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Volta Options Springer Rare Earth and Gallium Deposit
Volta Options Springer Rare Earth and Gallium Deposit

Globe and Mail

time5 hours ago

  • Business
  • Globe and Mail

Volta Options Springer Rare Earth and Gallium Deposit

Toronto, Ontario--(Newsfile Corp. - June 10, 2025) - Volta Metals Ltd. (CSE: VLTA) (FSE: D0W) (" Volta" or the " Company") is pleased to announce that, further to the Company's press release issued on February 27, 2025, the Company has entered into a definitive option agreement dated June 9, 2025 (the " Definitive Agreement") with RZJ Capital Management, LLC (the " Vendor") to acquire an initial 80% interest (the " First Option") and up to a 100% interest (the " Second Option") in the Lavergne-Springer ("Springer") Rare Earth and Gallium project (the " Transaction") located 80km east of Sudbury, Ontario, Canada (the " Project" or " Property") (Figure 1), subject to certain encumbrances as noted below. The Project consists of 5,000 hectares of patented and non-patented claims and contains a historic NI 43-101 mineral resource for Total Rare Earth Oxides (" TREO") of 4.167mt at 1.073% TREO indicated and 12.73mt at 1.119% TREO in the inferred resource category at a cut-off of 0.9%. Mineralization starts at surface, the deposit remains open for expansion, and the large Property is underexplored for REE-Ga mineralization. Project Highlights Advanced Rare Earth Project (REE) with associated high-grade Light REE and gallium near Sturgeon Falls, Ontario. Excellent infrastructure with paved road access (1 hour from the Sudbury Mining Hub), rail and hydroelectric power servicing the Property (Figure 2). Multiple wide, shallow intercepts of +100m at >1% TREO, including one of the final drill holes finishing in 12m at 5% TREO with no subsequent follow-up drilling. Consistent elevated gallium intercepts ranging from 57 to 120 g/t over thick intervals, including 87.5m at 76.4 g/t and 88m at 62 g/t gallium. Positive initial laboratory scale metallurgical test work to produce an upgraded Light Rare Earth concentrate. 5,000 Ha property with patented claims covering the known deposit and unpatented claims covering potential extensions to the east and west. The Springer Deposit Tetra Tech Wardrop of Toronto completed the (historic) resource estimate in May 2012 for Rare Earth Metals Inc., which was a junior exploration company listed on the TSX Venture Exchange (Table 1 and 2). The mineral resource estimate was completed in accordance with CIM Best Practices and Disclosure guidelines in accordance with NI 43-101 at that time, and Volta has no reason to believe that the mineral resources estimate contained is not relevant or reliable as of the date hereof (Figure 1). Figure 1. Springer REE Deposit (blue), with Gallium (brown) Core. To view an enhanced version of this graphic, please visit: Table 1. Indicated Resource Estimate for the Springer Deposit TREO% Cut-off Density Tonnes ('000) LREO% HREO%* TREO% HREO:LREO Ratio ThO 2 % 1.30 2.59 759 1.363 0.080 1.443 6 0.018 1.20 2.60 1,384 1.280 0.074 1.353 5 0.017 1.10 2.60 2,124 1.209 0.072 1.281 6 0.017 1.00 2.60 3,028 1.143 0.069 1.212 6 0.016 0.90 2.60 4,167 1.073 0.066 1.139 6 0.016 0.80 2.60 6,022 0.987 0.062 1.049 6 0.015 0.70 2.61 8,249 0.910 0.058 0.967 6 0.014 0.60 2.61 10,719 0.840 0.054 0.894 6 0.013 *: Includes yttrium oxide (Y 2 O 3) Table 2. Inferred Resource Estimate for the Springer Deposit TREO% Cut-off Density Tonnes ('000) LREO% HREO%* TREO% HREO:LREO Ratio ThO 2 % 1.30 2.65 2,805 1.482 0.053 1.535 3 0.010 1.20 2.65 4,405 1.378 0.053 1.431 4 0.010 1.10 2.65 6,531 1.285 0.053 1.337 4 0.011 1.00 2.64 9,433 1.196 0.052 1.249 4 0.011 0.90 2.65 12,732 1.119 0.051 1.170 4 0.011 0.80 2.65 18,274 1.024 0.048 1.072 5 0.010 0.70 2.65 25,917 0.931 0.045 0.976 5 0.009 0.60 2.65 38,876 0.825 0.041 0.866 5 0.008 *: Includes yttrium oxide (Y 2 O 3) The mineral resource, based on 22 diamond drill holes, was estimated by the Ordinary Kriging interpolation method on uncapped grades for all 15 Rare Earth Oxides (" REO"). The TREO% is a sum of the 15 individual interpolations of the REOs. The resource estimate was prepared using a single interpreted domain using a grade shell of 0.31 TREO%. A cut-off grade of 0.9 TREO% was chosen for the deposit resource estimate based on comparable deposits at the time (Table 1 and Table 2). No recoveries have been applied to the interpolated estimates. Volta is unaware of any other work having been completed on the Project since the 2012 mineral resource estimate. The resource estimate presented for the Springer project is historic in nature. Volta's qualified person has not completed sufficient work to confirm the results of the historical resource. Volta is not treating this as a current mineral resource but is considering it relevant as a guide to future exploration and is included for reference purposes only. Volta will require further drilling to verify the historic estimate as current mineral resources. Figure 2. Location of Springer Rare Earth Project in Ontario To view an enhanced version of this graphic, please visit: Infrastructure The Project is located 8 km outside