SpinQi: Powering the Future with High-Energy Density Capacitors
Faster, lighter, and more powerful energy storage for defense, EVs, and power grids.
Problem
Traditional energy storage solutions can't keep up with modern demands.
Bulky, inefficient, and slow-charging capacitors limit advancements in defense, fusion, and power grids.
Directed Energy Weapons (DEWs)
Require rapid, high-power pulses for precision strikes, but conventional capacitors recharge too slowly, reducing accuracy and effectiveness in combat.
Fusion Energy
Plasma confinement and ignition demand ultra-high current bursts, but traditional capacitors lack the power density for instant energy delivery, slowing fusion advancements.
Power Transmission
HVDC grids and multi-level converters rely on capacitors, but conventional options take up 50% of system size and 80% of volume, increasing costs and inefficiencies.
The world needs faster, more powerful, and compact energy storage solutions. SpinQi is leading the charge.
Solution
SpinQiβs breakthrough capacitors deliver faster, more powerful, and compact energy storage, solving critical challenges in defense, energy, and power grids.
Ultra-Fast Energy Delivery for DEWs
High-voltage capacitors with rapid charge/discharge cycles enable faster targeting, prevent beam filamentation, and enhance weapon effectiveness.
High-Power Density for Fusion Energy
>100x higher energy density capacitors provide instant high-current bursts for plasma ignition and confinement, accelerating fusion research.
Compact, High-Efficiency Capacitors for Power Grids
Smaller, lightweight capacitors with higher voltage tolerance reduce infrastructure costs, improve HVDC transmission, and support renewable energy integration.
With >100x energy density, compact size, and ultra-fast discharge, SpinQi capacitors are redefining the future of energy storage.
Why SpinQi?
π >100x Higher Energy Density
Delivers more power in less space, ideal for DEWs, fusion, and HVDC grids.
β‘ Ultra-Fast Charging & Discharging
Provides near-instant energy with rapid recovery for weapons and power grids.
π― Compact & Lightweight Design
Reduces size by 80%, optimizing drones, EVs, and power transmission.
π₯ High-Temperature Resilience
Performs in extreme conditions, perfect for aerospace, defense, and energy.
π Sustainable & Scalable
Supports defense, EVs, medical, and renewable energy applications.
| Performance Metric | SpinQi Capacitors |
|---|---|
| Energy Density (Wh/kg) | π₯ >100x Higher than standard capacitors |
| Charge Time | β‘ Near-Instant |
| Discharge Efficiency | π 99% |
| Operational Temperature Range | π‘οΈ -50Β°C to 200Β°C |
| Cycle Lifespan | π‘οΈ 10x Longer |
| Feature | SpinQi Capacitors | Lithium-Ion Batteries | Supercapacitors | Flywheels |
|---|---|---|---|---|
| Energy Density | π₯ >100x higher | High, but limited by degradation | Low energy storage per unit volume | Moderate |
| Power Density | π Instant high-power bursts | Moderate, limited by charge cycles | β‘ Extremely high, but short duration | Moderate |
| Charge/Discharge Speed | β‘ Ultra-fast (near-instant) | Slow (minutes to hours) | Very fast | Moderate |
| Size & Weight | π― 80% smaller & lighter | Heavy & bulky | Compact but limited storage | Large footprint |
| Durability/Lifespan | π‘οΈ Long-lasting, no chemical wear | Degrades over time (3-5 years) | Very high cycle life | High, but mechanical wear |
| Temperature Resilience | π₯ Operates in extreme conditions | Performance drops in heat/cold | Moderate | Low |
| Scalability & Applications | β Defense, EVs, power grids, medical | Mainly EVs & consumer electronics | Limited industrial use | Niche (renewables, industrial) |
| Sustainability | π± Eco-friendly materials | Lithium mining impacts environment | Requires rare materials | Moderate environmental impact |
Applications
SpinQi capacitors are transforming multiple industries, delivering faster, more efficient, and high-power energy storage solutions for defense, electric vehicles, power grids, and medical devices.
Defense & Military
Enhances targeting, energy storage, and precision for DEWs, radar, and combat drones.
Electric Vehicles (EVs)
Boosts range, speeds up charging, and improves energy recovery for EVs.
Power Grids
Optimizes HVDC transmission, stabilizes renewables, and reduces energy loss.
Medical Technology
Improves precision in surgical lasers, MRI scanners, and medical implants.
From cutting-edge military applications to next-gen medical devices, SpinQi capacitors are powering the future of energy storage.
Third-Party Testing & Certifications
Founders & Leadership Team
Irving Weinberg M.D. Ph.D. β President
Built worldβs largest H2O 50kV capacitor
PhD pulsed-power, plasma physics
Serial entrepreneur
LinkedIn profile
Lamar Mair, PhD. β CTO
Expert in nanomaterial synthesis.
Ph.D. in materials science
Postdoctoral training at NIST
LinkedIn profile
Mike Petrillo, MS β Director, Systems
Served as systems chief for radiosurgery (ZAP, Varian)
M.S. in physics
LinkedIn profile
Roland Probst, PhD β Director, Aerospace
Serial entrepreneur
Ph.D. in aerospace engineering
LinkedIn profile
Ben Margolis, MBA - Advisor
Maryland Energy Innovation Accelerator
CEO, DemandEV
Fellow, Breakthrough Energy
LinkedIn profile
J. Ari Tuchman, PhD - Advisor
Served as CEO, board director, venture capitalist
Ph.D. in physics
Postdoc at Naval Research Laboratory, NIST
LinkedIn profile