Photo-deposition of AgO thin films on TiO2 substrate for (P-N) hetero-junction applications: Considering the degree of contamination

This study explored the development of photocatalytic heterostructures via the P-N junction formation between TiO2 and AgO. TiO2 thin films were fabricated on glass substrates through dip coating. Subsequently, photodeposition of AgO was achieved under sunlight irradiation using varying AgNO3 concen...

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Bibliographic Details
Published in:Journal of alloys and compounds 2025-01, Vol.1010, p.177331, Article 177331
Main Authors: Nezzal, Hala, Rahmane, Saâd, Temam, Elhachmi Guettaf, Al-Abri, Mohammed, Kyaw, Htet Htet, Gasmi, Brahim, Althamthami, Mohammed, Ben Temam, Hachemi, Hu, Jinguang
Format: Article
Language:English
Subjects:
AgO-TiO2 P-N junction
AMX
Dip coating
Photo-deposition
Photodegradation
Sol-gel
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Summary:This study explored the development of photocatalytic heterostructures via the P-N junction formation between TiO2 and AgO. TiO2 thin films were fabricated on glass substrates through dip coating. Subsequently, photodeposition of AgO was achieved under sunlight irradiation using varying AgNO3 concentrations (0.5–2.5 g/L). The films were characterized using XRD, SEM, EDX, UV–vis, and water droplet tests. Samples with concentrations below 2 g/L uniquely exhibited the anatase phase, while a significant prominence of AgO was observed in the film prepared with a 2 g/L AgNO3 concentration. Silver nitrate contamination loads had a significant impact on the particle size and the overall morphological characteristics of the heterojunctions. The band gap values were 3.52 eV for the anatase substrate, whereas the band gaps of the photodeposited films decreased from 2.44 to 1.98 eV. Despite all films being hydrophilic, a rise in water droplet contact angle was observed in the heterojunctions compared to the pure TiO2. Photodegradation of methylene blue under sunlight irradiation demonstrated exceptional efficiency (>90 %) for the 2 g/L AgNO3 heterojunction in 6 hours, maintaining high photocatalytic activity over multiple cycles (>77 %). This same configuration achieved a 50 % degradation of amoxicillin within 2 hours. This investigation addresses water contamination issues while offering a straightforward production method for efficient P-N junction co-catalysts. [Display omitted] •AgO/TiO₂ P-N junction with band gaps: 3.52 eV (TiO₂), 2.44–1.98 eV (AgO) enhances light absorption.•90 % MB photo-degradation efficiency under sunlight with 2 g/L AgNO₃ heterojunction.•2 g/L AgNO₃ heterojunction achieved 50% amoxicillin degradation in 3 hours under sunlight.•Photo-deposited AgO enhances TiO₂'s photocatalytic performance for environmental applications.
ISSN:0925-8388
DOI:10.1016/j.jallcom.2024.177331