SOLARSDGS
Anti-Reflection, Anti-Dust, Self-Cleaning
Pioneering automated solar panel coatings for maximum efficiency and minimal maintenance.
Innovating for Impact
10 GW Module Evaluation
Rejuvenate
4 Indicitors
Impacts of no coating on PV module
Sunlight
Reflection
4% sunlight loss reduces power generation.
Surface
Degradation
Easy to get Dust, bird droppings onto PV module
Self-Clean
Decline
The original coating on module will be damaged in 2 years.
Painful Results:
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Aging and Contaminants: Material aging and dirt buildup steadily decrease efficiency and cause mal-function .
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Increased Cleaning: More frequent cleaning needed and become a way to enhance power generation.
Key Advantages of Optical Coating Technology
Power Boost
Dust Resistance
Self Cleaning
Our nano-coating forms a thin, transparent, and hydrophilic protective layer on solar panels, enhancing light absorption and boosting power generation. Its photocatalytic properties and dense structure prevent dust and bird droppings, ensuring continuous self-cleaning.
3-Step Coating Guide
Clean Surface
Pre-clean the panel surface.
Apply Evenly
Use tools to evenly apply the coating.
Dry by Sunlight
Air-dry under sunlight.
3-8%
Increase in Power Generation
Maintenance Tips
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Data Monitoring: Monitor light absorption remotely.
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Reapplication: Reapply every 3-5 years based on environment.
Optical coating
Coating Loss Impact
Degradation of anti-reflective coatings and dust accumulation can reduce solar panel efficiency by up to 30%, significantly impacting power generation.
Company Milestones
Recipe
Complete
2023
Testing in
experimental sites
2024 1H
Iteration
2024 2H
Overseas expansion
2025
Partners
Add 4% Power
Prevent Total Reflection
Reduce 50% Cleaning
Prevent Dust Accumulation
Save Water
Rain & Wind help cleaning
SDGs
Less labor & water and extra energy
Revitalizing Solar Generation
Coating As A Service
Boosting solar efficiency and return on investment
with optical nano-coating technology