Fillers that are superior to conventional carbon fillers in terms of high intensity, elasticity modulus, flexibility, aspect ratio, electrical conductivity, and thermal conductivity.
Overview: Carbon fillers are materials that impart conductivity to insulating polymer materials, and are used as electronic carrier materials (conductive paths) in power sources such as secondary batteries and fuel cells, as well as catalyst supports. Graphene flower paste excels as a filler in composite materials due to its superior strength, elasticity, flexibility, aspect ratio, conductivity, and thermal conductivity compared to other carbon fillers.
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basic information
Features: - Graphene in 5-10μm shape - Provided in paste form - Capable of mass production - Dispersion solvents: aqueous, IPA-based, NMP-based, water-IPA-based - Solid content: 10% and 1% for aqueous, IPA-based, and NMP-based, and 1% for water-IPA-based
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Applications/Examples of results
Examples of use: - Filler materials that impart conductivity to highly insulating polymer materials - Filler materials that impart thermal conductivity to polymer and rubber materials - Electronic carrier materials (conductive paths) and catalyst supports for power sources - Antistatic agents for resins and gel coats - Black pigments for plastics, casting resins, paints, and inks
Company information
Our company was established with the management philosophy of contributing to the promotion of our country's industry through the refinement of manufacturing technologies based on our unique processes and the creation of new businesses through alliances. Based on this management philosophy, our goal in the medium to long term is to stably supply high-functionality and high-quality nano-carbon materials such as graphene, carbon nanotubes, and carbon nanofibers, which are expected to be practical as next-generation technologies. Regarding graphene, we have successfully synthesized multilayer graphene with a few layers directly without a substrate or catalyst for the first time in the world, and we have commercialized its extract. Additionally, we plan to sequentially commercialize carbon nanotubes, which have been delayed in practical application due to low productivity and heterogeneous materials, as well as various carbon nanofibers with unique structures. Our company is committed to stably supplying these materials to our customers in various market sectors, and we kindly ask for your guidance and support.
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