Raw Materials

From the
Earth Itself.

Niobium. Zinc. Carbon. Nitrogen. Abundant, non-toxic, conflict-free. No cobalt. No lithium. No compromise.

Precision
at Every
Nanometer.

Solvothermal synthesis. Fluorine-free etching. ZIF-8 nanoparticles grown directly onto MXene nanosheets. Scalable from day one.

Device Breakdown

Three Storage
Mechanisms.
One Electrode.

Surface adsorption. Zinc pseudocapacitance. Molecular intercalation. Simultaneously. No other electrode does this.

Commodity ZIF-8/MXene
Pseudocapacitor Platform

One architecture. Three voltage tiers. Six optimized variants. From 1.6V aqueous cells to 3.0V lithium-ion capacitors.

Tier 1 · 1.5–1.6V · Aqueous KOH/DMSO
Aqueous
B-3a · Safe-NDC
Nitrogen-doped carbon from ZIF-8 pyrolysis on nitrogen-doped MXene. Durability anchor.
30–38 Wh/kg device energy density
>100,000 cycles 80% capacity retention
1.5–1.6V operating window
~1–3 min charge time
CF-1 · CF-3 patent claim families
B-3b · Safe-Intact
Crystalline ZIF-8 nanoparticles on MXene. Maximum energy density in the aqueous tier.
38–52 Wh/kg device energy density
>10,000 cycles 80% capacity retention
1.5–1.6V operating window
~1–3 min charge time
CF-1 · CF-3 patent claim families
Tier 2 · 2.5V · TEABF4 / Acetonitrile
Organic
B-3c · Perf-Intact
Intact ZIF-8 in organic electrolyte. V² energy scaling over aqueous. Symmetric architecture.
25–42 Wh/kg device energy density
>10,000 cycles 80% capacity retention
2.5V operating window
~3–5 min charge time
CF-1 · CF-5 patent claim families
B-3d · Perf-NDC
Pyrolyzed NDC in organic electrolyte. Ultra-high cycle life at 2.5V. The durable organic variant.
25–35 Wh/kg device energy density
>50,000 cycles 80% capacity retention
2.5V operating window
~2–4 min charge time
CF-1 · CF-5 patent claim families
Tier 3 · 3.0V · LiBOB / EC:DMC
Lithium-Ion
B-5 · LIC-Intact
ZIF-8 negative, V₂O₅ positive. Highest energy density in the platform. Competes with Li-ion.
42–78 Wh/kg device energy density
>10,000 cycles 80% capacity retention
3.0V operating window
~5–10 min charge time
CF-4 · CF-5 patent claim families
B-6 · LIC-NDC
NDC negative, V₂O₅ positive. LIC energy density with significantly improved cycle durability over B-5.
34–60 Wh/kg device energy density
>30,000 cycles 80% capacity retention
3.0V operating window
~5–10 min charge time
CF-4 · CF-5 patent claim families

All six variants share a common N-Nb₂CTₓ MXene scaffold, CNT fabric active current collector, and PAN nanofiber separator (≤12 μm). rGO (5–8 wt%) is integrated into all electrode composites for conductivity bridging. ZnCl₂ molten salt etching replaces HF — fluorine-free synthesis throughout. Each variant is independently licensable on an exclusive field-of-use basis. Performance figures are nominal projections. Conservative and optimistic ranges available under NDA. Patent Pending — Filed March 26 2026.

Implantable Micro
Pacemakers · Neurostimulators · 30+ yr life
Wearable Health Patch
Continuous biometric monitoring · Skin-conform
Consumer Electronics
Smartphones · Laptops · Tablets
Electric Vehicles
Regen braking · 5-min charge · Zero fire risk
Data Centers & AI
Rack mount UPS · GPU clusters · 100K+ cycles
Grid Scale Storage
Utility storage · Solar farms · Microgrids
26 Industries

From the Smallest
Implant to the
Largest Power Grid.

One platform technology. Unlimited reach.

AtraZero · Exclusive Field-of-Use Licenses · Patent Pending
The Future
of Energy
Is Open.

Exclusive field-of-use licenses are available. First mover locks out competitors in their category. Under NDA.

joshua.dunn@atrahasis.ai

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