STOCK TITAN

Stardust Power Included in DOE-Funded Lithium Initiative

Rhea-AI Impact
(Moderate)
Rhea-AI Sentiment
(Neutral)
Tags

Stardust Power (NASDAQ: SDST) has been selected as an industrial partner in a U.S. Department of Energy-funded research program led by Ohio University and CONSOL Innovations.

The project will develop electrochemical technology to extract lithium from domestic waste streams, with Stardust Power evaluating lithium samples and supporting potential commercialization pathways.

Loading...
Loading translation...

AI-generated analysis. How Rhea-AI works. Not financial advice.

Positive

  • None.

Negative

  • None.

News Market Reaction – SDST

+1.35% 11.5x vol
9 alerts
+1.35% News Effect
+7.2% Peak Tracked
-19.1% Trough Tracked
+$317K Valuation Impact
$23.80M Market Cap
11.5x Rel. Volume

On the day this news was published, SDST gained 1.35%, reflecting a mild positive market reaction. Argus tracked a peak move of +7.2% during that session. Argus tracked a trough of -19.1% from its starting point during tracking. Our momentum scanner triggered 9 alerts that day, indicating moderate trading interest and price volatility. This price movement added approximately $317K to the company's valuation, bringing the market cap to $23.80M at that time. Trading volume was exceptionally heavy at 11.5x the daily average, suggesting very strong buying interest.

Data tracked by StockTitan Argus on the day of publication.

What This Means

This announcement highlights SDST’s inclusion as a DOE-funded industrial partner focused on direct l...
Analysis

This announcement highlights SDST’s inclusion as a DOE-funded industrial partner focused on direct lithium extraction from domestic waste streams, reinforcing its strategy around U.S. lithium supply-chain development. It complements earlier steps such as cluster participation and feedstock agreements for the Muskogee refinery. At the same time, recent SEC filings describe going-concern risk and an effective $100,000,000 shelf, so future capital-raising activity and project execution milestones remain key metrics to watch.

Key Figures

DOE FOA number: DE-FOA-0003105
1 metrics
DOE FOA number DE-FOA-0003105 Critical Material Innovation, Efficiency and Alternatives announcement

Historical Context

5 past events · Latest: May 14 (Negative)
Pattern 5 events
Date Event Sentiment 24h Move Catalyst
May 14 Q1 2026 results Negative -1.8% Reported lower cash and wider net loss alongside Muskogee project updates.
May 07 Earnings call notice Neutral -4.4% Announced Q1 2026 earnings release date and conference call logistics.
Apr 20 Investment framework LOI Positive -4.4% Non-binding LOI for up to $150M project-level investment in Muskogee refinery.
Apr 13 Feedstock LOI Positive +3.4% LOI to secure up to 15,000 tpa LCE feedstock for Muskogee refinery.
Apr 01 Cluster membership Positive +8.9% Joined Lithium Regional Innovation Cluster to support U.S. lithium capacity growth.

24h Move is the share-price change in the day after each event; other market factors may also have contributed.

Pattern Detected

SDST often sells off on financing and earnings-related news, while strategic supply-chain announcements have seen more supportive reactions.

Recent Company History

Over the last few months, SDST has focused on building its Muskogee lithium refinery and U.S. supply-chain position. On Apr 1, joining a lithium innovation cluster drew a +8.9% reaction, and expanding its feedstock pipeline on Apr 13 saw a +3.42% move. In contrast, a non-binding framework for up to $150 million project investment on Apr 20 and Q1 2026 earnings on May 14 were followed by declines. Today’s DOE-backed partnership continues the theme of strategic U.S. supply-chain collaborations.

Regulatory & Risk Context

Active S-3 Shelf · $100,000,000 · Short Interest: 5.71%
Shelf Active
Short Interest
5.71% of float
0% 15% 30%+
low as of 2026-05-29 Days to cover: 2.42
Active S-3 Shelf Registration 2026-04-08
$100,000,000 registered capacity

An effective S-3 shelf filed on 2026-04-08 registers up to $100,000,000 of securities, providing flexibility for future capital raises via prospectus supplements, alongside disclosed going-concern risk and prior usage through multiple 424B3 filings.

