Remote epitaxy
Remote epitaxy offers a groundbreaking approach to producing single-crystalline, free-standing thin films. Our research forefronts advancements in remote epitaxy techniques for next-generation electronic devices.
Neuromorphic Computing
Our research in neuromorphic computing leverages sensors to capture real-time data, which is processed by algorithms inspired by human brain. This approach enhances the performance an efficiency of applications in robotics, autonomous driving and data analysis
Power electronics
Our research develops the highly efficient power GaN HEMT device on the heat sink layer via the remote epitaxy and two dimensional-layer-transfer technique, which effectively dissipates heat and ensures a high-quality buffer layer.
3D integration technology
3D integration is an architecture that stacks and interconnects multiple layers of devices. Our research explores solutions for achieving lower power consumption and reduced chip area in electronic devices through 3D integration.
Smart sensors
Our research investigates advanced sensor systems with AI-driven technology. We specifically explore the realm of intelligent sensors and artificial sensory systems that mimic the intricacies of the human system.
Micro LED display
Micro LED displays offer unparalleled visual clarity and energy efficiency and seamless integration into diverse applications. Our research explores the forefront of Micro LED technology, enhancing user experiences.
