Optical and electrical properties of NiO for possible dielectric applications
Nickel oxide (NiO) is a versatile wide band gap semiconductor material. At present, transparent conducting oxide films find application as transparent electrodes and window coatings for opto-electronic devices but most are n-type. However p-type conducting films, of which NiO is one, are required a...
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doaj-bb8b2da5259646ce97c49d502429750e2021-02-27T06:05:38ZengAcademy of Science of South AfricaSouth African Journal of Science1996-74892011-01-011071/2Optical and electrical properties of NiO for possible dielectric applicationsAndre Venter0Johannes Botha1NMMUDepartment of Physics, Nelson Mandela Metropolitan University, Port ElizabethNickel oxide (NiO) is a versatile wide band gap semiconductor material. At present, transparent conducting oxide films find application as transparent electrodes and window coatings for opto-electronic devices but most are n-type. However p-type conducting films, of which NiO is one, are required as optical windows for devices where minority carrier injection is required. In this study, nickel (Ni) was resistively deposited on glass substrates and oxidised (isochronally) in oxygen at temperatures ranging from 300 ËšC to 600 ËšC. The oxidised Ni layers were subsequently characterised using scanning electron microscopy (SEM), X-ray diffraction (XRD) and UV-visible photospectrometry in the range 200 nm - 1000 nm. The four point probe method (van der Pauw geometry) was used to determine the sheet resistances of the oxidised films. SEM results of the surface revealed a strong dependence of the surface texture and particle size on the oxidation temperature and time. XRD performed on the oxidised Ni indicated progressive transformation from nanograined polycrystalline Ni to NiO at elevated temperatures. Film thicknesses, particle sizes, energy band gap and wavelength-dependent refractive indices were determined from transmission and absorbance data.https://www.sajs.co.za/article/view/10072 |
collection |
DOAJ |
language |
English |
format |
Article |
sources |
DOAJ |
author |
Andre Venter Johannes Botha |
spellingShingle |
Andre Venter Johannes Botha Optical and electrical properties of NiO for possible dielectric applications South African Journal of Science |
author_facet |
Andre Venter Johannes Botha |
author_sort |
Andre Venter |
title |
Optical and electrical properties of NiO for possible dielectric applications |
title_short |
Optical and electrical properties of NiO for possible dielectric applications |
title_full |
Optical and electrical properties of NiO for possible dielectric applications |
title_fullStr |
Optical and electrical properties of NiO for possible dielectric applications |
title_full_unstemmed |
Optical and electrical properties of NiO for possible dielectric applications |
title_sort |
optical and electrical properties of nio for possible dielectric applications |
publisher |
Academy of Science of South Africa |
series |
South African Journal of Science |
issn |
1996-7489 |
publishDate |
2011-01-01 |
description |
Nickel oxide (NiO) is a versatile wide band gap semiconductor material. At present, transparent conducting oxide films find application as transparent electrodes and window coatings for opto-electronic devices but most are n-type. However p-type conducting films, of which NiO is one, are required as optical windows for devices where minority carrier injection is required. In this study, nickel (Ni) was resistively deposited on glass substrates and oxidised (isochronally) in oxygen at temperatures ranging from 300 ËšC to 600 ËšC. The oxidised Ni layers were subsequently characterised using scanning electron microscopy (SEM), X-ray diffraction (XRD) and UV-visible photospectrometry in the range 200 nm - 1000 nm. The four point probe method (van der Pauw geometry) was used to determine the sheet resistances of the oxidised films. SEM results of the surface revealed a strong dependence of the surface texture and particle size on the oxidation temperature and time. XRD performed on the oxidised Ni indicated progressive transformation from nanograined polycrystalline Ni to NiO at elevated temperatures. Film thicknesses, particle sizes, energy band gap and wavelength-dependent refractive indices were determined from transmission and absorbance data. |
url |
https://www.sajs.co.za/article/view/10072 |
work_keys_str_mv |
AT andreventer opticalandelectricalpropertiesofnioforpossibledielectricapplications AT johannesbotha opticalandelectricalpropertiesofnioforpossibledielectricapplications |
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