Key Terms

battery-grade lithium carbonate, electrochemical technology, direct lithium extraction, critical minerals
4 terms
battery-grade lithium carbonate technical
"a developer of battery-grade lithium carbonate, today announced it has been selected"
Battery-grade lithium carbonate is a highly pure chemical compound used as a key ingredient in the manufacture of lithium-ion battery cathodes and electrolytes. Think of it as the flour in a baking recipe: its quality affects the final product’s performance and safety. Investors care because its availability, purity and price influence battery makers’ costs, electric vehicle and storage supply chains, and therefore the revenue and margins of companies across the clean-energy ecosystem.
electrochemical technology technical
"research program to develop next-generation electrochemical technology for the extraction of lithium"
Electrochemical technology uses electricity to drive or control chemical reactions — for example in batteries, fuel cells, sensors, or plating processes — so devices convert between electrical energy and chemical changes. Investors care because these technologies determine product performance, cost, safety and scaling risk; like choosing the right engine for a car, the electrochemical approach affects efficiency, manufacturing cost, regulatory hurdles and potential market demand.
direct lithium extraction technical
"Electrodes for Direct Lithium Extraction from Domestic Waste Streams"
A method for pulling lithium directly out of salty water or other raw sources using special materials and electrical or chemical processes, instead of relying on long evaporation ponds or mining rock. It matters to investors because it can speed up production, lower costs and environmental impact, and make lithium supply for batteries more reliable—like replacing a slow, weather-dependent harvest with a faster, machine-driven picker that boosts output and predictability.
critical minerals technical
"alignment with U.S. critical minerals and energy security priorities."
Materials needed to build modern technologies—like batteries, electronics, renewable energy systems and defense equipment—that have few easy substitutes and often come from a small number of countries or mines. Investors care because their supply can be disrupted, expensive or slow to increase, which affects the cost, availability and growth prospects of companies and industries that rely on them; think of them as critical spare parts for the global economy.

AI-generated analysis. How Rhea-AI works. Not financial advice.

See more from StockTitan in Google Search and AI answers. Adds StockTitan as a preferred source · opens Google
Add on Google

GREENWICH, Conn., June 02, 2026 (GLOBE NEWSWIRE) -- Stardust Power Inc. (NASDAQ: SDST) (“Stardust Power” or the “Company”), a developer of battery-grade lithium carbonate, today announced it has been selected as an industrial partner in a U.S. Department of Energy (DOE)-funded research program to develop next-generation electrochemical technology for the extraction of lithium from domestic waste streams.

The DOE-supported program, led by Dr. John Staser and Ohio University’s Institute for Sustainable Energy and the Environment in partnership with CONSOL Innovations, is focused on extracting lithium from domestic waste streams, including wastewater from oil and gas operations and drainage from legacy coal mines. The project, titled “Coal- and Waste Coal-based Electrodes for Direct Lithium Extraction from Domestic Waste Streams,” was selected for award negotiations under Announcement DE-FOA-0003105 Critical Material Innovation, Efficiency and Alternatives. As part of the initiative, Stardust Power will serve as the end-use industrial partner, evaluating lithium samples produced by the research team against battery-grade specifications and supporting downstream commercialization pathways for potential refining applications.

The collaboration advances Stardust Power's strategy of developing diversified domestic lithium sources and reflects the growing strategic importance of alternative feedstocks to American energy security and industrial competitiveness. These waste streams could also represent a valuable future source of feedstock for the Company's refinery operations.

The strategic partnership reflects Stardust Power’s alignment with U.S. critical minerals and energy security priorities. It further strengthens relationships across the federal government, industry stakeholders, and academia focused on domestic supply chain development. Participation as a DOE-approved industrial partner alongside leading research institutions further positions the Company to support future strategic collaborations and initiatives aimed at strengthening America’s domestic critical minerals infrastructure.

“This initiative aligns closely with our long-term strategy of supporting the development of a resilient domestic lithium supply chain,” said Roshan Pujari, Founder and Chief Executive Officer of Stardust Power. “Our lithium refinery is at the center of the domestic lithium supply chain.” “As the United States works to strengthen critical mineral independence and reduce reliance on foreign processing, alternative domestic lithium sources are becoming increasingly important. We are pleased to continue collaborating with Ohio University on technologies that could help unlock new lithium supply pathways while supporting the long-term growth of domestic refining capacity and American supply chain security.”

“We are excited to continue advancing this work with Stardust Power as an industry collaborator,” said Dr. John Staser, Principal Investigator and Professor at Ohio University. “Developing technologies capable of recovering lithium from domestic waste streams has the potential to create additional secure and sustainable supply pathways for critical minerals in the United States.”

About Stardust Power Inc.  

Stardust Power (NASDAQ: SDST) is building one of America’s largest battery-grade lithium carbonate refineries in Muskogee, Oklahoma, strategically located in the center of the United States’ growing energy and manufacturing corridor. The refinery is expected to have production capacity of up to 50,000 metric tons per annum and addresses the critical shortage of U.S. lithium refining capacity. Stardust Power is focused on building of a resilient American battery supply chain.

