A Georgia Tech professor heralded the breakthrough as a 'Wright Brothers moment,' as a new paper details semiconductors made from a single sheet of carbon atoms. Credit: Georgia Institute of Technology Researchers at the Georgia Institute of Technology say that the semiconductor of the future may be made from graphene, an arrangement of carbon molecules bonded together in a single sheet, instead of silicon. The research breakthrough, which was detailed in a paper published last week in the journal Nature, came as the team found a solution to what it described as the last major hurdle to graphene semiconductors – the so-called “band gap” problem. Put simply, the core quality of a semiconductor is the ability to switch it on or off via an electrical current without altering its conductive properties, according to the researchers. Graphene has long been studied as a possible substitute for silicon, given its very low electrical resistance, which should allow for faster computing, but the band gap issue had not been solved until the team – made up of researchers at Georgia Tech and Tianjin University in China, and led by Georgia Tech professor Walter de Heer – published its latest work. The team solved the band gap problem by using a technique called electron doping. That involves placing atoms on the graphene that “donate” electrons to the material, which allowed them to manipulate on/off states without damaging the material. “Our motivation for doing graphene electronics has been there for a long time, and the rest was just making it happen,” de Heer said in a report published by the university. “We had to learn how to treat the material, how to make it better and better, and finally how to measure the properties. That took a very, very long time.” While de Heer could not be reached for immediate comment, he compared the breakthrough to a “Wright Brothers moment,” in the Georgia Tech report. “They built a plane that could fly 300 feet through the air. But the skeptics asked why the world would need flight when it already had fast trains and boats,” he said. “But they persisted, and it was the beginning of a technology that can take people across oceans.” The technology is still in its infancy, but the team was eager to talk up its future implications, including its potential applicability to quantum computing, as graphene can allow the quantum mechanical wave properties to be utilized in such systems. Related content news Cisco patches actively exploited zero-day flaw in Nexus switches The moderate-severity vulnerability has been observed being exploited in the wild by Chinese APT Velvet Ant. By Lucian Constantin Jul 02, 2024 1 min Network Switches Network Security news Nokia to buy optical networker Infinera for $2.3 billion Customers struggling with managing systems able to handle the scale and power needs of soaring generative AI and cloud operations is fueling the deal. By Evan Schuman Jul 02, 2024 4 mins Mergers and Acquisitions Networking news French antitrust charges threaten Nvidia amid AI chip market surge Enforcement of charges could significantly impact global AI markets and customers, prompting operational changes. By Prasanth Aby Thomas Jul 02, 2024 3 mins Technology Industry GPUs Cloud Computing news Lenovo adds new AI solutions, expands Neptune cooling range to enable heat reuse Lenovo’s updated liquid cooling addresses the heat generated by data centers running AI workloads, while new services help enterprises get started with AI. By Lynn Greiner Jul 02, 2024 4 mins Cooling Systems Generative AI Data Center PODCASTS VIDEOS RESOURCES EVENTS NEWSLETTERS Newsletter Promo Module Test Description for newsletter promo module. Please enter a valid email address Subscribe