Structural and Optical Characterization of Ni and Al Co-Doped ZnO Nanopowders Synthesized via the Sol-Gel Process

Sayari, A.; Mır, L. El

doi:10.14356/kona.2015003

Cited by 15 publications

(12 citation statements)

References 45 publications

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“…The broadening of band E 1 may occur due to oxygen vacancies originated by the incorporation of Al 3+ and Ni 2+ ions into the hexagonal lattice. This result agrees with those reported by Luthra and Sayari [28,31]. Raman spectra were recorded (Figure 2) under the same conditions for every sample.…”

Section: Structure From Xrd Patterns and Raman Spectrasupporting

confidence: 92%

Section: Structure From Xrd Patterns and Raman Spectramentioning

confidence: 99%

“…In the ZnO-Ni sample, the absorption band gap was shifted to higher wavelengths due to interband transitions from the valence band A 2g to the T 2g level of Ni 2+ (3d 8 , 3A 2g , 3T 2g ) by Ni 2+ . However, Al 3+ increases free electrons by replacing Zn 2+ in the ZnO network structure, hence generating conductivity in the semiconductor [31]. In Figure 4, photoluminescence spectra of the undoped and doped ZnO samples show a broad and intense emission spreading from 425 to 650 nm with an emission at 590 nm, while doped ZnO samples show that a shift at the 509 nm band is attributed to the presence of metal ions introduced by crystal defects such as oxygen vacancies because there are changes in the electronic band structure.…”

Section: Structure From Xrd Patterns and Raman Spectramentioning

confidence: 99%

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Synthesis and Characterization of Nanocrystalline ZnO Doped with Al3+ and Ni2+ by a Sol–Gel Method Coupled with Ultrasound Irradiation

et al. 2018

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Zinc oxide is one of the most important semiconducting metal oxides and one of the most promising n-type materials, but its practical use is limited because of both its high thermal conductivity and its low electrical conductivity. Numerous studies have shown that doping with metals in ZnO structures leads to the modification of the band gap energy. In this work, Al-doped ZnO, Ni-doped ZnO, and undoped ZnO nanocrystalline powders were prepared by a sol–gel method coupled with ultrasound irradiation, and the results show the influence of Al3+ and Ni2+ ions in the ZnO network. The doping concentrations in ZnO of 0.99 atom % for ZnO–Al and 0.80 atom % for ZnO–Ni were obtained by X-ray Fluorescence (XRF). X-ray Diffraction (XRD) and Raman Spectroscopy showed a decreased intensity and broadening of main peaks, indicating metallic ions. The crystallite size of the sample was decreased from 24.5 nm (ZnO) to 22.0 nm (ZnO–Al) and 21 nm (ZnO–Ni). The textural and morphological properties were analyzed via Nitrogen Adsorption (BET method) and Field Emission Scanning Electron Microscopy (FESEM).

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Section: Structure From Xrd Patterns and Raman Spectrasupporting

confidence: 92%

Section: Structure From Xrd Patterns and Raman Spectramentioning

confidence: 99%

Section: Structure From Xrd Patterns and Raman Spectramentioning

confidence: 99%

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Synthesis and Characterization of Nanocrystalline ZnO Doped with Al3+ and Ni2+ by a Sol–Gel Method Coupled with Ultrasound Irradiation

et al. 2018

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“…Most of the ZnO crystals have been synthesized by traditional high-temperature solid-state method in which it is difficult to control the particle properties. However, ZnO nanoparticles can be prepared at low cost on a large scale by simple solution-based methods such as chemical precipitation, sol-gel process, and hydrothermal reaction [20][21][22][23][24].…”

Section: Introductionmentioning

confidence: 99%

Annealing and Ni content effects on EPR and structural properties of Zn_1–xNi_xO aerogel nanoparticles

Sayari

Mır

2017

Materials Science-Poland

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Zn 1−x Ni x O aerogel nanopowders with nickel concentration in the range of 0.05 x 0.25, were synthesized by the sol-gel processing technique and post-annealed in air at 500°C. Structural, vibrational, thermal and magnetic properties of the as-prepared and annealed Zn 1−x Ni x O powdered samples were characterized using X-ray diffraction (XRD), transmission electron microscopy (TEM), Raman scattering, thermal gravimetric analysis (TGA) and electron paramagnetic resonance (EPR) spectroscopy. In addition to the ZnNiO phase, XRD analysis revealed the formation of a secondary NiO phase when the Ni content was greater than or equal to 10 %. The TEM images confirm that the particle size is in the range of 20 nm to 40 nm, in accordance with XRD results, and the particles are well dispersed. Raman scattering measurements confirm the wurtzite structure of the synthesized Zn 1−x Ni x O nanopowders and show that intrinsic host-lattice defects are activated when Ni 2+ ions are substituted to the Zn sites. Room temperature ferromagnetic order was observed in all of the samples and was strongly dependent on the Ni content and thermal annealing. These results indicate that the observed room temperature ferromagnetism in ZnNiO may be attributed to the substitutional incorporation of Ni at Zn sites.

