News Â鶹´«Ã½ from Ames National Laboratory display Latest news from Ames National Laboratory on News en-us Copyright 2024 News News Â鶹´«Ã½ from Ames National Laboratory 115 31 / /images/newswise-logo-rss.gif Ames National Laboratory to test new electrical transmission line that could improve grid resiliency /articles/ames-national-laboratory-to-test-new-electrical-transmission-line-that-could-improve-grid-resiliency/?sc=rsin /articles/ames-national-laboratory-to-test-new-electrical-transmission-line-that-could-improve-grid-resiliency/?sc=rsin Tue, 09 Jul 2024 14:05:05 EST Material scientists from the U.S. Department of Energy's Ames National Laboratory are moving into the field-testing stage of a new type of high voltage overhead power conductor (cable). Ames National Laboratory New understanding of a common plant enzyme could lead to better crop management /articles/new-understanding-of-a-common-plant-enzyme-could-lead-to-better-crop-management/?sc=rsin /articles/new-understanding-of-a-common-plant-enzyme-could-lead-to-better-crop-management/?sc=rsin Tue, 02 Jul 2024 09:05:54 EST New findings about chitinases, enzymes found naturally in plants, could allow farmers to address fungal infections sooner and more efficiently. Ames National Laboratory Researchers find unexpected excitations in a Kagome layered material /articles/researchers-find-unexpected-excitations-in-a-kagome-layered-material/?sc=rsin /articles/researchers-find-unexpected-excitations-in-a-kagome-layered-material/?sc=rsin Fri, 21 Jun 2024 17:05:45 EST Researchers from the U.S. Department of Energy Ames National Laboratory have discovered an unexpected chiral excitation in the kagome layered topological magnet TbMn6Sn6. Ames National Laboratory New process tackles pollution on two fronts: plastic waste and fuel emissions /articles/new-process-tackles-pollution-on-two-fronts-plastic-waste-and-fuel-emissions/?sc=rsin /articles/new-process-tackles-pollution-on-two-fronts-plastic-waste-and-fuel-emissions/?sc=rsin Thu, 02 May 2024 09:05:45 EST A team of scientists from the U.S. Department of Energy's Ames National Laboratory recently developed a chemical conversion process that makes diesel out of plastic waste. Ames National Laboratory Scientists are shaking up lithium extraction with a different kind of chemistry /articles/scientists-are-shaking-up-lithium-extraction-with-a-different-kind-of-chemistry/?sc=rsin /articles/scientists-are-shaking-up-lithium-extraction-with-a-different-kind-of-chemistry/?sc=rsin Fri, 26 Apr 2024 17:05:09 EST Scientists at the Critical Materials Innovation (CMI) Hub, led by the U.S. Department of Energy's Ames National Laboratory, have developed a new process, mechanochemical extraction of lithium at low temperatures, or MELLT, to increase and diversify the supply of lithium in the United States. Ames National Laboratory Scientists reveal the first unconventional superconductor that can be found in mineral form in nature /articles/scientists-reveal-the-first-unconventional-superconductor-that-can-be-found-in-mineral-form-in-nature/?sc=rsin /articles/scientists-reveal-the-first-unconventional-superconductor-that-can-be-found-in-mineral-form-in-nature/?sc=rsin Wed, 13 Mar 2024 09:10:21 EST Scientists from Ames National Laboratory have identified the first unconventional superconductor with a chemical composition also found in nature. Ames National Laboratory Theoretical modeling illuminates a new nonlinear Hall Effect /articles/theoretical-modeling-illuminates-a-new-nonlinear-hall-effect/?sc=rsin /articles/theoretical-modeling-illuminates-a-new-nonlinear-hall-effect/?sc=rsin Mon, 30 Oct 2023 11:05:14 EST An international team of researchers including a team from the Center for the Advancement of Topological Semimetals (CATS), an Energy Frontier Research Center under the U.S. Department of Energy's Office of Science led by Ames National Laboratory, experimentally demonstrated a new type of nonlinear Hall effect. Ames National Laboratory Researchers use AI to find new magnetic materials without critical elements /articles/researchers-use-ai-to-find-new-magnetic-materials-without-critical-elements/?sc=rsin /articles/researchers-use-ai-to-find-new-magnetic-materials-without-critical-elements/?sc=rsin Tue, 05 Sep 2023 13:05:20 EST A team of scientists from Ames National Laboratory developed a new machine learning model for discovering critical-element-free permanent magnet materials based on the predicted Curie temperature of new material combinations. Ames National Laboratory Researchers develop a unique quantum mechanical approach to determining metal ductility /articles/researchers-develop-a-unique-quantum-mechanical-approach-to-determining-metal-ductility/?sc=rsin /articles/researchers-develop-a-unique-quantum-mechanical-approach-to-determining-metal-ductility/?sc=rsin Mon, 14 Aug 2023 10:05:42 EST A team of scientists from Ames National Laboratory and Texas A&M University developed a new quantum-mechanics-based approach to predict metal ductility. The team demonstrated its effectiveness on refractory multi-principal-element alloys. Ames National Laboratory Squeeze a little science onto your toothbrush /articles/squeeze-a-little-science-onto-your-toothbrush/?sc=rsin /articles/squeeze-a-little-science-onto-your-toothbrush/?sc=rsin Tue, 08 Aug 2023 09:55:34 EST Ames National Laboratory partnered with the Colgate-Palmolive Company to improve stannous fluoride, an FDA approved ingredient that prevents tooth decay and plaque formation, and combats gum disease. Ames National Laboratory Structure of the elusive boron monoxide finally determined after 83 years /articles/structure-of-the-elusive-boron-monoxide-finally-determined-after-83-years/?sc=rsin /articles/structure-of-the-elusive-boron-monoxide-finally-determined-after-83-years/?sc=rsin Tue, 18 Jul 2023 09:50:55 EST In an effort to discover new 2D materials, a team of scientists from Ames National Laboratory determined the structure of boron monoxide using new NMR methods and previously unavailable analytical tools. Ames National Laboratory Researchers make a surprising discovery about the magnetic interactions in a Kagome layered topological magnet /articles/researchers-make-a-surprising-discovery-about-the-magnetic-interactions-in-a-kagome-layered-topological-magnet/?sc=rsin /articles/researchers-make-a-surprising-discovery-about-the-magnetic-interactions-in-a-kagome-layered-topological-magnet/?sc=rsin Tue, 11 Jul 2023 08:05:49 EST A team from Ames National Laboratory conducted an in-depth investigation of the magnetism of TbMn6Sn6, a Kagome layered topological magnet. They were surprised to find that the magnetic spin reorientation in TbMn6Sn6 occurs by generating increasing numbers of magnetically isotropic ions as the temperature increases. Ames National Laboratory New tool helps improve quantum computing circuit component /articles/new-tool-helps-improve-quantum-computing-circuit-component/?sc=rsin /articles/new-tool-helps-improve-quantum-computing-circuit-component/?sc=rsin Wed, 05 Jul 2023 10:05:13 EST A team of scientists from Ames National Laboratory in partnership with the Superconducting Quantum Materials and Systems Center, used the terahertz SNOM microscope, originally developed at Ames Lab, to investigate the interface and connectivity of a nano Josephson Junction that was fabricated by Rigetti Computing. The images they obtained with the terahertz microscope revealed a defective boundary in the nano junction that causes a disruption in the conductivity. Ames National Laboratory Scientists make a surprising discovery about magnetic defects in topological insulators /articles/scientists-make-a-surprising-discovery-about-magnetic-defects-in-topological-insulators/?sc=rsin /articles/scientists-make-a-surprising-discovery-about-magnetic-defects-in-topological-insulators/?sc=rsin Fri, 09 Jun 2023 12:05:35 EST Scientists from the Department of Energy's Ames National Laboratory made an intriguing discovery while characterizing the magnetism in a dilute magnetic topological insulator. Despite this material's ferromagnetism, they discovered strong antiferromagnetic interactions between some pairs of magnetic defects that play a key role in several families of magnetic topological insulators. Ames National Laboratory Ultralow temperature terahertz