Research SummaryÂ
Soft and conductive nanocomposites with advanced electrochemical properties
Soft and flexible biomaterials for biomedical applications
Ongoing projects
Injectable nanofibers
Ultrathin, injectable nanofiber with IV catheter
High conductivity and stretchability
Heart, brain, muscle, and gastric stimulation
Liquid metal-based microfibers
Liquid metal/nanocomposite microfiber
High and stable conductivity under strain
Phase-transition on RT for minimally invasive implantation
Soft nanocomposite with magnetic actuation
Iron oxide nanoparticle-doped Ag nanowires
Soft, conductive, and active with external magnetic force
Programmable circuits for implantable electronics
Soft implantable electronics w/ wireless power transfer
Stable wireless power transfer with PT-symmetry
Liquid metal-based stretchable antenna and electonics
Machine-learning based optimized pacing on swine
Big data collection with +32 channel epicardial electrode array on swine model
Optimize pacing protocol with supervised machine-learning program
Heart failure treatment with subthreshold stimulation
Mild heart remodeling with chronically implantable epicardial electronics
Adhesive and conductive hydrogel
Prevent DCM and HFpEF