A simple, inexpensive spray method that deposits a graphene film can heal manufacturing defects and produce a high quality graphene layer on a range of substrates, researchers claim.
The study – conducted by researchers at the University of Illinois at Chicago and Korea University – is available online in Advanced Functional Materials.
Graphene is strong, transparent, and an excellent conductor of electricity with potential in a wide range of applications, such as reinforcing and lending electrical properties to plastics; creating denser and faster integrated circuits; and building better touch screens.
Although the potential uses for graphene seem limitless, there has been no easy way to scale up from microscopic to large-scale applications without introducing defects, said Alexander Yarin, UIC professor of mechanical and industrial engineering and co-principal investigator on the study.
‘Normally, graphene is produced in small flakes, and even these small flakes have defects,’ Yarin said in a statement. ‘When you try to deposit them onto a large-scale area, defects increase, and graphene’s useful properties are lost.’
Yarin first turned to solving how to deposit graphene flakes to form a consistent layer without any clumps or spaces. He went to Sam S. Yoon, professor of mechanical engineering at Korea University and co-principal investigator on the study.
Yoon had been working with a unique kinetic spray deposition system that exploits the supersonic acceleration of droplets through a Laval nozzle. Although Yoon was working with different materials, Yarin believed his method might be used to deposit graphene flakes into a smooth layer.
Their supersonic spray system is said to produce very small droplets of graphene suspension, which disperse evenly, evaporate rapidly, and reduce the tendency of the graphene flakes to aggregate.
Defects inherent in the flakes themselves disappeared, as a by-product of the spray method. The result was a higher quality graphene layer, as found in the analysis by another collaborator, Suman Sinha-Ray, senior researcher at United States Gypsum and UIC adjunct professor of mechanical and industrial engineering.
The researchers demonstrated that the energy of the impact stretches the graphene and restructures the arrangement of its carbon atoms into the hexagons of flawless graphene.
‘We’re tapping into graphene’s plasticity – it’s actually restructuring,’ said Yarin
Other attempts to produce graphene without defects or to remove flaws after manufacture have proved difficult and prohibitively expensive, Yarin said.
The new method of deposition, which allows graphene to ‘heal’ its defects during application, is simple, inexpensive, and can be performed on any substrate with no need for post-treatment, he said.
Yarin and his Korean colleagues hope to continue their successful collaboration and foster the development of industrial-scale applications of graphene.