NANO Nuclear Energy Celebrates KRONOS MMR Event at The University of Illinois Highlighted by Prospective Customer Announcing Planned Feasibility Study for 15 KRONOS Micro Modular Reactors

Rhea-AI Summary

NANO Nuclear Energy (NASDAQ: NNE) celebrated an Oct 24, 2025 event at the University of Illinois marking the start of site-characterization drilling for its KRONOS MMR™ micro modular reactor prototype.

Key highlights: a prospective customer, BaRupOn LLC, announced a planned feasibility study to evaluate deploying roughly 15 KRONOS units to power a 700‑acre, >1 GW advanced manufacturing and AI data‑center campus near Houston. NANO noted prior developer investment of ~$120M and nearly a decade of R&D, and said it has raised over $600M since May 2024. The event featured university, industry EPC, and former military leaders endorsing the prototype and commercial interest.

Positive

• BaRupOn feasibility study for ~15-unit deployment
• Prototype drilling started at University of Illinois (Oct 24, 2025)
• $600M raised by NANO since May 2024 at rising valuations
• $120M invested by prior developer over ~10 years of R&D
• Target >1 GW power need at prospective BaRupOn campus

Negative

• BaRupOn action is a feasibility study, not a binding order
• Commercial deployment timing and licensing remain uncertain
• Prototype still in site-characterization phase, not commercialized

NANO receives support from key stakeholders for prototype project, including announcement by potential future customer of plan to pursue a feasibility study for the deployment of 15 KRONOS MMR microreactors

Vancouver, British Columbia--(Newsfile Corp. - October 29, 2025) - NANO Nuclear Energy Inc. (NASDAQ: NNE) ("NANO Nuclear" or "the Company"), a leading advanced nuclear energy and technology company focused on developing clean energy solutions, today celebrated its October 24 event at the University of Illinois Urbana-Champaign (U. of I.) through The Grainger College of Engineering to commemorate the start of real world site-characterization drilling for its KRONOS MMR™ Energy System prototype project in partnership with U. of I.

Notably, the event featured an announcement by potential customer BaRupOn LLC of the launch of a feasibility study to explore a future deployment of up to 15 KRONOS MMR™ reactors at its 700-acre advanced manufacturing and AI-data-center project in development near Houston, Texas.

The event also featured remarks from NANO Nuclear's senior management and two executive advisory board members (including retired General Wesley K. Clark), senior U. of I. leadership, and representatives from engineering, construction, and commercial stakeholders, underscoring the strong institutional and commercial support behind the advancement of NANO Nuclear's KRONOS MMR™ micro nuclear reactor development.

A recording of the event is available on Nano Nuclear Energy's website at Events - NANO Nuclear Energy.

Figure 1 - NANO Nuclear Energy Celebrates KRONOS MMR™ Micro Modular Reactor Event at The University of Illinois Urbana-Champaign. The event also featured remarks from NANO Nuclear's executive management, senior U of I leadership, representatives from engineering, construction and commercial stakeholders and former U.S. Military Leaders. Credit to Heather Coit/Illinois Grainger Engineering.

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NANO Nuclear Energy Management Highlights Differentiated Strategy, Widespread Support for Project, and KRONOS MMR™ Value Proposition

NANO Nuclear Founder, Chairman and President Jay Yu noted the accelerated the trajectory for the KRONOS MMR™ prototype at U of I due to its high technological readiness level as a well-known high-temperature gas-cooled reactor design. He also noted the estimated $120 million dollars and nearly a decade of R&D invested by the prior developer of the KRONOS MMR™ into its design, and its advancement in the U.S. and Canadian licensing processes. Mr. Yu also highlighted NANO Nuclear's capital markets successes to date, having raised over $600 million since May 2024 at increasing valuations, demonstrating strong backing from institutional shareholders.

NANO Nuclear Chief Executive Officer James Walker discussed the Company's differentiated approach, including the modular design of its reactors and its broader goal of vertical integration across the nuclear fuel supply chain. Mr. Walker described how smaller, factory-manufactured components can be transported and assembled for deployment across diverse markets-ranging from remote operations and industrial sites to data centers and military bases-while avoiding the long construction timelines and challenges of conventional nuclear reactors. Mr. Walker also acknowledged strong backing from the U of I, the State of Illinois, federal policymakers, local community politicians and key strategic commercial collaborators, all of which are expected to enable the advancement of the KRONOS MMR™ prototype project and NANO Nuclear's future growth prospects.

