Effect of Dip Time on Electrodeposited Zinc Oxide Nanofilm

Okoli, Nonso Livinus

doi:10.11648/j.ajmsp.20180302.11

Cited by 3 publications

(4 citation statements)

References 14 publications

(19 reference statements)

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“…This confirmed the prospect offered in energy bandgap engineering of cobalt doped zinc selenide by altering deposition time. Similar effects on bandgap due to changes in deposition time using electrodeposition techniques have been reported by [44,[47][48][49][50].…”

Section: Wavelength (Nm)supporting

confidence: 74%

“…Transmittance values of the deposited thin films fall between 24.40% and 73.15%. Similar effects on the absorbance of thin film as deposition time increases have been obtained by [44,48]. Figure 6 shows the graph of reflectance against wavelength for cobalt doped zinc selenide thin films deposited at different values of deposition time.…”

Section: Optical Propertiessupporting

confidence: 70%

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Properties of Electrosynthesized Cobalt Doped Zinc Selenide Thin Films Deposited at Varying Time

Ezenwaka

Okoli²,

Okereke

et al. 2021

Nanoarchitectonics

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Time optimized cobalt-doped zinc selenide thin films have been successfully electrodeposited on fluorine-doped tin oxide substrates. The films were deposited at the varying time of 1 min, 3 mins, and 5 mins respectively. Film thickness, optical, structural, electrical, and morphological properties of the deposited thin films were evaluated. Film thickness estimated using the gravimetric method increased from 294.35 nm to 399.62 nm as deposition time increased. Optical properties showed that the absorbance of the films ranged from 13.58% to 83.15% and was found to increase as deposition time increased. Transmittance ranged from 24.40% to 73.15% and was found to decrease as deposition time increased. The reflectance of the films was found to be low while the energy band gap ranged between 2.10 eV and 2.85 eV. Structural properties confirmed the deposition of ZnSe thin film with crystallite size values that fall between 14.68 nm and 18.60 nm. Dislocation density is ranged from 4.66 × 1015 lines/m2 to 2.97 × 1015 lines/m2 while microstrain ranged between 8.53 × 10-3 and 5.83 × 10-3. Crystallite sizes of the films were found to increase as deposition time increased while dislocation density and microstrain were found to decrease as deposition time increased. Electrical properties showed that the deposited films are semiconducting films with electrical resistivity values of 1.54 × 105 Ω cm-1.83 × 104 Ω cm and electrical conductivity values of 6.30 × 10-6 S/cm-5.47 × 10-5 S/cm. The micrograph of the films showed that the films were made up of nanoparticles and nanofibres of different dimensions. Energy-Dispersive X-Ray Spectroscopy (EDS) spectra of the films confirmed the presence of cobalt, zinc, and selenium.

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Section: Wavelength (Nm)supporting

confidence: 74%

Section: Optical Propertiessupporting

confidence: 70%

Properties of Electrosynthesized Cobalt Doped Zinc Selenide Thin Films Deposited at Varying Time

Ezenwaka

Okoli²,

Okereke

et al. 2021

Nanoarchitectonics

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“…In addition, film thickness, morphology, and optical and electronic properties can be controlled by various deposition parameters, such as current density, applied potential, deposition time, and electrolytic bath concentration. 51‐53 …”

Section: Introductionmentioning

confidence: 99%

“…42 In addition, film thickness, morphology, and optical and electronic properties can be controlled by various deposition parameters, such as current density, applied potential, deposition time, and electrolytic bath concentration. [51][52][53] Photovoltaic devices with p-type Cu 2 O films have been prepared with n-type ZnO in a heterojunction configuration. However, for Cu 2 O devices configured with pn junction, γ-WO 3 (tungsten trioxide) seems to be an adequate material since it presents optical band gap energy (E BG ) ranging from 2.6 to 2.8 eV, which allows the harvesting of visible light, 54 while ZnO absorbs in UV light.…”

Section: Introductionmentioning

confidence: 99%

An investigation of photovoltaic devices based onp‐typeCu₂Oandn‐typeγ‐WO₃junction through an electrolyte solution containing a redox pair

et al. 2020

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Summary In this article, we report a solar cell prepared with p‐type cuprous oxide (Cu2O) and n‐type gamma‐tungsten oxide (γ‐WO3) films combined by an redox electrolyte in a configuration similar to that used in dye‐sensitized solar cells. Cu2O films were prepared by the electrochemical method in three different pH conditions. X‐ray diffraction patterns revealed that the Cu2O films presented a crystalline phase with cubic structure after deposition, whereas the n‐type γ‐WO3 film was prepared by the drop‐casting method. Optical analyses showed that both oxide films absorb visible light. After the photoelectrochemical characterization of the films, solar cells configured like a “sandwich” (Cu2O/electrolyte/γ‐WO3) were assembled and investigated under irradiation of 100 mW cm−2. The solar cell with I−/I3− redox pair showed better results than that prepared with polysulfide K2S/Sn2− electrolyte. For each solar cell, the investigated parameters were short‐circuit current density, open‐circuit voltage, fill factor, maximum power, and cell efficiency. The method proposed here can be considered new, promising, and simple for the preparation of solar cells with a p–n junction.

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Tuning the properties of manganese-doped zinc oxide nanostructured thin films deposited by SILAR approach

Nkamuo,

Okoli,

Nzekwe

et al. 2024

Chemistry of Inorganic Materials

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Effect of Dip Time on Electrodeposited Zinc Oxide Nanofilm

Cited by 3 publications

References 14 publications

Properties of Electrosynthesized Cobalt Doped Zinc Selenide Thin Films Deposited at Varying Time

Properties of Electrosynthesized Cobalt Doped Zinc Selenide Thin Films Deposited at Varying Time

An investigation of photovoltaic devices based onp‐typeCu₂Oandn‐typeγ‐WO₃junction through an electrolyte solution containing a redox pair

Tuning the properties of manganese-doped zinc oxide nanostructured thin films deposited by SILAR approach

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Effect of Dip Time on Electrodeposited Zinc Oxide Nanofilm

Cited by 3 publications

References 14 publications

Properties of Electrosynthesized Cobalt Doped Zinc Selenide Thin Films Deposited at Varying Time

Properties of Electrosynthesized Cobalt Doped Zinc Selenide Thin Films Deposited at Varying Time

An investigation of photovoltaic devices based onp‐typeCu2Oandn‐typeγ‐WO3junction through an electrolyte solution containing a redox pair

Tuning the properties of manganese-doped zinc oxide nanostructured thin films deposited by SILAR approach

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About

An investigation of photovoltaic devices based onp‐typeCu₂Oandn‐typeγ‐WO₃junction through an electrolyte solution containing a redox pair