Functional Nanostructures Research Lab
In the Functional Nanostructure Research Lab, organic and inorganic materials are implemented as low-dimensional nanostructures to study changes in structural, electrical, and optical properties according to changes in physical size. In addition, Opto-electronic devices using these nanostructures are manufactured and applied to various applications such as sensors, energy storage/conversion, electromagnetic wave shielding, and next-generation displays.
- Note - Law-Dimensional nano structure
- 0-Dimensional : Nanoparticle / Quantum Dot
- 1-Dimensional : Nanotube / Nanowire etc.
- 2-Dimensional : Van der Waals Materials / Nanomesh / Thin Film etc.
- Professor : Young Ki Hong
- Web site : https://sites.google.com/view/fnrphysics
- Subject
- Physics & Physical Properties
- Low-Dimensional Nanostructures : 1-Dim. & 2-Dim.
- Hybridization : TMDCs + Organic Single Crystal
- 1-Dimensional Functional Nanostructures
- Transition Metal Dichalcogenides
- Opto-Electronic Applications : Various Sensors based on Thin-Film Transistor
- Next-Generation Devies : Flexible & Transparent
- Metallic-Phase(1T) : Electro-Magnetic Shielding Materials
- Nanoporous Anodic Aluminum Oxide
- Environmental-Clean & Mass-Production : Simultaneous Multisurfaces Anodization + Stair-like Reverse Bias Detaching
- Various Applications : Humidity Sensor / Photonic Crystal / Water-Oil Separation
- π-Conjugated Organic Semiconductors
- Organic Single Crystal : Plasmonic Wave-guiding / Photo-Detecting
- Functional Nanostructures : Organic Semiconductor +Organic Conductor / Serial Multi-junction Structures
- Transition Metal Dichalcogenides
- Wireless Communic ation / Flexible & Transparent Technology
- Various Applications including Opto-Electronics & Smart Sensing/Monitoring Systems
- Physics & Physical Properties
Last update date : 2023/09/13 11:11:41