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Technology
Behind the Innovation
Our radiative cooling technology is inspired by nature - specifically the Saharan silver ant, which survives extreme heat through its unique hair structure that reflects solar radiation and emits heat to outer space.
The Science of Passive Cooling
Our multi-component, multi-scale nanoparticle material achieves breakthrough performance through deep integration of materials science, optics, and thermodynamics.
The coating achieves 95% solar reflectance and 95% mid-infrared emissivity in the 8-13μm atmospheric window, enabling passive cooling with zero external energy.
Heat is radiated directly to outer space (-270°C) through the atmospheric window, bypassing the surrounding air temperature entirely.
Key Performance Metrics
Solar Reflectance95%
Mid-IR Emissivity95%
Atmospheric Window8-13μm
Heat Sink Temperature-270°C
Product Matrix
Water-based radiative cooling coating system
| Product Code | Function | Weight Solids | Coverage Rate |
|---|---|---|---|
| MGP-201 | Metal Primer for Radiative Cooling Systems | 51±2% | 7±0.5m²/Kg |
| MGP-204 | Concrete Primer for Radiative Cooling Systems | 50±2% | 7±0.5m²/Kg |
| MGP-202 | Thermal Barrier Mid-Coat | 52±2% | 15±1m²/Kg |
| MGP-203 | Radiative Cooling Topcoat | 52±2% | 6.5±0.5m²/Kg |
| MGP-001 | Self-Cleaning Clear Coat | 19±2% | 5±0.5m²/Kg |
Performance Comparison
Exceeding industry standards
| Parameter | Industry Standard | Our Product |
|---|---|---|
| Solar Reflectance | ≥85% | 92% |
| NIR Reflectance | ≥80% | 91% |
| Hemispherical Emissivity | ≥85% | 88% |
| Post-pollution Retention | ≥85% | 96% |
| LWIR Emissivity | ≥85% | 93% |
Key Features
Eco-friendly & Low CO2 emissions
Comprehensive mechanical properties
RAL color customization available
Easy application - no special equipment
Excellent workability
70+ Patents certified
100+ Research papers published
International quality certifications