Today, Hydrogen is Difficult to Produce, Store, and Transport
- Electrolysis-based production requires a significant amount of electricity, often from non-renewable sources.
- Storage and transportation are complex, costly, and can result in leaks.
- Even minor leaks impact the climate by altering atmospheric chemistry and increasing greenhouse gas concentrations, such as tropospheric ozone and methane.
🚗 Our Solution: Onboard Hydrogen Activation Energy
Our technology enables on-demand hydrogen production directly onboard the vehicle, based on engine requirements.
This process relies on a controlled chemical reaction with no battery, no pressure, no heat, and zero emissions.
The generated byproduct is non-toxic, inert, and recyclable using wind energy.
✅ Key Benefits
🔋 Energy Autonomy
- Vehicles become independent from charging networks or hydrogen distribution infrastructure.
- They generate their own fuel using readily available materials.
💸 Cost Reduction
- Our system eliminates industrial production, transportation, and storage costs associated with hydrogen.
🌱 Zero Emissions, Zero Waste
- No greenhouse gases, no leaks, no batteries.
- A clean, controlled, and recyclable energy cycle.
🔧 Simplicity & Safety
- Operates under normal temperature and pressure conditions, with no gas storage or major risks.
📊 A Market Opportunity to Seize
The global hydrogen market is experiencing exponential growth. Our technology can be integrated into:
- Passenger and commercial vehicles
- Heavy-duty and logistics fleets
- Off-grid stationary power systems
- Internal combustion engines converted to hydrogen biofuel
🎯 Production Target:
- The system aims to produce 10 grams of hydrogen per minute, approximately 600 grams per 100 km, based on data from a French hydrogen vehicle manufacturer.
- Beyond mobility, our technology also provides an innovative renewable energy storage solution.
Our process converts wind energy into activation energy, stored in a stable, inert, and non-toxic material, which:
- Requires no special pressure or temperature conditions
- Retains energy indefinitely without loss
- Outperforms traditional solutions like dihydrides (e.g., silane SiH₄), which are toxic and unstable.
This approach offers a sustainable alternative to batteries, ideal for renewable energy storage and delayed usage.
🤝 Why Partner with Us?
We are looking for an industrial partner to:
- Test and validate the concept under real conditions
- Develop the first functional prototype
- Bring to market a scalable, sustainable, and cost-effective technology
Our prototype has a very low production cost, and its technical feasibility can be easily verified.
🔍 Conclusion: Dare to Try
This project is still at the concept stage. But like all major breakthroughs, it starts with a bold idea and a willingness to experiment.
👉 Together, we can test, validate, and develop this system into a true alternative to fossil fuels and electric batteries.
📩 Contact us today to explore how you can become part of this technological and energy transition!