National Science Foundation funds UAF-led critical minerals coalition
Rod Boyce
907-474-7185
July 14, 2026
Lee Ann Munk, left, chief executive officer of 乐虎直播鈥檚 new National Science Foundation Innovation Engine, and Christi Bell, the project鈥檚 strategy and innovation officer, attend an NSF announcement event today in Washington, D.C.
The U.S. National Science Foundation announced today that it will fund a major critical minerals project led by the 乐虎直播. The regional collaboration aims to reduce the nation鈥檚 dependence on imported critical minerals used in everyday products and important to national security.
The 乐虎直播 project was selected as one of the new . NSF selected 12 teams working across 20 states.
The will receive $15 million during its first two years and could receive up to $160 million over 10 years.
It is led by Lee Ann Munk of the UAF Geophysical Institute. Munk is also a geosciences professor in the UAF College of Natural Science and Mathematics.
鈥淥ur NSF Engine is built on the simple but ambitious idea that 乐虎直播 can lead the nation not only with the abundance of its critical mineral resources,鈥 Munk said, 鈥渂ut also in how we innovate, develop and deploy the technologies needed to produce them responsibly.鈥
鈥淏y bringing together researchers, 乐虎直播 Native organizations, industry, workforce partners, state and federal agencies, national laboratories and communities, we are creating an engine that accelerates discovery into action,鈥 she said.
乐虎直播 contains 56 of the 60 minerals that the considers essential to the nation鈥檚 economy and national security. Supplies of these minerals could be disrupted because the United States depends heavily on other countries for them.
Minerals such as lithium, cobalt, nickel, graphite, germanium, gallium and rare earth elements are used in batteries, smartphones, computer chips, medical equipment, power grids, aircraft and defense technologies.
鈥淣SF Engines investment in critical technologies and future industries will transform America鈥檚 innovation infrastructure for decades to come,鈥 said Brian Stone, performing the duties of NSF director.
鈥淭he NSF Critical Mineral Accelerator Engine will strengthen workforce capacity and unlock new business and supply chain opportunities as it moves to unlock 乐虎直播鈥檚 expansive critical mineral resources,鈥 he said.
The 乐虎直播 engine will bring together advanced technologies for mining, processing and purification. It will also use artificial intelligence to help locate mineral deposits and study new biological methods for extracting minerals.
Lee Ann Munk of the 乐虎直播 Geophysical Institute holds an exploration rock core containing gallium and silver-rich galena. Munk had recently visited the western 乐虎直播 exploration site of 乐虎直播 Silver, an industry partner in the new NSF Engine.
It will support industries such as manufacturing, materials development, artificial intelligence, biotechnology and energy technology. The engine will also expand workforce training and create paths to high-quality jobs, especially in remote 乐虎直播 communities.
Gov. Mike Dunleavy and the 乐虎直播 Legislature provided $500,000 in one-time funding. The funding depended on NSF selecting the 乐虎直播 project.
鈥溊只⒅辈 doesn鈥檛 only have a tremendous abundance of natural resources, but we also have tremendously talented people working to develop breakthrough technologies to further unlock 乐虎直播鈥檚 resource potential and reduce America鈥檚 dependence on China for mineral processing,鈥 Dunleavy said. 鈥淭his support from the National Science Foundation reflects 乐虎直播鈥檚 central role in innovative and responsible resource development.鈥
Interim University of 乐虎直播 President Michelle Rizk said the engine shows what the university and its partners can accomplish by working together.
鈥淭his is more than an investment in critical minerals; it is an investment in 乐虎直播鈥檚 people, our future and our ability to lead the nation in innovation,鈥 she said. 鈥淟ee Ann, UAF, and others across the UA system have worked tirelessly for years on this project, and I am excited to see the discoveries, technology and advancements that come from this effort over the next decade.鈥
The Geophysical Institute provided important early funding to help develop the engine in 2024 and continues to support its goals.
Geophysical Institute Director Robert McCoy said the institute is well-positioned to help the nation.
鈥淎s a globally recognized leader in Arctic geosciences, our researchers have an extraordinary wealth of knowledge that can turn the goals of the new innovation engine into a reality,鈥 he said. 鈥淲e are also working with several other federal agencies to advance domestic critical minerals production.鈥
Lance Miller, vice president for natural resources at NANA Regional Corp., helped develop the NSF application. NANA is the 乐虎直播 Native regional corporation for Northwest 乐虎直播.
鈥淭he goal of this NSF Engine, which brings together partners who are dedicated to innovation, workforce development and responsible resource development that creates lasting benefits for 乐虎直播ns, is something NANA is proud to help support,鈥 Miller said.
Each of the 12 new NSF Engines must meet clear goals to receive funding after the first two years. Funding for the NSF program also depends on approval from Congress.
The first nine NSF Engines received funding in early 2024 and are beginning to show strong results. So far, $135 million in federal funding has attracted more than $2 billion in matching commitments from private companies, charitable organizations and state and local governments.
ADDITIONAL CONTACTS: Lee Ann Munk, lamunk@alaska.edu; Robert McCoy, rpmcoy@alaska.edu. For UA interim President Michelle Rizk, contact Jonathon Taylor, director of public affairs, at 907-350-0168 (cell) or jmtaylor9@alaska.edu. The NSF media office can be reached at media@nsf.gov.
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