Flexible and stretchable electronic systems enable intimate integration with biological tissues. At Flexonic Lab, we develop advanced systems that combine flexibility, stretchability, and high functional density for next-generation wearable and implantable medical devices. Our research spans materials, mechanics, and system-level architectures to achieve robust performance even under extreme deformation.
We aim to revolutionize bioelectronics through AI-powered sensing, analysis, and adaptive response. By integrating real-time AI algorithms into wearable and implantable devices, we enhance the precision and efficiency of physiological monitoring and targeted therapies. Flexonic Lab focuses on developing intelligent bio-systems that adapt to users’ needs across diverse biomedical environments.
Our work in advanced semiconductor research explores cutting-edge materials such as ferroelectric and spintronic devices to achieve ultra-low-power, high-speed, and high-density computing. We focus on hybrid architectures that bridge traditional silicon platforms with neuromorphic computing paradigms, including in-sensor computing and AI accelerators. The goal is to develop disruptive semiconductor technologies for future electronics and bio-integrated systems.