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“…Particularly, ZnO is a wide band gap semiconductor (3.3 eV) with a high exciton binding energy (60 meV) at room temperature, which has received more and more attention in the material science due to its various expected applications. ZnO nanomatererials have been realized by various techniques including thermal * E-mail: amor.sayari@laposte.net evaporation [1], chemical vapor deposition [2], sputtering [3], spray pyrolysis [4], pulsed laser deposition [5] and sol gel processes [6][7][8]. Among these methods, the sol gel process is particularly attractive because of its simplicity and acceptable costs for the large scale fabrication of nanostructure ZnO.…”

Section: Introductionmentioning

confidence: 99%

Influence of aluminium concentration in Zn_0:9V_0:1O nanoparticles on structural and optical properties

Sayari

Mir

Al-Heniti

et al. 2015

Materials Science-Poland

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The (V,Al) co-doped ZnO nano-structured powders (Zn 0.9−x V 0.1 Al x O, where x = 0.02, 0.03 and 0.04) were synthesized via the sol-gel technique and their structural and optical properties were investigated. The effect of Al concentration on the structural and optical properties of the Zn 0.9−x V 0.1 Al x O nanopowders was studied using various techniques. The XRD patterns indicate that the samples have a polycrystalline wurtzite structure. The crystallite size increases with increasing the Al content and lies in the range of 23 to 30 nm. The lattice strain, estimated by the Stokes-Wilson equation, decreases when Al content increases. SEM and TEM micrographs show that Zn 0.9−x V 0.1 Al x O powders are the agglomeration of nanoparticles having spherical and hexagonal shapes with dimensions ranging from 20 to 30 nm. FT-IR spectra show a distinct absorption peak at about 500 cm −1 for ZnO stretching modes and other peaks related to OH and H 2 O bands. Raman spectra confirm the wurtzite structure of the Zn 0.9−x V 0.1 Al x O nanoparticles. The direct band gaps of the synthesized Zn 0.9−x V 0.1 Al x O nanopowders, estimated from the Brus equation and the crystallite sizes deduced from XRD, are around 3.308 eV. The decomposition process of the dried gel system was investigated by thermal gravimetric analysis (TGA).

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Structural and Optical Characterization of Ni and Al Co-Doped ZnO Nanopowders Synthesized via the Sol-Gel Process

Cited by 15 publications

References 45 publications

Synthesis and Characterization of Nanocrystalline ZnO Doped with Al3+ and Ni2+ by a Sol–Gel Method Coupled with Ultrasound Irradiation

Synthesis and Characterization of Nanocrystalline ZnO Doped with Al3+ and Ni2+ by a Sol–Gel Method Coupled with Ultrasound Irradiation

Annealing and Ni content effects on EPR and structural properties of Zn_1–xNi_xO aerogel nanoparticles

Influence of aluminium concentration in Zn_0:9V_0:1O nanoparticles on structural and optical properties

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Structural and Optical Characterization of Ni and Al Co-Doped ZnO Nanopowders Synthesized via the Sol-Gel Process

Cited by 15 publications

References 45 publications

Synthesis and Characterization of Nanocrystalline ZnO Doped with Al3+ and Ni2+ by a Sol–Gel Method Coupled with Ultrasound Irradiation

Synthesis and Characterization of Nanocrystalline ZnO Doped with Al3+ and Ni2+ by a Sol–Gel Method Coupled with Ultrasound Irradiation

Annealing and Ni content effects on EPR and structural properties of Zn1–xNixO aerogel nanoparticles

Influence of aluminium concentration in Zn0:9V0:1O nanoparticles on structural and optical properties

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Product

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Annealing and Ni content effects on EPR and structural properties of Zn_1–xNi_xO aerogel nanoparticles

Influence of aluminium concentration in Zn_0:9V_0:1O nanoparticles on structural and optical properties