Lump-like graphene synthesized without a substrate and without a catalyst, resembling flower petals.
Directly synthesized multilayer graphene, known as "graphene flower," is a bulk graphene synthesized without a substrate or catalyst using the InALA method. The shape immediately after synthesis resembles a flower, which is why it is marketed under the product name (trademarked) "graphene flower." Each individual layer, which looks like a petal, is graphene. This is not obtained by exfoliating from graphite or expanding intercalated compounds, but rather through a bottom-up approach that directly synthesizes the graphene material. The InALA method allows for the direct synthesis of single to few-layer graphene. For more details, please contact us or refer to the catalog.
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basic information
【Features】 ○ Direct synthesis using a process without substrates, catalysts, or peeling ○ High purity, high crystallinity, high productivity ○ Bulk carbon connected by petal-shaped few-layer graphene ○ Size of few-layer graphene ranges from 1 to 10 μm, thickness from 1 to 3 nm ○ Production of a solution dispersed with few-layer graphene is possible ● For more details, please contact us or refer to the catalog.
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Applications/Examples of results
【Applications】 ○ Additives for conductive films, transparent conductive films, and conductive sheets ○ High thermal conductivity fillers ○ High strength fillers ○ Raw materials for high carrier mobility devices ○ Starting materials for monolayer graphene and graphene ribbons
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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.
