We develop thin film transistors for next-generation displays and semiconductor chips. We also research synaptic transistors, tunneling FETs, and other semiconductor device applications for a wide range of applications, including artificial intelligence.

We study next-generation wearable electronics and electronic skin that detect vital sign or external stimuli for applications in robotics and bio. To this end, we conduct material and process development and device evaluation for flexible and stretchable devices.

We study charge transport mechanisms, bias temperature instability evaluation, and lifetime prediction of electronic devices based on physics and modeling. Through this, we understand the deterioration mechanisms of devices and achieve improvements in electrical characteristics and reliability.

We study organics, oxides, and various emerging functional nanomaterials. We also study deposition and patterning technology of nano-scale thin films. Through this, we implement next-generation electronic devices and improve the physical and electrical characteristics of the devices.