The National Science Foundation announced on Sept. 9 it will fund a new endeavor to bring atomic-level precision to the devices and technologies that underpin much of modern life, and will transform fields like information technology in the decades to come. The five-year, $25 million Science and Technology Center grant will found the Center for Integration of Modern Optoelectronic Materials on Demand — or IMOD — a collaboration of scientists and engineers at 11 universities led by the University of Washington.
IMOD research will center on new semiconductor materials and scalable manufacturing processes for new optoelectronic devices for applications ranging from displays and sensors to a technological revolution, under development today, that’s based on harnessing the principles of quantum mechanics.
David Ginger at the sample preparation laboratory for atomic force microscopy in the UW’s Molecular Engineering and Sciences Building.
Dennis Wise/University of Washington
“In the early days of electronics, a computer would fill an entire room. Now we all carry around smartphones that are millions of times more powerful in our pockets,” said IMOD director David Ginger, the Alvin L. and Verla R. Kwiram Endowed Professor of Chemistry at the UW, chief scientist at the UW Clean Energy Institute and co-director of NW IMPACT. “Today, we see an opportunity for advances in materials and scalable manufacturing to do the same thing for optoelectronics: Can we take a quantum optics experiment that fills an entire room, and fit thousands — or even millions — of them on a chip, enabling a new revolution? Along the way we anticipate IMOD’s science will help with a few more familiar challenges, like improving the display of the cell phone you already have in your pocket so the battery lasts longer.”
by UW News Staff