Abstract
Improving air quality is a significant environmental challenge. This research explored the potential of asphalt mixtures functionalized with a chitosan-TiO(2) composite (CS-TiO(2)) to reduce high NO(2) concentrations and improve durability. For the assessment of the photocatalytic efficiency of the new CS-TiO(2) composite, a low-cost reactor adapted to accommodate asphalt Marshall-type specimens and high pollutant concentrations encompassing a passive sampling module was developed. The CS-TiO(2) was synthesized using a wet impregnation method at a concentration of 2%, and asphalt mixtures were treated with aqueous solutions of the photocatalysts at 2.5 g/m(2) and 5.0 g/m(2). Laboratory tests using the photocatalytic reactor and passive sampling of NO(2) revealed pollutant reductions of 21% with TiO(2) and 28% with CS-TiO(2). CS-TiO(2) achieved 15% efficiency in visible light, reducing NO(2) levels and offering UV protection to the asphalt mixtures. Additionally, the chitosan improved the photocatalyst's adhesion by about 18%, as confirmed by tape test results, suggesting enhanced durability on pavement surfaces. The results achieved showcase the relevance of the proposed methodological improvements for supporting further research.