![[EXODYS V3_white.avif|300]] Website: [exodysenergy.com](https://www.exodysenergy.com) ### Introduction Exodys Energy is a nuclear energy engineering firm focused on developing closed-loop, circular nuclear systems to recycle used nuclear fuel into clean energy. Founded in the early 2020s (exact year not publicly disclosed in available sources), the company is headquartered in the United States, though specific location details remain undisclosed in public records. Information on founders and exact employee count is limited, but the company maintains a presence on professional platforms with 670 followers on LinkedIn as of the latest data ([LinkedIn](https://www.linkedin.com/company/exodys-energy)). Their mission, as stated on their official website, is to "energize the world with circular nuclear fission" by addressing nuclear waste challenges through innovative recycling technologies. Exodys Energy is a privately held company with no public ticker symbol or evidence of being listed on any stock exchange. The firm's focus on sustainable nuclear solutions positions it within the growing clean energy sector, particularly in nuclear fission, where recycling used fuel could reduce waste and enhance energy security. While detailed historical data is sparse, recent partnerships and funding announcements indicate an active trajectory in the nuclear innovation space. ### Key Products and Technology Exodys Energy is developing a singular, core technology focused on closed-loop nuclear systems. Below is a detailed breakdown based on available information: - **Closed-Loop Nuclear System (Nuclear Fuel Recycling Technology)** - **Type**: Advanced nuclear fission system designed for recycling used nuclear fuel. - **Technical Specifications**: Specific details such as power output in megawatts electric (MWe) or efficiency metrics are not publicly available. The technology emphasizes a circular approach, suggesting a focus on sustainability over raw power metrics at this stage. - **Fuel Type or Energy Source**: Utilizes used nuclear fuel (nuclear waste) as the primary input, reprocessing it to generate clean energy. - **Key Differentiators**: The closed-loop design aims to minimize nuclear waste by recycling spent fuel, potentially reducing environmental impact and storage needs compared to traditional fission reactors. This could offer cost advantages in waste management and enhance safety by reducing long-term radioactive waste. - **Development Stage**: Currently in the concept or early design phase. There is no public evidence of prototypes, testing facilities, or operational units as of the latest updates in 2025. - **Target Customers**: Likely to include utilities seeking sustainable nuclear solutions, government entities focused on waste reduction, and potentially industrial sectors requiring clean, reliable energy. Due to limited technical disclosures on their website and in public sources, specifics on reactor design or deployment readiness remain unclear. The company’s emphasis on recycling aligns with global trends toward sustainable nuclear energy but lacks detailed milestones to assess maturity. ### Regulatory and Licensing Status There is no publicly available information regarding Exodys Energy’s regulatory status with the U.S. Nuclear Regulatory Commission (NRC) or other international bodies. As a company focused on nuclear fuel recycling, it would likely need to engage with the NRC for design certification or licensing of any reactor technology, but no records of pre-application, design certification, or combined license applications are mentioned in current data ([NRC.gov](https://www.nrc.gov)). Additionally, recycling used nuclear fuel involves stringent regulations due to proliferation risks and safety concerns, which could pose significant hurdles. No key regulatory milestones have been achieved or announced as of the latest information in 2025. An estimated timeline to first commercial deployment is also unavailable, though given the early-stage nature of their technology (concept/design), it is reasonable to infer a timeline of at least 5-10 years, assuming regulatory and technical challenges are addressed. The lack of transparency on regulatory progress is a notable gap in assessing their near-term impact. ### Team and Leadership Information on Exodys Energy’s leadership team is not widely available in public sources. Neither the company website ([exodysenergy.com](https://www.exodysenergy.com)) nor profiles on platforms like LinkedIn or PitchBook provide detailed bios or names of key executives such as the CEO, CTO, or founders. This opacity is common among early-stage private firms in the nuclear sector, where proprietary concerns often limit public disclosures. Efforts to identify verified X handles or other social media presence for leadership were unsuccessful, and no specific individuals are cited in recent news or partnerships. ### Funding and Financial Position Exodys Energy has raised a total of $2.37 million over one funding round, as reported by Tracxn on July 11, 2025 ([Tracxn](https://tracxn.com/d/companies/exodys-energy/__g8AO2mZ1FSrmo-0bfLgrWHgigImlRSfizK5APtcLt5U)). Details on the date of the round or lead investors are not specified in accessible data, and no additional rounds or institutional backers are publicly documented on platforms like PitchBook ([PitchBook](https://pitchbook.com/profiles/company/531315-10)). As a private company, there is no market cap or stock performance data to report. The company appears to be pre-revenue, with no evidence of