![]() ![]() The team published details of its advance April 20 in the journal Scientific Reports. The transistor can transmit data or transfer power wirelessly, a capability that could unlock advances in a whole host of applications ranging from wearable electronics to sensors. It’s also very useful in wireless applications. In computing, that translates to lightning-fast processor speeds. Matthias Professor in Engineering and Vilas Distinguished Achievement Professor in electrical and computer engineering, and research scientist Jung-Hun Seo - fabricated a transistor that operates at a record 38 gigahertz, though their simulations show it could be capable of operating at a mind-boggling 110 gigahertz. The researchers - led by Zhenqiang (Jack) Ma, the Lynn H. Working in collaboration with colleagues around the country, University of Wisconsin–Madison engineers have pioneered a unique method that could allow manufacturers to easily and cheaply fabricate high-performance transistors with wireless capabilities on huge rolls of flexible plastic. One secret to creating the world’s fastest silicon-based flexible transistors: a very, very tiny knife. Using a unique method they developed, a team of UW–Madison engineers has fabricated the world’s fastest silicon-based flexible transistors, shown here on a plastic substrate. ![]()
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