Hertz Lithium Inc. Concludes Lithium Extraction Technology License Agreement With Penn State University
Hertz Lithium Inc. Concludes Lithium Extraction Technology License Agreement With Penn State University
Vancouver, British Columbia--(Newsfile Corp. - January 9, 2024) - Hertz Lithium Inc. (CSE: HZ) (OTCQB: HZLIF) (FSE: QE2) (the "Company") is pleased to announce that it has entered into a license agreement (the "License Agreement") with the Penn State Research Foundation (the "PSRF").
不列顛哥倫比亞省溫哥華--(Newsfile Corp.,2024年1月9日)——赫茲鋰業公司(CSE:HZ)(OTCQB:HZLIF)(FSE:QE2)(the”公司“)很高興地宣佈它已經簽訂了許可協議(”許可協議“) 與賓夕法尼亞州立大學研究基金會(”PSRF“)。
Pursuant to the License Agreement, the PSRF has granted the Company a royalty-bearing exclusive license (the "Patent Rights License") to the PSRF's novel patent-pending process for extraction of lithium from hard rock sources (the "Technology")[1]. Further, pursuant to the License Agreement the PSRF has granted the Company a royalty-bearing license to certain know-how (the "Know-How") necessary to derive the benefits of the Patent Rights (the "Know-How License" and together with the Patent Rights License, the "Licenses"). The Company maintains the right to sublicense the Licenses under the License Agreement to third parties.
根據許可協議,PSRF已授予公司特許權使用費的獨家許可(”專利權 執照“)轉到PSRF正在申請專利的從硬巖資源中提取鋰的新工藝(”科技“)[1]。此外,根據許可協議,PSRF已向公司授予某些專有技術的特許權使用許可(”專有技術“) 從專利權中獲益所必需的(”專有技術許可證“再加上專利權許可證,”許可證“)。公司保留根據許可協議將許可證再許可給第三方的權利。
The Technology comprises a patent-pending process for the extraction of lithium from hard rock lithium sources. Lithium is one of the critical elements with widespread applications in next-generation technologies, including energy storage, electric mobility and cordless devices.[2] Due to its unique applications, lithium cannot be substituted in most applications; therefore, a steady increase of 8-11% in annual demand is anticipated.[3] Meeting a rising demand for lithium requires prospecting and processing all viable resources. Two primary sources of lithium are hard rock ores (e.g., spodumene mineral) and brine, with clay sources considered secondary. Spodumene mineral is the major source of high-purity lithium; however, current technologies do not allow leaching of lithium from alpha-spodumene, and therefore most of the methods of lithium extraction from spodumene are focused on modifying the crystal structure of concentrated spodumene mineral into beta-spodumene using conventional heating (roasting) at 950-1100 degrees Celsius. However, such high-temperature roasting processes are very energy intensive and have been the bottleneck of the economic extraction of lithium from ores. Thus, there is a need for more energy-efficient and environmentally friendly methods for a high-yield extraction of lithium. The Technology is designed to satisfy these needs[4]-[5].
該技術包括一項正在申請專利的從硬巖鋰源中提取鋰的工藝。鋰是下一代技術(包括儲能、電動汽車和無線設備)中廣泛應用的關鍵元素之一。[2] 由於其獨特的應用,鋰在大多數應用中無法取代;因此,預計年需求將穩步增長8-11%。[3] 滿足不斷增長的鋰需求需要勘探和加工所有可行的資源。鋰的兩個主要來源是硬巖礦石(例如鋰輝石礦物)和鹽水,粘土來源被視爲次要來源。鋰輝石礦物是高純度鋰的主要來源;但是,當前的技術不允許從α-鋰輝石中浸出鋰,因此,從鋰輝石中提取鋰的大多數方法都側重於在950-1100攝氏度下使用常規加熱(烘烤)將濃縮鋰輝石礦物的晶體結構改性爲β-鋰輝石。但是,這種高溫焙燒過程非常耗能,一直是從礦石中經濟開採鋰的瓶頸。因此,需要採用更節能和更環保的方法來高產地提取鋰。該技術旨在滿足這些需求[4]-[5]。
The Technology begins with taking spodumene concentrate, introducing sodium hydroxide, and then proceeding with conventional or microwave roasting which transforms the alpha-spodumene into a soluble phase. Next, the water leaching is currently used to recover up to 95% of the water-soluble lithium.
