Abstract
Abstract Porous TiO2 nanotubes (PTNTs) were successfully prepared by a versatile sepiolite-sacrificed template method. The PTNTs possess a unique porous structure and a high specific surface area (120 m2 g−1). It exhibits significantly enhanced adsorption performance for azo dye Congo Red (CR, model dye pollutant) with maximum adsorption capacity of 540 mg g−1, which is much better than common TiO2-based materials, as well as some other semiconductor adsorbents. The dye-impregnated PTNTs (CR-PTNTs) were re-utilized as a photocatalyst for the visible light-induced reduction of Cr(VI). The results show that the CR-PTNTs exhibit significantly superior photocatalytic reduction ability to Cr(VI), and such performance can be attributed to the huge adsorption of CR molecules on the PTNTs and the unique porous structure of PTNTs. Current work not only reports an effective adsorbent for dye CR removal, but also put forward a reutilization strategy of the spent adsorbent for efficient visible-light photocatalytic reduction of Cr(VI), applicable to the other non-coexisting dyes and Cr(VI) pollutant scenarios.
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