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Enhancing photocatalytic efficiency and interfacial bonding on cement-based surfaces by constructing CaO-TiO2 hybrid catalysts

Xunli Jiang, Jian‐Xin Lu, Yuqing Zhang, Chi Sun Poon

2025Cement and Concrete Composites11 citationsDOIOpen Access PDF

Abstract

The application of titanium dioxide (TiO 2 ) coating in cement-based materials faces challenges regarding its durability. This study presented the concept of ‘induced bonding’ for enhancing coating adhesion. By modifying TiO 2 with CaO , nucleation sites were constructed on its surface, inducing the growth of hydration products and connecting the catalytic materials to the substrate. As a result, a novel dual-effect CaO-TiO 2 hybrid catalytic material with enhanced photocatalytic efficiency and interfacial bonding was successfully developed using a mechanochemical-thermochemical method. The CaO-TiO 2 catalyst was coated onto cement surfaces , and the mechanisms of interface enhancement were revealed by micro-scratch and microstructural tests. The results indicated that the synthetic catalytic materials exhibited excellent NO photocatalytic degradation performance , particularly at an activation temperature of 300 °C; the optimized NO degradation efficiency hit around 40 % with a NO x comprehensive removal amount approximately twice that of conventional TiO 2 . Moreover, the minimal generation of NO 2 demonstrated a strong photocatalytic selectivity. This exceptional photocatalytic performance can be attributed to the interaction between TiO 2 and CaO , along with its derivatives such as CaTiO 3 and CaCO 3 , which promoted the formation of active species (•OH, •O 2− , h + ), and increased the absorption efficiency in the visible light region. Furthermore, the wear resistance and interface critical load of CaO-TiO 2 coatings were more robust than reference coatings. The CaO-TiO 2 catalyst promoted hydration to form widely distributed and interlocked fibrous C-S-H gel, bridging the catalyst particles and enhancing the adhesion of the coating with the cement substrate, thereby improving its interfacial bonding performance.

Topics & Concepts

PhotocatalysisMaterials scienceCatalysisCementChemical engineeringComposite materialChemistryOrganic chemistryEngineeringTiO2 Photocatalysis and Solar CellsAdvanced Photocatalysis TechniquesCatalytic Processes in Materials Science