Photocatalytic Activity of Ag-TiO<sub>2</sub> Composites Deposited by Photoreduction under UV Irradiation

Díaz‐Uribe, Carlos; Viloria, Jose; Cervantes, Lorraine; Vallejo, William; Navarro, Karen; Romero, E.; Quiñones, César

doi:10.1155/2018/6080432

Cited by 33 publications

(13 citation statements)

References 51 publications

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“…Moreover, the 5.8 eV splitting between binding energies confirms the presence of Ti 4+ in the photocatalyst. This finding is consistent with previous research 38 . The high‐resolution Ag 3d spectrum (Fig.…”

Section: Resultssupporting

confidence: 93%

Fabrication of Ag‐photodeposited TiO₂/cordierite honeycomb monolith photoreactors for 2‐naphthol degradation

Huynh

et al. 2020

J of Chemical Tech & Biotech

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BACKGROUND Polycyclic aromatic hydrocarbons and their derivatives have harmful effects on organisms and the environment. As a typical polycyclic aromatic hydrocarbon, 2‐naphthol is a persistent, highly toxic organic pollutant that biodegrades very slowly and thus its elimination is of high priority. RESULTS Ag‐deposited TiO2/cordierite honeycomb monoliths (CHMs) have been successfully applied to the photocatalytic degradation of 2‐naphthol. The physical properties of the catalyst were characterized using various techniques. Deposition of metallic silver on a thin layer of TiO2 adhering to the inner walls of the CHM reduces the bandgap energy and lowers the recombination rate of photogenerated electrons and holes. The optimal photocatalyst (0.4Ag‐deposited S700‐ST) exhibits a first‐order degradation rate of k = 0.048 min−1 with 91.0% decomposition of 2‐naphthol after 240 min of irradiation with 12 W, 395 nm LED light. The 0.4Ag‐deposited S700‐ST material is stable throughout four photocatalytic reaction cycles. CONCLUSIONS The work presented describes the development of a robust, stable TiO2‐coated CHM that overcomes the recovery drawbacks of nano‐TiO2‐based slurries in photocatalytic wastewater treatment. © 2020 Society of Chemical Industry

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Section: Resultssupporting

confidence: 93%

Fabrication of Ag‐photodeposited TiO₂/cordierite honeycomb monolith photoreactors for 2‐naphthol degradation

Huynh

et al. 2020

J of Chemical Tech & Biotech

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“…Therefore, improving the photoresponse of ZnO to longer wavelengths of the electromagnetic spectrum is the goal to be achieved for photocatalytic applications under solar irradiation [7]. Different strategies have been reported to extend photoresponse of semiconductors into the visible light region: (a) sensitization with natural and synthetic dyes [8][9][10][11], (b) coupled semiconductors [12][13][14], (c) surface plasmon resonance [15][16][17][18], and (d) doping ZnO structure with metals and nonmetals [19][20][21]. Among these, the doping process can modify the band gap of ZnO, generating electronic state intragap inside of the semiconductor thus ensuring the photoactivity redshift; on that topic, different authors have reported that ZnO changed photoresponse after the doping process [22].…”

Section: Introductionmentioning

confidence: 99%

Methylene Blue Photodegradation under Visible Irradiation on Ag-Doped ZnO Thin Films

Vallejo

Cantillo

Díaz‐Uribe

2020

International Journal of Photoenergy

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This study synthesized and characterized Ag-doped ZnO thin films. Doped ZnO powders were synthesized using the sol-gel method, and thin films were fabricated using the doctor blade technique. The Ag content was determined by optical emission spectrometers with inductively coupled plasma (ICP plasma). Additionally, X-ray diffraction, Raman spectroscopy, Atomic Force Microscopy (AFM), diffuse reflectance, and X-ray photoelectron spectroscopy (XPS) measurements were used for physicochemical characterization. Finally, the photocatalytic degradation of methylene blue (MB) was studied under visible irradiation in aqueous solution. The Langmuir-Hinshelwood model was used to determine the reaction rate constant of the photocatalytic degradation. The physicochemical characterization showed that the samples were polycrystalline, and the diffraction signals corresponded to the ZnO wurtzite crystalline phase. Raman spectroscopy verified the ZnO doping process. The AFM analysis showed that roughness and grain size were reduced after the doping process. Furthermore, the optical results indicated that the presence of Ag improved the ZnO optical properties in the visible range, and the Ag-doped ZnO thin films had the lowest band gap value (2.95 eV). Finally, the photocatalytic degradation results indicated that the doping process enhanced the photocatalytic activity under visible irradiation, and the Ag-doped ZnO thin films had the highest MB photodegradation value (45.1%), as compared to that of the ZnO thin films (2.7%).

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“…The Modeling and Application of Advanced Oxidation Processes (MAOX) Group (Universidad de Cartagena 2010) was the pioneer in this field, with a study where they developed a mathematical model that allows to simulate the reflection of direct solar radiation in a CPC and calculated the involute length of the collector. This mathematical model was the first approach to radiation absorption models that involve solar radiation for photochemical or photothermal applications [109] . Later, this group would model the pilot scale photocatalytic degradation of 4‐chlorophenol, DCA and phenol in three CPC reactors that included the estimation of scattering‐absorption of the UV photons and the formulation of a generalized kinetic law with predictive quantum yields [110] .…”

Section: The Presentmentioning

confidence: 99%

“…This mathematical model was the first approach to radiation absorption models that involve solar radiation for photochemical or photothermal applications. [109] Later, this group would model the pilot scale photocatalytic degradation of 4-chlorophenol, DCA and phenol in three CPC reactors that included the estimation of scattering-absorption of the UV photons and the formulation of a generalized kinetic law with predictive quantum yields. [110] Subsequent studies would focus on the photoreactors design and their applicability for emergent pollutants removal in water.…”

Section: The Presentmentioning

confidence: 99%

The History and Prospective of the AOPs for Environmental Applications in Colombia**

et al. 2021

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Photocatalytic Activity of Ag-TiO₂ Composites Deposited by Photoreduction under UV Irradiation

Cited by 33 publications

References 51 publications

Fabrication of Ag‐photodeposited TiO₂/cordierite honeycomb monolith photoreactors for 2‐naphthol degradation

Fabrication of Ag‐photodeposited TiO₂/cordierite honeycomb monolith photoreactors for 2‐naphthol degradation

Methylene Blue Photodegradation under Visible Irradiation on Ag-Doped ZnO Thin Films

The History and Prospective of the AOPs for Environmental Applications in Colombia**

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Photocatalytic Activity of Ag-TiO2 Composites Deposited by Photoreduction under UV Irradiation

Cited by 33 publications

References 51 publications

Fabrication of Ag‐photodeposited TiO2/cordierite honeycomb monolith photoreactors for 2‐naphthol degradation

Fabrication of Ag‐photodeposited TiO2/cordierite honeycomb monolith photoreactors for 2‐naphthol degradation

Methylene Blue Photodegradation under Visible Irradiation on Ag-Doped ZnO Thin Films

The History and Prospective of the AOPs for Environmental Applications in Colombia**

Contact Info

Product

Resources

About

Photocatalytic Activity of Ag-TiO₂ Composites Deposited by Photoreduction under UV Irradiation

Fabrication of Ag‐photodeposited TiO₂/cordierite honeycomb monolith photoreactors for 2‐naphthol degradation

Fabrication of Ag‐photodeposited TiO₂/cordierite honeycomb monolith photoreactors for 2‐naphthol degradation