The Influence of Surface Alumina and Silica on the Photocatalytic Degradation of Organic Pollutants

Egerton, Terry A.

doi:10.3390/catal3010338

Cited by 15 publications

(15 citation statements)

References 48 publications

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“…The most significant decrease for IBU concentration equal to 94% was obtained during the process conducted Additionally, it was determined that the presence of Al 3+ and Fe 3+ ions also decreases the efficiency of photochemical degradation of all investigated pharmaceutical compounds. In research [40] it was confirmed that Al 3+ ions can precipitate on the surface of a photocatalyst and block its photoactivity. Fe 3+ ions can also attract electrons emerging in the process of photoactivation of photocatalyst particles according to Equation (11) it equalled only to 27%.…”

Section: Influence Of Inorganic Cationsmentioning

confidence: 95%

“…Additionally, it was determined that the presence of Al and Fe ions also decreases the efficiency of photochemical degradation of all investigated pharmaceutical compounds. In research [40] it was confirmed that Al ions can precipitate on the surface of a photocatalyst and block its photoactivity. Fe ions can also attract electrons emerging in the process of photoactivation of photocatalyst particles according to Equation (11) In the case of the solution with AlCl the pharmaceuticals' removal rates obtained after 60 min of UV irradiation during photocatalysis reached correspondingly 91% for DCF, 66% for IBU and only 28% for CBZ.…”

Section: Influence Of Inorganic Cationsmentioning

confidence: 96%

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Influence of Inorganic Ions and Organic Substances on the Degradation of Pharmaceutical Compound in Water Matrix

Kudlek

Dudziak

Bohdziewicz

2016

Water

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Abstract:The paper determined the influence of inorganic substances and high-molecular organic compounds on the decomposition of diclofenac, ibuprofen, and carbamazepine in the process of photocatalysis conducted with the presence of Titanium dioxide (TiO 2 ). It was determined that the presence of such ions as CO affected the increase of reaction rate constant value of diclofenac and ibuprofen decomposition. On the other hand, high molecular organic compounds present in the model effluent additionally catalysed the degradation process of pharmaceutical compounds and constituted an additional sorbent that enabled to decrease their concentration. Toxicological analysis conducted in deionized water with pharmaceutical compounds' patterns proved the production of by-products from oxidation and/or reduction of micropollutants, which was not observed for model effluent irradiation.

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Section: Influence Of Inorganic Cationsmentioning

confidence: 95%

Section: Influence Of Inorganic Cationsmentioning

confidence: 96%

Influence of Inorganic Ions and Organic Substances on the Degradation of Pharmaceutical Compound in Water Matrix

Kudlek

Dudziak

Bohdziewicz

2016

Water

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“…Utilization of organic materials for surface modification has typically involved bulk admixtures, which has been exploited successfully in the pigment industry [21,22] or the addition of antioxidants such as vitamin A, E, or C. Even though success has been achieved in both titania-based cosmetic applications and photocatalyst applications, a comparative study and understanding of the balance between these processes is yet to be fully realized.…”

Section: Introductionmentioning

confidence: 99%

Interactions of titania based nanoparticles with silica and green-tea: Photo-degradation and -luminescence

Verma

Awasthi

Srivastava

et al. 2016

Journal of Colloid and Interface Science

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An effective way to modify the photocatalytic activity of both anatase and rutile TiO2 nanoparticles by coating the surface with either an inorganic (SiO2/silica) or organic (green-tea) layer using a chemical approach is demonstrated. Tetraethyl orthosilicate (TEOS) was used to cover the surface of TiO2 with silica which facilitates the inhibition of photocatalytic activity, ensuring its application in sunscreens by blocking the reactive oxygen species (ROS). Green-tea extract, rich in epigallocatechin gallate (EGCG), was used to coat/stabilize nano-sized TiO2. The morphology of these coatings was revealed by transmission electron microscopy (TEM) and by energy dispersive spectroscopy (EDS) mapping. These studies showed good coverage for both types of coating, but with somewhat better uniformity of the coating layer on rutile TiO2 compared to anatase due to its more uniform particle geometry. The effectiveness of each coating was evaluated by photodegradation of an organic dye (methyl orange). These studies showed rutile_polyphenol exhibits the highest photocatalytic activity among rutile forms which validates its feasibility to be used in photodegradation.

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“…At this point, advanced treatment technologies have gained an interest due to their several advantageous properties. As one of the advanced oxidation technologies, the photocatalytic oxidation process provides an innovative and effective way of non-selective oxidation leading to complete mineralization under the specified conditions [8][9][10][11]. The mechanism of the photocatalytic oxidation process is based on the production of highly-reactive hydroxyl radicals under ultraviolet (UV, λ < 380 nm) irradiation in the presence of a semiconductor photocatalyst (e.g., TiO 2 ).…”

Section: Introductionmentioning

confidence: 99%

Photocatalytic Removal of Microbiological Consortium and Organic Matter in Greywater

Uyguner-Demirel

Bekbölet

2016

Catalysts

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This study aimed to investigate TiO 2 photocatalytic degradation of synthetically-prepared greywater samples with differing compositional contents of organic matter (OM), anion concentration, and microbiological consortium. Treatment efficiency was followed through removal of organic matter content in terms of dissolved organic carbon (DOC), specific spectroscopic parameters, and bacterial inactivation. Photocatalytic degradation kinetics were expressed by pseudo first-order kinetic modeling. The best DOC removal rates were attained for greywater samples containing OM with lower molecular size fractions. In addition, either enhancing or reducing the effect of common anions as radical scavengers were observed depending on the composition and concentration of variables in the greywater matrix. Moreover, possibility of a photocatalytic disinfection process was found to be of a bacteria type specific in OM-loaded synthetic greywater samples. Photocatalytic destruction of fecal streptococci required longer irradiation periods under all conditions. Bacterial removal rates were found to be in the order of total coliform > fecal coliform > fecal streptococci, for low organic load greywater, and fecal coliform > total coliform > fecal streptococci, for high organic load greywater.

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The Influence of Surface Alumina and Silica on the Photocatalytic Degradation of Organic Pollutants

Cited by 15 publications

References 48 publications

Influence of Inorganic Ions and Organic Substances on the Degradation of Pharmaceutical Compound in Water Matrix

Influence of Inorganic Ions and Organic Substances on the Degradation of Pharmaceutical Compound in Water Matrix

Interactions of titania based nanoparticles with silica and green-tea: Photo-degradation and -luminescence

Photocatalytic Removal of Microbiological Consortium and Organic Matter in Greywater

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