The New Horizon of Nuclear Energy
AdaptiveModularReactor
The Only Meltdown Proof Nuclear Reactor.Thorium Powered. Self-Fueling. Zero Downtime.
Why AMR™
Energy, The Way It Should Be
Every design decision prioritizes inherent safety, environmental responsibility, and operational flexibility.
Passive Safety
Fail-safe mechanisms built into every system. Drain-down and freeze-plug safety mechanisms ensure meltdowns are physically impossible. No Humans Required.
Liquid Salt Fuel
Thorium-based molten-salt technology enables fission in a fluid state. Built-in negative temperature coefficient means the reaction naturally self-regulates.
Waste Reduction
Transform nuclear waste into zero-carbon energy. Our closed-loop design reduces long-lived radioactive waste by 99%, with a 300-year storage horizon versus 300,000.
Self-Fueling Reactor
Our breeder reactor produces 7.1% more fissile fuel than it consumes. Our reactor effectively extends its own fuel supply over time making long-duration autonomous operation a reality.
High-Temperature Output
Operating at 700°C enables industrial process heat applications beyond electricity generation. Power hydrogen production, desalination, and carbon capture.
Grid Adaptability
From SMR configurations under 300 MW for remote communities to gigawatt-scale deployments for industrial hubs. Flexible, modular architecture.
The AMR™ Platform
Technology Built for the Future
Our thorium-based molten salt reactor architecture represents the convergence of six decades of research and modern engineering excellence.
SMR Configuration
< 300 MW
Compact footprint ideal for islands, mining operations, and rural grids. Scalable deployment with minimal infrastructure requirements.
Gigawatt Scale
1 GW+
Multi-unit deployment replacing coal and gas baseload plants. Supports hydrogen production and direct industrial process heat.
The Science of Safety
Compare conventional solid fuel with our liquid salt innovation
pressure
Low pressure (near-atmospheric)
cooling
Passive air-cooled drains
meltdown
Physically impossible - fuel already melted
waste
300-year storage horizon
refueling
Online refueling continuous
efficiency
~45-50% thermal efficiency
Key Insight: Liquid fuel cannot meltdown because it is already in a molten state. In emergency conditions, it simply drains into passively cooled tanks and solidifies.
AI-Assisted Control Systems
Magneto-optic sensors and machine learning combine for unprecedented operational visibility and control precision.
Predictive Maintenance
Machine learning models analyze sensor data to predict component degradation weeks in advance.
Real-time Optimization
Continuous load balancing and thermal optimization based on grid demand forecasts.
Safety Monitoring
Anomaly detection across 10,000+ sensor points with sub-second response capability.
Human-in-the-Loop
Autonomous operation with operator oversight. AI provides recommendations, humans make decisions.
Our Journey
From Legacy to Innovation
Building on six decades of proven research to deliver the future of clean energy.
Oak Ridge Experiment
The Molten-Salt Reactor Experiment (MSRE) at Oak Ridge National Laboratory successfully demonstrated the viability of liquid-fuel nuclear reactors. Operating for 5 years, it proved the concept that would become the foundation of AMR™.
Technology Revival
Renewed global interest in advanced nuclear technologies. DOE funding and private investment revitalize molten salt research programs across the United States, China, and Europe.
AMR™ Formation
Adaptive Modular Reactor founded to commercialize next-generation MSR technology. Core engineering team assembled from leading national laboratories and nuclear engineering programs.
Strategic Partnerships
Collaborations established with engineering, academic, and strategic partners. Core neutronics validated through advanced simulation, confirming stable chain reaction, passive safety behavior, and a thorium breeding ratio exceeding unity.
Model Validation & Digital Twin
Comprehensive software validation of all core physics subsystems — neutronics, thermal-hydraulics, materials performance, and safety modeling. A real-time digital twin integrating all subsystems is built and tested across startup, load-following, and transient scenarios. Independent partner verification confirms results.