commercial contracts, operational projects, or revenue generation as of the latest updates. The funding amount, while modest compared to other nuclear startups, suggests early-stage investment focused on research and development rather than deployment. Strategic backers, if any, remain undisclosed in current sources. ### Recent News and Developments | Date | Event | Details | |---------------|----------------------------------------|---------------------------------------------------------------------------------------------| | May 28, 2025 | Partnership with Snow Lake Energy | Collaborated with Snow Lake Resources Ltd. to support the formation of a new nuclear reactor development and deployment company ([Snow Lake Energy](https://snowlakeenergy.com/snow-lake-and-exodys-energy-collaborate-to-support-the-formation-of-a-new-nuclear-reactor-development-and-deployment-company/)). | | May 28, 2025 | Stock Impact on Snow Lake Resources | Snow Lake Resources' shares surged following the announcement of the partnership with Exodys Energy ([Benzinga](https://www.benzinga.com/markets/commodities/25/05/45657373/snow-lake-energy-litm-shares-soar-on-strategic-nuclear-reactor-venture)). | | Jul 11, 2025 | Funding Update Reported | Total funding of $2.37M over one round disclosed by Tracxn ([Tracxn](https://tracxn.com/d/companies/exodys-energy/__g8AO2mZ1FSrmo-0bfLgrWHgigImlRSfizK5APtcLt5U)). | Note: Due to limited public information, only three events are listed for 2025. No additional significant updates, such as regulatory milestones or project announcements, were found in the current year. ### Partnerships and Collaborations - **Snow Lake Resources Ltd. (Snow Lake Energy)**: Announced on May 28, 2025, this collaboration focuses on supporting the formation of a new nuclear reactor development and deployment company. Snow Lake, a uranium exploration and development firm, brings resource expertise, while Exodys contributes nuclear engineering and fuel recycling solutions. The strategic value lies in combining upstream uranium resources with downstream recycling technology, potentially accelerating reactor deployment. However, specifics on project scope or timeline remain undisclosed ([Snow Lake Energy](https://snowlakeenergy.com/snow-lake-and-exodys-energy-collaborate-to-support-the-formation-of-a-new-nuclear-reactor-development-and-deployment-company/)). No additional partnerships with utilities, government programs, or technology firms are documented in available sources. The limited number of collaborations reflects Exodys Energy’s early-stage status and focus on foundational relationships. ### New Hampshire Relevance Exodys Energy’s technology could have potential relevance for [[New Hampshire]], particularly given the state’s existing nuclear infrastructure and legislative interest in advanced nuclear solutions. New Hampshire hosts [[Seabrook Station]], a 1,244 MWe pressurized water reactor, and is part of the ISO New England (ISO-NE) grid, which could integrate advanced nuclear systems for baseload power or grid stability. However, Exodys’s closed-loop recycling technology is not yet at a readiness level for near-term deployment, likely requiring years of development and regulatory approval before consideration for NH applications. Legislatively, New Hampshire has shown interest in small modular reactors (SMRs) and advanced nuclear through initiatives like HB 710, which explores nuclear energy’s role in the state’s energy mix. While Exodys’s technology aligns conceptually with waste reduction goals, there is no evidence it fits SMR provisions or immediate deployment timelines. Potential applications could include grid power to supplement [[Seabrook Station]], powering data centers (a growing load in the Northeast), or providing industrial heat. There are no documented connections to New Hampshire or expressed interest in the Northeast US, limiting direct relevance at this stage. ### Competitive Position Exodys Energy operates in a niche but competitive segment of nuclear fission focused on fuel recycling and waste reduction. Compared to competitors like: - **[[X-energy|X-Energy]]**: A leader in SMRs with its Xe-100 reactor, [[X-energy|X-Energy]] has secured significant funding ($500 million in 2024) and partnerships, including with the Department of Energy and NASA for lunar power systems ([X-Energy](https://x-energy.com)). X-Energy is further along in regulatory and deployment stages, posing a challenge to Exodys’s early-stage recycling focus. - **[[Oklo]]**: Focused on advanced fission with microreactors, [[Oklo]] has NRC engagement and DOE support for fuel projects as of September 2025 ([DOE.gov](https://www.energy.gov)). Oklo’s operational roadmap outpaces Exodys’s conceptual stage. - **[[NuScale Power]]**: With NRC design approval for its SMR, [[NuScale Power|NuScale]] is closer to commercial deployment and has utility partnerships ([NuScale](https://www.nuscalepower.com)). Exodys lacks comparable regulatory progress. Exodys’s unique advantage is its emphasis on closed-loop recycling, addressing a critical industry challenge (nuclear waste), which competitors largely sidestep. However, risks include slower development timelines, regulatory complexity around fuel reprocessing, and limited funding compared to well-capitalized peers. ### Closing Note Exodys Energy is an early-stage nuclear engineering firm with a promising focus on recycling used nuclear fuel, though its trajectory remains uncertain due to limited public data and regulatory progress. *Report generated December 24, 2025*