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IMAGE: Argonne s Jie Xu with her Polybot, an artificial intelligence-guided robot for autonomous electronic material discovery. view more
Credit: (Image by Xiewen Wen.)
Today, Jie Xu has been named to MIT Technology Review s prestigious annual list of 35 Innovators Under 35 in the Global category. Every year since 1999, the world-renowned media company has recognized a list of exceptionally talented technologists whose work has great potential to transform the world.
Tim Maher, managing editor of MIT Technology Review, said: We get more than 500 nominations for the list every year, and getting that list down to 35 a task not only for the editors at MIT Technology Review but also for our 30+ judges is one of the hardest things we do each year.
New 2D superconductor forms at higher temperatures than ever before
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Home > Press > Better solutions for making hydrogen may lie just at the surface
The unique interactions between perovskite oxide, its changing surface layer, and iron species that are active toward the OER paves a new path for the design of active and stable materials, bringing us one step closer to efficient and affordable green hydrogen production.
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Argonne National Laboratory
Abstract:
A clean energy future propelled by hydrogen fuel depends on figuring out how to reliably and efficiently split water. That s because, even though hydrogen is abundant, it must be derived from another substance that contains it and today, that substance is often methane gas. Scientists are seeking ways to isolate this energy-carrying element without using fossil fuels. That would pave the way for hydrogen-fueled cars, for example, that emit only water and warm air at the tailpipe.
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IMAGE: The unique interactions between perovskite oxide, its changing surface layer, and iron species that are active toward the OER paves a new path for the design of active and stable. view more
Credit: Argonne National Laboratory
A clean energy future propelled by hydrogen fuel depends on figuring out how to reliably and efficiently split water. That s because, even though hydrogen is abundant, it must be derived from another substance that contains it and today, that substance is often methane gas. Scientists are seeking ways to isolate this energy-carrying element without using fossil fuels. That would pave the way for hydrogen-fueled cars, for example, that emit only water and warm air at the tailpipe.
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IMAGE: Argonne s Ran Hong (left) and Simon Corrodi (right) installing the calibration probe at the 4 Tesla Solenoid Facility. view more
Credit: (Image by Mark Lopez/Argonne National Laboratory.)
Scientists are testing our fundamental understanding of the universe, and there s much more to discover.
What do touch screens, radiation therapy and shrink wrap have in common? They were all made possible by particle physics research. Discoveries of how the universe works at the smallest scale often lead to huge advances in technology we use every day.
Scientists from the U.S. Department of Energy s (DOE) Argonne National Laboratory and Fermi National Accelerator Laboratory, along with collaborators from 46 other institutions and seven countries, are conducting an experiment to put our current understanding of the universe to the test. The first result points to the existence of undiscovered particles or forces. This new physics could help explain long-standing sci
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