Morphological, structural and optical behaviour of PVA capped binary (NiO)0.5 (Cr2O3)0.5 nanoparticles produced via single step based thermal technique

In this research study, a thermal treatment approach based on a novel single-step has been utilised to addresses the synthesis of binary NiO0.5 Cr2O3 0.5 nanoparticles. Characteristics of these binary metal oxide nanoparticles were examined by employing appropriate characterization tools. Sample pat...

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Main Authors: Al-Hada N.M., Kamari H.M., Saleh M.A., Flaifel M.H., Al-Ghaili A.M., Kasim H., Baqer A.A., Saion E., Jihua W.
Other Authors: 55976109600
Format: Article
Published: Elsevier B.V. 2023
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spelling my.uniten.dspace-254752023-05-29T16:09:53Z Morphological, structural and optical behaviour of PVA capped binary (NiO)0.5 (Cr2O3)0.5 nanoparticles produced via single step based thermal technique Al-Hada N.M. Kamari H.M. Saleh M.A. Flaifel M.H. Al-Ghaili A.M. Kasim H. Baqer A.A. Saion E. Jihua W. 55976109600 57205363974 55567294600 55208168300 26664381500 57203863798 57189876065 6507321458 55929419400 In this research study, a thermal treatment approach based on a novel single-step has been utilised to addresses the synthesis of binary NiO0.5 Cr2O3 0.5 nanoparticles. Characteristics of these binary metal oxide nanoparticles were examined by employing appropriate characterization tools. Sample patterns of X-ray diffractions were used, calcined with temperature (Temp), set to 500 �C revealed the existence of face-centred cubic (fcc) and hexagonal crystalline structures (hcs). It was noted that with a rising calcination temperature, the nanoparticle dispersal was enhanced further. On the other hand, TEM micrographs have been used to calculate the size of the mean particle. It was found that there was a rising tendency with the increased calcination temperature and this the growth of the mean particle. Increased particle size inherited a rise of nanoparticles' photoluminescence intensity, as suggested by recorded spectra, and various energy band gaps. This result would have been reduced as an effect once calcination temperature was increased. Resulting NiO0.5 Cr2O3 0.5 nanoparticles could be used in the realm of semiconductors and energy applications. � 2020 The Authors Final 2023-05-29T08:09:53Z 2023-05-29T08:09:53Z 2020 Article 10.1016/j.rinp.2020.103059 2-s2.0-85082202523 https://www.scopus.com/inward/record.uri?eid=2-s2.0-85082202523&doi=10.1016%2fj.rinp.2020.103059&partnerID=40&md5=89aa67819e3cf09cbda590cf34c9840d https://irepository.uniten.edu.my/handle/123456789/25475 17 103059 All Open Access, Gold Elsevier B.V. Scopus
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description In this research study, a thermal treatment approach based on a novel single-step has been utilised to addresses the synthesis of binary NiO0.5 Cr2O3 0.5 nanoparticles. Characteristics of these binary metal oxide nanoparticles were examined by employing appropriate characterization tools. Sample patterns of X-ray diffractions were used, calcined with temperature (Temp), set to 500 �C revealed the existence of face-centred cubic (fcc) and hexagonal crystalline structures (hcs). It was noted that with a rising calcination temperature, the nanoparticle dispersal was enhanced further. On the other hand, TEM micrographs have been used to calculate the size of the mean particle. It was found that there was a rising tendency with the increased calcination temperature and this the growth of the mean particle. Increased particle size inherited a rise of nanoparticles' photoluminescence intensity, as suggested by recorded spectra, and various energy band gaps. This result would have been reduced as an effect once calcination temperature was increased. Resulting NiO0.5 Cr2O3 0.5 nanoparticles could be used in the realm of semiconductors and energy applications. � 2020 The Authors
author2 55976109600
author_facet 55976109600
Al-Hada N.M.
Kamari H.M.
Saleh M.A.
Flaifel M.H.
Al-Ghaili A.M.
Kasim H.
Baqer A.A.
Saion E.
Jihua W.
format Article
author Al-Hada N.M.
Kamari H.M.
Saleh M.A.
Flaifel M.H.
Al-Ghaili A.M.
Kasim H.
Baqer A.A.
Saion E.
Jihua W.
spellingShingle Al-Hada N.M.
Kamari H.M.
Saleh M.A.
Flaifel M.H.
Al-Ghaili A.M.
Kasim H.
Baqer A.A.
Saion E.
Jihua W.
Morphological, structural and optical behaviour of PVA capped binary (NiO)0.5 (Cr2O3)0.5 nanoparticles produced via single step based thermal technique
author_sort Al-Hada N.M.
title Morphological, structural and optical behaviour of PVA capped binary (NiO)0.5 (Cr2O3)0.5 nanoparticles produced via single step based thermal technique
title_short Morphological, structural and optical behaviour of PVA capped binary (NiO)0.5 (Cr2O3)0.5 nanoparticles produced via single step based thermal technique
title_full Morphological, structural and optical behaviour of PVA capped binary (NiO)0.5 (Cr2O3)0.5 nanoparticles produced via single step based thermal technique
title_fullStr Morphological, structural and optical behaviour of PVA capped binary (NiO)0.5 (Cr2O3)0.5 nanoparticles produced via single step based thermal technique
title_full_unstemmed Morphological, structural and optical behaviour of PVA capped binary (NiO)0.5 (Cr2O3)0.5 nanoparticles produced via single step based thermal technique
title_sort morphological, structural and optical behaviour of pva capped binary (nio)0.5 (cr2o3)0.5 nanoparticles produced via single step based thermal technique
publisher Elsevier B.V.
publishDate 2023
_version_ 1806427479127097344
score 13.214268