摘要:SummaryUsing a photocatalytic window can simplify the design of an optofluidic microreactor, providing also a more straightforward operation. Therefore, the development of TiO2coatings on glass substrates seems appealing, althougha priorithey would imply a reduced accessible area compared with supported nanoparticle systems. Considering this potential drawback, we have developed an endurable photocatalytic window consisting on an inner protective SiO2layer and an outer mesoporous anatase layer with enhanced surface area and nanoscopic crystallite size (9–16 nm) supported on a glass substrate. The designed photocatalytic windows are active in the CO2-to-methanol photocatalytic transformation, with maximum methanol yield (0.52 μmol·h−1·cm−2) for greatest porosity values and minimum crystallite size. Compared with benchmark supported nanoparticle systems, the nanoscopic thickness of the coatings allowed to save photoactive material using only 11–22 μg·cm−2, while its robustness prevented the leaching of active material, thus avoiding the decay of performance at long working periods.Graphical abstractDisplay OmittedHighlights•Photocatalytic windows provide enhanced operation of optofluidic microreactors•Use of TiO2nanometric coatings reduces the required photocatalyst amount•The robustness of the coating implies stability upon long-working periods•CO2-to-CH3OH conversion performance is related to the porosity and crystallite sizeChemistry; Catalysis; Engineering
