Multi-functional nanoscale ZrO2 catalysts for sustainable water treatment

Multi-functional nanoscale ZrO2 catalysts for sustainable water treatment

This study aimed to synthesize highly reactive ZrO2 nanoparticles using a straightforward sol-gel method for addressing water contamination from hazardous metal ions and organic dyes. Structural and photocatalytic properties were assessed using X-ray diffraction (XRD), Fourier transmission Infrared...

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Published in:MATERIALS CHEMISTRY AND PHYSICS
Main Authors: Geetha, Mithra; Vashisht, Neha B.; Thanvir, Sumayya; Roslan, Nazreen Che; Mohamedzain, Tibian Husham; Alfarwati, Sarya; Al-Lohedan, Hamad; Rajabathar, Jothi Ramalingam; Zaidi, Shabi Abbas; Sadasivuni, Kishor Kumar
Format: Article
Language:English
Published: ELSEVIER SCIENCE SA 2024
Subjects:
Materials Science
Online Access:https://www-webofscience-com.uitm.idm.oclc.org/wos/woscc/full-record/WOS:001202231700001
author Geetha
Mithra; Vashisht
Neha B.; Thanvir
Sumayya; Roslan
Nazreen Che; Mohamedzain
Tibian Husham; Alfarwati
Sarya; Al-Lohedan
Hamad; Rajabathar
Jothi Ramalingam; Zaidi
Shabi Abbas; Sadasivuni
Kishor Kumar
spellingShingle Geetha
Mithra; Vashisht
Neha B.; Thanvir
Sumayya; Roslan
Nazreen Che; Mohamedzain
Tibian Husham; Alfarwati
Sarya; Al-Lohedan
Hamad; Rajabathar
Jothi Ramalingam; Zaidi
Shabi Abbas; Sadasivuni
Kishor Kumar
Multi-functional nanoscale ZrO2 catalysts for sustainable water treatment
Materials Science
author_facet Geetha
Mithra; Vashisht
Neha B.; Thanvir
Sumayya; Roslan
Nazreen Che; Mohamedzain
Tibian Husham; Alfarwati
Sarya; Al-Lohedan
Hamad; Rajabathar
Jothi Ramalingam; Zaidi
Shabi Abbas; Sadasivuni
Kishor Kumar
author_sort Geetha
spelling Geetha, Mithra; Vashisht, Neha B.; Thanvir, Sumayya; Roslan, Nazreen Che; Mohamedzain, Tibian Husham; Alfarwati, Sarya; Al-Lohedan, Hamad; Rajabathar, Jothi Ramalingam; Zaidi, Shabi Abbas; Sadasivuni, Kishor Kumar
Multi-functional nanoscale ZrO2 catalysts for sustainable water treatment
MATERIALS CHEMISTRY AND PHYSICS
English
Article
This study aimed to synthesize highly reactive ZrO2 nanoparticles using a straightforward sol-gel method for addressing water contamination from hazardous metal ions and organic dyes. Structural and photocatalytic properties were assessed using X-ray diffraction (XRD), Fourier transmission Infrared spectroscopy (FTIR), Transmission electron microscopy (TEM), and UV-visible absorption spectroscopy. XRD analysis confirmed the tetragonal crystal structure of ZrO2. Photodegradation experiments using Eriochrome Black T (EBT) as a model dye revealed nearly 99% degradation under natural sunlight. Investigations into catalyst loading, dye concentration, pH, and irradiation source were conducted. Preliminary tests demonstrated the adsorbent's efficacy in removing Ca2+ ions. Further process optimizations could significantly enhance the potential of this innovative adsorbent for extracting metal ions from complex effluents.
ELSEVIER SCIENCE SA
0254-0584
1879-3312
2024
316

10.1016/j.matchemphys.2024.129096
Materials Science
hybrid
WOS:001202231700001
https://www-webofscience-com.uitm.idm.oclc.org/wos/woscc/full-record/WOS:001202231700001
title Multi-functional nanoscale ZrO2 catalysts for sustainable water treatment
title_short Multi-functional nanoscale ZrO2 catalysts for sustainable water treatment
title_full Multi-functional nanoscale ZrO2 catalysts for sustainable water treatment
title_fullStr Multi-functional nanoscale ZrO2 catalysts for sustainable water treatment
title_full_unstemmed Multi-functional nanoscale ZrO2 catalysts for sustainable water treatment
title_sort Multi-functional nanoscale ZrO2 catalysts for sustainable water treatment
container_title MATERIALS CHEMISTRY AND PHYSICS
language English
format Article
description This study aimed to synthesize highly reactive ZrO2 nanoparticles using a straightforward sol-gel method for addressing water contamination from hazardous metal ions and organic dyes. Structural and photocatalytic properties were assessed using X-ray diffraction (XRD), Fourier transmission Infrared spectroscopy (FTIR), Transmission electron microscopy (TEM), and UV-visible absorption spectroscopy. XRD analysis confirmed the tetragonal crystal structure of ZrO2. Photodegradation experiments using Eriochrome Black T (EBT) as a model dye revealed nearly 99% degradation under natural sunlight. Investigations into catalyst loading, dye concentration, pH, and irradiation source were conducted. Preliminary tests demonstrated the adsorbent's efficacy in removing Ca2+ ions. Further process optimizations could significantly enhance the potential of this innovative adsorbent for extracting metal ions from complex effluents.
publisher ELSEVIER SCIENCE SA
issn 0254-0584
1879-3312
publishDate 2024
container_volume 316
container_issue
doi_str_mv 10.1016/j.matchemphys.2024.129096
topic Materials Science
topic_facet Materials Science
accesstype hybrid
id WOS:001202231700001
url https://www-webofscience-com.uitm.idm.oclc.org/wos/woscc/full-record/WOS:001202231700001
record_format wos
collection Web of Science (WoS)
_version_ 1809678907655323648

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