A cold gold rush? The race for the Arctic’s critical minerals is heating up
Traditional painted houses overlooking sea ice in the Old Nuuk district near the Sermitsiaq mountain in Nuuk, Greenland, on Thursday, April 3, 2025.
Bloomberg | Bloomberg | Getty Images
A global scramble to exploit the Arctic’s untapped resources appears to be kicking into overdrive.
In a push to break China’s mineral dominance, countries around the world are increasingly turning to the thawing and sparsely populated northern polar region, seeking to seize its raw materials and benefit from new commercial trade routes.
U.S. President Donald Trump, for example, has repeatedly underscored the importance of Greenland, a vast Arctic territory, calling U.S. ownership of the island an “absolute necessity” for economic and national security reasons.
Canada has recently sought to ramp up Arctic investment as part of a push designed to unlock its resource potential, particularly amid strained diplomatic ties with the U.S.
Russia, which has a sprawling Arctic coastline, has long recognized the region as a strategic priority. Indeed, President Vladimir Putin on Tuesday lauded the construction of a new nuclear-powered icebreaker ship to navigate Arctic waters, saying “it’s important to consistently strengthen Russia’s position” in the region.
“The Arctic is seen as a source of a lot of different raw materials, not only oil and gas, but a lot of strategic materials and rare earths,” Marc Lanteigne, associate professor at the Arctic University of Norway in Tromso, told CNBC by telephone.
“Greenland, right now, is a repository of a lot of base metals, precious metals, gem stones, rare earths, uranium … it’s all there. The problem is that up until recently, it was seen as completely unviable to actually mine them,” Lanteigne said.
“But with climate change and the ability to navigate the Arctic Ocean much more frequently, especially during the summer months, Greenland is starting to be looked at much more carefully as a potential alternative source for a lot of these strategic materials to China.”
Greenland has been transformed by the climate crisis. A major analysis of historic satellite images, published last year by researchers at the U.K.’s University of Leeds, showed parts of the autonomous Danish territory’s ice sheet and glaciers have been replaced by wetlands, areas of shrub and barren rock.
For mining companies, the major ice loss has inadvertently made some of the island’s strategic minerals more accessible.
Tony Sage, CEO of Critical Metals, which is developing one of the world’s largest rare earth assets in southern Greenland, said there has been a notable upswing in investor interest in Greenland in recent months, particularly since Trump returned to office and raised the prospect of seizing control of the territory.
“I remember in his first term, in around 2018 and 2019, he made a big song and dance about the strategic value of rare earths in Greenland, so even back then,” Sage told CNBC by telephone.
Perception vs. reality
Alongside Critical Metals, mining and exploration company Amaroq is also working to exploit some of Greenland’s resources. Amaroq CEO Eldur Olafsson said the firm’s recent discovery of high-grade rare earths in southern Greenland “means a lot to us.”
The project, which will take several years to develop, marked the firm’s first foray into the rare earths space as it expands its interests beyond gold and other strategic minerals.
Just one week after unveiling its rare earths discovery, the company on Nov. 11 confirmed commercial levels of germanium and gallium at its west Greenland hub, a development that Olafsson said could prove to be even more strategically significant.
“The germanium, gallium piece is, in my opinion, much bigger news than people understand,” Olafsson told CNBC by video call.
This aerial view shows icebergs floating in the waters beaten down by the sun with buildings in the background off Nuuk, Greenland, on March 11, 2025, on the day of Greenland, the autonomous Danish territory, legislative elections.
Odd Andersen | Afp | Getty Images
Germanium and gallium are essential components to a wide range of goods, from electric vehicles to semiconductors and military applications.
China, which is the primary global producer of these metals, imposed initial export controls on germanium and gallium in 2023, before singling out the U.S. with an outright ban late last year in response to curbs imposed on its chip sector by Washington. Beijing has since suspended its ban of gallium and germanium exports to the U.S., although the metals remain subject to restrictive measures.
“That is a mineral that the U.S. and the European Union need now. The rare earths are being processed by Lynas and MP Materials. That is something that you can access, I wouldn’t say easier, but you can access it … Germanium and gallium, if you don’t have them then that is a massive problem,” Olafsson said.
