Dikra Bouras, Mamoun Fellah, Abla Mecif, Régis Barillé, Aleksei Obrosov and Mohammed Rasheed (2023) High photocatalytic capacity of porous ceramic‑based powder doped with MgO. Journal of the Korean Ceramic Society , 60(1229-7801), 155–168, Springer
Scientific Publications
Important: This page is frozen. New documents are now available in the digital repository DSpace
Abstract
To purify water at low cost for our daily life, the effect of ceramic-based (mullite–cristobalite) and (mullite–zircon) powders
doped with different amounts of magnesium oxide (MgO) (10 and 20 wt%) was studied. These compounds are made of a local
raw material DD3 with addition of zirconia (
ZrO2) to create an open porosity. The powders were prepared by the traditional
mixing method with the help of an automated crushing. The effect of MgO doping on structural, morphological and photocatalytic
properties of the material was studied by various analytical techniques such as X-ray diffraction, scanning electron
microscopy, energy dispersive X-ray spectroscopy, infrared, and UV–visible spectrometry. The results of XRD proved that
there was a deformation in the crystal structure of the two types of ceramics after addition, which resulted in a shift of the
spectra to the right, while SEM proved the presence of pores with a larger size as the proportion of MgO increases. The
chemical composition of the basic components of the ceramic compounds as well as the additive was confirmed with EDS
and IR spectra. The final results show that ceramics with added zirconia (DD3Z) and doped with 10% of MgO have a better
photocatalytic efficiency than ceramics without zirconia. This important effect could be related to the higher rate of porosity,
which provides a more active surface. The 10% MgO content showed a high photoactivity of 77.33% in only 15 min. The
maximum hydrolysis rate obtained with Orange II was 92.95% after a period of 45 min with DD3Z/MgO powders.
doped with different amounts of magnesium oxide (MgO) (10 and 20 wt%) was studied. These compounds are made of a local
raw material DD3 with addition of zirconia (
ZrO2) to create an open porosity. The powders were prepared by the traditional
mixing method with the help of an automated crushing. The effect of MgO doping on structural, morphological and photocatalytic
properties of the material was studied by various analytical techniques such as X-ray diffraction, scanning electron
microscopy, energy dispersive X-ray spectroscopy, infrared, and UV–visible spectrometry. The results of XRD proved that
there was a deformation in the crystal structure of the two types of ceramics after addition, which resulted in a shift of the
spectra to the right, while SEM proved the presence of pores with a larger size as the proportion of MgO increases. The
chemical composition of the basic components of the ceramic compounds as well as the additive was confirmed with EDS
and IR spectra. The final results show that ceramics with added zirconia (DD3Z) and doped with 10% of MgO have a better
photocatalytic efficiency than ceramics without zirconia. This important effect could be related to the higher rate of porosity,
which provides a more active surface. The 10% MgO content showed a high photoactivity of 77.33% in only 15 min. The
maximum hydrolysis rate obtained with Orange II was 92.95% after a period of 45 min with DD3Z/MgO powders.
Information
| Item Type | Journal |
|---|---|
| Divisions | |
| ePrint ID | 4411 |
| Date Deposited | 2023-09-13 |
| Further Information | Google Scholar |
| URI | https://univ-soukahras.dz/en/publication/article/4411 |
BibTex
@article{uniusa4411,
title={High photocatalytic capacity of porous ceramic‑based powder doped with MgO},
author={Dikra Bouras, Mamoun Fellah, Abla Mecif, Régis Barillé, Aleksei Obrosov and Mohammed Rasheed},
journal={Journal of the Korean Ceramic Society}
year={2023},
volume={60},
number={1229-7801},
pages={155–168},
publisher={Springer}
}
title={High photocatalytic capacity of porous ceramic‑based powder doped with MgO},
author={Dikra Bouras, Mamoun Fellah, Abla Mecif, Régis Barillé, Aleksei Obrosov and Mohammed Rasheed},
journal={Journal of the Korean Ceramic Society}
year={2023},
volume={60},
number={1229-7801},
pages={155–168},
publisher={Springer}
}