Nature. Science. Energy.
Our system is based on a process called electrosorption.
We use safe, effective,
and abundant materials.
Activated carbon
Technical carbon
Electrolytic Salts
Water
Electrosorption
technology
Our revolution is our carbon materials. We, a team of scientists, are developing a series of different ultra-porous carbon structures, which allows us to create advanced batteries.
2950 m²/g
BET Surface Area
2.24 cm³/g
Total Pore Volume
(at P/Po=0.9948)
0.95 cm³/g
Micropore Volume
(DR method)
~1.6 nm
Average Pore Width
(DFT Mode)
How it works?
SorbiForce stores energy using ultra-porous carbon, a salt-water electrolyte, and two complementary mechanisms:
Nanopore-confined EDL electrosorption (non-faradaic):
ions are confined within the volume of micro-/mesopores; in micropores, overlapping double layers create stable charge storage.
Fast interfacial faradaic reactions:
continuously co-active at the interface; their contribution scales with current and potential, shaping both steady operation and transients.
Hierarchical pore network
Micropores (<2 nm):
primary storage via overlapping EDL (in-pore confinement).
Mesopores (2–50 nm):
accessible storage with partial/non-overlapping EDL; ionic buffer for fast modes.
Macropores (>50 nm):
ion highways — minimal capacity, high power, instant response.
Why We Win
Built for Power, Not Just Energy
Optimized for kW & C-rate to handle extreme demands.
Extreme Cycle Durability
Supports millions of high-frequency cycles without degradation.
Zero Thermal-Runaway Risk
Simple cooling requirements, safe for white space deployment.
Where others degrade, we just keep going.
