Nano Materials
Nano materials group at SAINT, is an interdisciplinary research group of faculty and students studying design, preparation, and integration of nanosacle materials and advanced nanotechnology-based applications. Research focuses on nanoparticles, nanowires, nanoscale organic compounds and nanocomposite materials both in the form of thin films and as bulk materials, and their applications to broad range of advanced technology from information technology, biotechnology to energy-related applications.
Particular Research
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Nano-structure fabrication for display and bio-applications
- Anodic oxidation of aluminum and titanium materials
- Applying for medical care products (:Stent) and assist structures of Solar cell or Display devices
- Carbon nanotube growth and applications
- Development for transparent and conductive film formation using MW-CNTs
- Development for super growth of CNTs
- Development for SWNT growth of CNTs using Magnetic CVD
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Development of a neutral beam etching
- Possibility to make nano-device for next generation
- Developing new concept of nano-pattern etching technology for the application of MEMs, bio-sensor and other areas Ultra large-scale Inductively Coupled Plasma
- Large-area plasma processing applied to flat panel displays (FPDs) among the high density plasma sources
- Low impedance antenna arrangement of internal linear ICP source for large area FPD processing
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Low temperature functional thin film deposition
- Development for transparent conducting cathode for top emission OLED
- Fabrication on multi buffer layer for GaN epitaxial growth Development for high efficiency phosphor
- Development for phosphor applied UV-LED
- Development for next generation emission materials
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Functional polymer synthesis and functional composites
- Transparent polymers synthesis and composites
- Polymer-based carbon/CNT/graphite/activated carbon composites
- Polymeric composites for high-thermal conductivity, low-k, high-k Multifunctional core-shell bead structures
- Continuous or particulate shell structures of noble metals or inorganic materials
- In-site electroless metallization on polymer core surfaces
- Optoelectronic applications in electronic paper, photonic crystal, biosensing.
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One dimensional semiconductor nanowire synthesis
- Metal-free silicon nanowires growth and measurement of electronic and photonic properties
- Nano-molecular self-assembly for hierarchical structures
- Integration of polymeric and biological nano-materials for high performance electronic and energy-related devices