Electric Vehicle
Retrofit Kits
Eliminate daily charging for urban fleets with integrated energy harvesting from heat, vibration, regenerative braking, and ambient light. Our retrofit kits capture wasted energy to extend EV range and reduce charging costs.
Multi-Modal Energy Harvesting
Our retrofit kit captures wasted energy from multiple sources during urban driving cycles—heat, vibration, braking, and light—converting it directly to usable power.
🔥 Thermal Energy Harvesting
Captures waste heat from motors, batteries, and brakes using advanced thermoelectric materials. Recovers 2-4 kWh daily from thermal gradients during normal driving cycles.
⚡ Vibration Energy Harvesting
Piezoelectric actuators mounted on suspension, drivetrain, and chassis convert mechanical vibrations from road conditions into electrical energy. Yields 1-2 kWh per day during urban driving.
🔋 Enhanced Regenerative Braking
Augments existing regenerative braking systems with advanced nano-capacitors and optimized energy capture algorithms. Boosts braking energy recovery by 15-25%, adding 3-5 kWh daily.
☀️ Solar Panel Integration
Optional lightweight, flexible solar panels on roof and hood surfaces harvest ambient light during parking and driving. Contributes 1-3 kWh daily depending on sun exposure and parking location.
Total Daily Energy Harvest
11.50 kWh/day
Equivalent to 40+ miles of urban driving range for most EVs
Who Benefits Most?
🚚 Fleet Operators
Ideal Profile:
• Urban delivery fleets (last-mile logistics)
• Ride-sharing and taxi services
• Municipal vehicle fleets
• Corporate shuttles and fleet operators
Key Benefits:
• 30% reduction in charging requirements
• $5,910+ annual savings per vehicle
• 50%+ reduction in charging downtime
• 8.7-month payback period
• Longer battery lifespan (fewer charge cycles)
• Higher vehicle utilization rates
Typical Fleet Profile:
50-100+ vehicles driving 40-60 miles daily in urban environments. Annual savings: $591,000+ per 100 vehicles.
🚗 Daily Commuters
Ideal Profile:
• Urban and suburban commuters
• Daily driving range 30-50 miles
• Regular stop-and-go traffic patterns
• Outdoor parking or sunny locations
Key Benefits:
• 100% charging reduction for 40-mile daily commutes
• Eliminate need for home charging infrastructure
• No range anxiety for daily driving
• Lower electricity costs
• Reduced battery degradation
Market Opportunity:
51 million+ daily commuters in the U.S. driving less than 40 miles per day—our target consumer segment.
🏭 OEM Partners
Integration Opportunity:
Our energy harvesting technology can be integrated directly into new vehicle designs during manufacturing, offering OEMs a competitive advantage.
OEM Value Proposition:
• +$4,000 net value per vehicle
• MSRP uplift potential: $1,600-$2,000
• ZEV credits: $2,500-$4,000 per vehicle
• Warranty savings: $400-$600 (reduced battery stress)
• Marketing differentiation: "Never plug in for daily driving"
Current Status:
Seeking strategic partnerships with EV manufacturers for factory integration and co-development opportunities.
Join Our 2026 Pilot Deployment
We are seeking urban fleet partners for pilot deployment in Q2-Q3 2026. Be among the first to validate this breakthrough technology and capture significant cost savings.
Phase 1: Discovery
Initial consultation to understand fleet composition, daily driving patterns, charging infrastructure, and operational costs. We assess fit and potential ROI for your specific use case.
Phase 2: Design & Installation
Custom retrofit kit design based on vehicle models in your fleet. Professional installation by certified technicians. Integration with existing fleet management systems and telematics.
Phase 3: Validation & ROI
90-day pilot monitoring energy harvest rates, charging reduction, cost savings, and vehicle uptime. Real-time dashboard with energy capture analytics. Comprehensive ROI report at pilot conclusion.
Phase 4: Fleet Expansion
Proven ROI leads to full fleet deployment with volume pricing and priority installation scheduling. Ongoing support, software updates, and performance optimization.
Pilot Program Timeline
Q1 2026: Partner selection and onboarding
Q2 2026: Kit installation and pilot launch (50-100 vehicles)
Q3 2026: Validation testing and ROI confirmation
Q4 2026: Full fleet deployment and scaling
Retrofit Kit Technical Details
Physical Specifications
Total System Weight: 15-25 kg
Installation Time: 4-6 hours per vehicle
Mounting Locations: Suspension, chassis, drivetrain, roof/hood (solar option)
Warranty: 5 years / 100,000 miles
Operating Temperature: -40°C to +85°C
Maintenance: Annual inspection recommended
Energy Specifications
Daily Energy Harvest: 11.50 kWh (average)
Peak Output: 1.5-2.5 kW during braking
System Efficiency: 85-90% energy conversion
Battery Integration: Direct DC charging to main battery
Power Management: AI-optimized charge controller
Monitoring: Real-time telemetry via mobile app
Vehicle Compatibility
Supported Vehicle Types:
• Passenger EVs (sedans, SUVs)
• Commercial delivery vans
• Light-duty trucks
• Electric buses (municipal fleets)
Compatible EV Platforms:
• Tesla Model 3, Y, S, X
• Chevrolet Bolt
• Nissan Leaf
• Ford F-150 Lightning
• Rivian R1T/R1S
• And most major EV models
Cost & Economics
Retrofit Kit Price: $5,000 - $8,000 per vehicle
Installation Cost: Included in kit price
Annual Savings: $5,910+ per vehicle
Payback Period: 8.7 months
10-Year ROI: $59,100+ per vehicle
Fleet Pricing: Volume discounts available (50+ vehicles)
Financing Options: Available for qualified fleet operators
Why NanoHarvestX for EVs?
Multi-Modal vs. Single-Source
Most competitors focus on a single energy source (solar-only or thermal-only). Our integrated system captures energy from 4+ sources simultaneously, delivering 3-5x more daily energy harvest than single-source solutions.
Retrofit vs. OEM-Only
While some solutions require factory integration, our retrofit kits work with existing EV fleets. This unlocks the massive existing EV market (14+ million EVs in U.S. today) without waiting for new vehicle purchases.
AI Optimization
Embedded AI continuously optimizes energy capture based on driving patterns, weather conditions, and battery state. Competitors use static systems. Our adaptive approach delivers 15-20% higher efficiency in real-world conditions.
Dual-Use Validation
Our technology is being validated simultaneously for space missions, demonstrating extreme durability, reliability, and performance. This dual-use validation accelerates Earth applications and provides confidence in system robustness.
Ready to Transform Your Fleet?
Join our 2026 pilot program and be among the first fleet operators to eliminate daily charging costs.