Remarkable Recycling Process of ZnO Quantum Dots for Photodegradation of Reactive Yellow Dye and Solar Photocatalytic Treatment Process of Industrial Wastewater

The mineralization of five industrial sunlight-exposed wastewater samples was investigated, and the recycling process of ZnO quantum dots (ZQDs) for five reusable times was estimated under the approved Egyptian Environmental Law COD (Chemical Oxygen Demand), which has to be less than 1000 ppm. An im...

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Autores principales: Mohamed, Walied, El-Gawad, Hala Abd, Handal, Hala, Galal, Hoda, Mousa, Hanan, El-Sayed, Badr, Mekkey, Saleh, Ibrahem, Ibrahem, Labib, Ammar
Formato: Online Artículo Texto
Lenguaje:English
Publicado: MDPI 2022
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Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9370222/
https://www.ncbi.nlm.nih.gov/pubmed/35957073
http://dx.doi.org/10.3390/nano12152642
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author Mohamed, Walied
El-Gawad, Hala Abd
Handal, Hala
Galal, Hoda
Mousa, Hanan
El-Sayed, Badr
Mekkey, Saleh
Ibrahem, Ibrahem
Labib, Ammar
author_facet Mohamed, Walied
El-Gawad, Hala Abd
Handal, Hala
Galal, Hoda
Mousa, Hanan
El-Sayed, Badr
Mekkey, Saleh
Ibrahem, Ibrahem
Labib, Ammar
author_sort Mohamed, Walied
collection PubMed
description The mineralization of five industrial sunlight-exposed wastewater samples was investigated, and the recycling process of ZnO quantum dots (ZQDs) for five reusable times was estimated under the approved Egyptian Environmental Law COD (Chemical Oxygen Demand), which has to be less than 1000 ppm. An improved sol-gel process at a low calcination temperature that ranged between 350 and 450 °C was employed to synthesize ZnO quantum dots (ZQDs). The purity, high crystallinity, and structure of the prepared catalysts were determined by TEM and XRD analysis. The energy bandgap, the crystal size values, and the surface area for Z1 and Z2 were determined based on the TEMs, DRSs, and EBTs, which were equal to 6.9 nm, 3.49 eV, and 160.95 m(2)/g for Z1 and 8.3 nm, 3.44 eV, and 122.15 m(2)/g for Z2. The investigation of the prepared samples was carried out by studying the photocatalytic activity and photoluminescence, and it was found that the degradation rate of reactive yellow dye as an industrial pollutant of the Z1 sample was significantly higher than other samples, by 20%. The data collection has shown that photocatalytic efficiency decreases with an increase in the crystallite size of ZQDs.
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spelling pubmed-93702222022-08-12 Remarkable Recycling Process of ZnO Quantum Dots for Photodegradation of Reactive Yellow Dye and Solar Photocatalytic Treatment Process of Industrial Wastewater Mohamed, Walied El-Gawad, Hala Abd Handal, Hala Galal, Hoda Mousa, Hanan El-Sayed, Badr Mekkey, Saleh Ibrahem, Ibrahem Labib, Ammar Nanomaterials (Basel) Article The mineralization of five industrial sunlight-exposed wastewater samples was investigated, and the recycling process of ZnO quantum dots (ZQDs) for five reusable times was estimated under the approved Egyptian Environmental Law COD (Chemical Oxygen Demand), which has to be less than 1000 ppm. An improved sol-gel process at a low calcination temperature that ranged between 350 and 450 °C was employed to synthesize ZnO quantum dots (ZQDs). The purity, high crystallinity, and structure of the prepared catalysts were determined by TEM and XRD analysis. The energy bandgap, the crystal size values, and the surface area for Z1 and Z2 were determined based on the TEMs, DRSs, and EBTs, which were equal to 6.9 nm, 3.49 eV, and 160.95 m(2)/g for Z1 and 8.3 nm, 3.44 eV, and 122.15 m(2)/g for Z2. The investigation of the prepared samples was carried out by studying the photocatalytic activity and photoluminescence, and it was found that the degradation rate of reactive yellow dye as an industrial pollutant of the Z1 sample was significantly higher than other samples, by 20%. The data collection has shown that photocatalytic efficiency decreases with an increase in the crystallite size of ZQDs. MDPI 2022-07-31 /pmc/articles/PMC9370222/ /pubmed/35957073 http://dx.doi.org/10.3390/nano12152642 Text en © 2022 by the authors. https://creativecommons.org/licenses/by/4.0/Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (https://creativecommons.org/licenses/by/4.0/).
spellingShingle Article
Mohamed, Walied
El-Gawad, Hala Abd
Handal, Hala
Galal, Hoda
Mousa, Hanan
El-Sayed, Badr
Mekkey, Saleh
Ibrahem, Ibrahem
Labib, Ammar
Remarkable Recycling Process of ZnO Quantum Dots for Photodegradation of Reactive Yellow Dye and Solar Photocatalytic Treatment Process of Industrial Wastewater
title Remarkable Recycling Process of ZnO Quantum Dots for Photodegradation of Reactive Yellow Dye and Solar Photocatalytic Treatment Process of Industrial Wastewater
title_full Remarkable Recycling Process of ZnO Quantum Dots for Photodegradation of Reactive Yellow Dye and Solar Photocatalytic Treatment Process of Industrial Wastewater
title_fullStr Remarkable Recycling Process of ZnO Quantum Dots for Photodegradation of Reactive Yellow Dye and Solar Photocatalytic Treatment Process of Industrial Wastewater
title_full_unstemmed Remarkable Recycling Process of ZnO Quantum Dots for Photodegradation of Reactive Yellow Dye and Solar Photocatalytic Treatment Process of Industrial Wastewater
title_short Remarkable Recycling Process of ZnO Quantum Dots for Photodegradation of Reactive Yellow Dye and Solar Photocatalytic Treatment Process of Industrial Wastewater
title_sort remarkable recycling process of zno quantum dots for photodegradation of reactive yellow dye and solar photocatalytic treatment process of industrial wastewater
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9370222/
https://www.ncbi.nlm.nih.gov/pubmed/35957073
http://dx.doi.org/10.3390/nano12152642
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