進階篩選

Technical category
    • MethodStructure of stacking 3D-IC Employing Controlled-Grain Semiconductor Film

      Electronic & Optoelectronics FutureTech MethodStructure of stacking 3D-IC Employing Controlled-Grain Semiconductor Film

      The location of controlled-grain Si island is determined by the pattern of “cooling holes”. The grain size is determined by the distance between “holes” due to lateral grain growth using pulse laser crystallization. This predictability allows the transistorscircuits to stay away from the grain boundaries for monolithic
    • 小型攜帶式發電裝置 - 利用奈米矽粉與水直接產氫於燃料電池

      FutureTech 小型攜帶式發電裝置 - 利用奈米矽粉與水直接產氫於燃料電池

      Nano-sized silicon reacts rapidly with most water solutions to form pure hydrogen. However, high costlow availability are major issue. Our group has developed novel nano-sized silicon mass-production process, greatly improves its feasibilitycost for hydrogen generation. The in-time hydrogen generation by nano-size silicon, fuel-cell systemlithium ion battery system are all well integrated into one portable power system, which can satisfy general personnel electricity demand for some special conditions, such as battle field, emergency caseremote regions.
    • 應用於太空電子之高抗輻射半導體技術

      FutureTech 應用於太空電子之高抗輻射半導體技術

      Our technology uses GaN (gallium nitride)SiC (silicon carbide) wide band gap semiconductor materials to develop high radiation hardness semiconductor technologies for space applications. GaNSiC-based materials feature with a strong bondingsmall lattice constant. Furthermore, the displacement energy of GaNSiC-based materials is greater than 10 times that of silicon. Therefore, GaNSiC-based device can exhibit a better radiation hardness than the Si-based devices, indicating that GaNSiC-based electronics are promising for the space applications.
    • 應用第三代半導體之高功率密度先進電源

      FutureTech 應用第三代半導體之高功率密度先進電源

      The research topics include advanced power supply, energy storage techniques, electromechanical integration, electric vehicles,power system control. Based on the existing researchdevelopment foundation, focusing on energy conversion efficiency, high-voltage charging (fast charging), device miniaturizationlight weight, smart power management solutions, etc., with lightweight materials. Develop a power management solution to instantly monitor the power statuscharging device. The application of management to achieve the vision of a smart city.
    • Microfluidic motile sperm separation sorter

      Medical Devices FutureTech Microfluidic motile sperm separation sorter

      The microfluidic chips have been used to sort human motile sperms based on the phenomena of laminar flow. The sorted sperms would be fertilized to form the embryo by using in intracytoplasmic sperm injection (ICSI). The prototype of chips have been developed in the lab under National Tsing Hua University. Furthermore, the mass production has been conducted by Ritek to accomplish the disposable chips
    • An Anti-Obesity Nanotechnology to Modulate Oil Absorption In Vivo

      Bio-tech & New Drugs FutureTech An Anti-Obesity Nanotechnology to Modulate Oil Absorption In Vivo

      This technology is mainly solved the side effects of anti-obesity drug, including soft stoolsoily stools,regulate oil absorptionmetabolism as an additive in food. During the experiment, the curing phenomenon of MSNs/oiloily stool reduction in animal were observed. In conclusion, MSNs can effectively reduce the side effects of Orlistatelevating life quality.
    • 數位光學教學實驗室推廣計畫

      FutureTech 數位光學教學實驗室推廣計畫

      This project with aim of promoting digital optics education is funded by Ministry of Education. In the entry-level class, students are guided in the hand-on experiments to bring up the ability to set up optical pathsto learn the basic optics principles. In the advance-level class, students are encouraged to work on a 3D holographic project using the fast-response LCOS-SLM developed in Digital Optics Teaching Laboratory of NYCU. Students are able to apply different computer-generated holography (CGH) algorithmsdesign optical path accordingly to obtain desired holographic images.
    • Platform for SiC Power System on a Chip

      Electronic & Optoelectronics FutureTech Platform for SiC Power System on a Chip

      Develop a SiC single-chip power system platform across processes, devices,circuits to breakthrough the temperaturepower constraints of Si applications. The research includes low-voltage CMOS logic circuits, high-voltage driver circuits,vertical super-junction MOSFETs. All specifications exceed existing technology. The results can be applied to energy networks, rail transit, new energy vehicles, geological exploration, aerospace, defenseother fields.
    • 高熵合金鋰離子電池負極材料

      FutureTech 高熵合金鋰離子電池負極材料

      In the prior art of high-efficiency anode materials for lithium-ion batteries, we designed a high-entropy compositionmanufactured it through a simplemass production method. This technology inherits the cocktail effect of high-entropy alloys by combining highly active elementsmetal elements. This material can be manufactured by a simple mass production method. It shows high energy density, high Coulomb efficiencyhigh cycle stability,becomes a promising anode material for lithium-ion batteries.
    • 高容量高安全性硫化物系固態鋰離子電池

      FutureTech 高容量高安全性硫化物系固態鋰離子電池

      The aim of this study was to develop of high safety, high performance sulfide-based all-solid-state Li-ion battery (ASSLIB). The ASSLIB composes of a flexible, high ionic conductive,moisture insensitive sulfide-based solid-state electrolyte (SSE) film, Si/C composite anode material with self-healing polymer binder, high capacity LiNi0.8Co0.1Mn0.1O2 (NMC811) composite cathode,garnet-in-polymer solid composite interlayer to prevent decomposition of sulfide-based SSE with electrode materials.
  • 1