Technical Name 微電漿系統製程三維孔洞奈米材於紙基材應用於高產氫、高靈敏性拉曼、高催化
Project Operator National Taiwan University of ScienceTechnology
Project Host 江偉宏
Here we developed a fastgreen process of micro-plasma system for three-dimensional porous nanomaterials on low-cost paper substrates. The characteristics are low-cost, flexible,high-stability. It has three major applications, including increasing Raman measument, the detection process can be used with portable Raman spectroscopy for fast sensing,it can quickly analyze pesticides, food, drugs, etc. In addition, it can be equipped with boron nitride for high hydrogen productionhigh pollution biodegradationother applications.
Scientific Breakthrough
"1. One-step microplasma as the greensustainable synthesis of singlepolymetallic nanoparticle coated on a paper-based substrate
2. Convenient, scalable,low-cost technique firstly introduced by our lab
3. By microplasma fabricated 3D structure (x-y-z-direction), improved SERS (LoD of Femi Molarity), hydrogen production,catalytic performance can be achieved.
4. Process of multiple countries patent applications."
Industrial Applicability
"1. Microplasma synthesis of cost-efficient 3D nanoporous of polymetallic nanoparticles for hydrogen production, catalysis,raman sensing
2. High stabilitysensitivity of the fabricated raman sensor excels from the commercial raman sensor with 1/20 lower costrepetitive usage. Broad application range, with advantages including:
(1)Suitable for many kinds of material states (2)ease of operation, avoiding the usage of other fluorescent materials (3)fast measurement of daily foodsupplements
3) The materialapplication are suitable for hydrogen productioncatalytic fields"
Matching Needs
Keyword Microplasma-assisted system Paper-base substrate Three dimensional porous structure Surface-enhanced Raman scattering Hydrogen producition Catalytic reduction Bio-sensing Precision medicine Food inspection Pesticide poisoning
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