of Sturgeon Falls, Ontario, near the Trans-Canada Highway, the Sturgeon Falls Power Station, and the Railway Station. The Crystal Falls Power Station is located 7 km east of the project site, and power lines and paved roads run across the Property (Figure 3). The Project site is accessible from Sudbury and North Bay and is workable year-round. Figure 3. (a) Sturgeon Falls Power Dam and (b) Crystal Falls Power Lines on Property To view an enhanced version of this graphic, please visit: Gallium Intercepts Historic drilling also returned thick intercepts of high-grade Gallium (Table 3). For reference, the Codero Deposit in Nevada is one of the largest unmined primary gallium deposits in North America, with a reported resource of 15M tonnes at 47.7ppm, with a cut-off grade at 30ppm ( Gallium is a critical component in the semiconductors, telecommunications, and renewable energy sectors and may also be considered as a possible heat exchange medium in nuclear reactors. Canada and the U.S. rely on gallium for telecommunications, defense, and green energy. Gallium is also used in semiconductors, AI circuitry, radar and microchips. On December 3, 2024, China announced an immediate ban on the export of multiple critical metals, including gallium, exacerbating supply chain challenges. China currently accounts for 98% of worldwide primary low-purity gallium production. Examination of the drill database and 3D modelling by the Company as part of its due diligence suggests that the Springer deposit may contain a significant gallium resource. There has been no petrographic or metallurgical testwork completed on the gallium; consequently, it is currently unknown if it is recoverable and/or could form a potentially valuable by-product. Future work will seek to address this. The Company intends to drill and update the 2012 resource estimate in the upcoming exploration season. Table 3. Gallium & REE Composite Assays from 2012 Drilling Borehole From (m) To (m) Interval (m) Ga 2 O (g/t) Nb 2 O 5 % La 2 O 3 (g/t) CeO 2 (g/t) Pr 6 O 11 (g/t) Sm 2 O 3 (g/t) Nd 2 O 3 (g/t) LREO (g/t) HREO (g/t) SL-11-01 132.4 219.9 87.5 102.7 0.09 4,027 7,296 724 256 2,312 14,673 868 SL-11-02 213.8 277.0 63.2 96.2 0.05 3,420 5,106 739 235 1,988 12,858 714 SL-11-03 86.6 94.1 7.6 80.1 0.06 3,950 6,686 606 156 1,753 13,182 216 SL-11-03 101.4 113.4 12.0 102.2 0.07 5,373 9,376 902 279 2,662 18,654 455 SL-11-03 135.9 153.2 17.3 97.2 0.05 5,451 8,909 828 959 2,326 17,760 266 SL-11-03 178.6 189.1 9.0 77.7 0.07 6,988 11,686 1,122 347 3,369 23,587 508 SL-11-03 209.9 223.9 14.0 95.8 0.03 10,341 18,006 1,715 706 5,463 36,390 1,051 SL-11-03 247.9 252.9 5.0 97.3 0.03 11,805 19,517 1,779 672 5,402 39,328 924 SL-12-08 19.0 37.0 18.0 83.3 - 5,653 9,722 967 346 3,078 19,838 649 SL-12-08 37.0 125.0 88.0 83.3 - 3,514 6,537 693 302 2,352 13,463 633 SL-12-09 66.0 102.0 36.0 77.0 - 2,847 6,378 767 397 2,958 13,471 677 SL-12-18 94.7 101.7 7.0 86.4 - 2,676 5,842 702 509 2,789 12,629 403 Transaction Terms The patented claims that comprise the Property are subject to an underlying option agreement (the " Underlying Agreement") between the Vendor, as optionee and certain optionors (the " Underlying Optionors"). The Company has the right to become the optionee under the Underlying Agreement in the event of a default by the Vendor under such agreement. In order to earn an 80% interest in the Property, Volta must: On the closing date of the Definitive Agreement, issue an aggregate of 10,000,000 Common Shares to the Vendor (the " Closing Shares"), make a cash payment of $100,000 to the Vendor, and an aggregate cash payment of $220,400 to the Underlying Optionors; On or before the first anniversary of the execution date of the Definitive Agreement (the " Execution Date") issue an aggregate of 2,500,000 Common Shares to the Vendor (the " First Anniversary Shares"), and make an aggregate cash payment of $266,000 to the Underlying Optionors; and On or before the second anniversary of the Execution Date, issue an aggregate of 2,500,000 Common Shares to the Vendor (the " Second Anniversary Shares"), make an aggregate cash payment of $266,000 to the Underlying Optionors, a cash payment of $160,000 to the Vendor, and an additional cash payment of $76,000 to the Underlying Optionors. Upon exercise of the First Option, the Company will grant the Vendor a 2.0% net smelter returns royalty on the unpatented claims which comprised the Property (the " Granted Royalty"), of which of which 1% of the Granted Royalty may be bought back for $1,000,000 and assume the obligation to pay 80% of the existing 2.85% net smelter returns royalty on the patented claims which comprise the Property (the " Existing Royalty"), of which 0.95% of the Existing Royalty may be bought back for $950,000. The patented claims which comprise the Property are subject to the rights of a certain owner of a 5% interest in such claims (the " Remaining Holder"), accordingly, the First Option is with respect to an 80% interest to 95% of the patented claims and 100% of the unpatented claims. Pursuant to the Definitive Agreement, the Company may acquire the remaining 20% interest (the " Remaining Interest") until the date that is twelve