Information
193 Munji-ro, Yuseong District, Daejeon, South Korea
+82 42-385-0665
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Overview
- Summary
- A company developing ultra-precision laser processing and application systems based on advanced laser technology. Possessing innovative technology for low-cost, eco-friendly, mass production of artificial graphite and hard carbon anode materials for secondary batteries from unused wood. Aiming for innovation in the energy and electronic device markets through graphene commercialization. Utilizing femtosecond laser-based ultra-precision processing and measurement technology as a core competency.A company developing ultra-precision laser processing and application systems based on advanced laser technology. Possessing innovative technology for low-cost, eco-friendly, mass production of artificial graphite and hard carbon anode materials for secondary batteries from unused wood. Aiming for innovation in the energy and electronic device markets through graphene commercialization. Utilizing femtosecond laser-based ultra-precision processing and measurement technology as a core competency.
- Key Products/Technologies
- Secondary Battery Materials: Artificial graphite anode for lithium-ion batteries (LAG), hard carbon anode for sodium-ion batteries (LHC), graphene electrodes for all-solid-state batteries, and graphene supercapacitor productsSecondary Battery Materials: Artificial graphite anode for lithium-ion batteries (LAG), hard carbon anode for sodium-ion batteries (LHC), graphene electrodes for all-solid-state batteries, and graphene supercapacitor products
- Next-generation Electronic Devices: Laser-induced graphene electronic devices, graphene sensors, graphene heat dissipation materials, and film technologiesNext-generation Electronic Devices: Laser-induced graphene electronic devices, graphene sensors, graphene heat dissipation materials, and film technologies
- Laser Systems: Femtosecond laser light source systems, ultra-precision laser processing, and measurement system solutionsLaser Systems: Femtosecond laser light source systems, ultra-precision laser processing, and measurement system solutions
- Core Technology: Laser-induced graphene (LIG) technology for regenerating high-quality carbon structures like highly conductive graphene, artificial graphite, and hard carbon by direct laser irradiation of carbon-containing materialsCore Technology: Laser-induced graphene (LIG) technology for regenerating high-quality carbon structures like highly conductive graphene, artificial graphite, and hard carbon by direct laser irradiation of carbon-containing materials
- Production Technology: A process converting unused wood biomass into high-crystallinity artificial graphite in 0.1 seconds at 3000°C using laser-accelerated graphitization technologyProduction Technology: A process converting unused wood biomass into high-crystallinity artificial graphite in 0.1 seconds at 3000°C using laser-accelerated graphitization technology
- Core Advantages
- World's first low-cost, eco-friendly, high-quality artificial graphite and hard carbon anode material production technology based on unused woodWorld's first low-cost, eco-friendly, high-quality artificial graphite and hard carbon anode material production technology based on unused wood
- Innovation of laser-accelerated graphitization technology, enabling rapid (0.1 seconds) and continuous processing at 3000°C, a significant improvement over traditional methodsInnovation of laser-accelerated graphitization technology, enabling rapid (0.1 seconds) and continuous processing at 3000°C, a significant improvement over traditional methods
- High economic efficiency, with unused wood as a raw material being more than 13 times cheaper than traditional coke, significantly reducing production costsHigh economic efficiency, with unused wood as a raw material being more than 13 times cheaper than traditional coke, significantly reducing production costs
- Strategic advantage in diversifying the supply chain for the artificial graphite market, which is heavily dependent on China, aiming for price stability and supply risk mitigation with domestic technologyStrategic advantage in diversifying the supply chain for the artificial graphite market, which is heavily dependent on China, aiming for price stability and supply risk mitigation with domestic technology
- Expertise in femtosecond laser-based ultra-precision processing and measurement technology, spearheaded by graduates from KAIST's precision measurement laboratory [Database]Expertise in femtosecond laser-based ultra-precision processing and measurement technology, spearheaded by graduates from KAIST's precision measurement laboratory [Database]
- High scalability of the continuous laser processing method, allowing for easy expansion of production channels and facilitiesHigh scalability of the continuous laser processing method, allowing for easy expansion of production channels and facilities
- Target Industries
- Secondary Battery Industry: Anode materials and electrode components for lithium-ion batteries, sodium-ion batteries, and all-solid-state batteriesSecondary Battery Industry: Anode materials and electrode components for lithium-ion batteries, sodium-ion batteries, and all-solid-state batteries
- Electronics Industry: Next-generation electronic devices, sensors, heat dissipation materials, and films for high-performance electronic componentsElectronics Industry: Next-generation electronic devices, sensors, heat dissipation materials, and films for high-performance electronic components
- Precision Processing and Measurement Industry: Ultra-precision processing and measurement systems utilizing femtosecond lasersPrecision Processing and Measurement Industry: Ultra-precision processing and measurement systems utilizing femtosecond lasers
- Carbon Material Industry: Manufacturing of high-quality carbon structures such as highly conductive graphene, artificial graphite, and hard carbonCarbon Material Industry: Manufacturing of high-quality carbon structures such as highly conductive graphene, artificial graphite, and hard carbon
- Major Markets
- South KoreaSouth Korea
- Planned entry into the EU market (targeting 2028)Planned entry into the EU market (targeting 2028)
- Planned entry into the US market (targeting 2028)Planned entry into the US market (targeting 2028)
- Certifications/Patents
- Patent: Method for improving graphene properties using laser, method for manufacturing graphene using the same, and graphene manufactured thereby (KR101206136B1)Patent: Method for improving graphene properties using laser, method for manufacturing graphene using the same, and graphene manufactured thereby (KR101206136B1)
- Patent Application: Technology related to 'Laser Induced Carbon Material' covering Laser Induced Graphene (LIG), Laser Induced Graphene Oxide, Laser Induced Graphite, Laser Induced Graphite Oxide, and Laser Induced Carbon NanotubesPatent Application: Technology related to 'Laser Induced Carbon Material' covering Laser Induced Graphene (LIG), Laser Induced Graphene Oxide, Laser Induced Graphite, Laser Induced Graphite Oxide, and Laser Induced Carbon Nanotubes
- History of performing national R&D related to secondary batteries and laser-induced grapheneHistory of performing national R&D related to secondary batteries and laser-induced graphene
Introduction
Location
193 Munji-ro, Yuseong District, Daejeon, South Korea
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