該技術首先提取鋰輝石濃縮物,引入氫氧化鈉,然後進行常規或微波烘烤,將α-鋰輝石轉化爲可溶相。接下來,水浸目前用於回收高達95%的水溶性鋰。
"Lithium has become a commodity of our generation and many new lithium deposits are being defined and put into production to meet the demand for lithium minerals to power electric vehicles, cell phones and many modern instruments. The need for updated, efficient and environmentally friendly lithium extraction technologies is urgent and at Hertz Lithium, we are excited to have executed the license agreement with Penn State University (College of Earth and Mineral Sciences)," states Kal Malhi, CEO & Director of Hertz Lithium. Mr. Malhi continues, "Owning the worldwide exclusive rights to develop and commercialize this patent-pending extraction process is a major differentiator for us in the lithium mining and exploration industry. We are in discussions with commercial lithium extraction experts and potential partners to join our team and begin the next phase of development towards a pilot plant stage demonstration of this technology. We will be laser-focused on developing industry partnerships to advance this technology in 2024 and will be providing ongoing regular updates on our progress in the weeks and months ahead."
“鋰已成爲我們這一代人的商品,許多新的鋰礦牀正在開發和投入生產,以滿足對鋰礦物的需求,爲電動汽車、手機和許多現代儀器提供動力。Hertz Lithium首席執行官兼董事Kal Malhi表示,對更新、高效和環保的鋰提取技術的需求迫在眉睫,我們很高興與賓夕法尼亞州立大學(地球與礦物科學學院)簽署了許可協議。馬爾希先生繼續說:“擁有開發和商業化這種正在申請專利的提取工藝的全球專有權,是我們在鋰開採和勘探行業的主要差異化因素。我們正在與商業鋰開採專家和潛在合作伙伴進行討論,以加入我們的團隊,開始下一階段的開發,向該技術的試點工廠階段演示。我們將專注於發展行業合作伙伴關係,以在2024年推進這項技術,並將在未來幾周和幾個月內持續定期提供最新進展情況。”
About Hertz Lithium Inc.
關於赫茲鋰業公司
The Company is a British Columbia-based mineral exploration company primarily engaged in the acquisition and exploration of mineral properties. The Company's lithium exploration projects include the Lucky Mica Project, which is located along the Arizona Pegmatite Belt in the Maricopa County of Arizona, USA and the Patriota Lithium Project, located along the Eastern Brazilian Pegmatite Province, in Brazil and the district scale AC/DC Lithium Project and Snake Lithium Project, both located in James Bay, Quebec.
該公司是一家總部位於不列顛哥倫比亞省的礦產勘探公司,主要從事礦產的收購和勘探。該公司的鋰勘探項目包括位於美國亞利桑那州馬里科帕縣亞利桑那偉晶岩帶沿線的Lucky Mica項目和位於巴西東部偉晶岩省沿線的Patriota鋰項目,以及位於魁北克詹姆斯灣的區域規模的AC/DC鋰項目和Snake鋰項目。
For further information, please contact Mr. Kal Malhi or view the Company's filings at .
欲了解更多信息,請聯繫Kal Malhi先生或在以下地址查看公司的文件。
On Behalf of the Board of Directors
代表董事會
Kal Malhi
Chief Executive Officer and Director
Phone: 604-805-4602
Email: kal@bullruncapital.ca
Kal Malhi
首席執行官兼董事
電話:604-805-4602
電子郵件:kal@bullruncapital.ca
Neither the Canadian Securities Exchange nor its Regulation Services Provider accepts responsibility for the adequacy or accuracy of this news release.
加拿大證券交易所及其監管服務提供商均不對本新聞稿的充分性或準確性承擔責任。
Cautionary Statement Regarding "Forward-Looking" Information
關於 “前瞻性” 信息的警示聲明
This news release includes certain statements that may be deemed "forward-looking statements." All statements in this new release, other than statements of historical facts, that address events or developments that the Company expects to occur, are forward-looking statements. Forward-looking statements are statements that are not historical facts and are generally, but not always, identified by the words "expects", "plans", "anticipates", "believes", "intends", "estimates", "projects", "potential" and similar expressions, or that events or conditions "will", "would", "may", "could" or "should" occur. Although the Company believes the expectations expressed in such forward-looking statements are based on reasonable assumptions, such statements are not guarantees of future performance and actual results may differ materially from those in the forward-looking statements. Factors that could cause the actual results to differ materially from those in forward-looking statements include market prices, continued availability of capital and financing, and general economic, market or business conditions. Investors are cautioned that any such statements are not guarantees of future performance and actual results or developments may differ materially from those projected in the forward-looking statements. Forward-looking statements are based on the beliefs, estimates and opinions of the Company's management on the date the statements are made. Except as required by applicable securities laws, the Company undertakes no obligation to update these forward-looking statements in the event that management's beliefs, estimates or opinions, or other factors, should change.
