Detonation technique enables graphene mass production

Article By : Kansas State University

A team of physicists from Kansas State University has found a way to mass-produce graphene by just using hydrocarbon gas, oxygen and a spark plug.

Since graphene was isolated in 2004, scientists have found it has valuable physical and electronic properties with many possible applications, such as more efficient rechargeable batteries or better electronics.

At Kansas State University, a team of physicists has found a way to mass produce graphene using hydrocarbon gas, oxygen and a spark plug.

Just a spark

Chris Sorensen, Cortelyou-Rust university distinguished professor of physics, is the lead inventor of the recently issued patent, "Process for high-yield production of graphene via detonation of carbon-containing material." Other Kansas State University researchers involved include Arjun Nepal, postdoctoral researcher and instructor of physics, and Gajendra Prasad Singh, former visiting scientist.

Their method is simple: Fill a chamber with acetylene or ethylene gas and oxygen. Use a vehicle spark plug to create a contained detonation. Collect the graphene that forms afterward.

"Our process has many positive properties, from the economic feasibility, the possibility for large-scale production and the lack of nasty chemicals. What might be the best property of all is that the energy required to make a gram of graphene through our process is much less than other processes because all it takes is a single spark," Sorensen said.

Black angel cake

For Sorensen's research team, the serendipitous path to creating graphene started when they were developing and patenting carbon soot aerosol gels. They created the gels by filling a 17L aluminium chamber with acetylene gas and oxygen. Using a spark plug, they created a detonation in the chamber. The soot from the detonation formed aerosol gels that looked like "black angel food cake," Sorensen said.

[Graphene Kansas State University research (cr)] [Graphene (cr)]
Figure 1: After further analysis, the researchers found that the aerosol gel was more than lookalike dark angel food cake—it was graphene.

But unlike other methods of creating graphene, Sorensen's method is simple, efficient, low-cost and scalable for industry. Other methods are energy intensive—and even dangerous—and have low yield, while Sorensen and his team's method makes larger quantities with minimal energy and no dangerous chemicals.

"The real charm of our experiment is that we can produce graphene in the quantity of grams rather than milligrams," Nepal said.

Now the research team—including Justin Wright, doctoral student in physics, Camp Hill, Pennsylvania—is working to improve the quality of the graphene and scale the laboratory process to an industrial level. They are upgrading some of the equipment to make it easier to get graphene from the chamber seconds—rather than minutes—after the detonation. Accessing the graphene more quickly could improve the quality of the material, Sorensen said.

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Arjun Nepal, Kansas State University postdoctoral researcher and instructor of physics, demonstrates a simple way of mass producing graphene.

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