Long-lasting radioisotope power systems providing continuous energy for years. Solving the global AI infrastructure energy crisis.
A single contemporary AI data center consumes as much electricity annually as 100,000 households. Global AI power demand is projected to triple within 5-7 years.
Traditional power grids and renewable energy solutions are strained to their maximum capacity. The AI revolution needs a revolutionary power solution.
Emission-free power that runs continuously for years
Our radioisotope power system generates electricity from the heat produced by alpha particle emitters such as polonium-210, americium-241, or other suitable isotopes. Using advanced thermoelectric or thermophotovoltaic conversion, we transform decay heat into reliable electrical current.
This proven technology, already used in space exploration missions, is being optimized for terrestrial applications including critical infrastructure, AI data centers, and space industries. Initial focus on kilowatt-scale systems for industrial deployment.
Stopped by a sheet of paper or outer layer of skin
Stopped by thin aluminum foil or plastic
Multiple containment layers ensure zero external radiation. Technology proven safe over decades of space missions.
Primary market: Supplementing power for critical infrastructure in the rapidly expanding global AI data center network. Decentralized, reliable energy for 24/7 operations.
Proven technology for spacecraft, satellites, and lunar/Mars missions. The rapidly growing commercial space sector requires reliable, long-duration power solutions.
Remote sensors, monitoring systems, and critical infrastructure in extreme environments. Zero maintenance for years of operation in inaccessible locations.
Our goal is to establish global leadership in advanced radioisotope power technology. This positions us at the forefront of sustainable, reliable power sources critical for future technologies including AI infrastructure, space exploration, and autonomous systems worldwide.
Comprehensive analysis of scalable alpha decay power system designs
Build and test thermoelectric/thermophotovoltaic conversion modules
Lab testing, simulations, and small-scale pilot projects
Regulatory approval, certification, and commercial deployment
Founder & Technical Lead
Professional expertise in medical imaging technology, machine learning, and data science with hands-on experience in 3D modeling and 3D printing. Recent master's graduate who developed a machine learning model for prediction in collaboration with PSI proton therapy center.
This unique combination of physics knowledge, implementation skills, and experience in advanced medical technology provides the foundation to develop next-generation radioisotope power systems.
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Interested in partnering, investing, or joining our team? Let's build the future of energy together.