Rapid electrification, grid instability, and diesel replacement mandates create a once-per-decade opening for resilient, zero-emission storage. Our magnetic inertia platform pairs battery-like response times with turbine-like durability, positioning Ioncore as the premium choice for critical power.
Executive Summary
Vision & Mission
Transform the global energy landscape by commercializing a breakthrough magnetic inertia generator—delivering uninterrupted, efficient, and green power to critical sectors.
Value Proposition
- Ultra-High Efficiency: Magnetic inertia storage with near-zero degradation over time.
- Grid Independence: Seamless backup or off-grid operation, eliminating costly downtime.
- Modular & Scalable: Systems from 100 kW (residential) up to multi-MW (commercial/industrial).
- Environmental Leadership: Significant CO₂ reduction and compliance with LEED, BREEAM, and other certifications.
Fundraising Ask
- Total Raise: USD 10 million
- Use of Proceeds: Scale manufacturing, launch pilot projects, accelerate R&D, secure patents.
- Target Close: Q4 2025
- Current Commitments: $3.2M soft-circled across strategic and climate-focused investors.
Investment Snapshot
Customer Pipeline
12 qualified deals (>$18M TCV) across healthcare, data centres, and EV charging—3 in contracting.
Unit Economics
Blended 42% gross margin on first manufacturing run; path to 55% with volume magnet pricing.
Resilience Advantage
Sub-1 ms response + 20-year design life yields >30% lower TCO vs. lithium for critical loads.
Climate Impact
Each MW replaces ~1,200 tons CO₂ annually versus diesel; aligns with ESG procurement criteria.
Traction & Milestones
| Date | Milestone |
|---|---|
| Q1 2024 | Completed lab-scale prototype testing (99% round-trip efficiency) |
| Q3 2024 | Secured first Letter of Intent (LOI) from a major hospital chain |
| Q1 2025 | Demonstrated continuous 48-hour off-grid operation in pilot site |
| Q2 2025 | Filed two additional patents on cooling and control algorithms |
| Q4 2025 (Proj.) | Commission first 250 kW commercial installation; begin leasing pilot |
Market Analysis
Total Addressable Market (TAM)
- Global energy storage market: USD 500 billion by 2030.
- Critical-power UPS (healthcare/comms): USD 40 billion by 2027.
- EV charging infrastructure: USD 30 billion by 2028.
Serviceable Obtainable Market (SOM)
Year 1–3 focus: North American healthcare + data centres (~USD 5 billion).
Customer Personas
- Hospital Facility Director – Prioritizes zero downtime; budgets > USD 1 million per site.
- Commercial Real Estate Owner – Seeks sustainable certifications; ROI in 3–5 years.
- EV Charging Network Operator – Needs reliable peak-demand support; flexible financing.
Competitive Matrix
| Feature | Magnetic Inertia | Lithium-Ion Batteries | Flywheels | Diesel Generators |
|---|---|---|---|---|
| Round-Trip Efficiency | 98–99% | 85–90% | 85–95% | N/A |
| Cycle Life | > 50 000 cycles | ~ 3 000 cycles | ~ 20 000 | N/A |
| Carbon Emissions | Zero | Low (manufacturing) | Zero | High |
| Maintenance Interval | 5 years | 1–2 years | 3 years | 6 months |
| Scalability | Modules to MW | Modules to MW | Limited | Unlimited |
Product Description
System Architecture
- Rotor & Stator Assembly: High-flux magnetic materials for energy capture.
- Active Thermal Management: Closed-loop liquid cooling with real-time monitoring.
- Power Electronics Module: Bidirectional converters with < 1 ms response.
Key Benefits
- Reliability: Guaranteed 99.9% uptime.
- Low OPEX: 30–50% lower maintenance vs. battery alternatives.
- Long Lifespan: 20+ year design life with minimal performance decay.
Use Cases
- Hospital Backup Power: Critical equipment support during grid outages.
- Data Centre UPS: Seamless switchover to prevent data loss.
- EV Fast-Charging Hubs: Smooth peak-shaving to avoid utility demand charges.
- Islanding Microgrids: Support for remote sites where diesel is constrained or banned.
- Defense & Civil Resilience: Hardened storage for base operations and emergency shelters.
Deployment Playbook
Rapid Pilots
90-day pilot template with pre-engineered interconnects and remote monitoring to prove ROI fast.
Financing Flexibility
Blend of capex sales, PPAs, and energy-as-a-service, letting customers choose opex vs. capex.
Scalable Stack
Standardized 100 kW blocks networked via microgrid controller; MW-scale deployments in weeks.
Business Model
Revenue Streams
- Direct Sales: One-time hardware + installation fees.
- Leasing & Power-Purchase Agreements (PPAs): 5–10 year contracts, minimal upfront cost for clients.
- Service & Maintenance: Tiered SLAs, remote monitoring subscriptions.
- Technology Licensing: Regional OEM partnerships for international expansion.
Pricing Illustration
| Model | Capacity | Purchase Price | Lease PPA Rate |
|---|---|---|---|
| Residential | 100 kW | USD 120 000 | USD 2.50/kWh over 7 yrs |
| Commercial Small | 250 kW | USD 280 000 | USD 2.20/kWh over 10 yrs |
| Data Centre | 1 MW | USD 1 million | USD 1.80/kWh over 10 yrs |
Capital Efficiency Logic
- Hardware Reuse: Shared rotor/stator platform across 100 kW–1 MW SKUs keeps tooling costs low.
