— Applications / Unmanned AviationEndurance for every UAV class.
Sulfurlite™ unlocks new flight envelopes for ISR quadcopters, fixed-wing endurance platforms, and loitering munitions — without redesigning the airframe.
— Mission ProfileBuilt for the platforms that can't afford to fail.
In unmanned aviation, energy density is the constraint that defines every spec sheet — endurance, payload, range, ceiling. Sulfurlite™ doubles the energy per kilogram on board, which means longer ISR loiter, heavier sensor payloads, or smaller airframes for the same mission. Cells are characterized for the discharge profiles and altitude conditions of real defense UAV operations.
— 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 |