months following the completion of a feasibility study on the Property by paying the Vendor the fair market value of the Remaining Interest at the time of exercise. Closing of the Transaction is subject to certain terms and conditions, including but not limited to the approval of the Canadian Securities Exchange. All Common Shares issued pursuant to the Transaction will be subject to a hold period of four months and one day from the date of issuance. In addition, certain of the Closing Shares shall be subject to the following trading restrictions: 2,500,000 Closing Shares shall not be tradeable until after the date that is six (6) months from the Closing Date, 2,500,000 Closing Shares shall not be tradeable until after the date that is twelve (12) months from the Closing Date and 2,500,000 Closing Shares shall not be tradeable until after the date that is eighteen (18) months from the Closing Date. Qualified Person The technical content of this news release has been reviewed and approved by Andrew Tims, who is an independent Qualified Person (QP) as defined in National Instrument 43-101, Standards of Disclosure for Mineral Projects. The QP and the Company have not completed sufficient work to verify the historical information on the Project. For more information about the Company, view Volta's website at ABOUT VOLTA METALS LTD. Volta Metals Ltd. (CSE: VLTA) (FSE: D0W) is a mineral exploration company based in Toronto, Ontario, focused on REE, gallium, lithium, cesium, and tantalum. It has optioned and is currently exploring a critical minerals portfolio of REE, gallium, lithium, cesium, and tantalum projects in northwestern Ontario, considered one of the world's most prolific, emerging hard-rock lithium districts. To learn more about Volta and its Aki Project and its recently acquired Springer Project, please visit ON BEHALF OF THE BOARD Neither the CSE nor the Investment Industry Regulatory Organization of Canada accepts responsibility for the adequacy or accuracy of this release. This news release contains forward-looking statements relating to product development, plans, strategies, and other statements that are not historical facts. Forward-looking statements are often identified by terms such as "will", "may", "should", "anticipate", "expects" and similar expressions. All statements other than statements of historical fact included in this news release are forward-looking statements that involve risks and uncertainties. Forward-looking information in this news release includes, but is not limited to, the timing and anticipated completion of the Transaction, the entering into of the Definitive Agreement, regulatory approvals for the Transaction, that the Transaction is transformative for Volta, statements regarding the Transaction, the ability to complete the Transaction on the terms provided herein or at all, the receipt of all necessary approvals, the Company's planned exploration activities and the Company's aim to prevent and minimize impacts on the First Nations through a variety of mitigation measures and offsetting benefits. There can be no assurance that such statements will prove to be accurate, and actual results and future events could differ materially from those anticipated in such statements. Important factors that could cause actual results to differ materially from the Company's expectations include: that the Company may not close the Transaction on the terms contemplated or at all, that due diligence with respect to the Transaction will not be favourable, that the Transaction may not be consummated, that the rights of the Remaining Holder will impede the Company's ability to conduct exploration activities on, and potential develop, the Property, the risks detailed from time to time in the filings made by the Company with securities regulators; the fact that Volta's interests in the Property are options only and there are no guarantee that such interest, if earned, will be certain; the future prices and demand for lithium; and delays or the inability of the Company to obtain any necessary approvals, permits and authorizations required to carry out its business plans. The reader is cautioned that assumptions used in the preparation of any forward-looking statements may prove to be incorrect. Events or circumstances may cause actual results to differ materially from those predicted, as a result of numerous known and unknown risks, uncertainties, and other factors, many of which are beyond the control of the Company. The reader is cautioned not to place undue reliance on any forward-looking statements. Such information, although considered reasonable by management at the time of preparation, may prove to be incorrect and actual results may differ materially from those anticipated. Forward-looking statements contained in this news release are expressly qualified by this cautionary statement. The forward-looking statements contained in this news release are made as of the date of this news release, and the Company disclaims any intention or obligation to update or revise any forward-looking statements, whether as a result of new information, future events, or otherwise, other than as required by law.

