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The process of chemically reacting vapour species to deposit material as a thin film onto substrates is known as CVD.
The system configuration, reactor configuration, gas feedstock, gas ratios, reactor pressure, gas partial pressures, reaction temperature, growth time, temperature, etc. are just a few of the complex factors that influence the method and types of the various possible chemical reactions that can take place in a CVD reactor.
For the synthesis of single-layer and few-layer graphene sheets, CVD is a widely utilised bottom-up method. On Ni substrates, it was first shown that thermal CVD on metals could form extremely crystalline graphite sheets.
The Global CVD Graphene Film market accounted for $XX Billion in 2023 and is anticipated to reach $XX Billion by 2030, registering a CAGR of XX% from 2024 to 2030.
The successful development and execution of General Graphene’s GG 3.0 pilot production line represents a significant advancement in the fabrication of CVD graphene films. The business can now make graphene films at an unheard-of scale and price thanks to this cutting-edge method.
Every application needs graphene that is specifically customised to it in order to meet the technical and performance requirements of that application. The GG 3.0 system gives users the opportunity to precisely tailor graphene for particular purposes.
It can produce single- or multilayer graphene in huge sheets or rolls up to 300 mm wide, increasing flexibility and customizability.
Their technology represents a significant development since it provides a means for low-cost testing and R&D for a variety of applications as well as a road to scalability and commercialization.
The goal of General Graphene is not constrained to a single or constrained set of applications based on graphene, and they do not want to restrict themselves to being a one-trick pony.
In contrast to what most people in the scientific and industrial communities believe, General Graphene is enthusiastic about the possibilities of graphene-based applications and thinks that the best or first CVD graphene use may be commercialised sooner. They agree that CVD graphene will be a key enabler for these kinds of applications.
They think that identifying CVD graphene applications is analogous to finding a needle in a stack of needles rather than finding a needle in a haystack because of its adaptability and wide application potential.
