The world is moving towards solar energy and we are glad about it. However, cleaning the solar panels at residence or a commercial building is a tough task. There are several risks involved in cleaning the solar panels. However, a mix of high-quality coating material and nano photocatalystic titanium dioxide can serve the purpose really well. The innovative product can be also customized to suit the needs.
The objective of creating a self-cleaning & super hydrophilic coating on solar panels to is to improve the efficiency while reducing the maintenance costs and risks associated with it. The nano photocataltic titanium dioxide brings out a better perspective to the solar panel industry.
The nano titanium dioxide is a feature-laden solution for solar panels, irrespective of the use and industry. Some key features include:
- Self-cleaning and super-hydrophilic
- Monodispersed nano titanium dioxide water-based solution
- Compatible with almost all solvent system
- Adjustable particle form
- Better dye absorption
- Doping technology
- Environmentally friendly
The particle form can be customized in accordance with the need. With an SSA of 160-240 m2/g and porosity of 30-70%, the slurry provides a better dye absorption. The self-cleaning coating makes sure you don’t need to take the risk of climbing up the roof to clean it regularly. A clean solar panel can result in an efficient energy production. Not just that, the nano photocatalytic titanium dioxide is super hydrophilic in nature which reduces the module temperature by a huge margin. In addition to all this, the innovative nanotechnology equips the slurry with doping technology which improves the performance and reduces dye degradation speed by changing the gap of the titanium dioxide particles.
If you belong to the solar panel industry and want to make your solar panels better at efficiency and energy production, using the nano photocatalytic titanium dioxide is the best way forward. It is a completely environmentally friendly method to keep the maintenance costs low and efficiency high.