Cleantech

Energy conversion takes place at the surface, and thus on the nanometer scale. Nanotechnology allows functionalizing or structuring the surface and material in order to improve the energy effectiveness. A typical application is the improvement of the heat exchanger characteristics.

Heat Exchanger

Our nano-lacquers prevent the surface from collecting dust and dirt. Therefore, the minized degree of soiling leads to a significantly improved heat transfer rate and thus to reduce energy costs. The special surface properties of these nano-lacquers can be achieved with thin layers of only 3 to 10 micrometers. These nano-coatings also have an extreme corrosion resistance.
<1K Clear Coat>

Cooling

Water sprayed onto our super-hydrophilic coating will cover the surface with a thin film. Therefore, the water will evaporate rapidly. This results in the evaporating cooling effect which can be used to cool buildings, roofs, machines…
<Super-Hydrophilic>

Solar Cell

TiPE high-titanium dioxide sol is suitable for highly transparent dye solar cells.
<Nano Titanium Dioxide>

Solar panels and solar cells

Dirt and dust on solar panels or solar cells will reduce the efficiency and thus increase the external energy input. With our self-cleaning or "easy to clean" coatings the performance over time can be substantially improved.
<Self Cleaning> <Easy to Clean>

Air Purification

TiPE nano coat is the next generation of air purification technology, which can treat air pollution caused by traffics and industry. Organic materials and harmful gases will get reduced to water and carbon dioxide.
<PT-Serie> <AG-Serie>

Wastewater Treatment

TiO2 nano-coatings are the next generation of wastewater treatment. Organic contamination such as for example KW chlorine, dyes, pesticides, surfactants, traces of oil, PAHs, etc., will get reduced in the presence of UV radiation.
<AG-Serie> <E-Serie>