microscope capabilities enable better quantum technology /articles/ultralow-temperature-terahertz-microscope-capabilities-enable-better-quantum-technology/?sc=rsin /articles/ultralow-temperature-terahertz-microscope-capabilities-enable-better-quantum-technology/?sc=rsin Fri, 12 May 2023 13:30:54 EST A team of scientists from the Department of Energy's Ames National Laboratory have developed a way to collect terahertz imaging data on materials under extreme magnetic and cryogenic conditions. They accomplished their work with a new scanning probe microscope that was recently developed at Ames Lab. The team used the ultralow temperature terahertz microscope to take measurements on superconductors and topological semimetals that were exposed to high magnetic fields and extremely cold temperatures. Ames National Laboratory Scientists take an important step towards using quantum computers to advance materials science /articles/scientists-take-an-important-step-towards-using-quantum-computers-to-advance-materials-science/?sc=rsin /articles/scientists-take-an-important-step-towards-using-quantum-computers-to-advance-materials-science/?sc=rsin Mon, 01 May 2023 12:00:24 EST A team of scientists from the U.S. Department of Energy's Ames National Laboratory demonstrated a way to advance the role of quantum computing in materials research with an adaptive algorithm for simulating materials. Quantum computers have potential capabilities far beyond today's computers, and using an adaptive algorithm allows them to produce solutions quickly and accurately. Ames National Laboratory New zirconia-based catalyst can make plastics upcycling more sustainable /articles/new-zirconia-based-catalyst-can-make-plastics-upcycling-more-sustainable/?sc=rsin /articles/new-zirconia-based-catalyst-can-make-plastics-upcycling-more-sustainable/?sc=rsin Wed, 22 Feb 2023 10:30:21 EST A new type of catalyst breaks down polyolefin plastics into new, useful products. This project is part of a new strategy to reduce the amount of plastic waste and its impact on our environment, as well as recover value that is lost when plastics are thrown away. The catalyst was developed by a team from the Institute for Cooperative Upcycling of Plastic (iCOUP), a U.S. Department of Energy, Energy Frontier Research Center. Ames National Laboratory A newly developed catalyst makes single-use plastics easier to upcycle, recycle, and biodegrade /articles/a-newly-developed-catalyst-makes-single-use-plastics-easier-to-upcycle-recycle-and-biodegrade/?sc=rsin /articles/a-newly-developed-catalyst-makes-single-use-plastics-easier-to-upcycle-recycle-and-biodegrade/?sc=rsin Mon, 20 Feb 2023 13:05:03 EST Researchers created a new catalyst that transforms hydrocarbons into chemicals and materials that are higher value, easier to recycle, and biodegrade in the environment. This catalyst transforms materials such as motor oil, plastics in single-use grocery bags, water or milk bottles, and their caps, and even natural gas. Ames National Laboratory New hybrid catalyst could help decarbonization and make ethylene production more sustainable /articles/new-hybrid-catalyst-could-help-decarbonization-and-make-ethylene-production-more-sustainable/?sc=rsin /articles/new-hybrid-catalyst-could-help-decarbonization-and-make-ethylene-production-more-sustainable/?sc=rsin Fri, 27 Jan 2023 11:20:33 EST A new hybrid catalyst converts carbon dioxide into ethylene in one pot. The catalyst was developed by scientists from Ames National Laboratory, Iowa State University, University of Virginia, and Columbia University. Ames National Laboratory New discoveries made about a promising solar cell material, thanks to new microscope /articles/new-discoveries-made-about-a-promising-solar-cell-material-thanks-to-new-microscope/?sc=rsin /articles/new-discoveries-made-about-a-promising-solar-cell-material-thanks-to-new-microscope/?sc=rsin Tue, 15 Nov 2022 11:05:52 EST A team of scientists from the Department of Energy's Ames National Laboratory developed a new characterization tool that allowed them to gain unique insight into a possible alternative material for solar cells. Ames National Laboratory