Hsiao's Research Group
- Advanced Optoelectronic Polymers & Devices Lab. @NTUST
▀ Our main research interests are pi-conjugated materials and inorganic nanomaterials (such as conjugated polymers, carbon-based materials with tailored, and their novel properties or applications) for a wide range of organic electronics.
▀ Our main research interests are pi-conjugated materials and inorganic nanomaterials (such as conjugated polymers, carbon-based materials with tailored, and their novel properties or applications) for a wide range of organic electronics.
▀ Over the past 10 years, our research expertise has covered from the material to manufacturing and device applications, including the fields of material design and selection, material manufacturing process, material characterization, device fabrication and packaging, and various application areas.
▀ Over the past 10 years, our research expertise has covered from the material to manufacturing and device applications, including the fields of material design and selection, material manufacturing process, material characterization, device fabrication and packaging, and various application areas.
▀ We tried to introduce the development thinking and fabrication technologies of the Semiconductor Supply Chain (from upstream to downstream) into our research field of advanced optoelectronic polymer science and engineering. This means that establishing the above technology platform will help us manage R&D abilities and then face more complex challenges in interdisciplinary & applied science (such as bioelectronic medicine) in the near future.
▀ We tried to introduce the development thinking and fabrication technologies of the Semiconductor Supply Chain (from upstream to downstream) into our research field of advanced optoelectronic polymer science and engineering. This means that establishing the above technology platform will help us manage R&D abilities and then face more complex challenges in interdisciplinary & applied science (such as bioelectronic medicine) in the near future.
▀ We have built a knowledge of a variety of advanced modularization technologies for conducting polymer nanocomposites as interfaces, and explored their possibility based on the technology integration, thereby meeting all the requirements of target applications (such as (1) rare cell or exosome isolation/detection/purification, (2) tissue engineering, (3) kidney treatment & detection, (4) green energy, environmental protection, and optoelectronic applications, etc.).
▀ We have built a knowledge of a variety of advanced modularization technologies for conducting polymer nanocomposites as interfaces, and explored their possibility based on the technology integration, thereby meeting all the requirements of target applications (such as (1) rare cell or exosome isolation/detection/purification, (2) tissue engineering, (3) kidney treatment & detection, (4) green energy, environmental protection, and optoelectronic applications, etc.).
▀ We are looking for highly motivated and highly creative students (with a background in material science and engineering, chemistry/physics, chemical engineering, bioengineering, or other related disciplines) to explore the interior of organic electronics.
▀ We are looking for highly motivated and highly creative students (with a background in material science and engineering, chemistry/physics, chemical engineering, bioengineering, or other related disciplines) to explore the interior of organic electronics.
© 2022 by Yu-Sheng Hsiao
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