I recently reported that the U.S. has been rapidly securing its pipeline to critical minerals, supporting the development of a Brazilian mine while an American firm merges mining with rare earth elements (REE) processing capabilities.
These developments were the result of President Donald Trump’s team exploring partnership opportunities with other countries to both mine and process REEs, gutting China’s essential monopoly on these minerals. This move followed months of threats of export controls by China.
Well, there is more good news to be had. Ionic Mineral Technologies, a U.S.-based advanced materials company focused on nano‑silicon anode materials, has confirmed it has identified a high‑grade deposit of 16 different critical minerals and rare earth elements at its Silicon Ridge project in Utah’s Lake.
Ionic MT had leased the land as part of its business producing nanosilicon for lithium-ion batteries, which are used in electric vehicles. But the company told WSJ Pro Sustainable Business that what it found was a host of other minerals, in what it says may be the most significant critical mineral reserve in the U.S.Ionic MT said it discovered high grades of 16 different types of minerals, everything from lithium to alumina, germanium, rubidium, cesium, vanadium and niobium at the site in Utah’s Silicon Ridge Mountains.Ionic MT said it has had several meetings with the Trump administration and that the White House has expressed “clear enthusiasm about our work and its potential national impact.”Rubidium and cesium, which are used for atomic clocks, can be found at the Utah site, along with scandium, which is essential for the aerospace industry. The U.S. currently relies on other countries to secure rubidium, cesium and scandium.
Independent tests show the Utah deposit is a halloysite‑hosted ion‑adsorption clay, a geological type known for concentrating valuable minerals. In practical terms, it shares the same clay‑hosted footprint that is similar in profile to China’s deposits.
Critically, Silicon Ridge demonstrates what Ionic MT characterizes as an ‘IAC-Plus’ profile: rare earth concentrations comparable to China’s deposits, but with subsequent hydrothermal, magmatically enriched grades of critical technology metals including gallium, germanium, rubidium, cesium, scandium, lithium, vanadium, tungsten, niobium, and a full suite of light and heavy rare earths (La–Lu, Y).”This confirmation is a watershed moment for American resource independence. For the first time, we have a domestic, shovel-ready source for a full spectrum of critical minerals, all extractable with a faster, cleaner process than traditional hard rock mining and extraction,” said Andre Zeitoun, founder and CEO of Ionic MT. “With our mining permits and processing facility in place, we can now move rapidly to production, reducing a key strategic vulnerability for the United States.”
The company already has the mining permits and processing capabilities in place to make the most of its mining permits.
“This confirmation is a watershed moment for American resource independence,” Andre Zeitoun, CEO and founder of Ionic MIT, noted.Zeitoun added that the deposit represents a rare opportunity to produce a wide spectrum of critical minerals within the US, using a faster and cleaner extraction process than traditional hard-rock mining.“With our mining permits and processing facility in place, we can now move rapidly to production, reducing a key strategic vulnerability for the United States,” he continued.The company’s method relies on low-temperature ion exchange rather than high-heat processing or heavy acids, with recovery rates of up to 95 percent.
In a year when America has been scrambling to loosen China’s chokehold on the minerals that power everything from missiles to EVs, Silicon Ridge looks like an early Christmas present from Utah’s desert. Instead of rare earth wish lists going to Beijing, this discovery hints at a future where the U.S. can stuff its own stockings with homegrown critical materials, turning a long‑running supply‑chain nightmare into a made‑in‑America holiday miracle.
Image by perplexity.ai
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