“We now have a short-term solution in mining terms to mine zinc, lead, silver and germanium and gallium, while we are then developing exporting the rare earths as well.”
Olafsson said it was important for the company to generate cashflow through its portfolio of gold and other strategic metals while it seeks to deliver on its rare earths potential, noting that the rare earths market is still relatively small.
Asked whether the race for the Arctic’s resources could be compared to a gold rush, Lanteigne said: “This is where perception and reality tend to kick in.”
He added: “There has been a lot of discussion about a rush to develop mineral resources in Greenland, for example, but I can say having been there quite a few times that if you are going to set up a mine then you need to bring in literally everything.”
Even in ideal conditions, Lanteigne said logistical challenges, such as Greenland’s harsh climate and remote landscape, means it could take 15 to 20 years before companies start to turn a serious profit.
Arctic Sweden
It’s not just Greenland. The scramble for the Arctic’s minerals includes some of the northernmost areas of Sweden, too.
State-owned mining firm LKAB is currently racing to develop one of Europe’s largest known deposits of rare earths. The discovery of the so-called Per Geijer deposit, which was announced in 2023, sits in close proximity to the firm’s massive iron ore mine in the Arctic city of Kiruna.
Rain falls as a general view taken on August 21, 2025 shows the LKAB iron ore mine and a sign bearing the company’s logo in Kiruna, northern Sweden.
Jonathan Nackstrand | Afp | Getty Images
Niklas Johansson, senior vice president public affairs and external relations at LKAB, said the company is currently in discussion with European lawmakers to ensure that it will be economically viable to develop its resources.
“We’ve already got the material up to the ground. That’s all been paid for by the iron ore. Still, it’s not a given that this is a business case. It looks like it is for us at the moment, but it’s not something that you’d say, ‘oh it’s a no brainer, just run for it,'” Johansson told CNBC by telephone.
“I also tell them that if it looks like this for us, who has most of the infrastructure and everything in place, how do you think it will look for others in Europe?”
EQORE, a distributed battery storage startup based in Somerville, Massachusetts, has raised $1.7 million in seed funding to help industrial buildings tackle rising electricity costs. The round was oversubscribed and includes backing from the Massachusetts Clean Energy Center (MassCEC), Henry Ford III of Ford Motor Company, and Jonathan Kraft of The Kraft Group.
The timing couldn’t be more relevant. Data centers are booming, and that demand is slamming an already stressed grid. Big, utility-scale batteries help at the grid level, but they can’t fix the bottlenecks happening on local distribution networks. That’s where onsite storage steps in — storing energy when demand is low and discharging it when demand spikes, which helps stabilize costs for both the grid and the businesses using it.
MassCEC’s head of investments, Susan Stewart, said, “What excites us the most about EQORE’s technology is the dual impact: grid support and customer savings.” She noted that commercial and industrial buildings are ideal hosts for battery storage, but haven’t gotten much attention until now. “EQORE is closing that gap.”
Investor Randolph Mann highlighted what makes the company stand out: “By uniting advanced controls with high‑resolution metering and true end‑to‑end service, EQORE finally makes commercial behind-the-meter storage effortless and financially compelling for businesses.”
EQORE comes out of MIT’s Sandbox program and delta v accelerator and is currently part of the Harvard Climate Entrepreneurs Circle incubator. CEO and cofounder Valeriia Tyshchenko, a third‑generation engineer from Ukraine and MIT graduate, said the new funding will help the company scale alongside its existing revenue.
With the seed round closed, EQORE plans to grow its team and ramp up battery deployments at energy-intensive manufacturing facilities. The company doesn’t just install batteries; it operates them. Its autonomous software shifts when a facility uses power based on market conditions and utility incentives, reshaping load in real-time without disrupting operations.
Read more: Battery boom: 5.6 GW of US energy storage added in Q2
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Hyundai took the sheets of its new off-road electric SUV, the Crater Concept, at the LA Auto Show. Here’s our first look at the compact off-roader.
Meet Hyundai’s new off-road SUV, the Crater Concept
We knew it was coming after Hyundai teased the off-road SUV earlier this week, hidden under a drape. Hyundai took the sheets off the Crater Concept at the LA Auto Show on Thursday, giving us our first real look at the rugged off-roader.