本新聞稿包括某些可能被視爲 “前瞻性陳述” 的陳述。除歷史事實陳述外,本新聞稿中涉及公司預計將發生的事件或事態發展的所有陳述均爲前瞻性陳述。前瞻性陳述不是歷史事實,通常以 “期望”、“計劃”、“預期”、“相信”、“打算”、“估計”、“項目”、“潛力” 和類似的表述來識別,或者事件或條件 “將”、“將”、“可能”、“可能” 或 “應該” 發生。儘管公司認爲此類前瞻性陳述中表達的預期是基於合理的假設,但此類陳述並不能保證未來的業績,實際業績可能與前瞻性陳述中的業績存在重大差異。可能導致實際業績與前瞻性陳述存在重大差異的因素包括市場價格、資本和融資的持續可用性以及總體經濟、市場或商業狀況。投資者請注意,任何此類陳述都不能保證未來的表現,實際業績或發展可能與前瞻性陳述中的預測存在重大差異。前瞻性陳述基於公司管理層在陳述發表之日的信念、估計和觀點。除非適用的證券法要求,否則公司沒有義務在管理層的信念、估計或觀點或其他因素髮生變化時更新這些前瞻性陳述。
[1] Rezaee, M., Vaziri Hassas, B., Akbari, H., Agrawal, D., and Slawecki, T. (2021). Process for Extraction of Lithium. International Patent Application Number: WO2021155224A1.
[2] Meshram, P., Pandey, B. D., & Mankhand, T R. (2014) "Extraction of lithium from primary and secondary sources by pre-treatment, leaching and separation: A comprehensive review. Hydrometallurgy," 150, 192-208.; Martin, G., Rentsch, L., Hoeck, M, & Bertau, M (2017). "Lithium market research-global supply, future demand and price development." Energy Storage Materials, 6, 171-179.
[3] Baylis, R, 2013, January. "Evaluating and forecasting the lithium market from a value perspective." In Roskill presentation, 5 the Lithium Supply and Markets Conference, Las Vegas (pp. 29-31); ENTR, E (2014). "Report on Critical Raw Materials for the EU Ares" (2015), 1819503.
[4] Shihua, H., Daulet, S., Pan, J., Vaziri Hassas, B., Akbari, H., Mensah-Biney, R. Rezaee, M.*, (2022). Direct Extraction of lithium from α-spodumene by salt roasting-leaching process. ACS Sustainable Chemistry and Engineering.
[5] Rezaee, M., Shihua, H., Daulet, S., Vaziri Hassas, B., Slawecki, T. M., Agrawal, D., Akbari, H., Mensah-Biney, R. (2022). Microwave-assisted calcination of spodumene for efficient, low-cost, and environmentally friendly extraction of lithium. Powder Technology, 397, 116992.
[1] M. Rezaee、B. Vaziri Hassas、H. Akbari、D. Agrawal和T. Slawecki(2021)。鋰的提取工藝。國際專利申請號:WO2021155224A1。
[2] Meshram,P.、Pandey、B.D. 和 Mankhand,T R.(2014)“通過預處理、浸出和分離從主要和次要來源提取鋰:全面綜述。溼法冶金,” 150,192-208。;Martin,G.,Rentsch,L.,Hoeck,M,Bertau,M(2017)。“鋰市場研究——全球供應、未來需求和價格發展。”儲能材料,6,171-179。
[3] 貝利斯,R,2013 年 1 月。“從價值的角度評估和預測鋰市場。”在羅斯基爾的演講中,5 拉斯維加斯鋰供應與市場會議(第 29-31 頁);ENTR,E(2014)。“歐盟地區關鍵原材料報告”(2015),1819503。
[4] Shihua,H.,Daulet,S.,Pan,J.,Vaziri Hassas,B.,Akbari,H.,Mensah-Biney,R. Rezaee,M.*,(2022年)。通過鹽焙燒浸出過程直接從α-鋰輝石中提取鋰。ACS 可持續化學與工程。
[5] Rezaee,M.,Shihua,H.,Daulet,S.,Vaziri Hassas,B.,Slawecki,T.M.,Agrawal,D.,Akbari,H.,Mensah-Biney,R.(2022年)。微波輔助焙燒鋰輝石可高效、低成本、環保地提取鋰。粉末技術,397,116992。
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