Self-cleaning highly aqueous dispersed heat insulation functional coating for glass

Solution Self-cleaning highly aqueous dispersed heat insulation functional coating for glass
(REF : S-0157)
Matched Wish List W-0205 Transparent multifunctional nanocoating glass
Features of Products / Solutions
  • Transparent: most visible light can transmit the coated glass with over 80% transmittance.
  • The coating can blocking most infrared radiation and UV light, and finally reduce solar heat gain through local glazing windows and energy use by 40%.
  • The coating has super-hydrophilic slef-cleaning property and its photocatalysis can break down the organic grime into CO2 and water.
  • Highly aqueous dispersed coating without VOCs emmissions.
  • High durabilty and hardness.
Matched Trial Project
  • Optimized highly aqueous dispersed functional coating formula/prototype and optimized coating method, based on laboratory coating formula fabrication and laboratory property test (including thermal/optical property, durability, hardness, etc.);
  • On-site coating on glazing window and long-term on-site performance measurement, including thermal blocking property, indoor visual/thermal comfort, self-cleaning property and energy saving potential.
  • Simulation and modelling for potential energy savings of local buildings with coated glazing windows. The impact on OTTV value will be investigated, and comparison with other energy efficient glazing technologies will be conducted.
  • Guideline of the application of self-cleaning highly aqueous dispersed heat insulation functional coating for galzing windows in local buildings.
Additional information Functional coating - POLYU - LULIN.pdf
Contact Information

Company: Dept. of BSE, The Hong Kong Polytechnic University

Address: Hung Hom, Kowloon

Name: LU Lin Vivien

Position: Professor

Tel: (852)34003596

Email: vivien.lu@polyu.edu.hk

Webpage: https://www.bse.polyu.edu.hk/People/bellu/index.html

If you have interest in trial application of the I&T solutions, please click HERE.