Hyundai refers to it as a compact off-road SUV that’s inspired by extreme events. The concept was brought to life at the Hyundai America Technical Center in Irvine, California.
The off-road SUV draws design elements from Hyundai’s Extra Rugged Terrain (XRT) models, such as the IONIQ 5 XRT, Santa Cruz XRT, and the new Pallisade XRT Pro.
Although it’s a concept, Hyundai said the Crater Concept is a testament to its commitment to designing future XRT vehicles that are more functional, more capable, and more emotional.
“CRATER began with a question: ‘What does freedom look like?’ This vehicle stands as our answer,” Hyundai’s global design boss, SangYup Lee said.
The off-road SUV features Hyundai’s new Art of Steel design theme, first showcased on the THREE concept at the Munich Motor Show in September.
Hyundai said the design team was guided by one clear goal: To create a rugged and capable vehicle that’s designed to go anywhere. The Crater Concept embodies that vision with added wide skid plates, 33″ off-road tires, limb risers, rocker panels, and a roof platform.
Hyundai designed the interior for “tech-savvy adventure seekers,” with a singular design centered around a high-brow crash pad that stretches across the dashboard.
The concept also swaps the traditional infotainment setup for a head-up display that spans the entire front window, which Hyundai said includes a live rearview camera.
Hyundai’s off-roader includes a new Off-Road Controller for front and rear locking differentials, as well as a terrain selector with modes including Sand, Snow, and Mud. Other off-road features include downhill brake control, trailer brake control, a compass, and an altimeter.
Although Hyundai said it was electric, it didn’t reveal any further details about the powertrain. The off-road SUV could be a battery-electric or fuel-cell-electric vehicle.
Like the new Nexo, Hyundai’s hydrogen fuel cell vehicle, the concept features “HTWO” lamps exclusive to its FCEVs.
Earlier this week, the design team at Hyundai Design North America also introduced its new design and ideation studio codenamed “The Sandbox.” The creative design studio is set to serve as a global hub for future XRT vehicles and gear.
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OpenAI is partnering with Taiwan’s Foxconn, the world’s largest contract electronics manufacturer, to design and build artificial intelligence data center components in the U.S., the AI startup’s latest announcement tied to its massive infrastructure development plans.
While no financial terms were disclosed, OpenAI said in Thursday’s announcement that it will have early access to evaluate the systems Foxconn produces, and the option to purchase them. The companies said the goal is to accelerate the deployment of infrastructure while securing long-term U.S. capacity.
Under the agreement, OpenAI and Foxconn will co-develop multiple generations of AI servers in parallel, while manufacturing core components like power, networking, and cooling systems at Foxconn’s U.S. facilities. The company’s website says it has factories in Wisconsin, Ohio, Texas, Virginia and Indiana.
“This partnership is a step toward ensuring the core technologies of the AI era are built here,” OpenAI CEO Sam Altman said in a statement, calling AI infrastructure a “generational opportunity to reindustrialize America.”
OpenAI has been on a dealmaking blitz of late with many of the world’s largest technology companies, and has announced spending commitments of roughly $1.4 trillion, raising concerns about whether the startup will ever generate enough profit to justify those investments. Altman said earlier this month that the company will hit $20 billion in annualized revenue by the end of this year and hundreds of billions by 2030.
Prior deals include a $100 billion announced — but unfinalized — agreement with Nvidia for the chipmaker to invest in OpenAI in phases as the company builds out infrastructure. OpenAI also has cloud partnerships with Microsoft, Google and Amazon and hefty compute buildout commitments with Oracle.
Foxconn adds a manufacturing layer, further localizing OpenAI’s supply chain and potentially speeding the pace of deployment. The company is best known for assembling Apple’s iPhones but has expanded into AI and automotive manufacturing. It builds server racks tailored for AI workloads and is a key global supplier to Nvidia, the dominant player in high-end AI chips.
“Foxconn is uniquely positioned to support OpenAI’s mission with trusted, scalable infrastructure,” said Chairman Young Liu.
But the company has a checkered history in the U.S. In 2018, Foxconn broke ground on what was supposed to be a massive factory in Wisconsin for making flat-panel displays. That project was a failure, and is now the site of an AI data center being built by Microsoft.
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