• High-Entropy Non-Sparking, Anti-Bacteria, and High-Endurance Alloy Technology

      Excellence Research Center FutureTech High-Entropy Non-Sparking, Anti-Bacteria, and High-Endurance Alloy Technology

      High entropy materials were proposed and developed by Professor Jien-Wei Yeh in 1995. He named, defined, and elucidated “High-Entropy Alloys,” as well as established High-Entropy Materials Center to develop critical materials for smart machine, green technology, biomedical technology, and national defense. Alloys with high strength, corrosion resistance, and anti-bacterial capability are also developed for manufacturing knives, door handles, handrails, etc. to prevent infection during the post-epidemic era.
    • Population Health Research

      Excellence Research Center FutureTech Population Health Research

      1.Real-time monitoring of air quality in indoor and outdoor environments: Sensors based on laser light scattering and electrochemistry are used for monitoring PM2.5 and other air pollutants in indoor and outdoor environments. The collected data from the sensors are transferred to the data center at NTU PHRC by 4G LTE. The residents can obtain the real-time air quality information through the website. 2. Precision Prevention Application: an APP of CVD Risk Prediction: We developed an application for predicting CVD risk based on a Bayesian predicting model with personalized factors. With the precision risk of CVD, the health care workers can provide personalized suggestion for patients.
    • The gender discrimination of income distributions

      Excellence Research Center FutureTech The gender discrimination of income distributions

      We develop a test for discrimination and apply it to analyze the change in income distributions between female and male. We then classify our data into married and single groups to trace the sources of income differences between female and male from 2005 to 2015.
    • Virus and Cell Culture Platform for Vaccine Production Technology

      Excellence Research Center FutureTech Virus and Cell Culture Platform for Vaccine Production Technology

      The "Viral Vaccine Cell Production Technology Platform" of this exhibition is based on 1. Host cell and virus match and colonization technology; 2. Cell-expressed virus receptor technology; 3. Blocking antiviral mechanism of host cell; 4. Immortalization technology of host cell; 5. Serum-free suspension cell culture technology to produce high-immunity virus vaccine strains containing intact virus antigens.
    • A smart monitoring system for shrimp growth

      Excellence Research Center FutureTech A smart monitoring system for shrimp growth

      This technology uses a customized high-resolution saltwater proof video camera that operates underwater for months on end without maintenance. The captured images are pre-processed to adjust the brightness and maximize the sharpness, after which the images are input into a region-based convolutional neural networks (R-CNN) for training and identification. This technology is currently able to reliable identify shrimp in these images and to distinguish between the shrimp’s head and tail in order to conclude whether the image shows a complete shrimp.
    • Thermoplastic Casting Tape

      Excellence Research Center FutureTech Thermoplastic Casting Tape

      The invention relates to a thermoplastic thin 2D mesh fabric composite structure, which particularly can be used as a medical protector or in connection with sporting activities with impact resistance, light weight and high air permeability, and has a reshapeable orthopedic support, or fixed support bandages for limbs and / or joints. The thermoplastic thin 2D mesh fabric composite structure mainly includes a breathable mesh fabric and a high molecular polymer coated on the breathable mesh fabric that can be reshaped and reused when exposed to heat.
    • EditCell Virology Platform

      Excellence Research Center FutureTech EditCell Virology Platform

      1. Identification of host factor, which is required for virus replication, by “EditCell Virology Platform”. 2. The host factor will be as a target to develop antivirals. 3. The antiviral effects of the candidates can be validated in vitro and in vivo. 4. Two FDA-approved drugs are repurposed for COVID-19 treatment.
    • Post COVID-19, novel critical green energy material with local supply chain

      Excellence Research Center FutureTech Post COVID-19, novel critical green energy material with local supply chain

      (1) Gel-type solid electrolytes and All solid-state electrolytes for Lithium Ion Battery (LIBs) (2) Fabrication of dye-sensitized solar cells by printing process and its applications on Internet-of-Things (IoT) - MOST 2019 Award (3) Silicon-carbon coating anode materials for LIBs: SiLican startup company growth and global business layout (4) Power enhanced Intermediate Temperature Solid State Fuel Cell (SOFC) (5) Worldwide highest conversion efficiency (19.4%) perovskite solar cells (6) Industrial linking and Product design : LevioPole and Smart motorcycle suitcase
    • 基於5G C-V2I之智慧即時車輛行動軌跡預測與預警系統