NANO Nuclear Chief Technology Officer and Head of Reactor Development Dr. Florent Heidet provided a technical overview of the KRONOS MMR's design and various reactor safety features. He explained that the high-temperature, gas-cooled KRONOS MMR™ reactor using simple and well-known materials and fuel, including helium coolant and TRISO fuel, and that the reactor design has been engineered for passive safety and zero-mile emergency-planning zones, contributing to the reactor's ability to provide reliable, baseload, off-grid power. Dr. Heidet emphasized the system can be co-located safely on the U of I campus, as well as the reactor's modular scalability from single-unit applications to gigawatt-scale clusters serving data centers and industrial campuses, with the modular scalability enabling further developments over time that could result in economies of scale. He further noted that the U of I prototype would be built to the same engineering standards as future commercial reactors, providing a platform for future deployment.

Figure 2 - NANO Nuclear Energy Founder and Chairman, Jay Yu along with Nuclear Physicist CEO James Walker on the University of Illinois site for the KRONOS MMR™ Event at the University of Illinois Urbana-Champaign to commemorate the start of real world site-characterization drilling for its KRONOS MMR™ Micro Modular Reactor Energy System prototype project in partnership with U of I.

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University of Illinois Leaders Affirm Commitment and Confidence in the KRONOS MMR

Susan Martinis, U of I Vice Chancellor for Research & Innovation, and Dr. Rashid Bashir, Dean of The Grainger College of Engineering, reiterated U. of I.'s strong support and described the project as fully aligned with U of I's land-grant mission and the State of Illinois' leadership in nuclear innovation. Nuclear, Plasma & Radiological Engineering Professor Caleb Brooks, Director of the Illinois Microreactor Demonstration Project, emphasized that U. of I.'s KRONOS MMR project will demonstrate the next generation of safe, small, and deployable nuclear systems, enabling education, workforce development, and real-world validation of advanced microreactor technologies.

Figure 3 - Q&A Panel from left to right: NANO Nuclear Chief Technology Officer and Head of Reactor Development Dr. Florent Heidet, NANO Nuclear Founder, Chairman and President Jay Yu, Dr. Rashid Bashir, Dean of the U of I Grainger College of Engineering, NANO Nuclear Chief Executive Officer James Walker and Professor Caleb Brooks, Director of the Illinois Microreactor Demonstration Project. Credit to Heather Coit/Illinois Grainger Engineering.

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Experienced Engineering, Procurement and Construction Supporters Key to Successful Deployment

Hatch Ltd. Director of Nuclear Projects Paolo Mesiti cited Hatch's decades-long experience in first-of-a-kind nuclear projects and acknowledged the KRONOS MMR's progress in technology readiness and execution planning, highlighting the importance of the U. of I. project as a critical demonstration for the North American microreactor industry. Hatch is in discussions with NANO Nuclear to provide services for the KRONOS MMR™ prototype project.

PCL Construction Director of Nuclear Operations Peter Tawfik described PCL's readiness to deliver modular fabrication and on-site construction for KRONOS MMR™ deployments across North America, highlighting the design's superior modularity relative to conventional nuclear projects, which could enable faster deployment and cost efficiencies. PCL is also in discussions with NANO Nuclear to provide services for the KRONOS MMR™ prototype project.

Growing Demand from Data-Center and Industrial Sectors

Matthew O'Hare, Managing Director of Power Construction's Data Structures Group and Vice President of AECOM Chicago, discussed the rapidly growing energy requirements of AI-driven data-centers, noting that Deloitte projects U.S. data-center power demand to grow from 41 GW in 2025 to 176 GW by 2035. He emphasized that microreactors such as the KRONOS MMR™ can provide reliable, behind-the-meter baseload power, eliminate multi-year interconnection delays, reduce costly transmission build-outs, and deliver unmatched reliability for 99.999% uptime operations.