Donald Trump, UAE leaders agree to $312 billion in new deals amid historic visit: 'Enhancing market access'
Donald Trump, UAE leaders agree to $312 billion in new deals amid historic visit: 'Enhancing market access'

Sky News AU

time15-05-2025

  • Business
  • Sky News AU

Donald Trump, UAE leaders agree to $312 billion in new deals amid historic visit: 'Enhancing market access'

President Donald Trump facilitated over $200 billion (AUD$312 billion) in commercial deals between the U.S. and the United Arab Emirates (UAE) during his historic visit to the Middle Eastern country, according to the White House. Several deals were made, including securing a $14.5 billion commitment from Etihad Airways to invest in 28 American-manufactured aircraft from Boeing and GE Aerospace. Emirates Global Aluminum is also investing $4 billion to develop a primary aluminum smelter project in Oklahoma, and Holtec International and IHC Industrial Holding Company plan to build a fleet of small modular reactors in Michigan. Qualcomm is also investing in a global engineering center in Abu Dhabi which will "focus on AI, data centers, and industrial [internet of things]," according to the White House. "RTX is [also] partnering with Emirates Global Aluminum and the UAE's Tawazun Council on a pioneering Gallium project that will help secure and stabilize the United States' critical mineral supply chain," the statement added. "By diversifying sources of this essential input for semiconductors and defense technologies, the partnership strengthens America's supply security, supports high-tech manufacturing, and creates jobs across the U.S. critical minerals and defense industrial base." In a statement, the White House said that Trump "continues to advance the interests of the American people, enhancing market access for American exporters to strengthen our economic and national security." "These deals will significantly expand investment in the United States and U.S. market access in the United Arab Emirates," the statement added. The deals came after the UAE pledged a $1.4 trillion investment in the U.S. economy over the next ten years. The investment money would go to AI infrastructure, semiconductor, energy and American manufacturing initiatives. Trump is the first U.S. president to visit the UAE in 17 years, following President George W. Bush's trip in 2008. On Thursday, the president told reporters that it was "an honor to be here." "The last four days have been really amazing, and they have been amazing," Trump said. "But it shows you where a country can go." Originally published as Donald Trump, UAE leaders agree to $312 billion in new deals amid historic visit: 'Enhancing market access'

