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Controlling shape, size of graphene quantum dots

Posted: 22 May 2012     Print Version  Bookmark and Share

Keywords:quantum  dots  graphene 

Kansas State University researchers say they have developed graphene quantum dots of controlled shape and size at large densities claiming a revolutionary breakthrough in controlling graphene's properties for optoelectronics and several nanotechnologies.

Vikas Berry, William H. Honstead professor of chemical engineering, has developed a novel process that uses a diamond knife to cleave graphite into graphite nanoblocks, which are precursors for graphene quantum dots. These nanoblocks are then exfoliated to produce ultra small sheets of carbon atoms of controlled shape and size.

By controlling the size and shape, the researchers can control graphene's properties over a wide range for varied applications, such as solar cells, electronics, optical dyes, biomarkers, composites and particulate systems. "The process produces large quantities of graphene quantum dots of controlled shape and size and we have conducted studies on their structural and electrical properties," Berry said.

While other researchers have been able to make quantum dots, Berry's research team can make quantum dots with a controlled structure in large quantities, which may allow these optically active quantum dots to be used in solar cell and other optoelectronic applications.

"There will be a wide range of applications of these quantum dots," Berry said. "We expect that the field of graphene quantum dots will evolve as a result of this work since this new material has a great potential in several nanotechnologies."

It is known that because of the edge states and quantum confinement, the shape and size of graphene quantum dots dictate their electrical, optical, magnetic and chemical properties. This work also shows proof of the opening of a band-gap in graphene nanoribbon films with a reduction in width. Further, Berry's team shows through high-resolution transmission electron micrographs and simulations that the edges of the produces structures are straight and relatively smooth.

- Julien Happich
  EE Times





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