Low temperature-calcined TiO 2 for visible light assisted decontamination of 4-nitrophenol and hexavalent chromium from wastewater

In the present study, alkaline hydrothermally treated titania nanoparticles (TiO -HT) are prepared and followed by calcination at different low temperatures to improve TiO activity under visible light. The prepared photocatalysts (PCs) are characterized by different tools. TiO -HT is scrutinized for...

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Veröffentlicht in:Scientific reports 2019-12, Vol.9 (1), p.19354
Hauptverfasser: Ali, Mohamed Eid M, Assirey, Eman A, Abdel-Moniem, Shimaa M, Ibrahim, Hanan S
Format: Artikel
Sprache:eng
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Zusammenfassung:In the present study, alkaline hydrothermally treated titania nanoparticles (TiO -HT) are prepared and followed by calcination at different low temperatures to improve TiO activity under visible light. The prepared photocatalysts (PCs) are characterized by different tools. TiO -HT is scrutinized for decontamination of para-nitrophenol (PNP) and hexavalent chromium ions (Cr ions) under simulated sunlight. TiO -HT-300 and TiO -HT-400 PCs have nanosized particle with large surface area of 148 and 116.26 m /g, respectively. Additionally, XRD and FTIR proved formation of nanocrystalline anatase TiO . The different calcined TiO -HT materials show lower adsorption capacity for PNP and Cr ions. TiO -HT-300 and HT-TiO -400 PCs have higher reduction rate of PNP than that of uncalcined temperature titania (HT-TiO -U) powder. Complete conversion of PNP is achieved at natural pH after 180 min over TiO -HT-300. As well, TiO -HT-300 exhibits a superior photocatalytic removal of Cr ions. The enhanced photocatalytic efficacy is ascribed to the synergism between higher surface area and particle size (quantum effect) of TiO -HT-300. As results, HO· radicals are the main key active species for the photocatalytic degradation of PNP over TiO - HT-300 PC but contribution of O and h holes is minor. The used method for preparation of TiO -HT-300 reduces the cost preparation as well as environmental impact reduction. Finally, low temperature-calcined TiO is promising visible light active and an efficient photocatalyst with lower environmental impact for detoxification of PNP and Cr ions from water.
ISSN:2045-2322