Exploring the potential of ZnO-Ag@AgBr/SBA-15 Z-scheme heterostructure for efficient wastewater treatment: synthesis, characterization, and real-world applications

Exploring the potential of ZnO-Ag@AgBr/SBA-15 Z-scheme heterostructure for efficient wastewater treatment: synthesis, characterization, and real-world applications

This study reports on the synthesis and characterization of ZnO-Ag@AgBr/SBA-15 composites using natural halloysite clay from Yenbai Province, Vietnam, as a silica aluminum source. The synthesized materials demonstrated visible light absorption with a band gap energy range of 2.63-2.98 eV. The dual Z...

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Bibliographic Details
Published in:RSC advances Vol. 13; no. 18; pp. 1242 - 1241
Main Authors: Pham, Giang T. T, Vu, Hoa T, Pham, Tham Thi, Thanh, Nguyen Ngoc, Thuy, Van Ngo, Tran, Hung Quang, Doan, Huan V, Nguyen, Manh B
Format: Journal Article
Language:English
Published: England Royal Society of Chemistry 20-04-2023
The Royal Society of Chemistry
Subjects:
Aluminum
Chemistry
Degradation
Electromagnetic absorption
Electron transfer
Energy gap
Heterojunctions
Heterostructures
Household wastes
Light irradiation
Mass spectrometry
Phenols
Photocatalysis
Synthesis
Wastewater treatment
Water sampling
Water treatment
Zinc oxide
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Summary:This study reports on the synthesis and characterization of ZnO-Ag@AgBr/SBA-15 composites using natural halloysite clay from Yenbai Province, Vietnam, as a silica aluminum source. The synthesized materials demonstrated visible light absorption with a band gap energy range of 2.63-2.98 eV. The dual Z-scheme ZnO-Ag@AgBr/SBA-15 heterojunction exhibited superior catalytic performance compared to ZnO/SBA-15 and Ag@AgBr/SBA-15, owing to its improved electron transfer and reduced electron and hole recombination rate. In particular, the photocatalytic efficiency of ZnO-Ag@AgBr/SBA-15 was evaluated for the removal of harmful phenol red from wastewater under visible light irradiation. The photocatalytic process was optimized by varying the phenol red concentration, pH, and catalyst dosage, and showed that 98.8% of phenol red in 100 mL wastewater (pH = 5.5) can be removed using 40 mg of 20%ZnO-Ag@AgBr/SBA-15 within 120 min. Furthermore, the degradation pathway of phenol red was predicted using liquid chromatographic-mass spectrometry (LC-MS). Finally, the photocatalytic process was successfully tested using water samples collected from the four main domestic waste sources in Hanoi, including the To Lich River, the Hong River, the Hoan Kiem Lake, and the West Lake, demonstrating the high potential of the ZnO-Ag@AgBr/SBA-15 photocatalyst for phenol red degradation in real-world wastewater treatment applications. This study reports on the synthesis and characterization of ZnO-Ag@AgBr/SBA-15 composites using natural halloysite clay from Yenbai Province, Vietnam, as a silica aluminum source.
Bibliography:https://doi.org/10.1039/d3ra01856c
Electronic supplementary information (ESI) available: FT-IR and EDX spectra of ZnO-Ag@AgBr/SBA-15 samples, Mott-Schottky plot of ZnO/SBA-15 and Ag@AgBr/SBA-15 samples, schematic synthesis of ZnO-Ag@AgBr/SBA-15, UV-vis spectra of phenol red, images of phenol red solution, LC-mass spectra of phenol red, stability of 20%ZnO-Ag@AgBr/SBA-15 sample at different cycles of reaction. See DOI
ISSN:2046-2069
2046-2069
DOI:10.1039/d3ra01856c