Direction

一、有機生物光電元件(Biopolymer optoelectronic devices)

• 有機記憶體(Organic memory)
• 有機發光二極體(Organic light-emitting diodes, OLED)
• 有機雷射(Organic laser)
• 有機光偵測器(Organic photodetector)
• 新型奈米複合材料(Nano-composite materials)
• 有機場效電晶體(Organic field-effect transistor, OFET)
• 軟性電子(Flexible electronics)

Biopolymer based on deoxyribonucleic acid (DNA) has shown promise for building advanced optoelectronic devices with enhanced efficiency. Our approaches to use the unique features of DNA helix molecules along with several distinguished electrical/optical properties of DNA biopolymer explore new routes towards the developments of more economic and green photonic devices.
    

二、超穎材料:模擬與應用(Metamaterials: Simulation and application)

• 旋光元件設計(Design of optical rotator)
• 光子晶體元件設計(Design of photonic crystal devices)
• 表面增強拉曼散射模板設計(Design of surface enhanced Raman scattering substrates)
• 掌性結構的分析與應用(Analysis and application of chiral structures)
• 次波長波導設計(Design of sub-wavelength waveguides)

Metamaterials are artificial materials comprised of engineered structures from which several unique electromagnetic responses can be achieved. Our research is to better understand the responses of these metamaterials in order to manipulate the performance and explore potential applications.
    

三、電漿子光學:物理機制與應用(Plasmonics: Mechanism and application)

• 電漿子光電元件設計(Design of plasmonic photonic devices)
• 全像術(Holography)
• 生醫感測元件設計(Design of biosensors)

Explore electromagnetic phenomena in sub-wavelength nanostructures and metallic nanocomposites. Many interesting properties may find broad implementation in plasmonic photonic devices, holography, and medical applications.