- Service Attach: 35–45% of customers opt into premium SLA subscriptions within 12 months.
- Asset-Backed Leases: Residual value on 20-year assets supports low-cost project finance structures.
Marketing & Sales Strategy
Brand Positioning
“The world’s cleanest, most reliable energy storage.” Leverage case studies and performance data to build credibility.
Go-to-Market Phases
- Phase 1 (2025): Pilot installs with LOI customers; publish whitepaper.
- Phase 2 (2026): Regional sales offices; partner network activation.
- Phase 3 (2027+): Scale to MENA and Asia via OEM licensing.
Operational Plan
Manufacturing
- Facility: 15 000 ft² automated line in Ontario, Canada.
- Capacity: 5 MW modules per quarter; scalable via robotic cells.
Supply Chain
- Dual-sourcing critical components (magnets, power electronics) to mitigate disruption.
- Vendor scorecards to monitor quality, lead-times, and ESG compliance.
R&D Roadmap
- 2026: Develop next-gen high-temperature superconducting bearings.
- 2027: Integrate AI-based predictive maintenance algorithms.
Funding Timeline & Catalysts
- Q2 2025: Secure lead investor term sheet; lock magnet and power-electronics volume pricing.
- Q3 2025: Deploy two 250 kW commercial pilots; publish verified uptime data.
- Q4 2025: Close round; expand manufacturing cell; commence 1 MW data centre build.
- 2026: Launch OEM licensing program in MENA + APAC; achieve 55% gross margin.
Investor Alignment
Governance
Quarterly board with climate/infra expertise; independent seat reserved for lead investor.
Reporting
Monthly KPI pack covering uptime, backlog conversion, burn, and cash runway; portal access for LPs.
Compliance
ISO 9001 manufacturing in process; UL 9540 + CE/CSA roadmap underwritten by third-party labs.
Financial Plan
Use of Proceeds
| Category | Amount (USD) | % of Raise |
|---|---|---|
| Manufacturing Scale-Up | 4 000 000 | 40% |
| Pilot Project Deployment | 2 000 000 | 20% |
| R&D & IP Protection | 2 000 000 | 20% |
| Sales & Marketing | 1 500 000 | 15% |
| Working Capital | 500 000 | 5% |
5-Year Financial Projections
Revenue: USD 50 million
EBITDA margin: 25% by Year 5
Break-Even: Mid-Year 3
Capital Deployment Roadmap
Manufacturing
Automate rotor balancing and stator winding to double throughput while holding workforce flat.
Pilots to Recurring
Convert 4 paid pilots into 8-year PPAs; target 75% conversion through performance guarantees.
IP & Moat
Expand patent family to include control firmware and thermal topologies; initiate trade-secret program.
ESG Impact
- Carbon Reduction: Each 1 MW system offsets ~1 200 tons CO₂ per year vs. diesel.
- Circular Design: 90%+ recyclable materials; take-back program for end-of-life units.
- Community Engagement: Job creation in advanced manufacturing hub; STEM partnerships with local colleges.
Intellectual Property & Regulatory Strategy
- Patents Filed:
- Magnetic rotor geometry (2024, PCT pending).
- Advanced thermal management (2025, PCT filed).
- Regulatory Pathway:
- UL 9540 testing in progress.
- CE and CSA certifications targeted for Q2 2026.
Team & Advisors
Leadership
- CEO: 15 years in clean-tech scale-ups; ex-VP at a Fortune 500 energy firm.
- CTO: PhD in Electromechanical Systems; 20+ patents in power electronics.
- COO: Supply-chain veteran with global manufacturing experience.
Advisory Board
- Senior advisor from DOE’s Advanced Manufacturing Office.
- Former VP of Product at a leading battery-storage company.
- Finance expert from a Tier-1 VC firm specializing in energy.
Investor Opportunity & Exit Strategy
Return Drivers
- Rapid market growth in grid-scale storage and EV charging.
- Recurring revenue from leases and service contracts.
- High-margin aftermarket service business.
Exit Pathways
- Strategic M&A: Acquisition by major OEM (e.g., GE, Siemens, ABB) seeking storage tech.
- IPO: North American exchange listing once revenues exceed USD 100 million.
- Private Secondary: Liquidity events for early backers via later-stage secondary offerings.
Risk Analysis
| Risk Category | Mitigation |
|---|---|
| Technology | Rigorous pilot validations; third-party testing partnerships. |
| Market Adoption | Early adopter incentives; strong case-study evidence; referral discounts. |
| Supply Chain | Dual-sourcing; buffer stock; long-term supply contracts. |
| Regulatory | Early engagement with cert bodies; dedicated compliance team. |
Appendices & Next Steps
- Detailed Technical Specs and Performance Data available on NDA.
- Pilot Site Proposals ready for client sign-off.
- Term Sheet draft available for interested investors.
- Next Steps:
- Schedule deep-dive technical review with your engineering team.
- Review and agree on term sheet.
- Finalize pilot deployment contracts and manufacturing ramp plan.
