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Article Abstract
To understand the conversion mechanism of photocatalytic gaseous formaldehyde (HCHO) degradation, strontium (Sr)-doped TiO-OV catalysts was designed and synthesized in this study, with comparable HCHO removal performance. Our results proved that foreign-element doping reduced Ti to the lower oxidation state Ti, and that the internal charge kinetics was largely facilitated by the unbalanced electron distribution. Oxygen vacancies (OVs) were developed spontaneously to realize an electron-localized phenomenon in TiO-OV, thereby boosting O adsorption and activation for the enhanced generation of reactive oxygen species (ROS). At the chemisorption stage, in-situ DRIFTS spectra and density functional theory calculation results revealed that surface adsorbed O (O) and lattice O (O) engaged in the isomerisation of HCHO to dioxymethylene (DOM) on TiO-OV and TiO, respectively. Time-resolved DRIFTS spectra under light irradiation revealed that the DOM was then converted to formate and thoroughly oxidized to CO and HO in TiO-OV. While bicarbonate byproducts were detected from DOM hydroxylation or possible side conversion of CO in TiO, owing to insufficient consumption of surface hydroxyl. Our study enhances the understanding on the photocatalytic oxidation of HCHO, thereby promoting the practical application in indoor air purification.
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| http://dx.doi.org/10.1016/j.jhazmat.2021.127217 | DOI Listing |
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