Mattur Nexus: 24/7, grid-optional clean energy at the lowest cost.
The Challenge
Wind and solar have driven down energy costs, but reliability remains the missing piece. When the wind stops or the sun sets, power stops. Batteries help for hours, not days — and costs rise fast.
Our Solution: Mattur Nexus
Mattur's wind platform—powered by PulseTech and coordinated through Adaptix AI—anchors a hybrid system where wind and solar feed both demand and hydrogen storage in real time. Adaptix AI continuously manages generation and storage to capture more usable energy and minimize losses.

Compact wind + solar

Modular hydrogen production

System Orchestration

Right-sized hydrogen storage
The Mattur Advantage
Modeled results show how this architecture delivers reliable, always-on renewable power at unmatched economics—cutting generation costs by half and scaling storage for days or weeks at up to 10x lower cost than batteries.
0% cheaper power generation
0x lower power storage cost than batteries
Frequently Asked Questions
- Hardware innovation - PulseTech generators capture energy at lower wind speeds than legacy systems.
- System design - Modular, distributed architecture avoids mega-project costs and scales faster acre by acre.
- Software orchestration - Dual-path wind + solar integration maximizes inputs, keeping utilization high and storage costs low.
- Data Centers - Always-on, cost-stable power for AI and cloud growth.
- Utilities - Replace gas peakers with long-duration, renewable power.
- Industrial Users - Lower demand charges and ensure uptime.
- Remote & Islanded Sites - Reliable off-grid power at competitive economics.
Compared head-to-head, Nexus outperforms
In a modeled 50 MW data center, Mattur Nexus delivers 2-3x cheaper power and 10x lower storage cost than solar + batteries.
50MW Solar + Battery | 50 MW Mattur | Mattur's Advantage | |
---|---|---|---|
Storage CapEx | $510-550M | $45-54M | ~10x lower |
Always-on (Firm) LCOE | $190-248 / MWh | $65-125 / MWh | 2-3x cheaper |
Power per Acre | 56-67 kW / acre | 61-73 kW / acre | ~10% denser |
Land Required | 750-890 acres | 690-820 acres | ~10% less land required |