BaRupOn LLC's Chief Strategy Officer, Derek Matthews, described his 700-acre advanced manufacturing and AI-data-center campus near Houston, Texas, which will require over 1 gigawatt of power. Mr. Matthews also announced that BaRupOn is pursuing a feasibility study to evaluate the potential deployment of approximately 15 KRONOS MMR™ units to power BaRupOn's high energy demanding technology campus in development-demonstrating commercial-scale interest in clean, on-site and off-grid nuclear generation.

National-Security and Military Applications

NANO Nuclear Energy's Executive Advisory Board Members Vice Admiral Charles Leidig Jr. (US Navy Ret.) and Retired 4-Star U.S. Army General who served as the Supreme Allied Commander Europe (SACEUR) for NATO Forces General Wesley K. Clark concluded the program by underscoring the importance of resilient, off-grid nuclear power for U.S. military installations. Both leaders cited the KRONOS MMR's inherent safety and ability to provide reliable, off-grid baseload power as critical attributes for enabling energy independence and cyber-resilient operations at domestic bases and military deployments.

Figure 4 - Site characterization and geotechnical activities performed by global infrastructure leader AECOM. This work will set the stage for the eventual construction, installation and operation of the KRONOS MMR™ at the University of Illinois Urbana-Champaign.

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About NANO Nuclear Energy Inc.

NANO Nuclear Energy Inc. (NASDAQ: NNE) is a North American advanced technology-driven nuclear energy company seeking to become a commercially focused, diversified, and vertically integrated company across five business lines: (i) cutting edge portable and other microreactor technologies, (ii) nuclear fuel fabrication, (iii) nuclear fuel transportation, (iv) nuclear applications for space and (v) nuclear industry consulting services. NANO Nuclear believes it is the first portable nuclear microreactor company to be listed publicly in the U.S.

Led by a world-class nuclear engineering team, NANO Nuclear's reactor products in development include its lead project, the patented KRONOS MMR^™ Energy System, a stationary high-temperature gas-cooled reactor that is in construction permit pre-application engagement with the U.S. Nuclear Regulatory Commission (NRC) in collaboration with University of Illinois (U of I), ZEUS™, a solid core battery reactor, and the space focused, portable LOKI MMR^™, each representing advanced developments in clean energy solutions that are modular, on-demand capable, advanced nuclear microreactors.

Advanced Fuel Transportation Inc. (AFT), a NANO Nuclear subsidiary, is led by former executives from the largest transportation company in the world aiming to build a North American transportation company that will provide commercial quantities of HALEU fuel to small modular reactors, microreactor companies, national laboratories, military, and DOE programs. Through NANO Nuclear, AFT is the exclusive licensee of a patented high-capacity HALEU fuel transportation basket developed by three major U.S. national nuclear laboratories and funded by the Department of Energy. Assuming development and commercialization, AFT is expected to form part of the only vertically integrated nuclear fuel business of its kind in North America.

HALEU Energy Fuel Inc. (HEF), a NANO Nuclear subsidiary, is focusing on the future development of a domestic source for a High-Assay, Low-Enriched Uranium (HALEU) fuel fabrication pipeline for NANO Nuclear's own microreactors as well as the broader advanced nuclear reactor industry.

NANO Nuclear Space Inc. (NNS), a NANO Nuclear subsidiary, is exploring the potential commercial applications of NANO Nuclear's developing micronuclear reactor technology in space. NNS is focusing on applications such as the LOKI MMR^™ system and other power systems for extraterrestrial projects and human sustaining environments, and potentially propulsion technology for long haul space missions. NNS' initial focus will be on cis-lunar applications, referring to uses in the space region extending from Earth to the area surrounding the Moon's surface.

For more corporate information please visit: https://NanoNuclearEnergy.com/

The Grainger College of Engineering

The Grainger College of Engineering at the University of Illinois is one of the world's top-ranked institutions and a globally recognized leader in engineering and computing education, research and public engagement. With a diverse, tight-knit community of faculty, students and alumni, Grainger Engineering sets the standard for excellence in engineering and computing, driving innovation in the economy and bringing revolutionary ideas to the world. Through robust research and discovery, our faculty, staff, students and alumni are changing our world and making advances once only dreamed about, including the MRI, LED, ILIAC, Mosaic, YouTube, PayPal, flexible electronics, electric machinery, miniature batteries, imaging the black hole and flight on Mars. The world's brightest minds from The Grainger College of Engineering tackle today's toughest challenges. And they are building a better, cooler, safer tomorrow.

