Up-scalable synthesis of size-controlled NiSe nanoparticles using single step technique

Electron spin resonance spectroscopy; Energy dispersive X ray analysis; Energy gap; Fourier transform infrared spectroscopy; Heat treatment; High resolution transmission electron microscopy; Magnetic moments; Metal nanoparticles; Nanomagnetics; Particle size analysis; Synthesis (chemical); Thermoana...

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Main Authors: Al-Hada N.M., Kasmani R.M., Kasim H., Al-Ghaili A.M., Saleh M.A., Baqiah H., Al-Asbahi B.A., Yang J., Noorazlan A.M., Li Q., Liu J., Ahmed A.A.A., Xu S.
Other Authors: 55976109600
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Published: Elsevier Editora Ltda 2023
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spelling my.uniten.dspace-268812023-05-29T17:37:30Z Up-scalable synthesis of size-controlled NiSe nanoparticles using single step technique Al-Hada N.M. Kasmani R.M. Kasim H. Al-Ghaili A.M. Saleh M.A. Baqiah H. Al-Asbahi B.A. Yang J. Noorazlan A.M. Li Q. Liu J. Ahmed A.A.A. Xu S. 55976109600 55249573600 57203863798 26664381500 55567294600 55602705800 54402255300 57209010360 56298031500 57838013600 56868324700 54683503300 36462172700 Electron spin resonance spectroscopy; Energy dispersive X ray analysis; Energy gap; Fourier transform infrared spectroscopy; Heat treatment; High resolution transmission electron microscopy; Magnetic moments; Metal nanoparticles; Nanomagnetics; Particle size analysis; Synthesis (chemical); Thermoanalysis; X ray diffraction analysis; Calcination temperature; Energy bandgaps; Magnetic characteristic; Nise nanoparticle; Optical characteristics; Particle dimensions; Scalable synthesis; Structural characteristics; Thermal treatment technique; Treatment techniques; Nickel compounds Pure NiSe nanoparticles were successfully produced using an adapted thermal treatment technique and an alternate nitrogen flow. Throughout a range of calcination temperatures of 500 �C-800 �C, a number of techniques were utilised in order to examine the optical, structural and magnetic characteristics of the attained NiSe nanoparticles. Ultraviolet-visible absorption spectrophotometry was employed to ascertain the optical characteristics. These evidenced a reduction in the NiSe nanoparticle conduction band with elevated calcination temperatures, i.e. from 3.58 eV to 3.37 eV at 500 �C and 800 �C, respectively. This was attributed to a higher degree of attraction between the conduction electrons and the metallic ions with rising particle dimensions, equating to a larger atom population comprising the metal nanoparticles. This means that the findings can be applied to a wide range of energy applications. The lack of impurities within the produced NiSe nanoparticles was verified utilising Fourier-transform infrared spectroscopy and energy dispersive X-ray analysis. At calcination temperatures of ? 500 �C, powder X-ray diffraction demonstrated that the specimen, amorphous at room temperature, had undergone conversion into hexagonal crystalline nanostructures. Transmission electron microscopy confirmed the evolution of size NiSe nanoparticles; mean particle dimensions increased from 21 nm to 54 nm at calcination temperatures of 500 �C and 800 �C, respectively. Electron spin resonance spectroscopy, used to identify the magnetic properties, supported the presence of unpaired electrons. � 2022 The Author(s). Final 2023-05-29T09:37:30Z 2023-05-29T09:37:30Z 2022 Article 10.1016/j.jmrt.2022.04.152 2-s2.0-85135759528 https://www.scopus.com/inward/record.uri?eid=2-s2.0-85135759528&doi=10.1016%2fj.jmrt.2022.04.152&partnerID=40&md5=13a5decc0fec73b00466de18c87a1712 https://irepository.uniten.edu.my/handle/123456789/26881 18 4918 4929 All Open Access, Gold Elsevier Editora Ltda Scopus
institution Universiti Tenaga Nasional
building UNITEN Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Tenaga Nasional
content_source UNITEN Institutional Repository
url_provider http://dspace.uniten.edu.my/
description Electron spin resonance spectroscopy; Energy dispersive X ray analysis; Energy gap; Fourier transform infrared spectroscopy; Heat treatment; High resolution transmission electron microscopy; Magnetic moments; Metal nanoparticles; Nanomagnetics; Particle size analysis; Synthesis (chemical); Thermoanalysis; X ray diffraction analysis; Calcination temperature; Energy bandgaps; Magnetic characteristic; Nise nanoparticle; Optical characteristics; Particle dimensions; Scalable synthesis; Structural characteristics; Thermal treatment technique; Treatment techniques; Nickel compounds
author2 55976109600
author_facet 55976109600
Al-Hada N.M.
Kasmani R.M.
Kasim H.
Al-Ghaili A.M.
Saleh M.A.
Baqiah H.
Al-Asbahi B.A.
Yang J.
Noorazlan A.M.
Li Q.
Liu J.
Ahmed A.A.A.
Xu S.
format Article
author Al-Hada N.M.
Kasmani R.M.
Kasim H.
Al-Ghaili A.M.
Saleh M.A.
Baqiah H.
Al-Asbahi B.A.
Yang J.
Noorazlan A.M.
Li Q.
Liu J.
Ahmed A.A.A.
Xu S.
spellingShingle Al-Hada N.M.
Kasmani R.M.
Kasim H.
Al-Ghaili A.M.
Saleh M.A.
Baqiah H.
Al-Asbahi B.A.
Yang J.
Noorazlan A.M.
Li Q.
Liu J.
Ahmed A.A.A.
Xu S.
Up-scalable synthesis of size-controlled NiSe nanoparticles using single step technique
author_sort Al-Hada N.M.
title Up-scalable synthesis of size-controlled NiSe nanoparticles using single step technique
title_short Up-scalable synthesis of size-controlled NiSe nanoparticles using single step technique
title_full Up-scalable synthesis of size-controlled NiSe nanoparticles using single step technique
title_fullStr Up-scalable synthesis of size-controlled NiSe nanoparticles using single step technique
title_full_unstemmed Up-scalable synthesis of size-controlled NiSe nanoparticles using single step technique
title_sort up-scalable synthesis of size-controlled nise nanoparticles using single step technique
publisher Elsevier Editora Ltda
publishDate 2023
_version_ 1806426303624118272
score 13.211869