Supplementary information files for "Tunable assembly of photocatalytic colloidal coatings for antibacterial applications"

<p dir="ltr">Supplementary files for article "Tunable assembly of photocatalytic colloidal coatings for antibacterial applications"<br><br>In this study, evaporation-induced size segregation and interparticle interactions are harnessed to tune the microstructure of photocatalytic colloidal coatings containing TiO₂ nanoparticles and polymer particles. This enabled the fabrication of a library of five distinct microstructures: TiO₂-on-top stratification, a thin top layer of polymer or TiO₂, homogeneous films of raspberry particles, and a sandwich structure. The photocatalytic and antibacterial activities of the coatings were evaluated by testing the viability of Methicillin-resistant Staphylococcus aureus (MRSA) bacteria using the ISO-27447 protocol, showing a strong correlation with the microstructure. UVA irradiation for 4 h induces a reduction in MRSA viability in all coating systems, ranging from 0.6 to 1.1 log. Films with TiO₂-enriched top surfaces exhibit better resistance to prolonged exposure to disinfection and bacterial testing. The remaining systems, nonetheless, present higher antibacterial activity because of a larger number of pores and coating defects that enhance light and water accessibility for the generation and transport of reactive oxygen species. This work establishes design rules for photocatalytic coatings based on the interplay between performance and film architecture, offering valuable insights for several applications, including antibacterial surfaces, self-cleaning/antifogging applications, and water purification.<br><br>© The Author(s) CC BY 4.0</p>