— Applications / Unmanned AviationOrbital-grade energy, terrestrial cost.
From CubeSats to HALE platforms, Sulfurlite™ delivers the gravimetric energy density and thermal envelope orbital missions demand.
— Mission ProfileBuilt for the platforms that can't afford to fail.
Mass to orbit is the single most expensive variable in any spacecraft program. Every kilogram of battery is a kilogram of payload that didn't fly. Sulfurlite™'s 400+ Wh/kg energy density and wide operating temperature window make it a natural fit for smallsats, HALE craft, and stratospheric platforms where weight, safety, and qualification timelines all matter.
— Use CasesWhere Sulfurlite™ deploys.
Lighter by Physics, Not Engineering Tricks.
Sulfur's low atomic mass and high theoretical capacity (1,675 mAh/g vs ~270 for NMC) is the structural reason Sulfurlite™ achieves 400+ Wh/kg at the cell level.
Safer Thermal Envelope.
Our cathode and electrolyte architecture removes the cobalt and nickel oxides that drive Li-ion thermal runaway. Cells stay stable under abuse conditions that destroy NMC.
Sourced Without Conflict Minerals.
Sulfur is abundant, low-cost, and globally available. Sulfurlite™ removes geopolitical exposure baked into cobalt and nickel supply chains.
Engineered for Cycle Life.
A protective electrode structure and proprietary electrolyte formulation address the polysulfide shuttle effect— pushing usable cycle life past 1,000 cycles to 80% SoH.
— PerformanceReference specifications.
| Specific Energy | 300+ Wh/kg |
| Cobalt / Nickel | None |
| Thermal Runaway Risk | Significantly reduced |
| Weight Per Equivalent kWh | ≈15% lighter |
| Supply Chain | Abundant sulfur |