Learn more about Critical Materials and Minerals
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September 21, 2023DOE announced $30 million for advancing innovative practices that will reshape the design, materials, and manufacturing for wind turbine equipment.Integrated Energy Systems Office
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Press ReleasesSeptember 19, 2023The U.S. Department of Energy's Advanced Materials & Manufacturing Technologies Office (AMMTO) has announced the selection of eight projects, which have been awarded a combined total of $2 million, to drive innovation in lithium-ion battery ...Advanced Materials & Manufacturing Technologies Office
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Press ReleasesSeptember 18, 2023Solutions Will Advance Cost-Effective Methods for the United States to Secure an Abundant Domestic Lithium ResourceGeothermal Technologies Office
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September 13, 2023A molecule found in combustion on Earth and surrounding some stars can lead to the formation of an important organic hydrocarbon.Basic Energy Sciences
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Media AdvisorySeptember 11, 2023Projects Focus on Key Technology Areas to Address Critical Gaps Early in the Innovation CycleOffice of Science
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August 15, 2023The new Renewable Energy Materials Properties Database and accompanying reports could help developers, utilities, and other stakeholders understand how global materials supplies might impact future development of wind energy.Integrated Energy Systems Office
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August 15, 2023When critical functions like energy transmission and delivery are too important for the safety and security of our nation to fail, these systems take every precaution to defensively prevent cyberattacks from happening.Office of Cybersecurity, Energy Security, and Emergency Response
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August 15, 2023DOE’s 2023 Critical Materials Assessment evaluates materials for their criticality to global renewable energy technology supply chains.Integrated Energy Systems Office
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August 14, 2023Hard to produce in quantities and purities appropriate for human use, scandium radioisotopes have potential for imaging cancer.Isotope R&D and Production (DOE IP)
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August 2, 2023Researchers used ultrafast electron diffraction to image the structure of the pericyclic minimum, the “transition state” of electrocyclic reactions.Basic Energy Sciences