Comparative study on photocatalytic activity of transition metals (Ag and Ni)doped ZnO nanomaterials synthesized via sol–gel method

Ag and Ni/ZnO photocatalyst nanostructures were successfully synthesized by a sol–gel method. In this work, the photocatalyst sample was systematically studied based on several factors affecting the performance of photocatalyst, which are size, morphology, band gap, textural properties and the numbe...

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Published in:Royal Society Open Science
Main Author: Azfar A.K.; Kasim M.F.; Lokman I.M.; Rafaie H.A.; Mastuli M.S.
Format: Article
Language:English
Published: Royal Society Publishing 2020
Online Access:https://www.scopus.com/inward/record.uri?eid=2-s2.0-85081560430&doi=10.1098%2frsos.191590&partnerID=40&md5=09083a452a4ff5a980704ec9ce01346c
id 2-s2.0-85081560430
spelling 2-s2.0-85081560430
Azfar A.K.; Kasim M.F.; Lokman I.M.; Rafaie H.A.; Mastuli M.S.
Comparative study on photocatalytic activity of transition metals (Ag and Ni)doped ZnO nanomaterials synthesized via sol–gel method
2020
Royal Society Open Science
7
2
10.1098/rsos.191590
https://www.scopus.com/inward/record.uri?eid=2-s2.0-85081560430&doi=10.1098%2frsos.191590&partnerID=40&md5=09083a452a4ff5a980704ec9ce01346c
Ag and Ni/ZnO photocatalyst nanostructures were successfully synthesized by a sol–gel method. In this work, the photocatalyst sample was systematically studied based on several factors affecting the performance of photocatalyst, which are size, morphology, band gap, textural properties and the number of active sites presence on the surface of the nanocatalyst. X-ray diffraction revealed that Ag/ZnO nanomaterials experienced multiple phases, meanwhile for Ni/ZnO the phase of nanomaterials were pure and single phase for stoichiometry less than 5%. Field emission scanning electron microscope (FESEM) showed almost all of the synthesized nanomaterials possessed a mixture of nanorods and spherical-like shape morphology. The Ag/ ZnO showed high photocatalytic activity, producing at least 14th trials of nanocatalyst reusability on degradation of methyl orange under UV irradiation. Interestingly, this phenomenon was not observed in larger surface area of Ni/ ZnO nanomaterials which supposedly favour photocatalytic activity, but instead producing poor photocatalytic performance. The main reasons were studied and exposed by temperature-programmed desorption of carbon dioxide (TPD–CO2) which showed that incorporation of Ag into ZnO lattice has enhanced the number of active sites on the surface of the nanocatalyst. Whereas incorporation of Ni in ZnO has lowered the number of active sites with respect to undoped ZnO. Active sites measurement is effective and significant, providing opportunities in developing an intensive study as an additional factor. © 2020 The Authors. Published by the Royal Society under the terms of the Creative Commons Attribution License http://creativecommons.org/licenses/by/4.0/, which permits unrestricted use, provided the original author and source are credited.
Royal Society Publishing
20545703
English
Article
All Open Access; Gold Open Access; Green Open Access
author Azfar A.K.; Kasim M.F.; Lokman I.M.; Rafaie H.A.; Mastuli M.S.
spellingShingle Azfar A.K.; Kasim M.F.; Lokman I.M.; Rafaie H.A.; Mastuli M.S.
Comparative study on photocatalytic activity of transition metals (Ag and Ni)doped ZnO nanomaterials synthesized via sol–gel method
author_facet Azfar A.K.; Kasim M.F.; Lokman I.M.; Rafaie H.A.; Mastuli M.S.
author_sort Azfar A.K.; Kasim M.F.; Lokman I.M.; Rafaie H.A.; Mastuli M.S.
title Comparative study on photocatalytic activity of transition metals (Ag and Ni)doped ZnO nanomaterials synthesized via sol–gel method
title_short Comparative study on photocatalytic activity of transition metals (Ag and Ni)doped ZnO nanomaterials synthesized via sol–gel method
title_full Comparative study on photocatalytic activity of transition metals (Ag and Ni)doped ZnO nanomaterials synthesized via sol–gel method
title_fullStr Comparative study on photocatalytic activity of transition metals (Ag and Ni)doped ZnO nanomaterials synthesized via sol–gel method
title_full_unstemmed Comparative study on photocatalytic activity of transition metals (Ag and Ni)doped ZnO nanomaterials synthesized via sol–gel method
title_sort Comparative study on photocatalytic activity of transition metals (Ag and Ni)doped ZnO nanomaterials synthesized via sol–gel method
publishDate 2020
container_title Royal Society Open Science
container_volume 7
container_issue 2
doi_str_mv 10.1098/rsos.191590
url https://www.scopus.com/inward/record.uri?eid=2-s2.0-85081560430&doi=10.1098%2frsos.191590&partnerID=40&md5=09083a452a4ff5a980704ec9ce01346c
description Ag and Ni/ZnO photocatalyst nanostructures were successfully synthesized by a sol–gel method. In this work, the photocatalyst sample was systematically studied based on several factors affecting the performance of photocatalyst, which are size, morphology, band gap, textural properties and the number of active sites presence on the surface of the nanocatalyst. X-ray diffraction revealed that Ag/ZnO nanomaterials experienced multiple phases, meanwhile for Ni/ZnO the phase of nanomaterials were pure and single phase for stoichiometry less than 5%. Field emission scanning electron microscope (FESEM) showed almost all of the synthesized nanomaterials possessed a mixture of nanorods and spherical-like shape morphology. The Ag/ ZnO showed high photocatalytic activity, producing at least 14th trials of nanocatalyst reusability on degradation of methyl orange under UV irradiation. Interestingly, this phenomenon was not observed in larger surface area of Ni/ ZnO nanomaterials which supposedly favour photocatalytic activity, but instead producing poor photocatalytic performance. The main reasons were studied and exposed by temperature-programmed desorption of carbon dioxide (TPD–CO2) which showed that incorporation of Ag into ZnO lattice has enhanced the number of active sites on the surface of the nanocatalyst. Whereas incorporation of Ni in ZnO has lowered the number of active sites with respect to undoped ZnO. Active sites measurement is effective and significant, providing opportunities in developing an intensive study as an additional factor. © 2020 The Authors. Published by the Royal Society under the terms of the Creative Commons Attribution License http://creativecommons.org/licenses/by/4.0/, which permits unrestricted use, provided the original author and source are credited.
publisher Royal Society Publishing
issn 20545703
language English
format Article
accesstype All Open Access; Gold Open Access; Green Open Access
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