For further NANO Nuclear information, please contact:
Email: IR@NANONuclearEnergy.com
Business Tel: (212) 634-9206

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Cautionary Note Regarding Forward-Looking Statements

This news release, the webcast event described herein and statements of NANO Nuclear's management and others in connection with this news release and such event contain or may contain "forward-looking statements" within the meaning of Section 21E of the Securities Exchange Act of 1934, as amended, and the Private Securities Litigation Reform Act of 1995. In this context, forward-looking statements mean statements related to future events, which may impact our expected future business and financial performance, and often contain words such as "expects", "anticipates", "intends", "plans", "believes", "potential", "will", "should", "could", "would" or "may" and other words of similar meaning. In this press release and the webcast event described herein, forward-looking statements relate to NANO Nuclear's construction, demonstration, regulatory licensing and commercial deployment plans and goals for its KRONOS MMR^™ Energy System, including future work on, and regulatory permitting and licensing, for the prototype reactor at the University of Illinois Urbana-Champaign. These and other forward-looking statements are based on information available to us as of the date of this news release and represent management's current views and assumptions. Forward-looking statements are not guarantees of future performance, events or results and involve significant known and unknown risks, uncertainties and other factors, which may be beyond our control. For NANO Nuclear, particular risks and uncertainties that could cause our actual future results to differ materially from those expressed in our forward-looking statements include but are not limited to the following: (i) risks related to our U.S. Department of Energy ("DOE"), U.S. Nuclear Regulatory Commission ("NRC"), Canadian Nuclear Safety Commission ("CNSC") or related state or other U.S. or non-U.S nuclear licensing submissions, (ii) risks related the development of new or advanced technology and the acquisition of complementary technology or businesses, including difficulties with design and testing, cost overruns, regulatory delays, integration issues and the development of competitive technology, (iii) our ability to obtain contracts and funding to be able to continue operations, (iv) risks related to uncertainty regarding our ability to technologically develop and commercially deploy a competitive advanced nuclear reactor or other technology in the timelines we anticipate, if ever, (v) risks related to the impact of U.S. and non-U.S. government regulation, policies and licensing requirements, including by the DOE, and the NRC, including those associated with the recently enacted ADVANCE Act and the May 23, 2025 Executive Orders seeking to streamline nuclear regulation, and (vi) similar risks and uncertainties associated with the operating an early stage business a highly regulated, competitive and rapidly evolving industry. Readers are cautioned not to place undue reliance on these forward-looking statements, which apply only as of the date of this news release. These factors may not constitute all factors that could cause actual results to differ from those discussed in any forward-looking statement, and NANO Nuclear therefore encourages investors to review other factors that may affect future results in its filings with the SEC, which are available for review at www.sec.gov and at https://ir.nanonuclearenergy.com/financial-information/sec-filings. Accordingly, forward-looking statements should not be relied upon as a predictor of actual results. We do not undertake to update our forward-looking statements to reflect events or circumstances that may arise after the date of this news release, except as required by law.

To view the source version of this press release, please visit https://www.newsfilecorp.com/release/272359

FAQ

What did NANO Nuclear (NNE) announce at the Oct 24, 2025 University of Illinois event?

NANO began site-characterization drilling for its KRONOS MMR™ prototype and highlighted a BaRupOn feasibility study for ~15 reactors.

What is BaRupOn LLC planning for KRONOS reactors near Houston announced Oct 29, 2025?

BaRupOn said it will pursue a feasibility study to evaluate deploying approximately 15 KRONOS MMR™ units to power its 700‑acre campus.

How much funding has NANO Nuclear (NNE) raised prior to Oct 29, 2025?

NANO reported it has raised over $600 million since May 2024.

What technical features of the KRONOS MMR were highlighted at the Oct 24, 2025 event?

Speakers emphasized a high‑temperature, helium‑cooled design using TRISO fuel, passive safety, and modular scalability from single units to clusters.

Does the BaRupOn announcement constitute a confirmed commercial order for NNE?

No; BaRupOn announced a planned feasibility study, which is exploratory and not a binding purchase agreement.

Where can investors view the University of Illinois KRONOS event recording mentioned Oct 29, 2025?

A recording is available on NANO Nuclear Energy's Events page on its website.