에너지화학공학과

Functional Nanomaterials & Devices

• Our research focuses on the design and development of functional nanomaterials and devices through the hierarchical assembly of organic and inorganic components into well -defined micro- and nanostructures. By integrating solution-based “bottom-up” assembly with “top-down” lithographic strategies, we seek to achieve precise control over the organization of nanomaterials across multiple length scales. Beyond fabrication, we place strong emphasis on exploring the intrinsic properties of nanomaterials, including their electrical transport, mechanical robustness, and chemical stability. By systematically studying both the fundamental behavior of individual nanomaterials and the collective phenomena that arise in organized structures, we aim to establish scientific principles that link material properties with device performance, thereby enabling rational and application-oriented design. Ultimately, our vision is to translate these hierarchically engineered nanostructures into practical applications. In addition to electronics, optics, and biomedical devices, we focus on the development of flexible and multifunctional sensory systems that emulate human senses. Through this approach, we strive to create wearable and skin-attachable devices capable of perceiving diverse stimuli—including touch, sound, vision, taste, and smell—paving the way for transformative technologies in wearable electronics, healthcare monitoring, human-machine interfaces, and immersive AR/VR systems.