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Facile integration of brown TiO2−x with Bi4V2O11 and BiVO4: Double S-scheme mechanism for exceptional visible-light photocatalytic performance in degradation of pollutants

Arezou Saadati, Aziz Habibi‐Yangjeh, Shima Rahim Pouran, Parisa Yekan Motlagh, Alireza Khataee

2023Advanced Powder Technology25 citationsDOIOpen Access PDF

Abstract

Heterogeneous photocatalysis has been denoted as a promising approach to dealing with environmental and energy crises. Herein, quantum dots (QDs) of TiO 2−x /Bi 4 V 2 O 11 /BiVO 4 (T OV BBV) heterojunction photocatalysts were successfully synthesized through a facile one-pot hydrothermal process with varying amounts of integrated Bi 4 V 2 O 11 and BiVO 4 semiconductors. The resultant photocatalysts were characterized by XPS, FT-IR, EDX, XRD, PL, EIS, SEM, TEM, HRTEM, BET, and UV–vis DRS techniques, and their photocatalytic efficiencies were examined via removing tetracycline (TC), azithromycin (AZi), and rhodamine B (RhB) under visible-light illumination. The results showed exceptionally promoted photocatalytic degradation efficiencies of the studied pollutants using the ternary T OV BBV-2 nanocomposite. The T OV BBV-2 nanocomposite was 45.4, 11.6, and 19.8-times more effective than TiO 2 , 7.24, 5.85 and 2.34-folds better than TiO 2−x, and 9.81, 9.23, and 1.61-times more effective than Bi 4 V 2 O 11 /BiVO 4 for photooxidation of TC, AZi, and RhB, respectively. The significant enhancement in the photocatalytic efficacy of the T OV BBV-2 nanocomposite originated from the defective oxygen sites in the titanium dioxide structure, which subsequently facilitated the transfer of photo-induced charge carriers through the formed tandem n-n heterojunctions amongst TiO 2−x , Bi 4 V 2 O 11 , and BiVO 4 components. In addition to high photocatalytic activities, the T OV BBV-2 photocatalyst demonstrated good photostability and durability after concurrent applications. This work recommends the T OV BBV photocatalyst for facile photocatalytic treatment of pollutants owing to its simple preparation route, high degradation outcomes, and robust structure for practical applications.

Topics & Concepts

PhotocatalysisNanocompositeMaterials scienceRhodamine BVisible spectrumChemical engineeringHeterojunctionX-ray photoelectron spectroscopyHigh-resolution transmission electron microscopyPhotodegradationNanotechnologyPhotochemistryCatalysisChemistryOptoelectronicsTransmission electron microscopyOrganic chemistryEngineeringAdvanced Photocatalysis TechniquesTiO2 Photocatalysis and Solar CellsAdvanced Nanomaterials in Catalysis
Facile integration of brown TiO2−x with Bi4V2O11 and BiVO4: Double S-scheme mechanism for exceptional visible-light photocatalytic performance in degradation of pollutants | Litcius