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Boosting the Efficiency of Titanium Oxides and Accelerating Industrial Pollutant Removal Through Triple-Action Effects to Purify Water by Light.
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- المؤلفون: Saber, Osama1 (AUTHOR) ; Awada, Chawki1 (AUTHOR) ; Osama, Aya1 (AUTHOR); Shaalan, Nagih M.1 (AUTHOR); Alshoaibi, Adil1 (AUTHOR); Mansour, Shehab A.1 (AUTHOR); Osama, Mostafa1 (AUTHOR); Farha, Ashraf H.1 (AUTHOR)
- المصدر:
Catalysts (2073-4344). Nov2024, Vol. 14 Issue 11, p772. 17p.
- الموضوع:
- معلومة اضافية
- نبذة مختصرة :
Water is the source of life on Earth. Therefore, water pollution is one of the greatest problems in the world. On this basis, the current study focuses on accelerating industrial pollutant removal from water using light by designing effective photocatalysts. This target was achieved through a triple-action effect. This effect depends on the integration of the doping process with nanotube formation in addition to the surface plasmon resonance of gold for titanium oxides. In this way, titanium oxide nanoparticles were prepared and converted to nanotubes during the doping process. These nanoparticles and nanotubes were supported by gold nanoparticles to use this triple-action effect for increasing charge carriers and active sites of the photocatalysts and preventing recombination reactions. High-resolution transmission electron microscopy (HRTEM) and selected area electron diffraction (SAED), Raman spectra, energy-dispersive X-ray spectrometer (EDX), and X-ray diffraction were used to clarify the triple-action effect on the structure of the photocatalysts. The optical properties and activity of the prepared photocatalysts were studied in terms of the photocatalytic degradation of the green dyes (acid green 1). The experimental results indicated that the triple-action effect has a strong positive role in increasing industrial pollutant removal with or without light. Here, the percentage of photocatalytic decomposition reached 100% after 17 min of light radiation. In addition, 27% of the pollutants were removed without light radiation. In conclusion, the current study indicated that the triple-action effect could solve the drawbacks of titanium oxide by creating new photo-active sites and novel tracks for charge carriers in addition to preventing recombination reactions. [ABSTRACT FROM AUTHOR]
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