A new class of energy infrastructure. Built from sunlight and air.

Sunthetics delivers dispatchable fuel and power production, designed to compete with fossil energy on cost, reliability, and scale.

100% Dispatchable/
Zero Feedstock Cost/
Multi-commodity Production

Energy systems don't fail on generation. They fail on reliability.

Intermittent supply
Cannot meet continuous industrial demand.
Short-duration storage
Storage remains capital-intensive and time-limited.
Undersupplied clean fuels
Clean fuel supply is structurally constrained.
Lagging grid expansion
New transmission lags demand by years.

Today's energy is unreliable by design

Fossil depends on extraction. Renewables depend on weather. Neither delivers consistent, controllable output. The constraint is not energy availability — it is reliable, scalable, on-demand supply, independent of both.

Sunthetics produces fuel and power directly from sunlight and air.

Converting sunlight into storable, tradable energy, delivered as:

E-fuels (e-methanol, SAF pathways)
Dispatchable electricity
Industrial heat
Carbon capture streams
Additional by-products including clean water and oxygen.

Operating as continuous, reliable energy infrastructure. Generating multiple revenue streams from a single asset. Deployable at the point of demand — without reliance on grid or fuel infrastructure. This is not energy generation. This is energy production.

Converts intermittent solar input into continuous, dispatchable energy.

Not generation. Production.

Step 01

Capture

Sunlight and air are captured as primary inputs.

Step 02

Convert

Energy is converted into storable fuel.

Step 03

Deliver

Fuel is used to generate power, heat, and industrial outputs, on demand.

Flow — variable input, continuous output

Sunlight & Airvariable

System

Powercontinuous

Fuelsecondary

Converts variable sunlight into continuous, reliable energy.

Outputs

Fuel, power, heat, carbon capture, water, and oxygen — all from a single platform. Designed for continuous, reliable energy production, not intermittent generation.

Why this changes the category.

01€

k MW/CAPEX

High Yield. Low CAPEX.

3–5× higher yield per hectare than conventional solar. Target <€0.05/kWh LCoE.

24/7 Dispatchable

Fuel-backed baseload using integrated storage and synthesis. Delivers continuous output, independent of intermittency.

Outputs

Multiple Revenue Streams

EaaS, E-fuels, SAF, Industrial Heating, Cooling, Clean Water, Oxygen, Carbon Capture, and Leasing.

+ MW

Scalable Asset Class

Active deployment with a >50 GW global roadmap. Backed by secured contracts and operating assets.

The market conditions have shifted.

01Energy security is a national priority.
02Clean fuels are structurally undersupplied.
03Grid expansion is lagging demand.
04Industrial demand for firm power is accelerating.

The market is not waiting for better renewables. It requires reliable energy production.

One platform. Multiple markets.

Hyperscaler Data Centers

On-demand Power, Heat & Carbon-Negative Operations, Grid-Independent

Maritime & Aviation

Drop-in fuels using existing logistics.

Remote Operations & Defense

Off-grid bases for defense and critical infrastructure.

Energy & Utilities

Supporting constrained grids and seasonal/peak imbalance.

Commercial & Industrial

Power, heat, and carbon integrated on-site.

Not a prototype. An industrialized platform.

2003

Core Invention

2010

Reactor Prototypes

2018

Subsystem Validation

2024

Integrated System (TRL 8)

2025

FOAK Pilot Plant

Now2026

TRL 9 Validation + Tranche One RTB (120 MW)

2027

Commercial Deployment

2003Core Invention

2010Reactor Prototypes

2018Subsystem Validation

2024Integrated System (TRL 8)

2025FOAK Pilot Plant

2026NowTRL 9 Validation + Tranche One RTB (120 MW)

2027Commercial Deployment

30+ years of reactor development, from core invention to commercial deployment.

Advanced system validation (TRL 8 → 9 progression)
Commercial pilot in operational environment
Industrial partners and suppliers
Certification pathway underway

A modular reactor platform.

Combining advanced materials, thermal systems, and proprietary control software.

Layer 01

Reactor System

Modular reactor architecture — the mechanical core of the platform.

Layer 02

Energy Conversion

Thermochemical conversion from solar input to storable fuel.

Layer 03

Thermal Management

Integrated thermal storage and heat distribution across the system.

Layer 04

Control & Optimization Software

Proprietary software layer for live metering, dispatch, and optimization.

Meet the inventor behind the system.

A breakthrough in energy production, developed through decades of research and system design.

The investment opportunity.

120 MW ready-to-build projects
Path to large-scale deployment
Multi-market revenue streams
Structured growth toward industrial rollout