Photogeneration of singlet molecular oxygen (1O2) is applied to organic synthesis (photooxidations), atmosphere/water treatment (disinfection), antibiofouling materials and in photodynamic therapy of cancer. In this paper, 1O2 photosensitizing materials containing the dyes tris(4,4′-diphenyl-2,2′-bipyridine)ruthenium(ii) (1, RDB2+) or tris(4,7-diphenyl-1,10-phenanthroline)ruthenium(ii) (2, RDP2+), immobilized on porous silicone (abbreviated RDB/pSil and RDP/pSil), have been produced and tested for waterborne Enterococcus faecalis inactivation using a laboratory solar simulator and a compound parabolic collector (CPC)-based solar photoreactor. In order to investigate the feasibility of its reuse, the sunlight-exposed RDP/pSil sensitizing material (RDP/pSil-a) has been reloaded with RDP2+ (RDP/pSil-r). Surprisingly, results for bacteria inactivation with the reloaded material have demonstrated a 4-fold higher efficiency compared to those of either RDP/pSil-a, unused RDB/pSil and the original RDP/pSil. Surface and bulk photochemical characterization of the new material (RDP/pSil-r) has shown that the bactericidal efficiency enhancement is due to aggregation of the silicone-supported photosensitizer on the surface of the polymer, as evidenced by confocal fluorescence lifetime imaging microscopy (FLIM). Photogenerated 1O2 lifetimes in the wet sensitizer-doped silicone have been determined to be ten times longer than in water. These facts, together with the water rheology in the solar reactor and the interfacial production of the biocidal species, account for the more effective disinfection observed with the reloaded photosensitizing material. These results extend and improve the operational lifetime of photocatalytic materials for point-of-use 1O2-mediated solar water disinfection. © 2010 The Royal Society of Chemistry and Owner Societies.
CITATION STYLE
Manjón, F., Santana-Magaña, M., García-Fresnadillo, D., & Orellana, G. (2010). Singlet oxygen sensitizing materials based on porous silicone: Photochemical characterization, effect of dye reloading and application to water disinfection with solar reactors. Photochemical and Photobiological Sciences, 9(6), 838–845. https://doi.org/10.1039/c0pp00026d
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