Degradation of Carbamazepine by Photo(electro)catalysis on Nanostructured TiO2 Meshes: Transformation Products and Reaction Pathways

Schäfers, F.; Falletta, Ermelinda; Arab, Hamed; Murgolo, Sapia; Bestetti, Massimiliano; Mascolo, G.

doi:10.3390/catal10020169

Cited by 51 publications

(34 citation statements)

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“…Owing to its nontoxicity, low cost, good chemical stability, and band energy levels suitable for excitation under UV–vis irradiation, titanium dioxide and its doped variants are considered among the most viable electrode materials for photocatalytic applications, such as water and air depollution, water splitting and CO 2 reduction. [ 1–8 ] Out of all techniques for the growth of thin films for photoelectrodes preparation, [ 9–11 ] Plasma Electrolytic Oxidation (PEO) allows to easily synthesize photoactive TiO 2 layers with tuned crystalline phase composition [ 12–14 ] and dosage of doping elements. [ 15–21 ]…”

Section: Introductionmentioning

confidence: 99%

Single‐Step Preparation of Large Area TiO₂ Photoelectrodes for Water Splitting

Schäfers

Arab

Chiarello

et al. 2020

Advanced Energy Materials

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The fast, single‐step and easily scalable production by plasma electrolytic oxidation (PEO) of large area TiO2 electrodes with excellent photoactivity in water splitting under simulated solar light is systematically investigated here. In particular, the effects that the cell voltage (100–180 V) and the processing time (0.5–15 min) have on the electrode properties are studied. The PEO‐produced oxide layers are porous, the predominant crystalline structure shifting from anatase, to an anatase‐rutile mixture, and finally to rutile by rising the cell voltage. The electrodes show a double‐layered structure, with a more compact layer at the interface with the titanium substrate and a thick porous layer on the external surface. The photocurrent density versus wavelength reflects the phase composition, with a maximum incident photon‐to‐current efficiency of 90% at 320 nm. The highest H2 production rate is attained with the mixed anatase‐rutile electrode prepared by 300 s‐long PEO at 150 V.

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Section: Introductionmentioning

confidence: 99%

Single‐Step Preparation of Large Area TiO₂ Photoelectrodes for Water Splitting

Schäfers

Arab

Chiarello

et al. 2020

Advanced Energy Materials

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“…AOP in recent times is gaining attention for mineralization of ORW because it offers distinct merits over many conventional treatments 31 . In comparison, AOP has the potential to destroy a wide range of organic and recalcitrant pollutants to completion within a shorter possible time than biological systems [32][33][34] .…”

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“…Classifying types of AOPs are generally based on the techniques used in generating the reactive radicals and the relative oxidation potential (estimated to be +2.8 V). Some of the oxidants like ozone, H 2 O 2 , HOCl, and chlorine have high oxidation potentials as 2.07 V, 1.78 V, 1.49 V, and 1.36 V respectively [31][32][33][34][35][36] . The single-use or combination of any of these oxidants exposed to ultraviolet (UV) or sunlight radiation produces oxidative species (OH − , O 2− ) 36,37 .…”

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confidence: 99%

“…In all the cited scenarios, the generation of OH radicals is very essential for the photocatalysis process due to their high reactivity [39][40][41] . Among them, titanium dioxide (TiO 2 ), has been the most effective photocatalyst or semiconductor for wastewater applications 31 .…”

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confidence: 99%

“…Heterogeneous photocatalytic oxidation (HPO) that utilizes TiO 2 , when exposed to UV light is said to produce the most powerful intermediary oxidative radicals. HPO is seen as a promising route for degrading recalcitrant organic pollutants with less toxic substances [31][32][33][34] . As most promising technologies are associated with complex operating parameters that can affect their performance, HPO cannot be left out 37,41,42 .…”

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Photocatalytic degradation of oily waste and phenol from a local South Africa oil refinery wastewater using response methodology

