LIS Technologies Inc.

LIS Technologies Inc. Announces Critical Regulatory Milestone with Receipt of a State of Tennessee Radioactive Material License for its State-of-the-Art Test Demonstration Facility located at the K-1330 building on the Historic K-25 Site #USA #HALEU #LEU finance.yahoo.com/news/lis-techn…

"LIS Technologies Inc. Proudly Sponsors the American Museum of Science and Energy Foundation’s 4th Annual Energy & Elements Gala, Held on March 20, 2026, in Oak Ridge, Tennessee" #LaserEnrichment #HALEU #LEU #NuclearFuel #NuclearEnergy #OakRdige #USA 🇺🇸 finance.yahoo.com/sectors/energy…

Thank you for the coverage of the Only U.S. Origin & Patented Tech for Laser Uranium Enrichment: "LIS Technologies, the AI Energy Boom, and a #Uranium Bottleneck: Why #Enrichment Innovation Is the Missing Link" 🇺🇸⚛️#USA #NuclearEnergy #LEU #HALEU #AI marketsherald.com/lis-technologi…

New episode released today: ➡️DOE transfers 700 acres to @cityofoakridge enabling $6.7 investment by @Orano_usa and @oklo ➡️@LaserisTech investing $1.38 billion at ETTP ➡️@centrus_energy’s $560 million expansion ➡️@ORNL Fire Dept. spotlight youtube.com/watch?v=LYUOq5…

"A new method of uranium enrichment could finally solve the 50-year scaling problem" Our Patented "CRISLA uses the simpler 5-micron system borrowed from industrial and semiconductor manufacturing. Several researchers from LIS came from $ASML, which makes advanced lithography systems for advanced micro semiconductor chips using industrial lasers." #Holygrail #LaserEnrichment #Uranium #HALEU #LEU rdworldonline.com/a-new-method-o…

A new enrichment method: CRISLA LIS Technologies is developing a 5-micron laser enrichment method called CRISLA, which stands for condensation repression isotope selective laser activation. CRISLA uses the simpler 5-micron system borrowed from industrial and semiconductor manufacturing. Several researchers from LIS came from ASML, which makes advanced lithography systems for advanced micro semiconductor chips using industrial lasers. CRISLA uses continuous wave (CW) lasers instead of the pulsed lasers used in other methods. In uranium enrichment, the gas has to be cold so that the two isotopes become distinct in their absorption bands. In order to chill the gas without condensing it, the gas is adiabatically expanded, which is when it goes through a supersonic nozzle similar to an aerosol can. The velocity of the expanded gas is up to 700 miles per hour. When the gas moves at this speed, a pulse laser only hits a fraction of the gas. In contrast, a CW laser is always on, hitting all of the gas. In addition to a different laser method, CRISLA also uses a different harvesting method. Instead of batch harvesting, which requires the system to constantly start and stop, CRISLA uses continuous harvesting. This increases the efficiency of the enrichment process. CRISLA can enrich uranium from its natural state, 0.7% uranium-235, to 5% in one step. With a centrifuge, that level of enrichment takes dozens of steps, Liebenberg explained. In two steps, the method can enrich uranium up to 20%, which is required for advanced reactors and microreactors. #NuclearEnergy #Uranium #HALEU #LEU #LaserErichment #Enrichment #USA

LIS Technologies Inc. (LIST) Announces its Flagship Commercial Laser-Based Uranium Enrichment Headquarters on LIST Island as the Site of Project F.U.E.L to Shape the Future of U.S. Laser-Based Enrichment. LEU-3 Facility, on LIST Island as part of Project F.U.E.L (Future Uranium Enrichment with Lasers) 🇺🇸⚛️ #USA #NuclearFuel #NuclearEnergy #Uranium finance.yahoo.com/news/lis-techn…

The Company’s proprietary Condensation Repression Isotope Selective Laser Activation (CRISLA) technology is a proven U.S.-origin and patented advanced laser enrichment solution. Optimized for Low-Enriched Uranium (LEU), which is crucial for the continued operation of the United States’ current fleet of 94 nuclear reactors, and High-Assay Low-Enriched Uranium (HALEU), which is required to power the next generation of advanced nuclear reactors. CRISLA overcomes many of the complexities and limitations of traditional 16um CO2 lasers, featuring a streamlined design due to its lower absorption and shorter wavelength at 5µm. The CRISLA-3G laser isotope separation technology was recently evaluated and determined to meet all elements required for TRL-4, and meets 60% of the TRL-5 elements, conforming to the Department of Energy guide DOE G 413.3-4A and is protected by a patent from the United States Patent and Trademark Office (USPTO). #NuclearEnergy #Uranium #Enrichment #LEU #HALEU #LaserEnrichment #NuclearFuel #USA #MadeInAmerica

