Bio-Medical application

Our team is conducting optogenetics research using a direct invasive approach to the brain. We are developing a technology that stimulates specific neurons using implanted OLEDs and detects the resulting electrical signals. Furthermore, to apply this technology to the treatment of neurological disorders, we are developing an implantable optical stimulation system with flexibility and stretchability to enhance compatibility with neural tissues and ensure long-term stability. This involves advancements in ultra-thin OLED durability and precise control of the optical-electrical signal interface. Through this research, we aim to provide more precise and effective neural modulation technologies, paving the way for new possibilities in neurological treatment and rehabilitation.

Our team is developing advanced phototherapy technologies aimed at wound healing, skincare, cancer treatment, and neurological disorder therapy. By leveraging specific wavelengths of light, we are optimizing cellular activity to enhance therapeutic outcomes. To further improve the effectiveness of phototherapy, we are investigating light delivery mechanisms. For deeper skin penetration, we are designing high-transmittance light sources and optimized irradiation methods, taking into account the optical absorption characteristics of biological tissues. Additionally, we are exploring brain light stimulation, where exposure to specific wavelengths activates neural circuits through the retina and optic nerve. This approach is being refined through studies on light intensity, frequency, and exposure duration, with the goal of applying it to neurodegenerative disease treatments. Through these advancements, we aim to establish a more precise and versatile phototherapy platform, expanding its potential across medical and wellness applications.