Technical Name |
廢棄物回收碳轉化高價值石墨(烯)奈米粉體技術 |
Project Operator |
Frontier Research Center on FundamentalApplied Sciences of Matters, National Tsing Hua University |
Project Host |
闕郁倫 |
Summary |
The invention belongs to the field of low-temperature electrochemical graphitizationis improved by the FFC-Cambridge Process. In comparison to the traditional process, the invention can be at a low temperature of 850oCshorter process time. This strategy can convert carbon blacks into high-value graphite (graphene). The method is simple, low temperature, without adding catalyzer,low-cost. The products have a wide range of applications such as energy storage, catalysis, absorption, separation, processing metal cutter, precision die, aeronautics,astronautics.
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Scientific Breakthrough |
This invention can successfully convert hard carbon into high-value graphite (graphene). The invented process is simple, low-temperature, low-cost,without the need of adding catalysts. The parameters of the process, including reduction potential, current density, temperature, molten salt,additivities can artificial adjustment to modify the product of the physicschemical property. Product including nanopowders, nanofibers, nanosheets,hollow nanospheres can be with a wide range of applications.
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Industrial Applicability |
The applications of graphitized carbon black through this process may aim at lithium-ion batteries-related materials (conductive additives, negative electrodes), energy storage (carbon-zinc batteries, fuel cells), industrial applications (refractory materials, steelmaking), general household applications (lubricants, colloidal graphite), military applications, diamond like coating, etc.
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Matching Needs |
天使投資人、策略合作夥伴
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Keyword |
low-temperature electrochemical graphitization molten salt electrochemistry reduction lithium-ion battery graphite anode conductive additives high-valu eapplications circular economy |