João Gomes scite author profile

Titanium dioxide is the most used photocatalyst in wastewater treatment; its semiconductor capacity allows the indirect production of reactive oxidative species. The main drawback of the application of TiO2 is related to its high band-gap energy. The nonmetal that is most often used as the doping element is nitrogen, which is due to its capacity to reduce the band-gap energy at low preparation costs. There are multiple and assorted methods of preparation. The main advantages and disadvantages of a wide range of preparation methods were discussed in this paper. Different sources of N were also analyzed, and their individual impact on the characteristics of N–TiO2 was assessed. The core of this paper was focused on the large spectrum of analytical techniques to detect modifications in the TiO2 structure from the incorporation of N. The effect of N–TiO2 co-doping was also analyzed, as well as the main characteristics that are relevant to the performance of the catalyst, such as its particle size, surface area, quantum size effect, crystalline phases, and the hydrophilicity of the catalyst surface. Powder is the most used form of N–TiO2, but the economic benefits and applications involving continuous reactors were also analyzed with supported N–TiO2. Moreover, the degradation of contaminants emerging from water and wastewater using N–TiO2 and co-doped TiO2 was also discussed.

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Detoxification of parabens using UV-A enhanced by noble metals—TiO2 supported catalysts

Gomes

Leal

Bednarczyk

et al. 2017

Journal of Environmental Chemical Engineering

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Ozone and Photocatalytic Processes for Pathogens Removal from Water: A Review

et al. 2019

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The search for alternative water sources is pushing to the reuse of treated water coming from municipal wastewater treatment plants. However, this requires that tightened standards be fulfilled. Among them is the microbiological safety of reused water. Although chlorination is the mostly applied disinfection system, it presents several disadvantages, such as the high doses required and the possibility of formation of dangerous by-products. Moreover, the threat of antibiotic resistance genes (ARGs) spread throughout poorly treated water is requiring the implementation of more efficient disinfection systems. Ozone and photo assisted disinfection technologies are being given special attention to reach treated water with higher quality. Still, much must be done to optimize the processes so that cost-effective systems may be obtained. This review paper gives a critical overview on the application of ozone and photo-based disinfection systems, bearing in mind their advantages and disadvantages when applied to water and municipal wastewater. Also, the possibility of integrated disinfection systems is considered.

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The Asian clam Corbicula fluminea in the European freshwater-dependent industry: A latent threat or a friendly enemy?

Rosa

Pereira

Gomes

et al. 2011

Ecological Economics

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Photocatalytic ozonation using doped TiO2 catalysts for the removal of parabens in water

Gomes

Leal

Bednarczyk

et al. 2017

Science of The Total Environment

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Noble metal–TiO2 supported catalysts for the catalytic ozonation of parabens mixtures

Gomes

Bednarczyk

Gmurek

et al. 2017

Process Safety and Environmental Protection

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Ecotoxicity variation through parabens degradation by single and catalytic ozonation using volcanic rock

Gomes

Frasson

Pereira

et al. 2019

Chemical Engineering Journal

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João Gomes

Application of ozonation for pharmaceuticals and personal care products removal from water

N–TiO2 Photocatalysts: A Review of Their Characteristics and Capacity for Emerging Contaminants Removal

Detoxification of parabens using UV-A enhanced by noble metals—TiO2 supported catalysts

Ozone and Photocatalytic Processes for Pathogens Removal from Water: A Review

The Asian clam Corbicula fluminea in the European freshwater-dependent industry: A latent threat or a friendly enemy?

Photocatalytic ozonation using doped TiO2 catalysts for the removal of parabens in water

Noble metal–TiO2 supported catalysts for the catalytic ozonation of parabens mixtures

Ecotoxicity variation through parabens degradation by single and catalytic ozonation using volcanic rock

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