LIST has already initiated the Nuclear Regulatory Commission (NRC) licensing process for its commercial laser uranium enrichment facility, marking a significant regulatory milestone. Subject to licensing, permitting, and final investment decisions, the company intends to break ground and begin site preparation and civil construction in 2026. The Company also continues to collaborate closely with U.S. DOE and other federal partners to best align with national objectives to accelerate enrichment capacity, enhance technology diversity, and strengthen supply-chain resilience. #NuclearEnergy #Uranium #Enrichment #LEU #HALEU #LaserEnrichment #NuclearFuel #USA #MadeInAmerica

“The LEU-3 Facility and Oak Ridge provide an ideal setting for Project FUEL, and we are pleased to embark on this next phase of the Company’s growth,” said Christo Liebenberg, President and Co-Founder of LIS Technologies. “Our proprietary, U.S.-origin technology is well aligned with national efforts to restore domestic uranium enrichment capabilities, and its continued development and eventual commercialization have the potential to contribute meaningfully to the future growth of the U.S. nuclear energy sector. The expertise available in the Oak Ridge ecosystem is a perfect fit for us as we embark on this journey.” #NuclearEnergy #Uranium #Enrichment #LEU #HALEU #LaserEnrichment #NuclearFuel #USA #MadeInAmerica

“Securing LIST Island is a foundational step in our commercial strategy that now enables us to move forward with Project FUEL and support the revitalization of the United States’ nuclear power goals,” said Jay Yu, Executive Chairman and CEO of LIS Technologies Inc. “It is a strategic investment in America’s energy security, a commitment to Oak Ridge’s nuclear legacy, and a platform for building the world’s first commercial laser uranium enrichment facility that will play an important role in the support of the U.S.’s current fleet of 94 nuclear reactors, as well as the next generation of advanced small modular and microreactors currently in development and national defense requirements.” #NuclearEnergy #Uranium #Enrichment #LEU #HALEU #LaserEnrichment #NuclearFuel #USA #MadeInAmerica

The property was made available for redevelopment through U.S. Department of Energy (DOE) cleanup and reuse programs, which transformed legacy nuclear land into a premier location for advanced commercial and national security missions. Its proximity to Oak Ridge National Laboratory, the Y-12 National Security Complex, and a highly skilled nuclear workforce further strengthens its suitability for advanced nuclear manufacturing. #NuclearEnergy #Uranium #Enrichment #LEU #HALEU #LaserEnrichment #NuclearFuel #USA #MadeInAmerica

Located within the former East Tennessee Technology Park (ETTP), the site of the historic K-25 gaseous diffusion plant, the recently purchased, $8 million LIST Island is widely regarded as one of Oak Ridge’s most strategic industrial parcels. The 206-acre site is uniquely situated as a peninsula bordered by the Clinch River and Poplar Creek, providing natural geographic buffering and controlled access well suited for sensitive nuclear operations. #NuclearEnergy #Uranium #Enrichment #LEU #HALEU #LaserEnrichment #NuclearFuel #USA #MadeInAmerica

The Oak Ridge facility, named the LEU-3 Facility, is intended to become the world’s first US-origin commercial laser uranium enrichment plant and will serve as the Company’s headquarters to host Project F.U.E.L, which is designed to commercialize the Company’s proprietary, patented and U.S.-origin laser isotope separation technology in support of U.S. utilities, next-generation advanced small modular and microreactor developers, and national defense requirements. #NuclearEnergy #Uranium #Enrichment #LEU #HALEU #LaserEnrichment #NuclearFuel #USA #MadeInAmerica

LIS Technologies Initiates Engagement With NRC zerohedge.com/energy/lis-tec…

LIST @LaserisTech joins other gen 3 uranium enrichment tech companies in starting a paper trail with the NRC Connected with $NNE

🤝 Proud to be supported by industry leaders at #WNFC2026 Platinum: LIS Technologies Gold: UxC, LLC Silver: Westinghouse | AtkinsRéalis Interested in sponsoring? 👉 wnfc-event.com/sponsorship-op… #WNFC2026