Tetteh

Rathilal

Naidoo

2020

Sci Rep

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The photocatalytic degradation of a local South Africa oil refinery wastewater was conducted under UV radiation using an aqueous catalyst of titanium dioxide (TiO2), Degussa P25 (80% anatase, 20% rutile) in suspension. the experiment was carried out in a batch aerated photocatalytic reactor based on a central composite design (CCD) and analyzed using response surface methodology (RSM). The effects of three operational variables viz. TiO 2 dosage (2-8 g/L), runtime (30-90 minutes), and airflow rate (0.768-1.48 L/min) were examined for the removal of phenol and soap oil and grease (SOG). The data derived from the CCD, and the successive analysis of variance (ANOVA) showed the TiO 2 dosage to be the most influential factor, while the other factors were also significant (P < 0.0001). Also, the ANOVA test revealed the second-order of tio 2 dosage and runtime as the main interaction factors on the removal efficiency. To maximize the pollutant removal, the optimum conditions were found at runtime of 90 minutes, TiO 2 dosage of 8 g/L, and an aeration flow rate of 1.225 L/min. Under the conditions stated, the percentage removal of phenol (300 ± 7) and SOG (4000 ± 23) were 76% and 88% respectively. At 95% confidence level, the predicted models developed results were in reasonable agreement with that of the experimental data, which confirms the adaptability of the models. The first-order kinetic constants were estimated as 0.136 min −1 and 0.083 min −1 for SOG and phenol respectively. Photocatalysis has attracted worldwide interest due to its potential to use solar energy not only to solve environmental problems but also to provide renewable and sustainable energy 1,2. However, the ever-increasing demand for good water quality and oil refinery products have become expensive commodities with major challenges, which requires thoughtful attention 3,4. Oily waste from petroleum refinery has aliphatic and phenolic compounds, are considerably carcinogenic and toxic to the ecosystem and human health, and therefore their removal from wastewater is of global concern 3,5,6. The tox,icity and extreme instability of oily waste make them not degradable easily, this pose a significant threat to the water bodies and soil 5-7. Meanwhile, the processing of crude oil consumes large volumes of water and generates about 0.4-1.6 times the amount of crude oil processed as oil refinery wastewater (ORW) 8-10. The discharge of ORW with adequate or no treatment, due to their inertness, endocrine-disrupting abilities, and carcinogenic behaviour could also affect water bodies and soil profile negatively 9-11. Therefore, there is the need to develop sustainable and eco-effective methods to mitigate the oily pollutants from the ORW, to produce clean water and a sustainable environment 12. In this case, the photocatalysis technology was considered. Unfortunately, the production of polluted wastewater (ORW) is based on the raw crude oil type, plant configuration, and operational procedure, which varies in physicochemical parameters as compared to urban wa...

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Recent innovation and impacts of nano-based technologies for wastewater treatment on humans: a review

Singh

Gurjar

2023

Environ Monit Assess

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Degradation of Carbamazepine by Photo(electro)catalysis on Nanostructured TiO2 Meshes: Transformation Products and Reaction Pathways

Cited by 51 publications

References 56 publications

Single‐Step Preparation of Large Area TiO₂ Photoelectrodes for Water Splitting

Single‐Step Preparation of Large Area TiO₂ Photoelectrodes for Water Splitting

Photocatalytic degradation of oily waste and phenol from a local South Africa oil refinery wastewater using response methodology

Recent innovation and impacts of nano-based technologies for wastewater treatment on humans: a review

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Degradation of Carbamazepine by Photo(electro)catalysis on Nanostructured TiO2 Meshes: Transformation Products and Reaction Pathways

Cited by 51 publications

References 56 publications

Single‐Step Preparation of Large Area TiO2 Photoelectrodes for Water Splitting

Single‐Step Preparation of Large Area TiO2 Photoelectrodes for Water Splitting

Photocatalytic degradation of oily waste and phenol from a local South Africa oil refinery wastewater using response methodology

Recent innovation and impacts of nano-based technologies for wastewater treatment on humans: a review

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Single‐Step Preparation of Large Area TiO₂ Photoelectrodes for Water Splitting

Single‐Step Preparation of Large Area TiO₂ Photoelectrodes for Water Splitting