SLAC National Accelerator Laboratory, originally named Stanford Linear Accelerator Center, is a United States Department of Energy National Laboratory operated by Stanford University under the programmatic direction of the U.S. Department of Energy Office of Science.
A significant advance in the development of artificial catalysts
Stanford researchers have made a significant advance in the development of artificial catalysts for making cleaner chemicals and fuels at an industrial scale. All living organisms depend on enzymes – molecules that speed up biochemical reactions that are essential for life. Scientists have spent decades trying to create artificial enzymes capable of cranking out important
Communicating where radios fail with a new technology
The 4-inch-tall device could be used in portable transmitters for rescue missions and other challenging applications demanding high mobility. A new type of pocket-sized antenna, developed at the Department of Energy’s SLAC National Accelerator Laboratory, could enable mobile communication in situations where conventional radios don’t work, such as under water, through the ground and over
Zapping tumors in less than a second is the future of fighting cancer
SLAC and Stanford researchers secure support for two projects that share one goal: to reduce the side effects of radiation therapy by vastly shrinking the length of a typical session. New accelerator-based technology being developed by the Department of Energy’s SLAC National Accelerator Laboratory and Stanford University aims to reduce the side effects of cancer
Could graphene become superconducting?
Scientists at the London Centre for Nanotechnology and Department of Physics & Astronomy at UCL have discovered a potential way to make graphene – a single layer of carbon atoms with great promise for future electronics – superconducting. The study, performed in collaboration with Stanford University and the SLAC National Accelerator Laboratory is published in Nature
Machine learning algorithms pinpoint new materials 200 times faster than previously possible
If you combine two or three metals together, you will get an alloy that usually looks and acts like a metal, with its atoms arranged in rigid geometric patterns. But once in a while, under just the right conditions, you get something entirely new: a futuristic alloy called metallic glass. The amorphous material’s atoms are
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