Walter de Heer, Regents' Professor in the School of Physics at the Georgia Institute of Technology, has taken a critical step forward in making the case for a successor to silicon. De Heer and his collaborators have developed a new nanoelectronics platform based on graphene—a single sheet of carbon atoms. The technology is compatible with conventional microelectronics manufacturing, a necessity for any viable alternative to silicon.

In the course of their research, published in Nature Communications, the team may have also discovered a new quasiparticle. Their discovery could lead to manufacturing smaller, faster, more efficient and more sustainable computer chips, and has potential implications for quantum and high-performance computing.

"Graphene's power lies in its flat, two-dimensional structure that is held together by the strongest chemical bonds known," de Heer said. "It was clear from the beginning that graphene can be miniaturized to a far greater extent than silicon—enabling much smaller devices, while operating at higher speeds and producing much less heat. This means that in principle, more devices can be packed on a single chip of graphene than with silicon."

In 2001, de Heer proposed an alternative form of electronics based on epitaxial graphene, or epigraphene—a layer of graphene that was found to spontaneously form on top of silicon carbide crystal, a semiconductor used in high power electronics. At the time, researchers found that electric currents flow without resistance along epigraphene's edges, and that graphene devices could be seamlessly interconnected without metal wires. This combination allows for a form of electronics that relies on the unique light-like properties of graphene electrons.