Not Just ‘Rare Earths': U.S. Gets Many Critical Minerals From China
Not Just ‘Rare Earths': U.S. Gets Many Critical Minerals From China

New York Times

time16-04-2025

  • Business
  • New York Times

Not Just ‘Rare Earths': U.S. Gets Many Critical Minerals From China

Three years ago, after the pandemic had laid bare the world's vulnerability to supply-chain disruptions, the U.S. government designated a large swath of the periodic table of elements — 50 minerals in all — as 'critical.' The United States obtains more than half of them, including a category of 17 minerals known as 'rare earths,' mostly from China. And this week, China tightened its export restrictions on six rare earths, all but halting U.S. access to new supplies. Here's a look at just how dependent the United States is on China for a broad range of these critical minerals, including rare earths. U.S. relies on China for many critical minerals Share of U.S. imports sourced from China Rare earths Used for catalytic converters, ceramics, glass 72% Bismuth Medical and atomic research 68% Antimony Lead-acid batteries, flame retardants 63% Arsenic Semiconductors 58% Graphite Lubricants, batteries, fuel cells 42% Barite Hydrocarbon production 30% Tungsten Wear-resistant metals 27% Germanium Fiber optics, night vision 26% Tantalum Electronic components 24% Hafnium Nuclear control rods, alloys 22% Gallium Integrated circuits, optical devices 21% Magnesium Alloys, reducing metals 9% Fluorspar Aluminum, cement, steel, gasoline 6% Lithium Rechargeable batteries 3% Rare earths Used for catalytic converters, ceramics, glass, metallurgy, polishing compounds 72% Bismuth Medical and atomic research 68% Antimony Lead-acid batteries, flame retardants 63% Arsenic Semiconductors 58% Graphite Lubricants, batteries, fuel cells 42% Barite Hydrocarbon production 30% Tungsten Wear-resistant metals 27% Germanium Fiber optics, night vision 26% Tantalum Electronic components 24% Hafnium Nuclear control rods, alloys, high-temperature ceramics 22% Gallium Integrated circuits, optical devices 21% Magnesium Alloys, reducing metals 9% Fluorspar Aluminum, cement, steel, gasoline, fluorine chemicals 6% Lithium Rechargeable batteries 3% Rare earths Used for catalytic converters, ceramics, glass Rare earths Used for catalytic converters, ceramics, glass 72% Bismuth Medical and atomic research 68% Antimony Lead-acid batteries, flame retardants 63% Arsenic Semiconductors 58% Graphite Lubricants, batteries, fuel cells 42% Barite Hydrocarbon production 30% Tungsten Wear-resistant metals 27% Germanium Fiber optics, night vision 26% Tantalum Electronic components 24% Hafnium Nuclear control rods, alloys 22% Gallium Integrated circuits, optical devices 21% Magnesium Alloys, reducing metals 9% Fluorspar Aluminum, cement, steel, gasoline 6% Lithium Rechargeable batteries 3% Rare earths Used for catalytic converters, ceramics, glass, metallurgy 72% Bismuth Medical and atomic research 68% Antimony Lead-acid batteries, flame retardants 63% Arsenic Semiconductors 58% Graphite Lubricants, batteries, fuel cells 42% Barite Hydrocarbon production 30% Tungsten Wear-resistant metals 27% Germanium Fiber optics, night vision 26% Tantalum Electronic components 24% Hafnium Nuclear control rods, alloys, high-temperature ceramics 22% Gallium Integrated circuits, optical devices 21% Magnesium Alloys, reducing metals 9% Fluorspar Aluminum, cement, steel, gasoline, fluorine chemicals 6% Lithium Rechargeable batteries 3% Percentages refer to minerals in their raw and refined forms, not finished goods. Uses are listed for illustrative purposes. U.S. Geological Survey, TD Bank By The New York Times China not only mines most of the world's rare earths, it is home to most of the world's capacity for refining them. Refining refers to the process of taking the raw minerals and turning them into compounds that have broad industrial applications, whether in batteries or semiconductors or fiber optics, or even the magnets that enable power steering in most vehicles. Many rare earths have chemical properties that make them heat resistant, so they can be used to create high-quality magnets, glass, lights and batteries. Magnets made from rare earths are significantly more powerful and valuable than other types, particularly in electric-car production. Want all of The Times? Subscribe.

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