For more information, visit www.stardust-power.com 

Stardust Power Contacts

For Investors:

Johanna Gonzalez

investor.relations@stardust-power.com

For Media:

Michael Thompson

media@stardust-power.com

Cautionary Note Regarding Forward-Looking Statements 

The foregoing material may contain “forward-looking statements” within the meaning of Section 27A of the Securities Act of 1933 and Section 21E of the Securities Exchange Act of 1934. We intend all forward-looking statements to be covered by the safe harbor provisions of the Private Securities Litigation Reform Act of 1995. Forward-looking statements include all statements that do not relate solely to historical or current facts, including without limitation statements regarding the Company’s product development and business prospects. These statements may include, without limitation, statements regarding management’s expectations about future business strategies, financial performance, operating results, growth opportunities, market developments, competitive position, regulatory outlook, our perception of historical trends and current conditions, as well as other factors that we believe are appropriate and reasonable under the circumstances. Forward-looking statements generally can be identified by the fact that they do not relate strictly to historical or current facts and by the use of forward-looking words such as “anticipate,” “believe,” “estimate,” “expect,” “forecast,” “intend,” “likely,” “may,” “model,” “outlook,” “plan,” “predict,” “project,” “seek,” “target,” “will,” “could,” “should,” or similar expressions.

Forward-looking statements are not guarantees of future performance. They are based on current expectations, estimates, forecasts, and assumptions that involve significant risks and uncertainties, many of which are beyond the Company’s control and are difficult to predict. Actual results may differ materially from those expressed or implied by such forward-looking statements as a result of various factors, including but not limited to: macroeconomic conditions; inflationary pressures; changes in interest rates; supply chain disruptions; evolving consumer demand; competitive and technological developments; regulatory or legal changes; litigation exposure; cybersecurity threats; and fluctuations in foreign exchange rates. In addition, other risks and uncertainties not presently known to us or that we currently believe to be immaterial could affect the accuracy of any such forward-looking statements. All forward-looking statements should be evaluated with the understanding of their inherent uncertainty. Readers are cautioned not to place undue reliance on these forward-looking statements, which are made only as of the date of this press release. Except as required by law, the Company assumes no obligation and expressly disclaims any duty to publicly update or revise any forward-looking statements, whether as a result of new information, future events, or otherwise, even if subsequent events cause expectations to change.

You should consult our filings with the U.S. Securities and Exchange Commission (SEC), including the “Risk Factors” section of its most recent Annual Report on Form 10-K and subsequent filings on Form 10-Q, for additional detail about the factors that could affect our financial and other results.


FAQ

What did Stardust Power (NASDAQ: SDST) announce on June 2, 2026 about the DOE lithium initiative?

Stardust Power announced its selection as an industrial partner in a U.S. Department of Energy-funded lithium extraction research program. According to Stardust Power, the project targets next-generation electrochemical technology to recover lithium from domestic waste streams such as oil and gas wastewater and coal mine drainage.

What is Stardust Power’s role in the DOE-funded lithium waste stream project?

Stardust Power will serve as the end-use industrial partner in the DOE-backed initiative. According to Stardust Power, it will evaluate lithium samples against battery-grade specifications and support downstream commercialization pathways for potential refining applications linked to its planned refinery operations.

How does the DOE-funded lithium initiative support Stardust Power’s domestic supply chain strategy?

The initiative supports Stardust Power’s strategy to develop diversified domestic lithium sources. According to Stardust Power, alternative feedstocks from waste streams could become valuable future feedstock for its refinery, aligning with U.S. critical minerals, energy security priorities, and domestic supply chain development efforts.

Which partners are involved in the DOE-funded lithium extraction program with Stardust Power (SDST)?

The program is led by Ohio University’s Institute for Sustainable Energy and the Environment with CONSOL Innovations. According to Stardust Power, the company participates as a DOE-approved industrial partner alongside these research institutions to advance domestic critical minerals and lithium extraction technologies.

What types of waste streams are targeted in Stardust Power’s DOE-backed lithium project?

The project targets domestic waste streams as potential lithium sources. According to Stardust Power, these include wastewater from oil and gas operations and drainage from legacy coal mines, which may provide additional secure and sustainable supply pathways for critical minerals in the United States.

How could the DOE lithium initiative impact Stardust Power’s refinery plans?

The initiative may help identify new lithium feedstocks that could supply Stardust Power’s refinery. According to Stardust Power, waste streams studied in the project could represent valuable future feedstock for its refining operations, supporting long-term growth of domestic lithium refining capacity.