Microwave synthesized erbium vanadate nano-photocatalyst: Application for enhanced degradation of contaminated water

The subject of treatment of real or synthetic industrial effluents and photocatalysts has concerned a lot of consideration from scientists. Among the diverse metal oxide photocatalytic materials, the narrow bandgap compounds are of superior significance owing to appropriate efficiency in the optical...

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Published inInternational journal of hydrogen energy Vol. 48; no. 23; pp. 8499 - 8513
Main Authors Karami, Atefeh, Monsef, Rozita, Waleed, Ibrahem, Kareem, Hadeel Luay, Ibrahim, Israa Taha, Salavati-Niasari, Masoud
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 15.03.2023
Subjects
ErVO4 nanostructures
Microscopic morphology
Microwave
Nano-photocatalyst
Scavenger
Microwave
Scavenger
Microscopic morphology
ErVO4 nanostructures
Nano-photocatalyst
Online AccessGet full text
ISSN0360-3199
1879-3487
DOI10.1016/j.ijhydene.2022.12.017

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Abstract The subject of treatment of real or synthetic industrial effluents and photocatalysts has concerned a lot of consideration from scientists. Among the diverse metal oxide photocatalytic materials, the narrow bandgap compounds are of superior significance owing to appropriate efficiency in the optical application. In this work, we produced pristine ErVO4 through the microwave-assisted synthesis method. Diverse solvents and different power intensities have been employed in this preparation for size controlling and shape engineering, such as Ethylene glycol (EG), Propylene glycol (PG), and Polyethylene glycol (PEG-400) and power of 900, 750 and 600 W. XRD, FT-IR, and EDS analysis have been utilized to demonstrate the phase purity, and FE-SEM and TEM were employed to discover the shape of resultant ErVO4. The several attributes of the samples, such as the surface area, magnetic and optical features, were inquired by BET, VSM and DRS techniques, correspondingly. Microwave power of 900 W and Ethylene glycol solvent was selected as an optimal condition owing to the creation of uniform nanosized particles. So nanostructured ErVO4 was operated as a catalyst for the decolorization of colored pollutants (Erythrosine (ER), Methyl Orange (MO), and methylene blue (MB)). According to the discoveries, the MB with higher photocatalytic efficiency was compared in different dye concentrations and catalyst loading experiments to attain ideal performance. •Microwave assisted synthesis method employed for preparation of nanostructured erbium vanadate.•Effect of power and solvent questioned on the shape and purity of resultant erbium vanadate.•Catalytic decolorization of colored pollutants studied by changing operational parameters.•Stability, recycling and photocatalytic mechanism studied for catalyst activity confirmation.
AbstractList The subject of treatment of real or synthetic industrial effluents and photocatalysts has concerned a lot of consideration from scientists. Among the diverse metal oxide photocatalytic materials, the narrow bandgap compounds are of superior significance owing to appropriate efficiency in the optical application. In this work, we produced pristine ErVO4 through the microwave-assisted synthesis method. Diverse solvents and different power intensities have been employed in this preparation for size controlling and shape engineering, such as Ethylene glycol (EG), Propylene glycol (PG), and Polyethylene glycol (PEG-400) and power of 900, 750 and 600 W. XRD, FT-IR, and EDS analysis have been utilized to demonstrate the phase purity, and FE-SEM and TEM were employed to discover the shape of resultant ErVO4. The several attributes of the samples, such as the surface area, magnetic and optical features, were inquired by BET, VSM and DRS techniques, correspondingly. Microwave power of 900 W and Ethylene glycol solvent was selected as an optimal condition owing to the creation of uniform nanosized particles. So nanostructured ErVO4 was operated as a catalyst for the decolorization of colored pollutants (Erythrosine (ER), Methyl Orange (MO), and methylene blue (MB)). According to the discoveries, the MB with higher photocatalytic efficiency was compared in different dye concentrations and catalyst loading experiments to attain ideal performance. •Microwave assisted synthesis method employed for preparation of nanostructured erbium vanadate.•Effect of power and solvent questioned on the shape and purity of resultant erbium vanadate.•Catalytic decolorization of colored pollutants studied by changing operational parameters.•Stability, recycling and photocatalytic mechanism studied for catalyst activity confirmation.
Author Waleed, Ibrahem
Salavati-Niasari, Masoud
Ibrahim, Israa Taha
Karami, Atefeh
Monsef, Rozita
Kareem, Hadeel Luay
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Keywords Microwave
Scavenger
Microscopic morphology
ErVO4 nanostructures
Nano-photocatalyst
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Snippet The subject of treatment of real or synthetic industrial effluents and photocatalysts has concerned a lot of consideration from scientists. Among the diverse...
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SubjectTerms ErVO4 nanostructures
Microscopic morphology
Microwave
Nano-photocatalyst
Scavenger
Title Microwave synthesized erbium vanadate nano-photocatalyst: Application for enhanced degradation of contaminated water
URI https://dx.doi.org/10.1016/j.ijhydene.2022.12.017
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