Core Principle
A nano-chlorophyll coating on the power strip surface mimics plant photosynthesis:
- Light Harvesting: Absorbs ambient light (natural/artificial)
- Electron Excitation: Photons excite chlorophyll to generate electron flow
- Energy Conversion: Bio-circuit transforms electrons into usable electricity
Key Innovations
- Bionic Chloroplast Array
0.2mm ultra-thin coating embeds millions of synthetic chloroplast units - Dual-Spectrum Boost
Enhanced absorption of 380nm-750nm visible light + near-infrared - Self-Healing Conductive Gel
Restores power generation within 24 hours after damage - Porous Energy Reservoir
Stores daylight for nighttime operation (>8h autonomy)
Applications
Urban Eco-Buildings
Window-installed power strips harness sunlight, cutting building energy use by 15%
Emergency Response Systems
72-hour off-grid operation powers communication devices in disaster zones
IoT Networks
Lifetime maintenance-free power for distributed sensors
Advantages over Solar Panels
| Feature | Solar Panel | Chlorophyll Coating |
| Low-Light Response | Requires >20,000lux | Activates at 200lux |
| Installation Flexibility | Rigid flat panels | Conforms to curved surfaces |
| Carbon Footprint | 50kg CO₂/m² in production | Carbon-negative (absorbs CO₂) |
| Cost | $100/m² | $20/m² |
Sustainability
- 90-day biodegradable substrate
- Chlorophyll sourced from renewable spirulina algae
- 120g CO₂ daily absorption per m²
Conclusion
Chlorophyll coating transforms power strips from energy consumers to micro power stations, pioneering carbon-negative electricity.