      Excellence Research Center FutureTech 基於5G C-V2I之智慧即時車輛行動軌跡預測與預警系統

      This study proposes a 5G C-V2I (Cellular Vehicle-to-Infrastructure) enabled intelligent trajectory prediction and warning system, which can be implemented in a framework including RSUs (Road Side Units) with radar detection ability and 5G edge computing servers. This study exploits artificial intelligence to predict instant trajectories of vehicles at crossroads. The resulting augmented-awareness navigation information is then broadcasted to road users through 5G C-V2I with low latency. In practical applications, road users can obtain real-time dynamics of surrounding vehicles so that their level of safety can be effectively enhanced.
    • P-SERS: Rapid and Sensitive On-site Detection Platform

      Excellence Research Center FutureTech P-SERS: Rapid and Sensitive On-site Detection Platform

      Surface-enhanced Raman spectroscopy (SERS) is a useful analytical technique for detecting extremely small amounts of molecules. Herein, we designed a paper-based quasi-three-dimensional SERS substrate (P-SERS) that can provide potential to improve Raman analyses for food safety, pesticide poisoning, precision medicine, drug abuse and DNA/RNA testing. The sensitive, low-cost, flexible and disposable SERS substrate could be easily fabricated by physical deposition of gold nanoparticles array onto a filter paper. In this case, we are able to create non-continuous Au islands on the fiber surfaces, where the gaps between AuNPs can dramatically generate the high electric field to enhance Raman signal of target molecules.
    • 精子快篩晶片

      Excellence Research Center FutureTech 精子快篩晶片

      Infertility is a serious globe issue, especially in the developed countries, over 20%infertile male has sperm problems, that include instance immotile, abnormal morphology and low sperm quantity. Therefore, how to isolate high quality sperm for clinical use is extremely required. Up to date, activity sperm sorting is usually using Swiming-up and Density gradient centrifugation approaches. Unfortunately, both methods are detrimental to the sperm viability and elicits production of reactive oxygen species. Separation sperm by microfluidics has been put emphasis on and studied; however, it faced some challenge such as low throughput and an unacceptable recover rate.
    • Rollable and soft photonic meta-device

      Excellence Research Center FutureTech Rollable and soft photonic meta-device

      With the development of photonics, there has been a push towards optoelectronic devices that are flexible, rollable, wearable, user-friendly, and robust to improve human-machine interfaces. To be integrated onto human body, these devices must be biocompatible and be able to withstand mechanical deformation and different bending curvatures. Figure 1 shows the rollable and soft photonic meta-device.
    • Low temperature instant copper bonding and high toughness/low resistance  RDL lines using 111 nanotwinned copper lines and foils

      Excellence Research Center FutureTech Low temperature instant copper bonding and high toughness/low resistance RDL lines using 111 nanotwinned copper lines and foils

      Electroplated nanotwinned Cu possesses excellent electrical & mechanical properties. It can be applied in three major joints: 1. Low thermal budget/ low resistance Cu bonding for high performance computing chip. We are able to achieve low temperature bonding and instant bonding. Low temperature bonding is performed at 150°C for 1 h to achieve low contact resistance copper bonding. Instant bonding is performed at 300°C for 5 seconds under a pressure of 90MPa achieve low contact resistance. 2. High strength/ High ductility copper lines in 3D-IC packaging We are able to fabricate high strength foils with tensile strength of 800MPa. After annealing at 150°C for 3 hours, the foil retains a tensile strength of 750MPa. 3. Cu foils for lithium ion battery
    • Highly Efficient Quantum Key Distribution

      Excellence Research Center FutureTech Highly Efficient Quantum Key Distribution

      Quantum key distribution exploits the transmissiondetection of single photons’ quantum states to generatedistribute secure keys, allowing absolutely secure communication. We use a self-developed miniature single-photon source, together with the single-photon wavepacket engineering, to implement a highly efficient protocol of differential-phase-shift quantum key distribution. Using the Ca
    • Visualization of brain connectomics: all-optical volumetric imaging/stimulation and spiking neural circuit models

      Excellence Research Center FutureTech Visualization of brain connectomics: all-optical volumetric imaging/stimulation and spiking neural circuit models

      Constructing a functional connectome and its computational model is a crucial step toward understanding the mechanisms of brain functions. To achieve this goal, we developed two correlated technologies: (1) An all-optical physiology (AOP) that is capable of millisecond volumetric imaging and accurate stimulation in living animal brains. This system allows us to establish functional connectome and neural coding with a single-cell resolution. (2) A cellular-level spiking neural circuit simulation system that is capable of tuning itself based on the input data from the AOP system. We have demonstrated our technologies in the Drosophila late visual system and will apply them in the brains of larger species such as mice. Our technologies will greatly enhance knowledge of brain operation.
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