resonance nuclei and field.
An open-top microfluidic chip enables transplantation of human solid tumor explants into vascularized 3D tissue for controlled CAR-T perfusion, imaging, and analysis.
A microfluidic chip that models blood-brain barrier biology using brain vascular and supporting cells, with optional neural progenitors and controlled agent exposure and mechanical stretching capabilities.
Supramolecular crown ethers and fluorinated polymers enable the formation of high ionic conductivity, water-impermeable artificial ion channels for bioelectronic transistor applications.
Adaptation of emulsion precursor materials to enable three-dimensional printing of bijels via direct ink writing (DIW) and co-solvent vaporization.
A robotic arm capable of up to 100 different articulations (turns) despite being made of rigid material.