Physical MVP Demonstration
Fabrication and testing of critical hardware prototypes including pumps, heat exchangers, and passive safety components. Extended high-temperature salt loop testing validates materials compatibility and instrumentation. National laboratory partnerships support testing and characterization. Full demonstration package assembled for next-stage funding.
Prototype Reactor & Licensing
Detailed engineering design and qualified fabrication of the first prototype reactor. Modular facility construction begins alongside NRC licensing engagement under the ADVANCE Act's accelerated review framework. First criticality, power ascension testing, and real-data validation of the digital twin mark the transition from R&D to pre-commercial readiness.
Commercial Deployment & Global Markets
First commercial units deliver 50–300 MWe of clean baseload power. Factory-fabricated modular architecture enables rapid follow-on deployments. Revenue streams expand beyond electricity into industrial process heat, hydrogen production, and desalination. Target markets include the U.S., India, the Middle East, Africa, and Southeast Asia — addressing a $400B+ annual market.
About AMR™
Unifying and Standardizing the Future
Adaptive Modular Reactor (AMR™) represents the convergence of proven science and modern innovation. Born from the foundational work of the 1965 Oak Ridge National Laboratory Molten-Salt Reactor Experiment, we are advancing a technology that has already demonstrated its viability over five years of successful operation.
Our mission is clear: to deliver safe, scalable, carbon-free baseload energy that addresses the limitations of conventional nuclear systems. Through low-pressure operation and passive safety systems, we have eliminated the possibility of meltdown while dramatically reducing radioactive waste lifespans from 300,000 years to just 300.
We believe nuclear energy is not merely an option for our energy future—it is the foundation. AMR™ is committed to making this promise a reality through rigorous engineering, strategic partnerships, and unwavering commitment to safety.
Our Mission
Deploy carbon-free baseload power at scale, prioritizing safety and sustainability.
Global Impact
Enable industrial decarbonization and energy independence worldwide.
Oak Ridge Legacy
Built on the proven foundation of the 1965 Molten-Salt Reactor Experiment
Our Team
Leadership & Vision
A world-class team of experts in nuclear engineering, finance, and technology commercialization.
Yash Patel
Visionary leader with extensive experience in energy infrastructure and technology commercialization. Leading AMR™ strategic direction and investor relations.
Mary-Beth Tung
Former state agency head with deep management experience in energy and environment. Accomplished attorney with diverse practice spanning energy, environmental, biotech, and technology law — including M&A, IP, regulatory enforcement, and commercial transactions across Fortune 1000 companies. A consensus-builder who brings strategic legal leadership to AMR™'s regulatory and commercial operations.
Dmitri Scott
Nuclear engineer with background in advanced reactor design and molten salt systems. Leading technical development and engineering teams.
Christopher Taylor
Technology executive driving AMR™ digital infrastructure, cybersecurity, and IT strategy. Ensuring robust systems architecture to support reactor operations and enterprise growth.
Emmet Tydings
Strategic business development executive with decades of experience across energy, computing, and telecommunications. Known for recognizing key technology trends early and translating them into commercial beachheads. Today focused on utility-scale nuclear power and data center infrastructure — the underpinnings of the AI and high-performance computing revolution.
Interested in joining our mission?
Get in touchCollaboration
Partners & Alignment
Strategic relationships accelerating our path to commercialization.
Current Partners
Stray Systemes
Advanced control systems and reactor monitoring technology
Ganpat University
Research collaboration and talent development programs
Strategic Alignment
Alphabet
AI integration and machine learning capabilities for reactor optimization
Sandia National Labs
Fuel cycle validation and safety analysis collaboration
Interested in partnering with AMR™?
Contact UsGet In Touch
Invest in the Future
Join us in delivering the next generation of clean, safe, and scalable nuclear energy.
Contact Information
Whether you're an investor, potential partner, or simply interested in learning more about AMR™ technology, we'd love to hear from you.
Location
Los Angeles, California
invest@amreactor.com
Phone
+1 (555) 123-4567
Current Investment Round