The Effect of Growth Temperature on The Characteristics Of ZnO Nanorods And Its Optical Properties

Mufti, Nandang; Laila, Ifa K R; Idiawati, Riris; Fuad, Abdulloh; Hidayat, Arif; Taufiq, Ahmad; Sunaryono, Sunaryono

doi:10.1088/1742-6596/1057/1/012005

Cited by 17 publications

(5 citation statements)

References 27 publications

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“…The band gap values exhibit a red shift relative to 3.37 eV of bulk ZnO related to the quantum confinement effect of the synthesized nanorods [ 55 ]. A similar trend was observed from other studies [ 66 ]. Contrary to our results, the band gap energy obtained from absorbance spectra increased as the temperature increased from 70 °C to 90 °C due to quantum confinement effect [ 67 ].…”

Section: Resultssupporting

confidence: 92%

Effects of growth conditions on properties of CBD synthesized ZnO nanorods grown on ultrasonic spray pyrolysis deposited ZnO seed layers

Mosalagae

Murape

Lepodise

2020

Heliyon

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ZnO nanorods were synthesized on a seed layer coated glass substrate using chemical bath deposition (CBD). Prior to growth, a seed layer had been prepared via ultrasonic spray pyrolysis method. The aim was to explore the influence of varying the chemical bath deposition conditions namely: growth time, bath temperature and concentration levels of the precursor on the orientation, structural, optical and vibrational properties of the subsequently grown nanorods. The presence of ZnO nanorods resembling the hexagonal-wurtzite structure having preference of orientation along the c-axis and varying crystallinity under different growth parameters was confirmed by X-ray diffraction (XRD). Scanning Electron Microscopy (SEM) acquired images of uniformly arranged and vertically oriented ZnO nanorods grown at a relatively higher bath temperature of 90 °C and shorter growth period of 2 h. UV/Vis/NIR spectrophotometer measurements revealed an optical transmittance of between 50 – 70 % for the nanorods. Raman spectroscopy results confirmed the presence of Raman active E 2(low) and E 2(high) modes corresponding to 98 cm −1 and 478 cm −1 belonging to the hexagonal ZnO phase. This work shows that the orientation, structural, optical and vibrational properties of the grown nanorod structures are controlled via alteration of the growth parameters.

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Section: Resultssupporting

confidence: 92%

Effects of growth conditions on properties of CBD synthesized ZnO nanorods grown on ultrasonic spray pyrolysis deposited ZnO seed layers

Mosalagae

Murape

Lepodise

2020

Heliyon

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“…The average diameter of the ZnO/GO nanostructures grown at 95˚C GO solution immersion temperature has smallest value compared to other samples. The patterns of this results are similar with previous research and as reported that the increasing temperature of the solution produced adequate heat energy for the atom nucleation which improve the surface mobility to be more active [17]. This demonstrates that the GO solution immersion temperature has a significant influence on the size of ZnO/GO nanostructures.…”

Section: Morphology Resultssupporting

confidence: 90%

“…As reported by Liang et al, the active materials that has better crystallinity structure would give better dye absorption as well as faster electron injection in DSSC [16]. The full width half maximum (FWHM) value was used to calculate the average crystallite size using the Scherrer equation 1 [17].…”

Section: Structural Resultsmentioning

confidence: 99%

Effect of GO Solution Temperature on the Structural, Optical and Electrical Properties of ZnO Nanostructured for Photoanode Function

Sanusi

Mohamed²,

Malek³

et al. 2023

ARFMTS

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The purpose of this study is to determine the effect of different graphene oxide (GO) solution immersion temperature on the structural, morphology, optical, and electrical properties of zinc oxide/graphene oxide (ZnO-GO) nanostructures. The ZnO/GO nanostructures prepared at various GO solution immersion temperature from 75-95℃ using solution immersion method. The structural properties of the samples were investigated using X-ray diffraction (XRD), and the recorded patterns revealed that all the samples had a preferred orientation along the (002) plane. The crystallinity of ZnO/GO nanostructures were enhanced with increasing GO solution immersion temperature. The morphology of ZnO/GO nanostructures was determined using field emission scanning electron microscopy (FESEM). Fourier transformation infrared spectroscopy (FTIR) was used to determine the molecular compounds of ZnO/GO nanostructures. The peak intensity of GO with ZnO nanoparticles is shifted at 744 to 1243 cm-1 when the temperature of GO solutions increases. The UV–visible spectrophotometer was used to examine the optical properties of ZnO/GO nanostructures. It is found that the highest transmittance ZnO/GO nanostructures was obtained at the highest GO solution immersion temperature which is 95℃. Based on the current-voltage(I–V) measurement, the electrical properties of ZnO/GO nanostructures increase when the GO solution immersion temperature increases. Thus, by variation of GO solution immersion temperature the structural, morphology, optical, and electrical behaviour were improved.

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“…Additionally, Mufti et al found that the morphology and optical properties of ZnO nanorods synthesized from two different precursors using a simplified hydrothermal technique are mainly solution temperature dependent [24]. The aspect ratio (defined as the ratio of nanorods length to diameter) is one of the important variables that can affect the ZnO nanorod's performances.…”

Section: Introductionmentioning

confidence: 99%

Growth of variable aspect ratio ZnO nanorods by hydrothermal technique

Al-Rasheedi,

Salwati,

Aida

2024

Phys. Scr.

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Zinc oxide (ZnO) nanorods were successfully prepared by hydrothermal process. The influence of the solution temperature on the ZnO nanorods aspect ratio is investigated in the present work. The X-ray diffraction (XRD) and scanning electron microscopy (SEM) results and analysis reveal the formation of ZnO nanorods owing hexagonal Wurtzite structure with preferential orientation along the c-axis. We found that the solution temperature is a key parameter controlling the aspect ratio of the formed ZnO nanorods. The later increases linearly with the preparation temperature. The rod length is thermally activated with an activation energy of 0.48 eV, which corresponds to the activation energy of the reaction forming ZnO, indicating that the nanorods growth is controlled by the surface reaction rather than by mass transport. While, the rods diameter is reduced with increasing temperature, its activation energy of 0.23eV is equal to the species diffusion activation energy in the solution and to the crystallite size activation energy suggesting, thereafter that the rod diameter variation is controlled by the nucleation dynamic.

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The Effect of Growth Temperature on The Characteristics Of ZnO Nanorods And Its Optical Properties

Cited by 17 publications

References 27 publications

Effects of growth conditions on properties of CBD synthesized ZnO nanorods grown on ultrasonic spray pyrolysis deposited ZnO seed layers

Effects of growth conditions on properties of CBD synthesized ZnO nanorods grown on ultrasonic spray pyrolysis deposited ZnO seed layers

Effect of GO Solution Temperature on the Structural, Optical and Electrical Properties of ZnO Nanostructured for Photoanode Function

Growth of variable aspect ratio ZnO nanorods by hydrothermal technique

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